Download - CATV Reference Guide
Table Of Contents
A Closer Look At Blonder Tongue . . . . . . . . . . . . . . . . . . . . . . 1Headend Product . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . 1.7Headend Product Overview Charts . . . . . . . . . . . . . . . . . . . . . . . . . 1.8
Option 14 . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . 1.12Option 4 - AM . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . 1.15Option 4 - AP . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . 1.16AM Switch Settings . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . 1.17AP and AD-1 Switch Setting . . . . . . . . . . . . . . . . . . . . . . . . . . . . 1.23
18 GHz Express Microwave Products . . . . . . . . . . . . . . . . . . . . . . . 1.36TX18000 Series . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . 1.37PA18000 Series . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . 1.38RP18000 Series . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . 1.39RX18003 Series . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . 1.4018 GHz Express - Product Selector Guide . . . . . . . . . . . . . . . . . 1.4118 GHz Express - Typical System Example diagram . . . . . . . . . . 1.42Range of Acceptable PIN Designations . . . . . . . . . . . . . . . . . . . . 1.43
Fiber Optic Product Overview Charts . . . . . . . . . . . . . . . . . . . . . . . 1.45VideoMask™ Interdiction (VMI) Products . . . . . . . . . . . . . . . . . . . . . 1.47
VMI Parts List . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . 1.48VMI Specification Summary . . . . . . . . . . . . . . . . . . . . . . . . . . . . 1.49VMI System Design . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . 1.50VMI Installation Guidelines . . . . . . . . . . . . . . . . . . . . . . . . . . . . . 1.57VMI Unit Activation . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . 1.59VMI Troubleshooting . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . 1.60VMI Jamming Worksheet . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . 1.62Single Living Interdiction Unit (SLIU) Products . . . . . . . . . . . . . . 1.64SLIU Parts List . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . 1.65SLIU Specification Summary . . . . . . . . . . . . . . . . . . . . . . . . . . . 1.66SLIU System Design . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . 1.68
SLIU Installation Guidelines . . . . . . . . . . . . . . . . . . . . . . . . . . . . 1.73SLIU Unit Activation . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . 1.78SLIU Troubleshooting . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . 1.79SLIU Jamming Worksheet . . . . . . . . . . . . . . . . . . . . . . . . . . . . . 1.81Subscriber Module Interdiction (SMI) Products . . . . . . . . . . . . . . 1.83SMI General Parts List . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . 1.84SMI Specification Summary . . . . . . . . . . . . . . . . . . . . . . . . . . . . 1.85SMI System Design . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . 1.86SMI Installation Guidelines . . . . . . . . . . . . . . . . . . . . . . . . . . . . . 1.93SMI Unit Activation . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . 1.109SMI Troubleshooting . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . 1.112SMI Jamming Worksheet . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . 1.114
Basic Cable Theory . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . 2Useful Technical Data . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . 2.1
The Decibel . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . 2.1Voltage Confusion . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . 2.1
Power Conversions . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . 2.2dBmV, dBµV & dBm . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . 2.2Impedance Mismatch . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . 2.3
Standard Resistor Color Codes & Values . . . . . . . . . . . . . . . . . . . . 2.4
System Calculations . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . 3Carrier/Cross Modulation (XM) . . . . . . . . . . . . . . . . . . . . . . . . . . . . 3.1Carrier/Composite Triple Beat (CTB) . . . . . . . . . . . . . . . . . . . . . . . . 3.2Carrier/Single Second Order Distortion (C/SSO) . . . . . . . . . . . . . . . 3.3Carrier/Composite Second Order Distortion (C/CSO) . . . . . . . . . . . . 3.4Composite Intermodulation Noise (CIN) . . . . . . . . . . . . . . . . . . . . . . 3.5Carrier/Hum Modulation (C/H) . . . . . . . . . . . . . . . . . . . . . . . . . . . . . 3.6Carrier/Noise . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . 3.7
TVRO Formulas . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . 3.8Azimuth and Elevation Angles . . . . . . . . . . . . . . . . . . . . . . . . . . . . . 3.9Determining Acceptable Peak-to-Valley Deviation . . . . . . . . . . . . . . 3.10Amplifier Cascade Factor . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . 3.11Amplifier Cascade Factor Example . . . . . . . . . . . . . . . . . . . . . . . . . 3.12System Calculations Example . . . . . . . . . . . . . . . . . . . . . . . . . . . . . 3.1320 Log Function Derate Chart . . . . . . . . . . . . . . . . . . . . . . . . . . . . . 3.1410 Log Function Derate Chart . . . . . . . . . . . . . . . . . . . . . . . . . . . . . 3.15Combining 2 X-MOD or CTB Performance ratings (20 LOG)Combining 2 CNR or SSO Performance ratings (10 LOG) . . . . . . . . 3.16Beat Packet Quantity . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . 3.17
Fiber . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . 4Siecor MIC™ Cable Fiber Identification Guide . . . . . . . . . . . . . . . . . 4.1Fiber Optics . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . 4.2Fiber Loss Vs Path Length . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . 4.3Converting MW to DBM . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . 4.4Transmitter/Receiver Matrix . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . 4.5Single Mode Product Selection Tree . . . . . . . . . . . . . . . . . . . . . . . . 4.6Multimode Product Selection Tree . . . . . . . . . . . . . . . . . . . . . . . . . . 4.7Multimode Broadband 5 Ch. Design Tool . . . . . . . . . . . . . . . . . . . . . 4.8Single Mode Broadband 10 Ch. Design Tool . . . . . . . . . . . . . . . . . . 4.11Single Mode Broadband 15 Ch. Design Tool . . . . . . . . . . . . . . . . . . 4.14Single Mode Broadband 25 Ch. Design Tool . . . . . . . . . . . . . . . . . . 4.17FIBT Design Tool . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . 4.20Optical Coupler Design Tool . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . 4.24Broadband CATV Link Multiple Receive Sites - Single Mode . . . . . . 4.25Broadband CATV/25 Ch. Return Path on 2 Fibers . . . . . . . . . . . . . . 4.26Broadband CATV W/Optical 25 Ch. Return Path - Single Mode . . . . 4.27
Video/Audio/Audio Fiber Optic Link . . . . . . . . . . . . . . . . . . . . . . . . . 4.28Single Polarity L-Band, Dual Fiber Optic Link - Single Mode . . . . . . 4.29Stacked L-Band Fiber Optic Link - Single Mode . . . . . . . . . . . . . . . . 4.30Multi Output L-Band Fiber Optic Link . . . . . . . . . . . . . . . . . . . . . . . 4.31
Frequency Chart, CATV Channel Format, Satellite Charts . . . . . 5CATV Channels, North America . . . . . . . . . . . . . . . . . . . . . . . . . . . . 5.1CATV Channels, United Kingdom . . . . . . . . . . . . . . . . . . . . . . . . . . 5.8Off-Air Channels, North America . . . . . . . . . . . . . . . . . . . . . . . . . . . 5.9Off-Air Channels • CCIR Standards . . . . . . . . . . . . . . . . . . . . . . . . . 5.11FM Broadcast Channel Frequencies . . . . . . . . . . . . . . . . . . . . . . . . 5.13International Channel Standards . . . . . . . . . . . . . . . . . . . . . . . . . . . 5.14CCIR Television Transmission Characteristic . . . . . . . . . . . . . . . . . . 5.16Frequency Spectrum . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . 5.17Cable TV Channel Format . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . 5.19FCC Aeronautical Band Frequencies . . . . . . . . . . . . . . . . . . . . . . . . 5.20North American Satellite Freq./Transponder Conversion Tables . . . . . . 5.21North American Satellite C & Ku Band Chart . . . . . . . . . . . . . . . . . . 5.44DISH® Network Programming Services . . . . . . . . . . . . . . . . . . . . . . . 5.45DIRECTV® Programming Services . . . . . . . . . . . . . . . . . . . . . . . . . . . 5.51Bell ExpressVu® Programming Services . . . . . . . . . . . . . . . . . . . . . 5.54WSNet Programming Services . . . . . . . . . . . . . . . . . . . . . . . . . . . . 5.59TV Stations Chart . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . 5.61
Conversion Factors . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . 6Ohm’s Law & Joule’s Law . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . 6.1Table of Conversions . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . 6.2Return, Reflection Coefficient, & Voltage Standing Wave Ratio (VSWR) 6.4Return Loss . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . 6.5Conversion Factors . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . 6.6
Temperature Conversions Nomograph . . . . . . . . . . . . . . . . . . . . . . 6.10Wire Gauge Data (AWG) . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . 6.11Current Ratings For Electronic Cables . . . . . . . . . . . . . . . . . . . . . . . 6.12Cable Substitution Chart . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . 6.13
System Design Symbols . . . . . . . . . . . . . . . . . . . . . . . . . . . . 7Common CATV Symbols . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . 7.1Digital “L-Band” Symbols . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . 7.3
Passive & Coaxial Cable Characteristics . . . . . . . . . . . . . . . . 8Cable & Equalizer Formulas . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . 8.1Cable Loss Conversion Chart . . . . . . . . . . . . . . . . . . . . . . . . . . . . . 8.3Cable Loss & Temperature . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . 8.4Typical Cable Attenuation Chart . . . . . . . . . . . . . . . . . . . . . . . . . . . 8.5
Miscellaneous Data & Constants . . . . . . . . . . . . . . . . . . . . . . 975 Ohm Attenuator Table & Equations . . . . . . . . . . . . . . . . . . . . . . . 9.1Ghost . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . 9.3Echo Rating Graph . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . 9.4Signal to Interference Limits Non-Coherent Carriers . . . . . . . . . . . . 9.5Error Corrections Chart . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . 9.6Heterodyne Modulator . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . 9.7Heterodyne Processor . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . 9.8Broadband RF Network Powering . . . . . . . . . . . . . . . . . . . . . . . . . . 9.9
FCC Rules . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . 10Cumulative Leakage Index . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . 10.1Maximum Leakage Levels . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . 10.3Aeronautical Frequency Notifications . . . . . . . . . . . . . . . . . . . . . . . . 10.6Aeronautical Operational Requirements . . . . . . . . . . . . . . . . . . . . . 10.7
Highlights of FCC Rules & Regulations Part 76 . . . . . . . . . . . . . . . . 10.8Broadband Communication Design & Performance Standards . . . . . 10.17
Antennas . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . 11Wavelength & Antennas . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . 11.1Dipole Antenna Equations . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . 11.2Multiplexers . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . 11.3Antenna - General Information . . . . . . . . . . . . . . . . . . . . . . . . . . . . 11.4Antenna Stacking . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . 11.5Antenna Spacing . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . 11.6Antenna Phasing . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . 11.8Pre-Amp Noise Figure Vs. Signal to Noise . . . . . . . . . . . . . . . . . . . 11.9
How to Reach Blonder Tongue . . . . . . . . . . . . . . . . . . . . . . . . 12Contact List . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . 12.1CATV Reference Guide Update Card
www.blondertongue.com
Blonder Tongue Laboratories, Inc.Blonder Tongue Laboratories is a designer, manufacturer and supplier of a comprehensive line of electronics and systems equipment for the franchised and private cable television industries.
HistoryThe Company was founded in 1950 by Isaac (Ike) S. Blonder and BenH. Tongue. It was in the early days of broadcast TV and they saw aneed for Booster Amplifiers to improve fringe-area reception. Theystarted with modest beginnings in Yonkers, New York and introducedthe first commercially successful Broadband Booster Amplifier. Thecompany soon branched out into master antenna system design andother efforts that earned Ben Tongue some 30 and Ike Blonder 39patents in the 1960’s. The company grew rapidly and after severalmoves, consolidated the operations in Old Bridge, New Jersey, where the company still resides. Ben and Ike sold their BlonderTongue stake in 1989 and both still work with the company engineersas consultants.
Blonder Tongue’s offices are headquartered in Old Bridge, New Jerseyconsisting of a 130,000 square foot facility, on approximately 20acres of land.
In December of 1995, the company successfully completed an initialpublic offering of shares of its common stock. It is traded on theAmerican Stock Exchange (AMEX) under the ticker symbol: BDR. The funds generated were used to acquire the company’s Old Bridgefacility and reduce the company’s outstanding bank debt.
PhilosophyBlonder Tongue’s focus has always been and continues to be customer driven. To this end, we have adopted a philosophy ofQuality, as defined by the customer. This philosophy is exemplified byour company slogan, “The Standard Of Quality In TV SignalDistribution”. Achieving the high standards we have set for ourselvesrequires a concerted effort from the entire organization. We have
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addressed the issue of quality from two distinct directions, ProductQuality and Service Quality.
Product OfferingOur goal of offering the highest possible ‘Product Quality’ has helpedus in becoming the largest equipment provider to the private cablemarket. Our ability to offer our customers a "one-stop-shop" destination has led to the creation of a large and diverse product line.The Blonder Tongue product line can be separated according to function into the following categories: (1) Headend Products used bya system operator for signal acquisition, processing and manipulation for further transmission. (2) Data & TelephonyProducts used by a system operator to provide Internet access &data transfer as well telephone service over a hybrid fiber/coaxialcable system. (3) Distribution Products used to permit signals totravel to their ultimate destination in a home, apartment unit, hotelroom, office, or other terminal location. (4) Subscriber Productsused to control access to programming at the subscriber’s locationand to split and amplify incoming signals for transmission to multiple sites and multiple communication devices within a site. (5)Microwave Products used to transmit the output of headend products to multiple locations using point-to-point communicationslinks in the microwave frequency range. (6) Fiber Optic Productsproviding the latest option for transmitting and receiving video & datasignals. (7) Satellite Receivers (digital and analog) used at an earthstation to downconvert, process and prepare satellite signals fromthe leading providers for viewing and listening. (8) InterdictionProducts providing a unique addressable system for cable televisionsignal protection eliminating the need for set-top converters. (9) TestEquipment comprising a complete array of products for measuringsignals in Headend, Microwave, Interdiction, and DistributionProducts.
Product QualityA complete product family is just the beginning of our commitmentto Product Quality. Our in-house Research and Development
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department is staffed by experienced and knowledgeable electricaland mechanical engineers. They create and completely evaluate allproduct specifications, designs and mechanical drawings beforethey are released to the QC & Manufacturing process.
Blonder Tongue maintains a quality assurance program which performs inspection on incoming samples of all purchased parts.For statistical process control, verification tests are performed andtest data is taken throughout the entire manufacturing process. Testsystems are comprised of commercially available equipment as wellas custom in-house built testing systems that incorporate proprietary procedures. Blonder Tongue performs final quality control tests on 100% of its products prior to shipment to customers.
The company’s manufacturing facilities are located right here in theUS at the corporate headquarters where virtually all products areassembled by trained factory technicians. Blonder Tongue pridesitself on having total control over the manufacturing & engineeringprocess without having to go to off-shore factories. This eliminatescostly delays and communication issues that can occur and reinforces the "Made in USA" motto.
The operations are vertically integrated and they consist principallyof the assembly and testing of electronic assemblies built from fabricated parts, printed circuit boards & electronic devices. In addition, manufacturing fabricates chassis & cabinets from rawsheet metal for such assemblies. Management continues to implement a significant number of technological advances and engineering changes to the manufacturing process to ensure superior performance, increase production volume and reduce product cost. Some of the recent innovations include: (a) Logisticsmodifications on the factory floor, (b) An increased use of surfacemount, axial lead and radial lead robotics to place electronic components on printed circuit boards, (c) A continuing program ofcircuit board redesign to make more products compatible withrobotic insertion equipment, and (d) An increased integration inmachining and fabrication.
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Service Quality“Service Quality” at Blonder Tongue is attacked with the same vigoras product quality. Blonder Tongue provides an extensive warrantywith every product sold, as almost every product is covered for a full3 years from the original date of purchase. Telephone technical support for all Blonder Tongue products is always available duringnormal business hours at no charge. Blonder Tongue can also provide 24-hour support and on-site system engineering for inspection or troubleshooting of field problems. Our field engineersare available on a scheduled basis for a nominal fee.
Our systems engineering personnel are very experienced in workingwith customers constructing systems. They assist them in determining which products are necessary and provide informationleading to the development of an effective system for providing thecommunications capability required. Blonder Tongue provides system design layouts for customers that utilize Blonder Tongueproducts in the system. Preliminary assistance to determine thequantity and configuration of products is also available. This serviceis provided free of charge for the initial design layout.
Blonder Tongue also provides custom designed products and/ormodifications to standard products. Because our engineering staffand manufacturing facilities are located on-site, we can react quickly to these special requests and meet the strict delivery schedule our customers demand. Our sales staff also welcomes bidsubmittals via our request for proposal (RFP) program and makesspecification sheets available for use in evaluating these bids. These sheets provide a comprehensive description of product specifications for determining proper system use.
Another value added service Blonder Tongue provides is headendfabrication. Headends are provided, at customer request, completely racked, assembled and drop shipped to the headend finaldestination. The customer need only unpack, connect the racks toone another, plug into AC power, connect the antenna feeds to the
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headend and the RF output to the distribution system. Complete documentation of the headend design as well as the distribution system design is provided. Blonder Tongue performs all of the system engineering work, manufactures the headend and distribution electronics and delivers everything required to completely build the system. If the customer uses Blonder Tongue’sVideoMask™ Interdiction equipment, this full service program willprovide pre-assembled pedestal and/or wall mounted assembliesready for mounting in configurations for distribution to 1, 4, 8, 12,16 or 20 subscriber blocks.
The headends and multiple subscriber Interdiction assemblies arefactory pre-tested, burned in and the performance optimized prior toshipment. The Blonder Tongue warranty on these assemblies is identical to that of the individual components. The specifications forthe final headend and Interdiction assemblies are also guaranteed tomatch those measured at the factory. A guarantee of field performance can also be provided. The procedure can be expandedto include a headend site survey, additional on-site system engineering, and a complete field test of the installed system at anominal fee consistent with the complexity of the system. By providing these large headend and Interdiction assembly building blocks, the required logistics, on-site labor and the personnel are greatly reduced. Consequently, performance and quality are maximized.
LeasingIf you would like to be more profitable, have more purchasing flexibility and cash flow predictability with no worries about copingwith equipment obsolescence or disposal, a leasing solution fromBlonder Tongue/ILC is the smart move. Our leasing solutions areflexible. Upgrades, add-ons, early terminations and sale are handledwith ease. Not only that, but high margin services like maintenancesupport, training and installation can be added into the lease. Formore information please contact your Blonder Tongue SalesRepresentative.
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Technical Training SeminarsFor over 25 years, Blonder Tongue has conducted technical trainingseminars throughout the United States for installers, engineers anddistributor sales & service personnel. These seminars provide valuable information on system theory, design engineering, productuse and interfacing as well as technical instruction. All seminarsinclude a full set of course material for each attendee and are staffedby the Blonder Tongue personnel. In February 1999, we hosted ourfirst National Interdiction User’s Conference in Houston, Texas. The conference was hosted by our Interdiction task force team and wasa huge success.
It is through these vast organizational endeavors that BlonderTongue Laboratories strives to remain, The Standard Of Quality In TVSignal Distribution.
www.blondertongue.com
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Headend Products
• Triple QT - QUAD QPSK/QAM Transcoder• Broadcast Frequency Locked Modulator (BFLM)• Integrated Receiver / Descramblers• Commercial Satellite Receivers• Commercial Digital Satellite Receivers• Agile Audio/Video Modulators• Channelized Audio/Video Modulators• Channelized Agile Audio/Video Modulators• Modular Headend Systems• Agile Heterodyne Processors• Channelized Agile Heterodyne Processors• Agile Audio/Video Demodulators• Stereo Encoders• Combiners• Strip Amplifiers• Channel Converters• Bandpass Filters• Channel Elimination Filters• Tunable Notch Traps• Headend Racks & Housings• Low Cost Headend Products• Complete Headend Fabrication Services
A specification summary is provided to aid in installing and setting upcommon headend equipment. For more detailed information, please see Blonder Tongue’s full line catalog, the instruction manual(s)provided with the individual headend equipment, or contact BlonderTongue’s Sales and Marketing Departments.
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8SATELLITE RECEIVERS
Frequency IF IF Static Aural AuralModel Stock Transponder Range Frequency BW Threshold Fixed VariableName Number Selection (MHz) (MHz) (MHz) (dB) (MHz) (MHz)
IRD-6185-RS 6185A Push Button 950-1450 70 32 <8.0 6.8 5.4-8.2Direct C & Ku Agile
CESR-c 6166 Push Button 950-1450 70 32 <8.0 6.8 5.4-8.2Direct C & Ku Agile
CDSR-4400 6195 Direct C & Ku 950-1550 Agile - 32 <8.0 direct NoCDSR-4500 6196 Direct C & Ku 950-1550 Agile - 32 <8.0 direct DualCDSR-407 6247 Direct C & Ku 950-1550 - 32 <8.0 direct NO
950-2150 Agile
Frequency IF Input SymbolModel Stock Transponder Range BW Rate Inner OuterName Number Selection (MHz) (MHz) (Msps) FEC FEC
CDSR-6198 6198 Push Button 950-1450/Agile 32 18-22 Convolutional Reed SolomonRate 3/4, 1/2 Coding2/3, 5/6, 7/8 (204, 188) t=8
CDSR-6199 6199 Push Button 950-1450/Agile 24 18-22 Convolutional Reed SolomonRate 3/4, 1/2 Coding2/3, 5/6, 7/8 (204, 188) t=8
CDSR-6299 6299 Push Button 950-1450/Agile 24 18-22 Convolutional Reed SolomonRate 3/4, 1/2 Coding2/3, 5/6, 7/8 (204, 188) t=8
CDSR-6182 6182 Push Button 950-1450/Agile 24 18-22 Convolutional Reed SolomonRate 3/4, 1/2 Coding2/3, 5/6, 7/8 (204, 188) t=8
CDSR-6181 6181 Push Button 950-1450/Agile 24 18-22 Convolutional Reed SolomonRate 3/4, 1/2 Coding2/3, 5/6, 7/8 (204, 188) t=8
QUAD QPSK/QAM TRANSCODERFrequency IF Output Input Output
Model Stock Transponder Range Bandwidth Bandwidth Level Level Name Number Selection (MHz) (MHz) (MHz) (dBm) (dBmV)
QQQT 6189 Push Button 950-2150 30 6 -65 to -25 40
MODULATORSBroad Spurious Single/
Frequency Output Band Output Dual Std.Model Stock No. Range Level CNR Worst Case IF StereoName Number Type (a) Chans. (MHz) (dBmV) (dB) (dBc) Loops Capable
AM-40-450A (b) 59407 Agile 1 50-450 +40 76 -60 Single EXTAM-40-550A (b) 59408 Agile 1 50-550 +40 76 -60 Single EXTAM-60-450A (b) 59413 Agile 1 50-450 +60 76 -60 Single EXTAM-60-550A (b) 59414 Agile 1 50-550 +60 76 -60 Single EXTFAVM-860 5970 Agile 1 470-860 +45 83 -60 Single EXTFA3M-50-550 5961 Agile 3 50-550 +52 78 -60 Single EXTMAVM-861 7992A Chan/Agile 1 50-860 +42/60 95/110 -60 Single EXTMAVM-863-1 7993A Chan/Agile 1 50-860 +42/60 95/110 -60 Single EXTMAVM-863-3 7999A Chan/Agile 3 50-860 +42/60 95/110 -60 Single EXTCAMS-60 5895 Chan/Agile 1 50-860 +60 110 -60 Single INTCAMD-60 7895 Chan/Agile 1 50-860 +60 110 -60 Dual INTMICM-45 7797 Chan 1 50-750 +45 95 -60 NO EXTBAVM-z 5991 Chan 1 54-216 +55 110 -55 NO EXT
216-300HAVM-1H (CATV) 5988H Consumer Agile 1 300-550 +30 - -50 NO OPT(C)
HAVM-2H (CATV) 5989H Consumer Agile 2 300-550 +30 - -50 NO OPT(C)
HAVM-1U (CATV) 5988U Consumer Agile 1 550-800 +30 - -50 NO OPT(C)
HAVM-2U (CATV) 5989U Consumer Agile 2 550-800 +30 - -50 NO OPT((C)
HAVM-1H (UHF) 5988H Consumer Agile 1 470-550 +30 - -50 NO OPT(C)
HAVM-2H (UHF) 5989H Consumer Agile 2 470-550 +30 - -50 NO OPT((C)
HAVM-1U (UHF) 5988U Consumer Agile 1 470-806 +30 - -50 NO OPT((C)
HAVM-2U (UHF) 5989U Consumer Agile 2 470-806 +30 - -50 NO OPT((C)
Notes: (a) channelized agile products have an agile PLL section and a channelized output filter module(b) with automatic filter switching(c) can be interfaced with Blonder Tongue’s stereo encoders: SE-1, SE-2, SE-3, SE-4
Headend Product Overview Charts
1
9 BROADCAST FREQUENCY LOCKED MODULATOROutput Spurious
Model Stock Type (a) Frequency Frequency Outputs ExternalName Number Input Output Range (MHz) (dBc) IF InputBFLM 5898-xx Locked On Channel 54-216 (VHF) 47.75 Stereo -60 YES
PROCESSORSInput Output Output Broadband Spurious
Model Stock Type (a) Frequency Frequency Level CNR Outputs ExternalName Number Input Output (MHz) (MHz) (dBmV) (dB) (dBc) IF InputAP-40-450A (b) 59808 Agile Agile 50-806 50-450 +40 76 -60 OPTAP-40-550A (b) 59809 Agile Agile 50-806 50-550 +40 76 -60 OPTAP-60-450A (b) 59813 Agile Agile 50-806 50-450 +60 76 -60 OPTAP-60-550A (b) 59814 Agile Agile 50-806 50-550 +60 76 -60 OPTSAIP-40-860 5886A Agile Chan/Agile 50-806 50-860 +42 110 -60 OPTSAIP-60-860 5876A Agile Chan/Agile 50-806 50-860 +60 110 -60 OPTCAP-40-860 5893A Chan Chan/Agile 7-806 50-860 +42 110 -60 YESCAP-60-860 5894A Chan Chan/Agile 7-806 50-860 +60 110 -60 YES
STEREO ENCODERSModel Stock FrequencyName Number Response (dB) Audio Input Separation (dB) Output
SE 1 5866 1.5 250 mVRMS 20 Video (50 Hz to 10kHz) for 55 kHz dev (50 Hz to 10kHz) 0.7 Vp-p min
SE 2 5867 “ “ “ “SE 3 5868 “ “ “ “SE 4 5869 “ “ “ “SG-2000 8183 ±1.2 (e) APL: 0 (±10 dB) dBm Baseband (f)
PPL (referenced to APL): +10 dB >26 (e) 5 Vp-p
DEMODULATORSFrequency Noise Audio Video Audio
Model Stock Range Figure Distortion Output Output MPXName Number Type (MHz) (dB) (THD %) (V p-p) (mV RMS) OutputAD-1 5915/5925 Agile 7-806 8-11 0.6 1.0 500 YESMIDM-806 7740 Agile 50-806 8-11 - 1.0 1000 NOMIDM-750 5881 Agile 50-750 8-11 - 1.0 1000 NOZDM-806 5880 Agile 50-806 8-11 - 1.0 1000 NOZDM-750 5882 Agile 50-750 8-11 - 1.0 1000 NO
COMBINERSFrequency Number Insertion Output Level
Model Stock Range of Loss Gain Recomm. Isolation TestName No. (MHz) Inputs (dB) (dB) (dBmV) (dB) PortOC-8d (Passive) 5957 5-1000 8 11/14(a) - - 32/32 YESOC-12d (Passive) 5953 5-1000 12 18/22(a) - - 38/38 YESOC-12f (Passive) 5955 50-450 12 22 - - 35/NA YESOC-16 (Passive) 5950 50-1000 16 24/26(a) - - 35/32 YESOCA-8b (Active) 5956 50-450 8 - 8 to 22 +56(b) - YESOCA-12 (Active) 5954 50-450 12 - 2 to 16 +54(c) - YESZHC-12 (Passive) 5959 50-450 12 16 - - 40 YESZHCA-16 (Active) 5958 50-450 16 - 6 to 15 +48(d) 40 YESZHCA-16C (Active) 7757 50-750 16 - -6 to +3 +48-(d) 40 YES
Notes: (a) 40-450 MHz/450-1000 MHz (b) 8 adj. channels, XMOD = -57 (c) 12 adj. channels, XMOD = -57(d) 16 adj. channels, XMOD = -57 (e) 20 Hz to 14 kHz(f) high impedance load, ±50 kHz aural carrier deviation (source impedance 75Ω)
Headend Product Overview Charts
1
10STRIP AMPLIFIERSFrequency Noise Figure Recomm. AGC Range Operational
Model Stock Range VHF, CATV, UHF Input Level VHF, CATV, UHF Output LevelName Number Channels (MHz) (dB) (dBmV) (dB) (dBmV)
MCA-b 4454 VHF, FM, CATV 54-276 7.0 15 40 66
MCA-Ub 4709 UHF 470-806 7.5 15 30 66
MSCA 4453 VHF, FM 54-216 7.0 15 30 60
ZSCA 4451 VHF 54-216 6.0 15 30 60
CHANNEL ELIMINATION FILTERSInsertion Loss
Frequency 2-6 2-6 A-I, J A-I, J K-W, AA-BB K-W, AA-BB ChannelModel Stock Range 50-312 MHz 312-750 50-312 312-750 50-312 312-750 SuppressionName Number (MHz) (dB) (dB) (dB) (dB) (dB) (dB) (dB)
CEF-750 4446 54-312 Ch. Elim. 2.1 3.1 1.9 2.5 1.6 2.1 5050-750 Passband
CHANNEL CONVERTERSFrequency Range Input Signal Level
Model Stock Input Output Min. Recomm. GainName Number (MHz) (MHz) (dBmV) (dBmV) (dB)
MCX-V 1448 5-300 5-300 -3.5 +10 to +15 13
MCX-V/U 1459 50-300 470-806 -4.5 +10 to +15 16
MCX-Ub 1449 470-860 50-300 -4.5 +10 to +15 14
MUC-3 1468 470-806 50-216 -1.0 +10 to +15 6.5
MCX-Uz 1479 470-806 50-216 -4.0 +10 to +15 20
BANDPASS FILTERSFrequency Insertion Loss
Model Stock Range 2-6 FM 11-22 14-22 7-13 14-69Name Number Channels (MHz) (dB) (dB) (dB) (dB) (dB) (dB)
BPF-a 4414 VHF, FM 54-216 3.5 3.0 - 8.0 8.0 -
BPF-d 4417 VHF, FM 54-300 2.5 4.0 4.0 - 8.0 -
BPF-u 4805 UHF 470-806 - - - - - 1.8
MXF 3437 VHF, FM 54-108 & 174-216 0.6 1.1 - - 1.1 -
MXF-B 3438 VHF, FM 54-108 & 174-216 0.9 1.5 - - 1.4 -
BPF-z 4419 VHF 54-88 & 120-216 3.5 - - 5.0 7.0 -
Headend Product Overview Charts
1
11 TUNABLE NOTCH TRAPSFrequency Range Insertion Loss (Max) Outside Notch Notch Depth
Model Stock Trap Tuning Bandpass 54-108 108-174 174-216 470-890 MaxName Number (MHz) (MHz) (dB) (dB) (dB) (dB) (dB)MWT-2b 4505 54-108 54-216 1.0 1.0 1.0 NA 60MWT-3b 4529 174-216 54-216 1.0 1.0 1.0 NA 60MWT-4 4898 108-174 54-300 1.0 1.0 1.0 NA 60MWT-U 4614 470-890 54-890 1.5 1.5 1.5 0.5 60
RACKSModel StockName Number System Series DescriptionRAX-7024 3979 70” Rack Professional Open Frame Construction Which Accepts Optional Side Panels RAX-7724 3977 77” Rack Professional Open Frame Construction Which Accepts Optional Side Panels
RMX-6199-xx 397x 61” Rack Professional Louvered Rear Doors, Opt. Locking Handle/Keys for Rear Door, 2 DepthsRMX-7019-xx 397x 70” Rack Professional Louvered Rear Doors, Opt. Locking Handle/Keys for Rear Door, 2 DepthsRMX-7719-xx 397x 77” Rack Professional Louvered Rear Doors, Opt. Locking Handle/Keys for Rear Door, 2 Depths
FDX-6199-xx 398x 61” Rack Professional Louvered Rear Doors, Optional Locking Handle/Keys for Rear Door,Front Door w/Locking Keys, Choice of 2 Depths
FDX-7019-xx 398x 70” Rack Professional Louvered Rear Doors, Optional Locking Handle/Keys for Rear Door,Front Door w/Locking Keys, Choice of 2 Depths
FDX-7719-xx 398x 77” Rack Professional Louvered Rear Doors, Optional Locking Handle/Keys for Rear Door,Front Door w/Locking Keys, Choice of 2 Depths
SWC-1528 3695 Wall Cabinet Professional 3 Removable Sections, Front Door Cylinder Lock, Easy Assembly
IRH-1924B-F 3690 Wall Cabinet Economy Designed for Wall Mounting, 3 Components Available
RR -2164 3961 Relay Rack Economy 8” Side Rails, shipped completely disassembledRR-2173 3962 Relay Rack Economy 8” Side Rails, shipped completely disassembledRR-2189 3963 Relay Rack Economy 8” Side Rails, shipped completely disassembledRR-6119 3960 Relay Rack Economy 3” Side Rails, shipped completely disassembledRR-7019 3970 Relay Rack Economy 3” Side Rails, shipped completely disassembled
BFP-19-1B 3989 Panels Economy 1.75” Blank black anodized panel to finish the professional look of a headend
BFP-19-2B 3990 Panels Economy 3.5” Blank black anodized panel to finish the professional look of a headend
BFP-19-3B 3991 Panels Economy 5.25” Blank black anodized panel to finish the professional look of a headend
BFP-19-1BV 3988 Panels Economy 1.75” Vented blank black anodized panel to finish the professional look of a headend
BH-1 3507 Housing Economy Indoor, Allows both Horizontal & Vertical Mounting
SPECIAL PRODUCTSModelName DescriptionIFDM IF Demodulato/ModulatorAM/AP/AD-1 WITH OPTION 20 Surveillance Systems and CCTV ProductsCAM-60-OPT 05 Channelized Agile ModulatorVACD-12 AND AB-800 Video All-Call System
Headend Product Overview Charts
1
12
OPTION 14 - On Channelock
ON CHANNELOCK solves one of the commonly encountered problemsof using an Agile Processor in the On Channel Mode. (e.g. channel 9VHF input, channel 9 VHF output).
The problem being addressed manifests itself as picture “flutter,” simi-lar to the effects of signals reflected from aircraft (although it is causedby a different phenomenon). The flutter most often occurs when theinput signal is from an off air antenna or antenna/preamplifier combina-tion.
Option 14 is intended to be invoked only when the input is a broadcastchannel 2 - 13 broadcast and the output channel is exactly the same asthe input.
Do not invoke Option 14 for conversions. Option 14 is invoked bySwitch SW2, POSITION 9. Switch SW2, POSITION 9 is found in thebank of front panel accessible output channel selector switches. PlaceSwitch SW2, POSITION 9 down to invoke Option 14, up to disableOption 14.
As a reminder, turn “offset adjust” potentiometer fully clockwise whenusing this processor in the “On Channel” mode regardless of whetherthe processor has Option 14 or not.
When setting up a processor for “On Channel” operation be certain thatthe switches for the output selector are as required for “On Channel”operation. Use the following procedure for best results when in the “OnChannel” mode and when using Option 14.
1
13
OUTPUTCHANNEL
OFFSETADJ.
OUTPUT CHANNEL SELECTOR
AP SERIESAGILE PROCESSORChannel Data From Chart
SW11 1 6 9 108
SW2OUTPUTLEVEL
POWER
PROCESSOR with “ON CHANNELOCK” Option 14SW2 Setting 6-9 for ON CHANNELOCK, Option 14 Invoked
OPTION 14 - On Channelock (continued...)
1. Switch SW-2,(which is the 10 position switch in the output channel selector window) POSITION 6 and 7 are down,
POSITION 8 is up. (Black bar indicates switch position)
2. Front Panel Offset Adjust Control fully clockwise.
3. Switch SW-2, POSITION 9 is down to invoke Option 14 On. Move to the up position for Option 14 Off.
www.blondertongue.com
1
14
OPTION 14Output Channel Switch SW2, Positions 6- 9(A) Processor WITHOUT “ON CHANNELOCK” Option 14(1) ON CHANNEL MODEOutput Frequency Exactly Same as Input Frequency: Front Panel OffsetAdjusted Fully Clockwise & Set Switches as Shown:
(2) OFF CHANNEL MODEOutput Channel Different from Input Channel: Set Switches as Follows & AdjustFront Panel Offset Adjust for Precise Frequency.
(B) Processor WITH “ON CHANNELOCK” Option 14(1) ON CHANNEL MODE FOR CHANNELS 2 - 13 ONLYFront Panel Offset Adjusted Fully Clockwise and Set Switches as Shown:For OTHER ON CHANNEL operation, follow ON CHANNEL Mode procedures (1) of (A) above.
(2) OFF CHANNEL MODE: Follow OFF CHANNEL Mode Procedures in (2) of (A), Above.
CH SW11 8
SW21 6 9 10
Channel Data From Chart
CH SW11 8
SW21 6 9 10
Channel Data From Chart
CH SW11 8
SW21 6 9 10
Channel Data From Chart
1
15
OPTION 4- Sub Band Output for AM
Option 4 extends the output frequency range of an AM60 modulator toinclude sub-band channels T7 through T13 . This permits the unit tobe used for sub-band via the return path in a two way system or as aLAN modulator. All external controls and connectors remain the sameas a standard model. Video and Audio specifications for channels T7through T13 also conform to standard modulator performance. RF specifications remain the same except for the following:
SPECIFICATIONS (Typical)
RF Output Frequency Range: All Channels 7.00-445.25 MHz
Spurious Output
T7 - T12: -62 dBc
All Other Channels: -58 dBc
In-Channel Carrier-To-Noise Ratio: 66 dB in 4.0 MHz bandwidth
Broadband Noise: -75 dBc in 4.0 MHz bandwidth
1 2 3 4 1 2 3 4 5 6 7 8 1 2 3 4 5 6 7 8 9 10CH Pix/MHz L.O.
SWITCH 2SWITCH 1 SWITCH 3
T-7T-8T-9
T-10T-11T-12T-13
7.013.019.025.031.037.043.0
620626632638644650656
AM OPTION 4 SUB-BAND SWITCH SETTINGS(BLACK BAR INDICATES SWITCH POSITION)
1
16
OPTION 4- Sub Band Output for AP
Option 4 extends the output frequency range of an AP60 processor toinclude sub-band channels T7 through T13 . This permits the unit tobe used for sub-band via the return path in a two way system or as aLAN processor. All external controls and connectors remain the sameas a standard model. Video and Audio specifications for channels T7through T13 also conform to standard processor performance. RF specifications remain the same except for the following:
SPECIFICATIONS (Typical)
RF Output Frequency Range: All Channels 7.00-445.25 MHz
Spurious Output
T7 - T12: -62 dBc
All Other Channels: -58 dBc
In-Channel Carrier-To-Noise Ratio: 66 dB in 4.0 MHz bandwidth
Broadband Noise: -75 dBc in 4.0 MHz bandwidth
1 2 3 4 5 6 7 8 1 2 3 4 5 6 7 8 9 10CH Pix/MHz L.O.
SWITCH 1 SWITCH 2
T-7T-8T-9
T-10T-11T-12T-13
7.013.019.025.031.037.043.0
620626632638644650656
AP OPTION 4 SUB-BAND SWITCH SETTINGS(BLACK BAR INDICATES SWITCH POSITION)
AM Switch Settings, Standard/IRC(Black Bar Indicates Switch Position)
1
17
12
34
12
34
56
78
12
34
56
78
91
0C
HE
IA CH
NO
MIN
AL
PIX
OF
FS
ET
PIX
L.O
.S
WIT
CH
2S
WIT
CH
1S
WIT
CH
3
2 3 4 A-8 5
IRC
56
IRC
6A
-5A
-4A
-3A
-2A
-1 A B C D E F G H I 7 8 9 10
11
12
2 3 4 1 5 5 6 6 95
96
97
98
99
14
15
16
17
18
19
20
21
22 7 8 9 10
11
12
55
.25
61
.25
67.
25
73
.25
77.
25
79
.25
83
.25
85
.25
91
.25
97.
25
10
3.2
51
09
.25
11
5.2
51
21
.25
12
7.2
51
33
.25
13
9.2
51
45
.25
15
1.2
51
57.
25
16
3.2
51
69
.25
17
5.2
51
81
.25
18
7.2
51
93
.25
19
9.2
52
05
.25
10
9.2
75
01
15
.27
50
12
1.2
62
51
27.
26
25
13
3.2
62
5
66
86
746
80
68
66
90
69
26
96
69
87
04
71
07
16
72
27
28
73
474
074
67
52
75
87
64
77
07
76
78
27
88
79
48
00
80
68
12
81
8
AM Switch Settings, Standard/IRC(Black Bar Indicates Switch Position)
1
18
12
34
12
34
56
78
12
34
56
78
91
0S
WIT
CH
1C
HE
IA CH
NO
MIN
AL
PIX
OF
FS
ET
PIX
L.O
.S
WIT
CH
2S
WIT
CH
3
13 J K L M N O P Q R S T U V W AA
BB
CC
DD
EE
FF
GG
HH II JJ KK LL MM
13
23
24
25
26
27
28
29
30
31
32
33
34
35
36
37
38
39
40
41
42
43
44
45
46
47
48
49
21
1.2
52
17.
25
22
3.2
52
29
.25
23
5.2
52
41
.25
24
7.2
52
53
.25
25
9.2
52
65
.25
27
1.2
52
77.
25
28
9.2
52
83
.25
29
5.2
53
01
.25
30
7.2
53
13
.25
31
9.2
53
25
.25
33
1.2
53
37.
25
34
3.2
53
49
.25
35
5.2
53
61
.25
36
7.2
53
73
.25
22
9.2
62
52
35
.26
25
24
1.2
62
52
47.
26
25
25
3.2
62
52
59
.26
25
26
5.2
62
52
71
.26
25
27
7.2
62
52
83
.26
25
28
9.2
62
5
30
1.2
62
52
95
.26
25
30
7.2
62
53
13
.26
25
31
9.2
62
53
25
.26
25
33
1.2
75
03
37.
26
25
34
3.2
62
53
49
.26
25
35
5.2
62
53
61
.26
25
36
7.2
62
53
73
.26
25
82
48
30
83
68
42
84
88
54
86
08
66
87
28
78
88
48
90
89
69
02
90
89
14
92
09
26
93
29
38
94
49
50
95
69
62
96
89
749
80
98
6
AM Switch Settings, Standard/IRC(Black Bar Indicates Switch Position)
1
19
12
34
12
34
56
78
12
34
56
78
91
0S
WIT
CH
1C
HE
IA CH
NO
MIN
AL
PIX
OF
FS
ET
PIX
L.O
.S
WIT
CH
2S
WIT
CH
3
NN
OO
PP
RR
SS
TT
UU
VV
WW
XX
YY
ZZ
AA
AB
BB
CC
CD
DD
EE
EF
FF
GG
GH
HH
III
JJJ
KK
KLL
LM
MM
NN
NO
OO
50
51
52
53
54
55
56
57
58
59
60
61
62
63
64
65
66
67
68
69
70
71
72
73
74 75
76
77
37
9.2
53
85
.25
39
1.2
53
97.
25
40
3.2
54
09
.25
41
5.2
54
21
.25
42
7.2
54
33
.25
43
9.2
54
45
.25
45
1.2
54
57.
25
46
3.2
54
69
.25
47
5.2
54
81
.25
48
7.2
54
93
.25
49
9.2
55
05
.25
51
1.2
55
17.
25
52
3.2
55
29
.25
53
5.2
55
41
.25
39
7.2
62
5
37
9.2
62
53
85
.26
25
99
29
98
10
04
10
10
10
16
10
22
10
28
10
34
10
40
10
46
10
52
10
58
10
64
10
70
10
76
10
82
10
88
10
94
11
00
11
06
11
12
11
18
11
24
11
30
11
36
PP
P7
85
47.
25
39
1.2
62
5
11
42
11
48
11
54
11
60
AM Switch Settings, HRC(Black Bar Indicates Switch Position)
1
20
12
34
12
34
56
78
12
34
56
78
91
0C
HE
IA CH
NO
MIN
AL
PIX
OF
FS
ET
PIX
L.O
.S
WIT
CH
2S
WIT
CH
1S
WIT
CH
3
2 3 4 A-8 5 6 A-5
A-4
A-3
A-2
A-1 A B C D E F G H I 7 8 9 10
11
12
2 3 4 1 5 6 95
96
97
98
99
14
15
16
17
18
19
20
21
22 7 8 9 10
11
12
54
60
66
72
78
84
90
96
10
21
08
11
41
20
12
61
32
13
81
44
15
01
56
16
21
68
174
18
01
86
19
21
98
20
4
10
8.0
25
01
14
.02
50
12
0.0
12
51
26
.01
25
13
2.0
12
5
66
76
73
67
96
85
69
16
97
70
37
09
71
57
21
72
77
33
73
974
57
51
75
77
63
76
97
75
78
17
87
79
37
99
80
58
11
81
71
31
32
10
82
3
AM Switch Settings, HRC(Black Bar Indicates Switch Position)
1
21
12
34
12
34
56
78
12
34
56
78
91
0C
HE
IA CH
NO
MIN
AL
PIX
OF
FS
ET
PIX
L.O
.S
WIT
CH
2S
WIT
CH
1S
WIT
CH
3
J K L M N O P Q R S T U V W AA
BB
CC
DD
EE
FF
GG
HH II JJ KK LL MM
23
24
25
26
27
28
29
30
31
32
33
34
35
36
37
38
39
40
41
42
43
44
45
46
47
48
49
21
62
22
22
82
34
24
02
46
25
22
58
26
42
70
27
62
82
28
82
94
30
03
06
31
23
18
32
43
30
33
63
42
34
83
54
36
03
66
37
2
22
8.0
12
52
34
.01
25
24
0.0
12
52
46
.01
25
25
2.0
12
52
58
.01
25
26
4.0
12
52
70
.01
25
27
6.0
12
52
82
.01
25
28
8.0
12
52
94
.01
25
30
0.0
12
53
06
.01
25
31
2.0
12
53
18
.01
25
32
4.0
12
53
30
.02
50
33
6.0
12
53
42
.01
25
34
8.0
12
53
54
.01
25
36
0.0
12
53
66
.01
25
37
2.0
12
5
82
98
35
84
18
47
85
38
59
86
58
71
87
78
83
88
98
95
90
19
07
91
39
19
92
59
31
93
79
43
94
99
55
96
19
67
97
39
79
98
5N
N5
03
78
37
8.0
12
59
91
AM Switch Settings, HRC(Black Bar Indicates Switch Position)
1
22
12
34
12
34
56
78
12
34
56
78
91
0S
WIT
CH
1C
HE
IA CH
NO
MIN
AL
PIX
OF
FS
ET
PIX
L.O
.S
WIT
CH
2S
WIT
CH
3
OO
PP
RR
SS
TT
UU
VV
WW
XX
YY
ZZ
AA
AB
BB
CC
CD
DD
EE
EF
FF
GG
GH
HH
III
JJJ
KK
KLL
LM
MM
NN
NO
OO
51
52
53
54
55
56
57
58
59
60
61
62
63
64
65
66
67
68
69
70
71
72
73
74 75
76
77
38
43
90
39
64
02
40
84
14
42
04
26
43
24
38
44
44
50
45
64
62
46
84
744
80
48
64
92
49
85
04
51
05
16
52
25
28
53
45
40
39
6.0
12
5
38
4.0
12
59
97
10
03
10
09
10
15
10
21
10
27
10
33
10
39
10
45
10
51
10
57
10
63
10
69
10
75
10
81
10
87
10
93
10
99
11
05
11
11
11
17
11
23
11
29
11
35
PP
P7
85
46
39
0.0
12
5
11
41
11
47
11
53
11
59
AP & AD-1* Switch Settings, Standard/IRC Input(Black Bar Indicates Switch Position)
1
231 2 3 4 5 6 7 8 1 2 3 4 5 6 7 8 9 10
CH EIACH PIX L.O.
SWITCH 1 SWITCH 2
234
A-85
IRC56
IRC6A-2A-1ABCDEFGHI789
101112
23415
IRC56
IRC69899141516171819202122789
101112
55.2561.2567.2573.2577.2579.2583.2585.25
109.25115.25121.25127.25133.25139.25145.25151.25157.25163.25169.25175.25181.25187.25193.25199.25205.25
101107113119
125123
129131155161167173179185191197203209215221227233239
245251
13JKLMNOPQR
13232425262728293031
211.25217.25223.25229.25235.25241.25247.25253.25259.25265.25
257263269275281287293299305311
STU
323334
271.25277.25283.25
317323329
*NOTE: On the AD-1, 9 and 10 on switch 2 are truncated.
AP & AD-1* Switch Settings, Standard/IRC Input(Black Bar Indicates Switch Position)
1
241 2 3 4 5 6 7 8 1 2 3 4 5 6 7 8 9 10
CH EIACH PIX L.O.
SWITCH 1 SWITCH 2
WAABBCCDDEEFFGGHHIIJJ
KKLL
MMNNOOPPQQRRSSTT
363738394041424344454647484950515253545556
295.25301.25307.25313.25319.25325.25331.25337.25343.25349.25355.25361.25367.25373.25379.25385.25391.25397.25403.25409.25415.25
341347353359365371377383389395401407413419425431437443449455461
UUVVWWXXYYZZ
AAABBBCCCDDD
57585960616263646566
421.25427.25433.25439.25445.25451.25457.25463.25469.25475.25
467473479485491497503509515521
EEEFFFGGGHHH
67686970
481.25487.25493.25499.25
527533539545
V 35 289.25 335
IIIJJJ
KKK
717273
505.25511.25517.25
551557563
*NOTE: On the AD-1, 9 and 10 on switch 2 are truncated.
AP & AD-1* Switch Settings, Standard/IRC Input(Black Bar Indicates Switch Position)
1
251 2 3 4 5 6 7 8 1 2 3 4 5 6 7 8 9 10
CH EIACH PIX L.O.
SWITCH 1 SWITCH 2
LLLMMMNNNOOOPPPQQQRRRSSSTTTUUUVVV
WWWXXXYYYZZZ
747576777879808182838485868788899091
523.25529.25535.25541.25547.25553.25559.25565.25571.25577.25583.25589.25595.25601.25607.25613.25619.25625.25
569575581587593599605611617623629635641647653659665671
929394
631.25637.25643.25649.25655.25661.25667.25673.25679.25685.25
677683689695701707713719725731
691.25 737697.25 743703.25 749709.25 755715.25 761721.25 767727.25 773733.25 779739.25 785745.25 791751.25 797
*NOTE: On the AD-1, 9 and 10 on switch 2 are truncated.
AP & AD-1* Switch Settings, HRC Input(Black Bar Indicates Switch Position)
1
26
1 2 3 4 5 6 7 8 1 2 3 4 5 6 7 8 9 10CH EIA
CH PIX L.O.SWITCH 1 SWITCH 2
234
A-856
A-2A-1ABCDEFGHI789
101112
234156
9899141516171819202122789
101112
546066727884
108114120126132138144150156162168174180186192198204
99.75105.75111.75117.75123.75129.75153.75159.75165.75171.75177.75183.75189.75195.75201.75207.75213.75219.75225.75231.75237.75243.75249.75255.75261.75267.75273.75279.75285.75291.75297.75303.75309.75315.75321.75327.75333.75
13JKLMNOPQR
13232425262728293031
210216222228234240246252258264
STU
323334
270276282
V 35 288
*NOTE: On the AD-1, 9 and 10 on switch 2 are truncated.
AP & AD-1* Switch Settings, HRC Input(Black Bar Indicates Switch Position)
1
27
1 2 3 4 5 6 7 8 1 2 3 4 5 6 7 8 9 10CH EIA
CH PIX L.O.SWITCH 1 SWITCH 2
WAABBCCDDEEFFGGHHIIJJ
KKLL
MMNNOOPPQQRRSSTT
363738394041424344454647484950515253545556
294300306312318324330336342348354360366372378384390396402408414
339.75345.75351.75357.75363.75369.75375.75381.75387.75393.75399.75405.75411.75417.75423.75429.75435.75441.75447.75453.75459.75465.75471.75477.75483.75489.75495.75501.75507.75513.75519.75525.75531.75537.75543.75549.75555.75561.75
UUVVWWXXYYZZ
AAABBBCCCDDD
57585960616263646566
420426432438444450456462468474
EEEFFFGGGHHH
67686970
480486492498
IIIJJJ
KKK
717273
504510516
*NOTE: On the AD-1, 9 and 10 on switch 2 are truncated.
AP & AD-1* Switch Settings, HRC Input(Black Bar Indicates Switch Position)
1
281 2 3 4 5 6 7 8 1 2 3 4 5 6 7 8 9 10
CH EIACH PIX L.O.
SWITCH 1 SWITCH 2
LLLMMMNNNOOOPPPQQQRRRSSSTTTUUUVVV
WWWXXXYYYZZZ
747576777879808182838485868788899091
522528534540546552558564570576582588594600606612618624
567.75573.75579.75585.75591.75597.75603.75609.75615.75621.75627.75633.75639.75645.75651.75657.75663.75669.75675.75681.75687.75693.75699.75705.75711.75717.75723.75729.75735.75741.75747.75753.75759.75765.75771.75777.75783.75789.75795.75
929394
630636642648654660666672678684690696702708714720726732738744750
*NOTE: On the AD-1, 9 and 10 on switch 2 are truncated.
AP Switch Settings, Standard/IRC Output(Black Bar Indicates Switch Position)1
29 1 2 3 4 5 6 7 8 1 2 3 4 5 6 7 8 9X X X XX X X XX X X XX X X XX X X XX X X XX X X XX X X XX X X XX X X XX X X XX X X XX X X XX X X XX X X XX X X XX X X XX X X XX X X XX X X XX X X XX X X XX X X XX X X XX X X XX X X XX X X XX X X XX X X XX X X XX X X XX X X XX X X XX X X XX X X XX X X XX X X XX X X XX X X XX X X XX X X XX X X XX X X X
10CH EIA
CHNOMINAL
PIXOFFSET
PIX L.O.SWITCH 2 SWITCH 3
234
A-85
IRC56
IRC6A-5A-4A-3A-2A-1ABCDEFGHI789
101112
23415566
9596979899141516171819202122789
101112
55.2561.2567.2573.2577.2579.2583.2585.2591.2597.25
103.25109.25115.25121.25127.25133.25139.25145.25151.25157.25163.25169.25175.25181.25187.25193.25199.25205.25
109.2750115.2750121.2625127.2625133.2625
668674680686690692696698704710716722728734740746752758764770776782788794800806812818
13JKLMNOPQR
13232425262728293031
211.25217.25223.25229.25235.25241.25247.25253.25259.25265.25
229.2625235.2625241.2625247.2625253.2625259.2625265.2625
824830836842848854860866872878
STUVW
3233343536
271.25277.25
289.25283.25
295.25
271.2625277.2625283.2625289.2625295.2625
884890896902908
XXXX = For Off-Channel (Input Channels differ from Output Channels) OperationFor On-Channel (Input Channels Same as Output Channels) Operation,
Option 14 not in useFor On-Channel Operation, with Option 14 in use(Ch. 2- 13 only)NOTE: For On-Channel Operation, turn OFFSET ADJ fully clockwise
AP Switch Settings, Standard/IRC Output(Black Bar Indicates Switch Position) 1
301 2 3 4 5 6 7 8 1 2 3 4 5 6 7 8 9X X X XX X X XX X X XX X X XX X X XX X X XX X X XX X X XX X X XX X X XX X X XX X X XX X X XX X X XX X X XX X X XX X X XX X X XX X X XX X X XX X X XX X X XX X X XX X X XX X X XX X X XX X X XX X X XX X X XX X X XX X X XX X X XX X X XX X X XX X X XX X X XX X X XX X X XX X X XX X X XX X X XX X X X
10CH EIA
CHNOMINAL
PIXOFFSET
PIX L.O.SWITCH 2 SWITCH 3
AABBCCDDEEFFGGHHIIJJ
KKLL
MM
37383940414243444546474849
301.25307.25313.25319.25325.25331.25337.25343.25349.25355.25361.25367.25373.25
301.2625307.2625313.2625319.2625325.2625331.2750337.2625343.2625349.2625355.2625361.2625367.2625373.2625
914920926932938944950956962968974980986
NNOOPPQQRRSSTTUUVVWWXXYYZZ
AAABBBCCCDDDEEEFFFGGGHHH
IIIJJJ
KKKLLL
MMMNNNOOO
50515253545556575859606162636465666768697071727374757677
379.25385.25391.25397.25403.25409.25415.25421.25427.25433.25439.25445.25451.25457.25463.25469.25475.25481.25487.25493.25499.25505.25511.25517.25523.25529.25535.25541.25
397.2625
379.2625385.2625
992998
100410101016102210281034
1040
1046105210581064107010761082108810941100110611121118112411301136
PPP 78 547.25
391.2625
1142114811541160
XXXX = For Off-Channel(Input Channels differ from Output Channels) OperationFor On-Channel(Input Channels Same as Output Channels) Operation,
Option 14 not in useFor On-Channel Operation, with Option 14 in use(Ch. 2- 13 only)NOTE: For On-Channel Operation, turn OFFSET ADJ fully clockwise
AP Switch Settings, HRC Output(Black Bar Indicates Switch Position)
1
311 2 3 4 5 6 7 8 1 2 3 4 5 6 7 8 9
X X X XX X X XX X X XX X X XX X X XX X X XX X X XX X X XX X X XX X X XX X X XX X X XX X X XX X X XX X X XX X X XX X X XX X X XX X X XX X X XX X X XX X X XX X X XX X X XX X X XX X X XX X X X
10CH EIA
CHNOMINAL
PIXOFFSET
PIX L.O.SWITCH 1 SWITCH 2
234
A-856
A-5A-4A-3A-2A-1ABCDEFGHI789
101112
234156
9596979899141516171819202122789
101112
5460667278849096
102108114120126132138144150156162168174180186192198204
108.0250114.0250120.0125126.0125132.0125
667673679685691697703709715721727733739745751757763769775781787793799805811817
X X X XX X X XX X X XX X X XX X X XX X X XX X X XX X X XX X X XX X X XX X X XX X X XX X X XX X X X
13 13 210 823JKLMNOPQRSTUVW
2324252627282930313233343536
216222228234240246252258264270276282
288294
228.0125234.0125240.0125246.0125252.0125258.0125264.0125270.0125276.0125282.0125288.0125294.0125
829835841847853859865871877883889895901907
XXXX = For Off-Channel(Input Channels differ from Output Channels) OperationFor On-Channel(Input Channels Same as Output Channels) Operation,
Option 14 not in useNOTE: For On-Channel Operation, turn OFFSET ADJ fully clockwise
AP Switch Settings, HRC Output(Black Bar Indicates Switch Position)
1
32
AABBCCDDEEFFGGHHIIJJ
KKLL
MM
37383940414243444546474849
300306312318324330336342348354360366372
300.0125306.0125312.0125318.0125324.0125330.0250336.0125342.0125348.0125354.0125360.0125366.0125372.0125
913919925931937943949955961967973979985
NN 50 378 378.0125 991OOPPQQRRSSTTUUVVWWXXYYZZ
AAABBBCCCDDDEEEFFFGGGHHH
IIIJJJ
KKKLLL
MMMNNNOOO
515253545556575859606162636465666768697071727374757677
384390396402408414420426432438444450456462468474480486492498504510516522528534540
396.0125
384.0125 997100310091015102110271033
1039
1045105110571063106910751081108710931099110511111117112311291135
PPP 78 546
390.0125
1141114711531159
1 2 3 4 5 6 7 8 1 2 3 4 5 6 7 8 9X X X XX X X XX X X XX X X XX X X XX X X XX X X XX X X XX X X XX X X XX X X XX X X XX X X XX X X XX X X XX X X XX X X XX X X XX X X XX X X XX X X XX X X XX X X XX X X XX X X XX X X XX X X XX X X XX X X XX X X XX X X XX X X XX X X XX X X XX X X XX X X XX X X XX X X XX X X XX X X XX X X XX X X X
10CH EIA
CHNOMINAL
PIXOFFSET
PIX L.O.SWITCH 1 SWITCH 2
XXXX = For Off-Channel(Input Channels differ from Output Channels) OperationFor On-Channel(Input Channels Same as Output Channels) Operation,
Option 14 not in useNOTE: For On-Channel Operation, turn OFFSET ADJ fully clockwise
AP & AD-1* Switch Settings, UHF Input(Black Bar Indicates Switch Position)
1
33
232425262728293031
525.25531.25537.25543.25549.25555.25561.25567.25573.25
571577583589595601607613619
323334
579.25585.25591.25
625631637
141516171819202122
471.25477.25483.25489.25495.25501.25507.25513.25519.25
517523529535541547553559565
363738394041424344454647484950
603.25609.25615.25621.25627.25633.25639.25645.25651.25657.25663.25669.25675.25681.25687.25
649655661667673679685691697703709715721727733
35 597.25 643
1 2 3 4 5 6 7 8 1 2 3 4 5 6 7 8 9 10CH PIX L.O.
SWITCH 1 SWITCH 2
*NOTE: On the AD-1, 9 and 10 on switch 2 are truncated.
AP & AD-1* Switch Settings, UHF Input(Black Bar Indicates Switch Position)
1
34
515253545556
693.25699.25705.25711.25717.25723.25
73974575175776376977557
585960616263646566
729.25735.25741.25747.25753.25759.25765.25771.25777.25783.25
78178779379980581181782382983567
6869
789.25795.25801.25
841847
1 2 3 4 5 6 7 8 1 2 3 4 5 6 7 8 9 10CH PIX L.O.
SWITCH 1 SWITCH 2
*NOTE: On the AD-1, 9 and 10 on switch 2 are truncated.
AP Output Channel Switch Settings, UHF Broadcast(Black Bar Indicates Switch Position)
1
35
2324252627
525.25531.25537.25543.25549.25
11381144115011561162
141516171819202122
471.25477.25483.25489.25495.25501.25507.25513.25519.25
108410901096110211081114112011261132
1 2 3 4 5 6 7 8 1 2 3 4 5 6 7 8 9X X X XX X X XX X X XX X X XX X X XX X X XX X X XX X X XX X X XX X X XX X X XX X X XX X X XX X X X
10CH PIX L.O.
SWITCH 1 SWITCH 2
XXXX = For Off-Channel(Input Channels differ from Out put Channels) OperationFor On-Channel(Input Channels Same as Out put Channels) Operation,
Option 14 not in useNOTE: For On-Channel Operation, turn OFFSET ADJ fully clockwise
18 GHz Express Microwave Products 1
36SYSTEM COMPONENTS• Transmitters
25 mW750 mW
• Power Amplifiers 500 mW1.0 W3.0 W5.0 W10.0 W
• Repeaters -AGC Models
500 mW3.0 W
• ReceiverLow Noise
• Antennas - Standard & High Performance2 Foot4 Foot6 Foot8 Foot
• Accessories- Elliptical Waveguide & Connectors- Power Supplies- Power Inserters- Magic Tees- Broadwall D/C’s- Pressure Windows- Dehydrators- MISS (Microwave Integrated
Splitter System)- Master Reference Oscillator
A specification summary is provided to aid in installing and setting up18 GHz microwave equipment. For more detailed information, pleasecontact Blonder Tongue’s full line catalog, the instruction manual(s)provided with the 18 GHz microwave system, or Blonder Tongue’sSales and Marketing Departments.
SYSTEM FEATURES• 72 TV Channel Capability• Modular Design Permits
Future Expansion• Superior Frequency Stability• Exceptional Carrier-to-Noise
Performance
• GaAs FET Based, MMIC Technology• Compact, Outdoor
Aluminum Housing• Pole or Tower Mounting• Uses Standard CATV Powering
18 GHz - TX18000 SeriesRF Input
Frequency: 54 to 492 MHzLevel (nominal): +25 dBmVImpedance: 75 ohmsReturn Loss: 16 dB
RF OutputFrequency: 18.142 to 18.580 GHz
Power Output: Refer to Power Chart for Typical Values
Return Loss: 14 dBFlatness (with flat input): ± 1.0 dBC/N: Refer to Power Chart
1
37
24 -25.2 63
72 -30 58
Nominal Output Power for 70 dB C/CTB(*)
Channel 7175L C/NLoading (dBm/ch) (dB)
24 -11.2 65.2
72 -16.0 60.5
Nominal Output Power for 70 dB C/CTB(*)
Channel 7175W C/NLoading (dBm/ch) (dB)
NOTES(*) values are for stated C/CTB performance - to calculate C/N and C/CTB for
different output levels:
1) if output level is decreased by 1.0 dB then C/N will degrade by 1.0 dB and C/CTB will improve by 2.0 dB
2) if output level is increased by 1.0 dB then C/N will improve by 1.0 dB and C/CTB will degrade by 2.0 dB
18 GHz - PA18000 SeriesRF Input
Frequency: 18.142 to 18.580 GHzReturn Loss (minimum): 14 dB
RF Output Frequency: 18.142 to 18.580 GHzReturn Loss (minimum): 14 dB
Power: Refer to Power Chart for Typical Performance
Gain Standard UnitsPA18005 (0.5 Watt): 10 dBPA18010 (1.0 Watt): 14 dBPA18020 (3.0 Watt): 17 dBPA18050 (5.0 Watt): 21 dB
1
38
24 -7.8 -4.8 +1.2 +2.272 -12.6 -9.6 -3.6 -2.6
Nominal Output Power for 60 dB C/CTB(*)Channel 500 mW 1.0 W 3.0 W 5.0 WLoading (dBm/ch) (dBm/ch) (dBm/ch) (dBm/ch)
NOTES(*) values are for stated C/CTB performance - to calculate C/N and C/CTB for
different output levels:
1) if output level is decreased by 1.0 dB then C/N will degrade by 1.0 dB and C/CTB will improve by 2.0 dB
2) if output level is increased by 1.0 dB then C/N will improve by 1.0 dB and C/CTB will degrade by 2.0 dB
18 GHz - RP18000 Series
RF InputFrequency: 18.142 to 18.580 GHzReturn Loss (minimum): 14 dB
RF Output Return Loss (minimum): 14 dBFlatness : ± 1.0 dBPower: Refer to Power Chart for Typical Values
Gain (Typical) See Gain ChartC/N See C/N Chart
1
39
24 -7.8 1.272 -12.6 -3.6
Nominal Output Power for 60 dB C/CTB Performance (*)Channel 500 mW 3.0 WLoading (dBm/ch) (dBm/ch)
500 mW 27 583 W 36 58
Gain and C/N for 72 Channels @ -47 dBm/Ch (*)Gain C/N (*)
-3 dB into AGC (dB)
18 GHz - RX18003 Series
RF InputFrequency: 18.142 to 18.580 GHzReturn Loss (minimum): 14 dBInput Level (nominal): -50 dBm/channel
RF Output Level (nominal): +25 dBmVFrequency: 54 to 452 MHzFlatness (a): ± 0.75 dBmVNoise Figure (typical): 3.0 dBC/CTB (b): ≥ 72 dB
(a) with flat input(b) 72 channels @ -50 dBm input level
1
40
RX18003
18 GHz Express - Product Selector GuideAntenna Channel Max. Max.
Product Output Size Loading Distance DistanceType Power (dia.-feet) (feet) (miles)TX 25 mW 2 72 369TX 25 mW 2 20 1,320TX 25 mW 8 72 5,280TX 25 mW 8 20 20,064
TX 750 mW - H 2 72 0.30TX 750 mW - H 2 20 0.65TX 750 mW - H 8 72 4.70TX 750 mW - H 8 20 9.50
TX and PA 500 mW 2 72 0.34TX and PA 500 mW 2 20 0.83TX and PA 500 mW 8 72 4.90TX and PA 500 mW 8 20 12.00
TX and PA 1.0 W 2 72 0.48TX and PA 1.0 W 2 20 1.10TX and PA 1.0 W 8 72 7.00TX and PA 1.0 W 8 20 15.00
TX and PA 3.0 W 2 72 0.95TX and PA 3.0 W 2 20 2.30TX and PA 3.0 W 8 72 14.00TX and PA 3.0 W 8 20 33.00
TX and PA 5.0 W 2 72 1.02TX and PA 5.0 W 2 20 2.46TX and PA 5.0 W 8 72 14.80TX and PA 5.0 W 8 20 35.70
1
41
Overall System Performance - For All Products Shown52.0 dB Carrier to Noise60 dB Composite Triple Beat
NOTE:* 750 H TX used with
PA's for calculations
1
42
RP
1802
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P18
020A
TY
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AL
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dB
Car
rier t
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oise
60.0
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tem
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1800
3
RP
1800
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88
RX
1800
3
4 Miles
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ocal
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Dis
tribu
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tem
5W
TX18
001
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5W
18 GHz Express - Typical System Example Diagram
18 GHz Express
Range of Acceptable PIN Designations1
43
The following is the specified range of acceptable voltages for the pindesignations on the fifteen pin monitor jack. Pin B through Pin M tolerance is +/- 0.50Volts (see notes on page 1/40).
Monitor Unit Receiver Transmitter Power Amp RepeaterPin Parameter 7150W 7175W 7125W 7131W 7325W-Aby 7175L 7132W 7135W 7332W-A
LetterInternal
A Temp.(1) 0.53 to 0.72 0.53 to 0.72 0.53 to 0.72 0.53 to 0.72B Ground 0 0 0 0
Negative C Regulator -12 -12 -12 -12
VCXO Control D Voltage (2) 4 to 8 4 to 8 N/A N/AE AC(3) 12 to 16 12 to 16 9 to 14 12 to 16
Positive F Regulator 8 8 8 8
Positive G Regulator 15 15 8 8H PLO Lock 5 5 N/A N/AJ Ground 0 0 0 0K Phase Voltage 3 to 11 3 to 11 N/A N/A
Positive L Regulator(4) 24 N/A 5 to 8 N/A
Microwave M AGC(5) * N/A N/A -2 to 8N IF AGC(6) 5 to 6.5 N/A N/A N/A
1
44
18 GHz Express
Range of Acceptable PIN DesignationsNotes(1) Pin A is 0.630 Volts at 25°C and Changes 0.002 Volts/°C.(2) Pin D does not pertain to a Transmitter in a Slave Configuration.(3) With 60 VAC +/- 5% at the Input to the Unit.(4) For both Receivers and the 5 Watt PA, 7135W, Only.(5) A Negative Voltage Indicates that the Unit is out of AGC Range.
* For 7150W-A see Unit Data Sheet(6) See Unit Data Sheet for AGC Voltage at -50 dBm/Channel. There is
a change of 0.1V/dB in the range of -45 to -55dBm/Channel.
A
B
C
D
EF
G
H
J
K
L
R
M
N
P
Pertains to BT Model numbers: 7175W, 7175L, 7125W, 7131W, 7132W, 7135W, 7325W-A, 7332W-A, 7150W.
1
45 TRAILBLAZER Transmitter Line: Broadband CATVTransmitter Stock Link Freq. Optical Fiber Operating Tx Physical Power Model Name Number Type Range Connector Type Wavelength Power Configur. SupplyFIBT-S3A-886 7403-06 80 Chan. 40-860 MHz FC/APC SM 1310 nm 6 dBm Rack Mount IncludedFIBT-S3A-887 7403-07 80 Chan. 40-860 MHz FC/APC SM 1310 nm 7 dBm Rack Mount IncludedFIBT-S3A-888 7403-08 80 Chan. 40-860 MHz FC/APC SM 1310 nm 8 dBm Rack Mount IncludedFIBT-S3A-819 7404-09 110 Chan. 40-860 MHz FC/APC SM 1310 nm 9 dBm Rack Mount IncludedFIBT-S3A-810 7404-10 110 Chan. 40-860 MHz FC/APC SM 1310 nm 10 dBm Rack Mount IncludedFIBT-S3A-811 7404-11 110 Chan. 40-860 MHz FC/APC SM 1310 nm 11 dBm Rack Mount IncludedFIBT-S3A-812 7404-12 110 Chan. 40-860 MHz FC/APC SM 1310 nm 12 dBm Rack Mount Included
TRAILBLAZER Receiver Line: Broadband CATVReceiver Stock Link Freq. No. of Optical Fiber Operating Test Hybrid Physical PowerModel Name Number Type Range Outputs Connector Type Wavelength Port Tech. Configur. SupplyFRRA-S4A-450-43 7411-44 62 40-450 MHz 1 "F" FC/APC SM 1310/1550 nm Yes Push- Rack Included
Chan. Pull MountFRRA-S4A-550-43 7411-54 78 40-550 MHz 1 "F" FC/APC SM 1310/1550 nm Yes Push- Rack Included
Chan. Pull MountFRRA-S4A-750-43 7411-74 110 40-750 MHz 1 "F" FC/APC SM 1310/1550 nm Yes Push- Rack Included
Chan. Pull MountFRRA-S4A-860-43 7411-84 110 40-860 MHz 1 "F" FC/APC SM 1310/1550 nm Yes Push- Rack Included
Chan. Pull MountFIBR-S4A-860-P 7412-P 110 40-860 MHz 1 "F" FC/APC SM 1310/1550 nm No N/A Stand ACCS-PS-170
Chan. AloneFIBR-S4A-860-PA 7412-PA 110 40-860 MHz 1 "F" FC/APC SM 1310/1550 nm No N/A Stand ACCS-PS-170
Chan. AloneMIBR-S4A-860 7434 110 40-860 MHz 1 "F" FC/APC SM 1310/1550 nm No N/A Micro MIPS-12B
Chan. Mod FRDA-S4A-450-43 7400-44 62 40-450 MHz 1 "F" FC/APC SM 1310/1550 nm Yes Push- Wall Included
Chan. Pull MountFRDA-S4A-450-43P 7400P44 62 40-450 MHz 1 "F" FC/APC SM 1310/1550 nm Yes Power Wall Included
Chan. Doubling MountFRDA-S4A-550-43 7400-54 78 40-550 MHz 1 "F" FC/APC SM 1310/1550 nm Yes Push- Wall Included
Chan. Pull MountFRDA-S4A-550-43P 7400P54 78 40-550 MHz 1 "F" FC/APC SM 1310/1550 nm Yes Power Wall Included
Chan. Doubling MountFRDA-S4A-750-43 7400-74 110 40-750 MHz 1 "F" FC/APC SM 1310/1550 nm Yes Push Wall Included
Chan. Pull MountFRDA-S4A-750-43P 7400P74 110 40-750 MHz 1 "F" FC/APC SM 1310/1550 nm Yes Power Wall Included
Chan. Doubling MountFRDA-S4A-860-43 7400-84 110 40-860 MHz 1 "F" FC/APC SM 1310/1550 nm Yes Push- Wall Included
Chan. Pull MountFRDA-S4A-860-43P 7400P84 110 40-860 MHz 1 "F" FC/APC SM 1310/1550 nm Yes Power Wall Included
Chan. Doubling Mount
RETRO-LINX Transmitter Line: Limited Broadband ApplicationsTransmitter Stock Link Freq. Optical Fiber Operating Tx Physical Power Model Name Number Type Range Connector Type Wavelength Power Configur. SupplyMIBT-M3T-25 7422 5 Chan. 5-250 MHz ST™ MM 1310 nm -7 dBm Micro Mod MIPS-12BSIBT-M3T-25 7422-S 5 Chan. 5-250 MHz ST™ MM 1310 nm -7 dbm Stand Alone ACCS-PS-90MIBT-S3A-210 7423 10 Chan. 5-250 MHz FC/APC SM 1310 nm 3 dBm Micro Mod MIPS-12BSIBT-S3A-210 7423-S 10 Chan. 5-250 MHz FC/APC SM 1310 nm 3 dBm Stand Alone ACCS-PS-170MIBT-S3A-415 7424 15 Chan. 5-350 MHz FC/APC SM 1310 nm 4 dBm Micro Mod MIPS-12BSIBT-S3A-415 7424-S 15 Chan. 5-350 MHz FC/APC SM 1310 nm 4 dBm Stand Alone ACCS-PS-170MIBT-S5A-425 7428 25 Chan. 5-350 MHz FC/APC SM 1550 nm 4 dBm Micro Mod MIPS-12BSIBT-S5A-425 7428-S 25 Chan. 5-350 MHz FC/APC SM 1550 nm 4 dBm Stand Alone ACCS-PS-170
Fiber Optic Product Overview Charts
1
46RETRO-LINX Transmitter Line: Baseband ApplicationsTransmitter Stock Link Optical Fiber Operating Physical PowerModel Name Number Type Connector Type Wavelength Distance Configur. Supply MIAT-M8T-11 7441 Video Only ST™ MM 850 nm 1.5 km Micro Mod MIPS-12BSIAT-M8T-11 7441-S Video Only ST™ MM 850 nm 1.5 km Stand Alone ACCS-PS-170MIAT-M3T-11 7442 Video Only ST™ MM 1310 nm 15 km Micro Mod MIPS-12BSIAT-M3T-11 7442-S Video Only ST™ MM 1310 nm 15 km Stand Alone ACCS-PS-170MIAT-S3T-11 7443 Video Only ST™ SM 1310 nm 20 km Micro Mod MIPS-12BSIAT-S3T-11 7443-S Video Only ST™ SM 1310 nm 20 km Stand Alone ACCS-PS-170MIAT-S5T-11 7444 Video Only ST™ SM 1550 nm 70 km Micro Mod MIPS-12BSIAT-S5T-11 7444-S Video Only ST™ SM 1550 nm 70 km Stand Alone ACCS-PS-170MIAT-M8T-31 7461 Video/Audio/Audio ST™ MM 850 nm 1.5 km Micro Mod MIPS-12BSIAT-M8T-31 7461-S Video/Audio/Audio ST™ MM 850 nm 1.5 km Stand Alone ACCS-PS-200MIAT-M3T-31 7462 Video/Audio/Audio ST™ MM 1310 nm 15 km Micro Mod MIPS-12BSIAT-M3T-31 7462-S Video/Audio/Audio ST™ MM 1310 nm 15 km Stand Alone ACCS-PS-200MIAT-S3T-31 7463 Video/Audio/Audio ST™ SM 1310 nm 20 km Micro Mod MIPS-12BSIAT-S3T-31 7463-S Video/Audio/Audio ST™ SM 1310 nm 20 km Stand Alone ACCS-PS-200MIAT-S5T-31 7473 Video/Audio/Audio ST™ SM 1550 nm 70 km Micro Mod MIPS-12BSIAT-S5T-31 7473-S Video/Audio/Audio ST™ SM 1550 nm 70 km Stand Alone ACCS-PS-200
RETRO-LINX Receiver Line: Limited Broadband ApplicationsReceiver Stock Link Freq. No. of Optical Fiber Operating Test Hybrid Physical Power Model Name Number Type Range Outputs Connector Type Wavelength Port Tech. Configur. SupplyMIBR-M3T-25 7432 5 Chan. 5-250 MHz 1 "F" ST™ MM 1310 nm No N/A Micro Mod MIPS-12BSIBR-M3T-25 7432-S 5 Chan. 5-250 MHz 1 "F" ST™ MM 1310 nm No N/A Stand Alone ACCS-PS-90MIBR-S4A-210 7433 10 Chan. 5-250 MHz 1 "F" FC/APC SM 1310/1550 nm No N/A Micro Mod MIPS-12BSIBR-S4A-210 7433-S 10 Chan. 5-250 MHz 1 "F" FC/APC SM 1310/1550 nm No N/A Stand Alone ACCS-PS-170MIBR-S4A-415 7425 15 Chan. 5-350 MHz 1 "F" FC/APC SM 1310/1550 nm No N/A Micro Mod MIPS-12BSIBR-S4A-415 7425-S 15 Chan. 5-350 MHz 1 "F" FC/APC SM 1310/1550 nm No N/A Stand Alone ACCS-PS-170MIBR-S4A-425 7438 25 Chan. 5-350 MHz 1 "F" FC/APC SM 1310/1550 nm No N/A Micro Mod MIPS-12BSIBR-S4A-425 7438-S 25 Chan. 5-350 MHz 1 "F" FC/APC SM 1310/1550 nm No N/A Stand Alone ACCS-PS-170
RETRO-LINX Receiver Line: Baseband ApplicationsReceiver Stock Link Optical No. of Fiber Operating Physical PowerModel Name Number Type Connector Outputs Type Wavelength Configur. Supply MIAR-U8T-11 7451 Video Only ST™ 1 BNC MM 850 nm Micro Mod MIPS-12BSIAR-U8T-11 7451-S Video Only ST™ 1 BNC MM 850 nm Stand Alone ACCS-PS-170MIAR-U4T-11 7452 Video Only ST™ 1 BNC MM or SM 1310/1550 nm Micro Mod MIPS-12BSIAR-U4T-11 7452-S Video Only ST™ 1 BNC MM or SM 1310/1550 nm Stand Alone ACCS-PS-170MIAR-U8T-31 7471 Video/Audio/Audio ST™ 1 BNC/2 RCA MM 850 nm Micro Mod MIPS-12BSIAR-U8T-31 7471-S Video/Audio/Audio ST™ 1 BNC/2 RCA MM 850 nm Stand Alone ACCS-PS-200MIAR-U4T-31 7472 Video/ Audio/Audio ST™ 1 BNC/2 RCA MM or SM 1310/1550 nm Micro Mod MIPS-12BSIAR-U4T-31 7472-S Video/Audio/Audio ST™ 1 BNC/2 RCA MM or SM 1310/1550 nm Stand Alone ACCS-PS-200
TWIN STAR Transmitter Line: L-band ApplicationsTransmitter Stock Link Freq. Optical Fiber Operating Tx Physical PowerPart Number Number Type Range Connector Type Wavelength Power Configur. SupplyFILT-S3A-2050 7531 32 Trans. 950-2050 MHz FC/APC SM 1310 nm 0 dBm Stand Alone ACCS-PS-170FILT-S3A-2050-8 7501-8 32 Trans. 950-2050 MHz FC/APC SM 1310 nm -10 dBm Rack Mount IncludedFILT-S3A-2050-12 7501-12 32 Trans. 950-2050 MHz FC/APC SM 1310 nm -8 dBm Rack Mount IncludedFILT-S3A-2050-16 7501-16 32 Trans. 950-2050 MHz FC/APC SM 1310 nm -10 dBm Rack Mount Included
TWIN STAR Receiver Line: L-band ApplicationsReceiver Stock Link Freq. Optical No. of Fiber Operating Physical Power Part Number Number Type Range Connector Outputs Type Wavelength Configur. SupplyFILN-S3A-2050 7532 32 Trans. 950-2050 MHz FC/APC 1 "F" SM 1310 nm Stand Alone ACCS-PS-170FILN-S3A-2050-8 7511-8 32 Trans. 10-40 MHz FC/APC 8 "F" SM 1310 nm Stand Alone AC Line PoweredFILN-S3A-2050-16 7511-16 32 Trans. 54-806 MHz FC/APC 16 "F" SM 1310 nm Stand Alone AC Line PoweredFILN-S3A-2050-24 7511-24 32 Trans. 950-2050 MHz FC/APC 24 "F" SM 1310 nm Stand Alone AC Line Powered
Fiber Optic Product Overview Charts
Interdiction Products
Interdiction technology products from Blonder Tongue are the cableoperator’s solution to enhance subscriber services, providing a moreuser- and operator-friendly system. Addressable off-premise interdic-tion units eliminate set-top converters from the residence and provideefficiency, security and control in system operations. The “interdiction”terminology comes from the fact that the interfering or jamming signalis introduced into the premium channel at the subscriber’s location, notat the headend as with conventional scrambling systems.
There are three interdiction product lines: - VideoMask™ Interdiction (VMI)- Single Living Interdiction Unit (SLIU)- Subscriber Module Interdiction (SMI) formerly known as
Scientific Atlanta addressable interdiction system.
For each interdiction product line the following information is provided:1. General Parts List2. Specification Summary3. System Design Considerations4. Installation Guidelines5. Unit Activation6. Troubleshooting7. Jamming Worksheet
For more detailed information, please refer to Blonder Tongue’s full linecatalog, the training seminar literature, or contact Blonder Tongue’sTechnical Support Sales and Marketing Departments.
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1
48
1. Interdiction Products
VMI Interdiction Parts List
Below is a table listing part numbers of VMI equipment.
P/N ComponentComplete
Units949x VMIU Complete Units988x MDIU 8 Port Complete Units962x MDIU 12 Port Complete Units966x MDIU 16 Port Complete Units
Housings9402 VMIU Housings
9802-08 MDIU 8 Port Housings9602-12 MDIU 12 Port Housings9602-16 MDIU 16 Port HousingsModules
9452 RF Distribution Module; 112.7 Data Carrier9460 Control Module9461 Jammer Module (120-170 MHz)9463 Jammer Module (216-350 MHz)9465 Jammer Module (354-512 MHz)9466 Jammer Module (498-596 MHz)
Plug-Ins9310-xx Directional Couplers
9375 Equalizers - Vertical, 750 MHz9320 Attenuators
VMI
2. VMI - Specification Summary
Frequency RangeThru Line: 5 to 750 MHzSubscriber Output Port: 54 to 750 MHzReturn Path: 5 to 30 MHz
Output Level55 MHz: +10 dBmV550 MHz: +15 dBmV750 MHz: +16 dBmV
Nominal Gain/Loss5 to 30 MHz (Reverse)(a): 10 dB54 to 750 MHz (Forward)(b): -0.75 dB
Carrier-to-Noise Ratio (CNR): 60 dBComposite Triple Beat (CTB): -60 dBcJammer Module Coverage
#9461A (Ch’s 14-22): 120 to 170 MHz#9463A (Ch’s 23-45): 216 to 350 MHz#9465A (Ch’s 46-72): 354 to 512 MHz#9466A (Ch’s 70-86): 498 to 596 MHz
Data Carrier Frequencies: 104.75, 105.40, 108.90, 112.70 MHzData Carrier Level (relative to visual): -10, ±5 dBPower Supply
Voltage: 45 to 60 VACFrequency: 50/60 Hz
EqualizerLoss @ 550 or 750 MHz: 1.0 dBValues: -4, 0, 2, 5, 8, 11, 14, 17, 20 dB
Attenuator Values: 0, 1, 2, 3, 4, 5, 6, 7, 8, 910, 11, 12, 13, 14, 15, 16, 17, 18 dB
(a) 0 dB DC(b) 0 dB DC, 0 dB ATT, 0 dB EQ.
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VMI
3. VMI System Design
VideoMask™ Interdiction Units (VMIU’s) can easily be accommodated within standard distribution system designs, including both one-way and two-way architectures. Each VMIU has three (3) plug-in parameters (directional coupler, equalizer, and attenuator) that can be tailored tomeet the exact system design requirements. The following sections contain thespecifications needed to design a system using VMIU’s. Several design rulesand examples have been included for reference.
ArchitectureThe VMIU plug-in parameters (DC, EQ & AT) are used to modify the incomingsignal levels to match the Interdiction Unit requirements. VMIU’s expect signallevels to be +10/+15/+16 dBmV (50/550/750 MHz) using a 0 dB DirectionalCoupler, 0 dB Equalizer, and 0 dB Attenuator. A system block diagram follows.
1
50
VMI
L H EQ ATT
DC
RF FeederInput
5-750 MHz
Directional Coupler
RF FeederOutput
5-750 MHz
L HL HL HL H
Equalizer Attenuator
5-30 MHz 54-750 MHz
Subscriber#1
Subscriber#2
Subscriber#3
Subscriber#4
5-750 MHz
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51
VMI
Encouraged not to use to minimize upstream insertion loss.
3. VMI System DesignDirectional Coupler
A plug-in Directional Coupler (DC) is used to attenuate the incomingsignal to the levels expected by the VMIU. DCs are available in 0, 4, 8,11, and 14 dB values, with 14 dB being the maximum recommendedvalue for two-way system designs. This is due to the fact that both theforward (54 to 750 MHz) and reverse (5 to 30 MHz) path signals incurthe loss of the tap leg of the DC.
In order to minimize the loss incurred by the reverse path, VMIU’sinclude a plug-in Attenuator (AT). The AT loss is only incurred by theforward path signals, which allows the total insertion loss needed forthe forward path to be split between the DC and the AT. The TapOutput port insertion loss is equal to the DC tap value (0 dB = 0 dBinsertion loss). The RF Feeder Input to RF Feeder Output insertion lossspecifications for the DCs are included.
Insertion Loss 0 4 8 11 14 17 20
30 MHz: NA 2.7 1.5 0.8 0.8 0.7 0.4 dB
50 MHz: NA 2.7 1.5 1.0 0.9 0.7 0.5 dB
330 MHz: NA 3.2 2.1 1.3 1.1 1.1 0.8 dB
450 MHz: NA 3.5 2.4 1.6 1.3 1.3 1.0 dB
550 MHz: NA 3.8 2.5 1.9 1.5 1.4 1.2 dB
750 MHz: NA 4.3 3.0 2.4 1.9 1.8 1.7 dB
Two-Way Design: 0, 4, 8, 11, 14 dBOne-Way Design: 0, 4, 8, 11, 14, 17, 20, 23, 26, 29, 32 dB
Directional Coupler Values
-4 -3.0 1.0 2.6 4.0-3 -2.2 0.8 2.1 3.0-2 -1.4 0.6 1.5 2.0-1 -1.0 0.0 0.5 1.00 0.0 0.0 0.0 0.01 0.9 1.5 0.9 0.62 1.7 2.3 1.0 0.63 2.0 2.6 1.0 0.64 2.7 3.3 1.0 0.65 3.4 4.0 1.1 0.66 4.2 4.8 1.4 0.67 4.9 5.5 1.7 0.68 6.2 6.8 2.1 0.69 7.1 7.7 2.6 0.610 7.7 8.3 2.7 0.611 8.7 9.3 2.8 0.612 8.9 9.5 3.0 0.613 9.4 10.0 3.1 0.614 10.4 11.0 3.2 0.615 11.1 11.7 3.3 0.616 11.7 12.3 3.4 0.617 12.4 13.0 3.6 0.618 13.2 13.8 3.8 0.619 13.8 14.4 3.8 0.620 14.7 15.3 3.8 0.6
3. VMI System DesignEqualizer
A plug-in Equalizer (EQ) is used to equalize the effects of cable attenuation on the incoming signal. 750 MHz EQs are available in 1 dBincrements from -4 to +20 dB values. The EQ only affects the forwardpath signals (54 to 750 MHz). The insertion loss specifications for theEQ are included below.
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52
VMI
VMI-CEQ7V 750 MHz EqualizersTilt Comp. @ Loss @ Loss @ Loss @
EQ Value 750 MHz 50 MHz 550 MHz 750 MHz
3. VMI System DesignAttenuator
A plug-in Attenuator is used in conjunction with the Directional Coupler toattenuate the incoming signal to the levels expected by the VMIU. Attenuators are available in 0, 1, 2, 3, 4, 5, 6, 7, 8, 9, 10, 11, 12, 13, 14, 15, 16, 17, and 18 dB values. The Attenuator only affects the forward path signals (54 to 750 MHz).System Design Parameter CalculationsThe following design rules are provided to assist both the system designer and installer in selecting values for the three (3) plug-in parameters.DC, EQ, & AT - Selecting ValuesThe values of the Directional Coupler, Equalizer and Attenuator are selectedto provide the desired insertion loss and slope correction to meet theincoming signal requirements of the VMIU. In general, the DirectionalCoupler and Attenuator provide a flat response and the highest frequencyused in the system design should be considered for the selection of theDirectional Coupler (for example, in a 750 MHz design, the insertion lossvalue at 750 MHz should be used).A minimum of 1.5 dB of attenuation @ 750 MHz should be the smallest value used for the preliminary parameter selection to provide ade-quate headroom for the final signal level adjustment of the VMIU.In general, the steps below are taken to determine the three parameter values:1. Determine the design frequencies (lo and hi) of the system2. Based on the incoming signal level to the VMIU, determine the
insertion loss needed in the directional coupler 3. Determine the Directional Coupler tap value4. Calculate the tilt compensation needed from the Equalizer5. Determine the Equalizer value6. Calculate the remaining insertion loss needed from the Attenuator;
adjust the equalizer if the remaining insertion losses are both negative7. Determine the Attenuator value
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VMI
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3. VMI System DesignDirectional Coupler, Equalizer, & Attenuator - Preliminary Selection
The following example illustrates the formulas that are used to select the Directional Coupler, Equalizer and Attenuator values.
Lo Freq. Hi Freq.Value Value Remarks
a. System Design Frequency, MHz 55 750b. Incoming Signal Level to VMIU, dBmV +26.0 +24.0c. VMIU Signal Requirement, dBmV +10.0 +16.0 For system frequenciesd. Insertion Loss Needed, dB 16.0 8.0 (b) - (c)e. Worst Case VMIU Loss, dB 0.0 -1.5f. Adjusted Insertion Loss, dB 16.0 6.5 (d) + (e)g. Closest Directional Coupler 4.0 4.0 Directional Coupler
Value (Note 1), dB Value Selected 1-51 ≤ (min f lo , f hi)
h. Insertion Loss Needed in Addition to Directional Coupler, dB 12.0 2.5 (f) - (g)
i. Tilt Compensation Needed 9.5 (h) lo - (h) hij. Closest Tilt Compensation 9.4 Value from page 1-52
≤ (i); @750 MHzk. Closest Equalizer (Note 2) 13 dB Equal.Value Selectedl. Insertion Loss of Equalizer Selected, dB 10.0 0.6 Value from
page 1-52 for (k)m. Insertion Loss Needed from
Attenuator, dB 2.0 1.9 (h) - (l)n. Closest Attenuator Value, dB (Note 3) 1.0 round down
(min m lo , m hi )Directional Coupler 4 dB (g)Equalizer 13 dB (k)Attenuator 1 dB (n)
VMI
Notes:1. Select Directional Coupler with a tap value that is less than the smaller of the f lo or f hi values.2. Calculate the tilt compensation needed by subtracting the value of h hi from h lo (h lo-h hi).
On page 1-50, find a tilt compensation value that is less than or equal to the tilt compensation needed. Select that Equalizer value with the appropriate tilt compensation.
3. Select minimum value from m lo and m hi and round down to nearest whole number (or zero).If both insertion losses are negative, then adjust the equalizer to the next lower value and redo the calculation.
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3. VMI System DesignDirectional Coupler, Equalizer, & Attenuator -Blank Worksheet
A blank worksheet is provided below for calculating the DC, EQ, and ATT values. Lo Freq. Hi Freq.Value Value Remarks
a. System Design Frequency, MHzb. Incoming Signal Level to VMIU, dBmVc. VMIU Signal Requirement, dBmV For system frequenciesd. Insertion Loss Needed, dB (b) - (c)e. Worst Case VMIU Loss, dB 0.0 -1.5f. Adjusted Insertion Loss, dB (d) + (e)g. Closest Directional Coupler Directional Coupler
Value (Note 1), dB Value Selected from page 1-51≤ (min f lo , f hi)
h. Insertion Loss Needed in Addition toDirectional Coupler, dB (f) - (g)
i. Tilt Compensation Needed (h) lo - (h) hij. Closest Tilt Compensation Value from page 1-52
≤ (i); @750 MHzk. Closest Equalizer (Note 2) Equalizer Value
Selectedl. Insertion Loss of Equalizer Selected, dB Value from page 1-52
for (k)m. Insertion Loss Needed from
Attenuator, dB (h) - (l)n. Closest Attenuator Value, dB (Note 3) round down
(min m lo , m hi )Directional Coupler dB (g)Equalizer dB (k)Attenuator dB (n)
Notes:1. Select Directional Coupler with a tap value that is less than the smaller of the f lo or f hi values.2. Calculate the tilt compensation needed by subtracting the value of h hi from h lo (h lo-h hi).
On page 1-50, find a tilt compensation value that is less than or equal to the tilt compensation needed. Select that Equalizer value with the appropriate tilt compensation.
3. Select minimum value from m lo and m hi & round down to nearest whole number (or zero). If both insertion losses are negative, then adjust the equalizer to the next lower value & redo the calculation.
VMI
1 Jammer w/2 Jammer w/3 JammerVolts (VAC) Module Modules Modules
45.00 325 410 515
50.00 330 375 465
55.00 310 355 420
60.00 295 360 390
65.00 240 315 385
70.00 230 300 360
75.00 220 285 340
80.00 205 265 325
85.00 195 255 310
90.00 190 245 295
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56
3. VMI System DesignPower Consumption
Another design consideration for interdiction is powering. Below are the power consumptions of the VMI.
VMI
Current Consumption (mA)
4. VMI Installation GuidelinesDirectional Coupler, Equalizer, and Attenuator - “As Built”
After the VMI Unit is installed, the output levels at the subscriber out-puts should be measured and verified against the VMI Specifications.The three (3) plug-in parameters can be further tailored in the field tomatch the output levels as close to the Specification as possible.These “As-Built” values should then be fed back to the system designerfor inclusion on the original system design maps.
Balancing And Alignment Rules
Directional Coupler1 The maximum value for the plug-in Directional Coupler is 14 dB,
in order to minimize the reverse path insertion loss.
2 VMIU’s in direct cascade (RF Feeder Output fed to RF Feeder Input) should not be configured with a 4 dB plug-in Directional Coupler in the first VMIU feeding a 4 dB plug-in Directional Coupler in the second VMIU (remember, the 4 dB Directional Coupler is actually a two-way splitter). A 0 dB plug-in DirectionalCoupler should be used in the second VMIU instead.
3 Do not select a plug-in Directional Coupler that exactly matches the insertion loss needed. Use 1.5 dB of attenuation at 750 MHz as a minimum and select a plug-in Directional Coupler based on the headroom afforded by this baseline attenuation.
4 The plug-in Directional Coupler affects both the forward and reverse path signals.
5 The plug-in Attenuator affects the reverse path signals only.
1
57
VMI
1
58
4. VMI Installation Guidelines
Equalizer
1 VMIU’s that are located close to the nearest amplifier may requirea plug-in Inverse Equalizer (4 dB) to compensate for the launch slope of the amplifier.
2 The plug-in Equalizer should be selected based upon the tilt compensation needed for the system design. Please note that the plug-in Equalizer value does not equal the insertion loss.
3 VMIU’s in direct cascade (RF Feeder Output fed to RF Feeder Input) typically require a higher value plug-in Equalizer in the second VMIU. This is due to the additional slope incurred in the Directional Couplers installed in both VMIU’s.
4 The plug-in Equalizer only affects the forward path signals.
Attenuator1 Use 1.5 dB of attenuation at 750 MHz as a minimum to
provide headroom for final VMIU setup.
2 The plug-in Attenuator value should be selected based upon the additional insertion loss needed after equalization plus the 1.5 dB of attenuation used for headroom.
3 The plug-in Attenuator only affects the forward path signals and is used in conjunction with the Directional Coupler and Equalizer to provide the total insertion loss.
VMI
5. VMI Unit Activation
The VMI unit has factory default parameters that immediately activateall ports upon initial installation. There are no jamming frequenciesassigned at the factory. This allows the full spectrum of channels topass, “in the clear,” to the subscriber drop port.
The VMIU will pass signal to the subscriber port “in the clear” until theiCentral control computer authorizes the unit with the appropriate levelof service. Once you install both the interdiction unit and turn on theAC, the unit passes RF.
Important!: There is no refresh timer for the VMIU! You must discon-nect ports which are not assigned to a subscriber with the iCentral!
Key items to remember
• Serial numbers and port addresses:
- Report the proper serial number and port address to ensure authorization. The first 9 digits correspond to the serial number. The last 7 digits correspond to the hexadecimal address, which the central control computer uses to communicate to each subscriber port.
- Make sure the address matches the port used in the installation.
• Authorization:
- Make sure the Customer Service Representative (CSR) authorizes the port address with the proper level of service.
1
59
VMI
1
60
VMI6. VMI TroubleshootingDiagnostic LED Codes
Old Style New StyleError LED Flash LED CodeDesc. Rate IndicationNo Error Steady ON Steady OnNo Error (w/o Tamper Switch) 7 flashes/10 seconds ---------
Calibration 14 flashes/5 seconds rapid flash on/off continuously
EEPROM 7 flashes/5 seconds 1 fast flash every 3 seconds
Communication 7 flashes/40 seconds 2 fast flashes every 3 seconds
Unit Address 7 flashes/20 seconds 3 fast flashes every 3 seconds
Tamper Switch 7 flashes/10 seconds 4 fast flashes every 3 seconds
Notes• LED is found on the control module (CM)• Old Style refers to CM revision B-E• New Style refers to CM revision F and later• Refer to timing diagrams on the next page for more details
Pin# 7 6 5 4 3 2 1
Voltage 28 VDC NOT 12 VDC GND 6.2 VDC GND 60 VAC
Minimum 26.0 USED 11.4 6.1 45
Maximum 30.0 12.6 6.3 60
Power Supply Pinout
1
61
Figure 5RF Pulse Switch Rev RB
Signal +width 350 msecSignal -width 350 msec
Pulse Subscriber Output Signal Off and On 7 Times/4.6 sec
(This Sequence Executed Once Each Hour)
2.00 V M 500 ms
4.6 sec
RF Switch OFF
RF Switch ON
Figure 4RF Pulse Switch Rev G
Signal +width 350 msecSignal -width 350 msec
Pulse Subscriber Output Signal Off and On 8 Times/5.3 sec
(This Sequence Executed Once Each Hour)
2.00 V M 500 ms
5.3 sec
RF Switch OFF
RF Switch ON
Figure 3Communication Error LED Indication
Signal +width 200 msecSignal -width 200 msec
Period 3 Seconds
2.00 V M 500 ms
3 sec
LED on for 200 msec
LED OFF
6. VMI TroubleshootingDiagnostic LED Codes
2.00 V M 500 ms
3 sec
LED OFF
LED on for 200 msec
Figure 2Tamper Error LED Indication
Signal +width 200 msecSignal -width 200 msec
Period 3 Seconds
2.00 V M 500 ms
Figure 1Calibration Error LED Indication
Signal +width 100 msecSignal -width 100 msec
Rapid Flash
VMI
1
62VMI Interdiction
454443
42
414039
38
37
36
3534333231
3029282726
25
24
2313
12
1110
9
87
222120
19
1817
161514
6
5
432#
CH
OFF-AIR
OFF-AIR
OFF-AIROFF-AIROFF-AIR
OFF-AIR
OFF-AIR
OFF-AIROFF-AIR
OFF-AIR
OFF-AIR
OFF-AIR
PROGRAMTIME
DWELL
Oscillators SLOTS
21 3 4 1 2 3 4 5 6 7 8
11
11
11
111
94xx
JAMMER
22
22
22
222
61-261-2
61-261-2
61-261-2
61-261-261-2
11
11
11
111
22
222
6363
6363
6363
636363
11
33
33
3
3
3
22
22
22
4
4
4
6363
63
6363
63
63
63
63
3
3
3
3
4
4
4
44
63
63
63
63
63
4
44
7. VMI Jamming Worksheet VMI
1
63VMI Interdiction
86858483
82
818079
94939291
90
898887
787776757473727170
69686766
65
6463626160595857565554
535251
5049
484746#
CHPROGRAMTIME
DWELL JAMMEROscillators SLOTS
21 3 4 1 2 3 4 5 6 7 8
11
11
11
222
3
33
31
11
1111
11
3
3
2
22
3
1
1
11
1
6565
6565
6565
656565
65
6565
6565 & 68
65 & 6865 & 68
68686868
6868
65
65
65
656565
65
65
6565
65
94xx
686868
6868
686868686868
6868
686868
222
22
33
33
4
44
4
4
44
44
44
11
222
3
3
32
22
222
22
44
44
44
4
44
4
3
3
33
3
3
33
VMI 7. VMI Jamming Worksheet
1
64
SLIUSingle Living Interdiction Unit (SLIU)
Feature Presentation
PREMIUMMOVIE
PREMIUMMOVIE
PREMIUMMOVIE
1 2 3 4 5 6 7 8 9 10 1112 13 14 15 16
MDIUMultiple DwellingInterdiction Unit
VideoMask
234
Feature Presentation
PREMIUMMOVIE
PREMIUMMOVIE
PREMIUMMOVIE
VideoMask4 Port VMIU
BillingSystem
Cable Office
ToAdditionalHeadends
DATARF
LEVEL VMI-ITX SERIESVIDEOMASK INTELLIGENT TRANSMITTER
BLONDERTONGUELABORATORIES, INC.
FREQUENCY
105.4
Intelligent Transmitter (ITX)
Modem
HeadendLocation
Modem
iCentral
Single LivingInterdiction
Unit
PREMIUMMOVIE
TV TV VCR
VMI
SMI
SLIU
4 Port Interdiction Unit
PREMIUMMOVIE
8 Port Interdiction Unit
Addressable Transmitter
108.2 MHz
VCR
TV TV VCR
ThroughToAdditionalFeeder
Feature Presentation
PREMIUMMOVIE
ApartmentBuildings
TV TV
VCR
VCR
TV TV
VCR
Individual Homes
4 Port SMIU
8 Port SMIU
For the SLIU product line, the following information is provided:1. General Parts List 5. Unit Activation2. Specification Summary 6. Troubleshooting3. System Design Considerations 7. Jamming Worksheet4. Installation Guidelines
1. SLIU General Parts List
Below is a table listing part numbers of SLIU equipment.
P/N ComponentComplete
Units9112 SLIU-2 Integrated Unit 104.75 MHz Data Carrier9113 SLIU-2 Integrated Unit 105.4 MHz Data Carrier9114 SLIU-2 Integrated Unit 108.9 MHz Data Carrier9115 SLIU-2 Integrated Unit 112.7 MHz Data Carrier
Plug-ins9377-xx Equalizer 860 MHz9320-xx Forward or Reverse Attenuators9321-xx Trim Networks9378-xx Inverse Equalizer 860 MHz
1
65
SLIU
1
66
2. SLIU Specification Summary SLIUSPECIFICATIONS - SLIUSUBSCRIBER PORT Values UnitsBandwidth: 54 to 860 MHzNominal Gain: 1.5 dBFlatness: ±1.5 dBReturn Loss 16 dBOutput Level
54 MHz: 10 dBmV600 MHz: 16 dBmV750 MHz: 17 dBmV860 MHz: 18 dBmV
Distortions (@ 77 Channel Loading)CTB: -60 dBcCSO: -60 dBcXMOD: -55 dBcSpurious: -60 dBcC/N: 59 dBAGC: ±3 dB
RETURN PATHBandwidth: 5 to 40 MHzLoss: 4 dBFlatness: 2 dBpvReturn Loss: 16 dBJAMMING OSCILLATORS8 oscillators: 54 - 600 MHzVoltage Controlled Oscillator Frequency Range:
VCO 1: 114-177 (ch. 14-22, 7, 99) MHz VCO 2: 179-249 (ch. 8-13, 23-28) MHzVCO 3: 252-321 (ch. 29-40) MHzVCO 4: 312-381 (ch. 39-50) MHzVCO 5: 372-453 (ch. 49-62) MHzVCO 6: 444-525 (ch. 61-74) MHzVCO 7: 516-597 (ch. 73-86) MHzVCO 8: 54-85 (ch. 2-6) MHz
DATA CARRIER Values UnitsFrequency: 104.75 MHzLevel (relative to video): -10, ±5 dBGuard Band: ±300 kHzFM Deviation: ±60 kHzTALK BACK CARRIERFrequency: 10.7 MHz FSKFM Deviation: ±60 KHzOutput Level
(at minimum RF input, nominal FSK input): 40 dBmV
OVERALL - ELECTRICALHum Modulation: <-60 dBcRF Leakage: Complies with FCC Part 76,
Sub part KPower Requirements
Voltage: 37-95 VACFrequency: 50/60 HzCurrent Consumption
90 VAC IN 150 mA60 VAC IN 200 mA
Power Passing to Port (optional): 300 mAOperating Temperature Range: -40° to +60° CRelative Humidity: 5-100 %OVERALL - MECHANICALHousing Dimensions (L x H x W): 9.5 x 4.0 x 10.0 in.Weight: 6 lbsMounting: Strand, Wall or PedestalRF IN, RF OUT and AC IN Connectors: “F” type, female
2. SLIU Specification SummarySLIU1
67
Single Living Interdiction Units (SLIU’s) can easily be accommodated withinstandard distribution system designs, including both one-way and two-wayarchitectures. Each SLIU has three (3) plug-in parameters (equalizer, forwardattenuator (or trim network) and return attenuator) that can be tailored to meetthe exact system design requirements. The following sections contain the speci-fications needed to design a system using SLIU’s. Several design rules andexamples have been included for reference.
ArchitectureThe VMI plug-ins parameters (EQ , AT, and TN) are used to modify the incomingsignal levels to match the SLIU requirements. The SLIU expects signal levels tobe +10/+17/+18 dBmV (50/750/860 MHz) using a 0 dB Equalizer, and 0 dBAttenuator. A system block diagram follows.
L H
L
H
EQFWDAT/orTN
DC
RF FeederInput
Directional Coupler
RF FeederOutput
5-860 MHz
5-40 MHz
54-860 MHz
RTNAT
Subscriber Drop
Return PathSwitch
3. SLIU System Design SLIU 1
68
1
69
3. SLIU System DesignEqualizer
A plug-in Equalizer (EQ) is used to equalize the effects of cable attenuation on the incoming signal. 860 MHz EQs are available in 1 dBincrements from -4 to +20 dB values. The EQ only affects the forwardpath signals (54 to 860 MHz). The insertion loss specifications for theEQ are included below.
SLIU
-4 1 2.6 4-3 0.8 2.1 3-2 0.6 1.5 2-1 0 0.5 10 0 0 01 1.5 0.9 0.62 2.3 1 0.63 2.6 1 0.64 3.3 1 0.65 4 1.1 0.66 4.8 1.4 0.67 5.5 1.7 0.68 6.8 2.1 0.69 7.7 2.6 0.610 8.3 2.7 0.611 9.3 2.8 0.612 9.5 3 0.613 10 3.1 0.614 11 3.2 0.615 11.7 3.3 0.616 12.3 3.4 0.617 13 3.6 0.618 13.8 3.8 0.619 14.4 3.8 0.620 15.3 3.8 0.6
EQ INSERTION LOSS TABLELoss at Loss at Loss at
EQ Value 51 MHz 550 MHz 750MHz
3. SLIU System DesignAttenuator
A plug-in Attenuator is used in conjunction with the external DirectionalCoupler to attenuate the incoming signal to the levels expected by theSLIU. Attenuators are available in 1 dB increments in values from 0 to18 dB. The Attenuator may be placed in the forward and/or returnpath.
Trim NetworksInstead of a forward path attenuator, a trim network (TN) may be usedto compensate for non-linear system response and allow for forwardpath balancing. The trim networks are available in attenuation values of1, 2, 3, 4, 5, and 6 dB and response connections of 3 and 6 dB.
System Design Parameter CalculationsThe following design rules are provided to assist both the system designed and installer in selecting values for the three (3) plug-in parameters.
EQ, AT & TN- Selecting ValuesThe values of the Equalizer, Attenuator and/or Trim Network are selected to provide the desired insertion loss and slope correction tomeet the incoming signal requirements of the SLIU. In general, theAttenuator provides a flat response. The Trim Network compensatesfor non-linear slope in the AGC range.
SLIU 1
70
In general, the steps below are taken to determine the three parameter values:1. Determine minimum input levels based on your system design.
2. Measure RF input levels at Ch.2, Ch. 24 and highest channel (Ch. 78, 550 MHz).
3. Select appropriate EQ & FW AT/TN components- If Step 2 measurement same as map design, use map design
value EQ & AT.- If Step 2 measurement level different from map design, select value
from EQ & AT tables (for full AGC).
4. Measure RF Output- Verify RF tilt relative to jamming oscillators- If tilt is incorrect, adjust the EQ appropriately (a higher EQ if the tilt is
too high, a lower EQ if the tilt is too low.
5 AGC voltage at TP5- 3.1 Vdc (optimum); 3.0 - 3.2 (acceptable).- If reading is higher, add “1” to original feeder input level (value from
step 2) & choose new Fwd AT.- If reading is lower, subtract “1” from original feeder input level (value
from step 2) & choose new Fwd AT.
SLIU 3. SLIU System DesignAttenuator1
71
1
72
3. SLIU System DesignPower Consumption
The SLIU can be powered a number of ways:
1. House powered via 120VAC outlet:Power consumption 11.8W @ 24VAC (550 mA)
2. Auxiliary or Line Powered:Power consumption 8.0W @ 60VAC (200 mA)
8.8W @ 90VAC (150 mA)Below are the power consumptions of the SLIU:
SLIU
Volts Curr. Watts
24.00 580 mA 11.8
60.00 200 mA 8.8
90.00 150 mA 8.0
1
73
SLIU 4. SLIU Installation GuidelinesKey Installation Steps
HomeControl Single Living Interdiction Unit (SLIU)
Key Installation Steps:
1. Select power supply option, position P1 appropriately
2. Power the unit, from RF Input, Subscriber Port, orAuxiliary Port (default from the factory).
3. Measure RF Input Levels at the tap port of the externalDirectional Coupler (Channels 2, 24, & 78)
Note: When measuring input levels, check adjacentchannels for response flatness, use the highest valuewhen selecting plug-in values
Minimum Input Requirements
• 9.0 dBmV @ 54 MHz• 11.0 dBmv @ 220 MHz• 15.0 dBmV @ 600 MHz• 16.0 dBmV @ 750 MHz• 17.0 dBmV @ 860 MHz
4. SLIU Installation GuidelinesKey Installation Steps
1
74
SLIU
4. Determine Trim Network (TN), Forward Attenuator (AT)& Equalizer (EQ) SLIU slide card
Note: When response is not linear, a trim networkmust be used to compensate for higher levels("bumps") in the AGC range.
5. Plug-in appropriate EQ and Fwd AT (or TN)
6. Verify AGC Voltage
3.1 VDC optimum; 3.0 – 3.2 VDC acceptable
7. Verify unit RF Output Levels
Subscriber Port Output
• 10.0 dBmV @ 54 MHz• 12.0 dBmV @ 220 MHz• 16.0 dBmV @ 600 MHz• 17.0 dBmV @ 750 MHz• 18.0 dBmV @ 860 MHz
8. Adjust EQ and AT or TN (if necessary)
4. SLIU Installation GuidelinesPower Selection
1
75
SLIU
ForwardAttenuator
PowerSelect
RF In
60/90Aux Power
ReturnAttenuator
RF Out
Equalizer
PowerSupply
RF Board
Jammer/ControllerBoard
4. SLIU Installation GuidelinesPower Selection
1
76
SLIU
Position A
60/90 VACNetwork Powering
Position B
26 VACHouse Powering
P1J 11
P1J 12
P1J 13
P2J 14
FEEDER POWER
P1J 11
P1J 12
P1J 13
P2J 14
HOUSE POWER
3 2
P1J 11
P1J 12
P1J 13
P2J 14
AUXILLARY POWER
2 1
3 2P1 P2
4. SLIU Installation GuidelinesTightening Sequence
1
77
SLIU
1
4
3
2
• Tightening:- Use a criss-cross pattern to tighten the housing bolts.- Tighten closure bolts between 5-7 ft. lbs.
The SLIU unit has factory default parameters that immediately activate the output port upon initial installation. There are no jammingfrequencies assigned at the factory. This allows the full spectrum ofchannels to pass, “in the clear,” to the subscriber drop port.
The unit will pass signal to the subscriber port “in the clear” until theiCentral authorizes the unit with the appropriate level of service. Onceyou install both the interdiction unit and turn on the AC, the refreshtimer starts. The factory default is 25 days.
Important!: You must activate the subscriber port within the refreshtimer period or the unit deactivates.
Key items to remember
• Serial numbers and port addresses:
- Report the proper serial number and port address to ensure autho-rization. The first 9 digits correspond to the serial number. The last7 digits correspond to the hexadecimal address, which the iCentraluses to communicate to the unit.
• Reverse Path Activation:
- The SLIU is capable of returning reverse signals from a CIU. The unitsupports 5-40 MHz return. In addition to 5-40 MHz return, the unitalso provides independent addressable on/off control of the reversepath for the subscriber port, when the reverse path switch is enabled bythe iCentral.
5. SLIU Unit Activation 1
78
SLIU
6. SLIU TroubleshootingKey Items to Remember
1
79
SLIU
• Fault Flags:- Tamper- Unit Time Out- Unit Address- Calibration- EEPROM
• Fault Action:
1. Disconnect - Full RF disconnect, snow on all channels2. Jam All Channels - All jammable channels are jammed3. Pulse Disconnect - The RF has flashes of disconnects with
normal video serviceNOTE: The fault action may be changed at any time, andimplemented with a “Headend Initialization” command
• Recommended Configuration
- Fault Flags: Calibration, Tamper (if desired)
- Fault Action: Pulse DisconnectThe pulse disconnect has the following codes to identify whichfault has occurred:
• Tamper 1 Flash of Disconnect• Unit Time Out 2 Flashes of Disconnect• Unit Address 3 Flashes of Disconnect• Calibration 4 Flashes of Disconnect• EEPROM 5 Flashes of Disconnect
6. SLIU TroubleshootingKey Items to Remember
1
80
SLIU
• Recommended Configuration - continued
- The flashes occur once every 12 seconds (Quick Flash Mode) oronce every 10 minutes (Slow Mode) as defined in the iCentral.
- The Quick Flash mode is optimum if a technician is in the field checking a unit. The Slow Mode is less punishing to the customer.
- The LED is “on” solid when no fault has been detected.
- If a fault has been detected, the unit LED will flash with the following codes (the same as the RF when in Pulse Disconnect Mode):
• Tamper 1 Flash• Unit Time Out 2 Flashes• Unit Address 3 Flashes• Calibration 4 Flashes• EEPROM 5 Flashes
- Except for the tamper mode, the LED will flash even if the faultflags are not set in the iCentral.
- If the tamper mode flag is not set, the LED will stay “on” whenthe technician opens the unit.
- The RF will flash only if the flag is set in the iCentral AND the fault occurs.
7. SLIU Jamming WorksheetSLIU1
81
DwellTime% Range 1 2 3 4 5 6 7 8 9 10
23456
95969899141516171819202122789
10111213232425262728293031323334353637383940414243444546
88888
11111111111
222222222222
333333333333
44444444
CH#Oscillator Slot AssignmentOscillator
Program Tier
SLIU Interdiction
7. SLIU Jamming Worksheet SLIU 1
82
Range 1 2 3 4 5 6 7 8 9 1047484950515253545556575859606162636465666768697071727374757677787980818283848586
4444
55555555555555
66666666666666
77777777777777
Oscillator Slot AssignmentOscillatorDwellTime%CH#Program Tier
SLIU Interdiction
Subscriber Module Interdiction (SMI)SMI
Feature Presentation
PREMIUMMOVIE
PREMIUMMOVIE
PREMIUMMOVIE
1 2 3 4 5 6 7 8 9 10 1112 13 14 15 16
MDIUMultiple DwellingInterdiction Unit
VideoMask
BillingSystem
Cable Office
ToAdditionalHeadends
DATARF
LEVEL VMI-ITX SERIESVIDEOMASK INTELLIGENT TRANSMITTER
BLONDERTONGUELABORATORIES, INC.
FREQUENCY
105.4
Intelligent Transmitter (ITX)
Modem
HeadendLocation
Modem
iCentral
Single LivingInterdiction
Unit
PREMIUMMOVIE
TV TV VCR
4 Port Interdiction Unit
PREMIUMMOVIE
8 Port Interdiction Unit
Addressable Transmitter
108.2 MHz
VCR
TV TV VCR
ThroughToAdditionalFeeder
Feature Presentation
PREMIUMMOVIE
ApartmentBuildings
TV TV
VCR
VCR
TV TV
VCR
Individual Homes
4 Port SMIU
8 Port SMIU
For the SMI product line, the following information is provided:1. General Parts List2. Specification Summary3. System Design Considerations4. Installation Guidelines5. Unit Activation6. Troubleshooting7. Jamming Worksheet
SMI
1
83
1. SMI General Parts List
Below is a table listing part numbers of SMI equipment.
P/N Component506561 Subscriber module w/fixed power passing capability566024 Subscriber module w/ no power passing capability564265 Subscriber module w/optional power passing capability568839 Power passing removable jumper for module 564265570201 DC and EQ reference card for 8-port unit570202 DC and EQ reference card for 4-port unit376602 -20 dB test connector565339 4-port 750 MHz non-power-passing pedestal housing565340 4-port 750 MHz non-power-passing strand housing565337 8-port 750 MHz non-power-passing pedestal housing565338 8-port 750 MHz non-power-passing strand housing564783 4-port 750 MHz power-passing pedestal housing564785 4-port 750 MHz power-passing strand housing564769 8-port 750 MHz power-passing pedestal housing564771 8-port 750 MHz power-passing strand housing
SMI 1
84
2. SMI - Specification Summary
Frequency RangeForward Path: 51 to 750 MHzReverse Path: 5 to 40 MHz
Minimum Feeder Input Levels:
Subscriber Port Output Level@ 750 MHz: 18 dBmV ±0.5 dB@ 550 MHz: 16 dBmV ±0.5 dB@ 51 MHz: 10 dBmV ±0.5 dB
Carrier-to-Noise Ratio (CNR): 55 dBComposite Triple Beat (CTB)
550 MHz (77 channels): <-75 dBc750 MHz (110 channels): <-68 dBc
Voltage Controlled Oscillator Frequency RangeVCO 1: 120.0 to 169.5 MHzVCO 2: 210.0 to 283.5 MHzVCO 3: 388.0 to 365.5 MHzVCO 4: 366.0 to 457.5 MHzVCO 5: 458.0 to 547.5 MHz
Cable PowerInput Voltage: 37 to 90 VAC
Maximum Feeder Current: 15 APower Passing to Port (optional): 250 mAPower Passing to Unused Feeder Port
4 Port: 1 A8 Port: 2 A
1
85
SMI
51 MHz 550 MHz 750 MHzFull AGC 4-port 17.0 dBmV 23.0 dBmV 25.0 dBmV
8-port 20.5 dBmV 26.5 dBmV 28.5 dBmVNo AGC 4-port 12.5 dBmV 18.5 dBmV 20.5 dBmV
8-port 16.0 dBmV 22.0 dBmV 24.0 dBmV
3. SMI System Design
Subscriber Module Interdiction Units (SMIU’s) can easily be accommo-dated within standard distribution system designs, including both one-way and two-way architectures. Each SMIU has two (2) plug-in para-meters (directional coupler and equalizer) that can be tailored to meetthe exact system design requirements. In addition, the SMIU has anautomatic gain control (AGC) with a range of ±4.5 dB. The AGC’s func-tion is to maintain the correct RF level relative to the jamming carriers,despite variations in the feeder level. The following sections containthe specifications needed to design a system using SMIU’s. ArchitectureThe SMIU plug-in parameters (DC & EQ) are used to modify theincoming signal levels to match the Interdiction Unit requirements.SMIU’s expects signal levels to be +10/+16/+18 dBmV (50/550/750MHz) using a 0 dB DC and 0 dB EQ. A system block diagram follows.
1
86
SMI
0.0 291659 Terminating Terminating1.0 291611 Terminating Terminating2.0 378224 Terminating Terminating3.0 378225 Terminating Terminating4.0 562958 2.5 2.5 3.5 3.9 4.25.0 562959 2.4 2.4 3.5 3.9 4.26.0 562960 2.3 1.8 2.1 2.4 2.77.5 562961 2.3 1.8 2.1 2.5 2.79.0 562962 2.1 1.4 1.4 2.1 2.410.5 562963 2.1 1.4 1.4 2.1 2.412.0 562964 1.4 1.0 0.8 1.3 1.713.5 562965 1.4 1.0 0.8 1.3 1.715.0 562966 1.2 0.8 0.8 1.3 1.716.5 562967 1.2 0.8 0.7 1.1 1.418.0 562968 1.3 0.8 0.7 1.1 1.419.5 562969 1.3 0.8 0.7 1.1 1.421.0 562970 1.3 0.8 0.7 1.1 1.422.5 562971 1.3 0.8 0.7 1.1 1.424.0 562972 1.3 0.8 0.7 1.1 1.425.5 562973 1.3 0.8 0.7 1.1 1.427.0 562974 1.3 0.8 0.7 1.1 1.428.5 562975 1.3 0.8 0.7 1.1 1.430.0 562976 1.3 0.8 0.7 1.1 1.431.5 562977 1.3 0.8 0.7 1.1 1.4
DC Feeder(through) Insertion Loss
Tap Loss Reverse Path Forward Path
DC Value Stock # 5 MHz 40 MHz 51 MHz 550 MHz 750 MHz
3. SMI System Design750 MHz Directional Coupler (DC) Insertion Loss
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0.0 291659 0.3 0.8 0.7 0.7 0.71.0 291611 0.8 1.3 1.7 1.7 1.72.0 378224 1.8 2.3 2.7 2.7 2.73.0 378225 2.8 3.3 3.7 3.7 3.74.0 562958 8.2 6.1 5.4 5.2 5.35.0 562959 8.8 7.0 6.3 6.4 6.76.0 562960 6.7 7.5 7.0 7.4 9.87.5 562961 7.7 8.4 8.0 8.3 10.69.0 562962 9.5 10.5 10.2 9.3 9.410.5 562963 0.4 11.3 11.1 10.0 9.912.0 562964 12.0 12.8 12.7 11.1 11.613.5 562965 13.5 14.3 14.2 12.3 12.215.0 562966 15.0 15.7 15.6 13.3 13.416.5 562967 16.4 17.1 17.0 14.8 14.618.0 562968 17.8 18.4 18.4 15.1 14.319.5 562969 19.6 20.2 20.2 16.4 15.621.0 562970 20.9 21.4 21.4 17.1 15.922.5 562971 22.3 22.9 22.9 18.3 16.924.0 562972 23.9 24.5 24.5 19.5 17.825.5 562973 25.5 26.1 26.2 21.5 20.327.0 562974 26.8 27.4 27.4 22.1 20.528.5 562975 28.3 28.8 29.0 22.8 20.430.0 562976 29.8 30.3 30.5 23.4 20.531.5 562977 30.9 31.3 31.6 23.7 20.4
DC Coupled Port Loss*
Tap Loss Reverse Path Forward Path
DC Value Stock # 5 MHz 40 MHz 51 MHz 550 MHz 750 MHz
3. SMI System DesignDC Coupled Port Loss
*All forward and reverse DC coupled port losses include the additional loss of the diplex filter.
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-9.0 562996 2.7 9.1 10.4-7.5 562995 1.9 7.5 8.5-6.0 562994 1.4 5.9 6.2-4.5 562993 1.6 4.4 4.8-3.0 562992 0.1 2.7 3.0-1.5 562991 0.1 1.3 1.50.0 566057 0.1 0.1 0.21.5 562978 1.9 1.2 0.93.0 562979 2.9 1.3 0.84.5 562980 4.1 1.5 0.86.0 562981 5.4 1.8 0.97.5 562982 6.5 1.9 0.79.0 562983 7.5 2.1 0.710.5 562984 8.8 2.5 0.912.0 562985 10.0 2.9 1.013.5 562986 11.4 3.4 1.315.0 562987 12.2 3.3 0.916.5 562988 13.6 3.8 1.018.0 562989 14.7 3.8 0.819.5 562990 15.6 4.0 0.9
EQ Value Stock # 51 MHz 550 MHz 750 MHz
3. SMI System Design750 MHz Equalizer Insertion Loss Table1
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35.00 0.09 2.35 0.17 5.35 0.26 7.7440.00 0.08 2.45 0.16 5.27 0.23 7.8545.00 0.08 2.56 0.14 5.18 0.20 7.9550.00 0.07 2.64 0.13 5.34 0.19 7.9955.00 0.07 2.73 0.13 5.50 0.18 8.0260.00 0.07 2.88 0.12 5.50 0.17 8.0465.00 0.06 3.04 0.11 5.50 0.16 8.0670.00 0.06 3.04 0.11 5.71 0.15 8.2575.00 0.06 3.04 0.10 5.92 0.15 8.4480.00 0.07 3.15 0.10 6.01 0.14 8.5285.00 0.07 3.25 0.10 6.10 0.14 8.6190.00 0.07 3.36 0.10 6.19 0.13 8.69
Housing Only w/1 Module w/2 ModulesVolts Current Watts Current Watts Current Watts
3. SMI System Design4-Port Power Consumption*
w/3 Modules w/4 Modules35.00 0.36 11.07 0.50 14.7440.00 0.32 10.96 0.43 14.2545.00 0.27 10.86 0.37 13.7650.00 0.26 10.68 0.33 13.6055.00 0.24 10.50 0.30 13.4460.00 0.22 10.60 0.28 13.3065.00 0.21 10.71 0.26 13.1770.00 0.20 10.66 0.24 13.4375.00 0.19 10.61 0.23 13.6980.00 0.19 10.77 0.22 13.8185.00 0.19 10.94 0.21 13.9490.00 0.18 11.11 0.21 14.07
*Measurements are adjusted to compensate for changes over temperature.
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35.00 0.44 12.92 0.57 16.74 0.67 19.7840.00 0.40 12.92 0.50 16.24 0.58 19.2945.00 0.35 12.92 0.43 15.75 0.50 18.8050.00 0.50 18.80 0.50 18.80 0.46 18.7155.00 0.30 12.96 0.36 15.65 0.42 18.6360.00 0.28 13.11 0.34 15.77 0.39 18.7165.00 0.27 13.27 0.32 15.90 0.37 18.8070.00 0.26 13.56 0.30 16.03 0.36 19.0175.00 0.25 13.86 0.29 16.17 0.35 19.2280.00 0.24 14.10 0.28 16.31 0.33 19.4685.00 0.23 14.35 0.26 16.45 0.31 19.7090.00 0.23 14.60 0.25 16.59 0.30 19.95
35.00 0.18 5.25 0.26 7.81 0.36 10.3340.00 0.17 5.20 0.24 7.79 0.32 10.3645.00 0.15 5.15 0.21 7.77 0.28 10.4050.00 0.14 5.27 0.20 7.89 0.26 10.5055.00 0.13 5.40 0.19 8.02 0.25 10.6160.00 0.13 5.48 0.18 8.23 0.23 10.7165.00 0.13 5.57 0.18 8.44 0.22 10.8270.00 0.13 5.85 0.17 8.63 0.22 11.0875.00 0.13 6.13 0.17 8.82 0.21 11.3480.00 0.13 6.44 0.16 9.12 0.21 11.6685.00 0.13 6.76 0.16 9.43 0.21 11.9890.00 0.13 7.08 0.16 9.74 0.20 12.31
Housing Only w/1 Module w/2 ModulesVolts Current Watts Current Watts Current Watts
w/3 Modules w/4 Modules w/5 Modules
3. SMI System Design8-Port Power Consumption*1
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w/6 Modules w/7 Modules w/8 ModulesCurrent Watts Current Watts Current Watts Volts
0.80 22.58 0.87 25.73 0.97 28.81 35.000.71 22.39 0.75 25.12 0.84 27.96 40.000.62 22.20 0.64 24.52 0.71 27.11 45.000.57 22.02 0.58 24.18 0.65 26.84 50.000.52 21.84 0.53 23.84 0.59 26.57 55.000.48 21.68 0.50 23.86 0.55 26.81 60.000.45 21.53 0.47 23.89 0.51 27.05 65.000.44 21.70 0.45 24.10 0.49 27.02 70.000.43 21.88 0.43 24.31 0.47 26.99 75.000.41 22.09 0.41 24.53 0.45 27.21 80.000.39 22.30 0.39 24.76 0.44 27.43 85.000.37 22.51 0.38 24.99 0.43 27.66 90.00
3. SMI System Design8-Port Power Consumption* 1
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4. SMI Installation GuidelinesRequired tools and accessories
The table below lists the typical tools and accessories required for asafe installation process.
Item Used forTorque wrench (in.-lbs and ft-lbs) Tightening the closure bolts and all screwsFlatblade screwdriver, 0.187 in. Tightening seizure block screwsmaximum blade widthPhillips-head screwdriver Tightening power supply retainer screws
and subscriber module retainer screws7/16 in. open-end wrench Tightening subscriber drop output
F-connectorsCoring tool or equivalent Preparing the feeder cable for connection
to feeder portHard-line connectors, Connecting the feeder cable to feeder port5/8 in. standard threadsAdjustable crescent wrench, size Tightening of hard-line connectorsappropriate for hard-line to feeder portconnector (You may need two wrenches, one for each end of the connector, depending on the connector type.)Propane torch or equivalent with Shrinking environmental protection heat shrink boot or fittings, and around connectorenvironmentally protective tape
RF signal level meter Measuring input and output levelsHand-held digital multimeter Measuring test point voltages
Caution: Propane torch should not be used on drop cable.
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4. SMI Installation Guidelines
During installation, it is important you make the proper electrical connec-tions and ensure the unit closes securely to prevent water damage. Werecommend you review the “Key items to remember” below during aninitial installation or upon subsequent opening and closing of the inter-diction housing.Key items to remember:• Splicing:- When splicing the hard-line cable into the interdiction housing,
make sure the “stinger” in the hard-line body connector is cut in accordance with the appropriate “strip” guide adjacent to each port on the housing. CAUTION: Each port requires a different stinger length.
• Tightening:- Use a calibrated torque wrench to tighten each nut, bolt, and connector
according to the specifications listed in the following bullets.- Tighten the hard-line connector & stinger between 10 ft-lbs & 15 ft-lbs.- Tighten the seizure block screws between 9 in.-lbs and 11 in.-lbs.
Make sure not to tighten these screws until you tighten the hard-line connector first.
- Tighten the capture screws on the subscriber modules between 9 in.-lbs and 11 in.-lbs.
- In an aerial-mounted unit, tighten the strand clamp bolts between 5 ft-lbs and 7 ft-lbs.
- Tighten closure bolts between 5 ft-lbs and 7 ft-lbs in the appropriate sequence for both the 4-port & 8-port units. See the illustrations on the following page.
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4. SMI Installation GuidelinesTorque Patterns
1Start Here
2
3
4
5
6
1Start Here
2
3
4
4-PORT
8-PORT
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4. SMI Installation GuidelinesSMI Mounting Configurations
There are two mounting configurations available for all 4-port and 8-port interdiction housings: • Strand-mountedThe feeder cable enters one end of the unit and exits the opposite end.The unit has two strand clamps with bolts and uses a standard cablestrand for mounting.• Pedestal-mountedThe feeder cable enters and exits the unit on the same end.
Key items to remember• Seizure board position can confirm mounting type:- The seizure board position is determined prior to shipment by the
model code and part number. See “Strand-mount illustration (4-port)” and “Pedestal-mount illustration (4-port)” on the following pages.
Note: We recommend you not handle the seizure board during installation. Repositioning the seizure board may affect the SMI unit’sperformance.
• Housing position may be modified:- Notice the housing has hinges on either side allowing you to modify
for easy install. Depending on the type of installation, you may have to rotate the housing bottom, which holds the subscriber module, to place the drop-port connections in the best position for cablerouting and maintenance.
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4. SMI Installation GuidelinesSMI Mounting Configurations
• Feeder Cable Direction:- The two SMI unit seizure blocks are indicated in the figures below
as J1 and J2. The recommended feeder direction of the SMI unit is with J1 as the Input Port and J2 as the Output Port 1. When either RF or AC is being terminated at the unit, the unit MUST have J1 as the input port (for more information see “Balancing and Alignment”). Otherwise, when neither the RF or AC is being terminated, the SMI units may have J2 as the Input Port if required for mounting purposes.
NOTE: The directional coupler board is silk screened with an arrowwhich identifies the direction of signal flow (from the Input port to theOutput port).
J2Thru
J1In
FowardSignal
FowardSignal
J2In
FowardSignal
FowardSignal
J1Thru
Pedestal mount illustration (4-port)
RREECCOOMMMMEENNDDEEDD
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Strand-mount illustration (4-port)
SignalDirection
ForwardSignal
J1In
ForwardSignal
SignalDirection
J2In
J1Thru
J2Thru
4. SMI Installation GuidelinesSMI Mounting Configurations
RREECCOOMMMMEENNDDEEDD
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4. SMI Installation GuidelinesBalancing and Alignment
The distribution system design determines the initial selection of DCand EQ values. The actual feeder levels, however, may be different atthe time of installation. To ensure the unit operates normally despitevariations in feeder levels, it is recommended to balance each unit inthe field using proper balancing techniques.Remember, the SMI unit has an AGC with a range of ±4.5 dB. Key items to remember• Locating P5 jumper:
- The P5 jumper is stored during shipping in the DC pin holes on the seizure board. Find and remove this jumper; then, set it aside to use later.
• Determining actual signal level:
- At the feeder input of the interdiction device, plug a -20 dB test connector, part number (P/N) 376602, in place of the DC and measure the level at channel 2, 55.25 MHz and either channel 78, 562.25 MHz or channel 116, 745.25 MHz. Add 20 dB to the measured levels to compensate for the attenuation in the test connector.
The key steps in balancing & aligning the unit are:1. Measure input levels
with test connector2. Determine DC & EQ
values with slide cards & install
3. Verify unit set up by measuring AGC voltage
4. Measure outputlevels
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4. SMI Installation GuidelinesBalancing and Alignment
• Determining actual signal level (continued):
The minimum input level The minimum input level for a 4-port unit is: for an 8-port unit is:
17.0 dBmV @ 51 MHz 20.5 dBmV @ 51 MHz23.0 dBmV @ 550 MHz 26.5 dBmV @ 550 MHz24.0 dBmV @ 650 MHz 27.5 dBmV @ 650 MHz25.0 dBmV @ 750 MHz 28.5 dBmV @ 750 MHz
• Determining the correct DC and EQ value:
- Use the appropriate DC and EQ reference cards, P/N 570201 for the 8-port or P/N 570202 for the 4-port, to determine the correct values that correspond to your system design. Contact Blonder Tongue if you do not have these cards.
• The correct DC ensures that proper levels are present at the input to the AGC network.
• The correct EQ ensures you achieve the proper uptilt to matchthe tilt of the jamming carriers.
• Removing and replacing the seizure board cover:
- Do not remove the seizure board cover until you are ready to move jumpers.
- Make sure to replace the seizure board cover before you plug-in a DC and EQ.
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4. SMI Installation GuidelinesBalancing and Alignment
The SMI unit has a series of jumpers whose position is determined bythe RF and AC status of the unit. The selection of DC determines the RF status: values 0, 1, 2, or 3 dB are terminating and the remaining DCs(4-31.5 dB) are non-terminating DCs.
• With a non-terminating DC (4-31.5 dB), determine which of the first three scenarios applies:1) Scenario 1 - Both Power and RF are required at the feeder output:• Leave both the P1 and P2 jumpers in place on the seizure board.• Discard the P5 jumper.• J1 or J2 = Input or Output
1 2 PS
3
4
Scenario 1 Scenario 2 Scenario 3 Scenario 4
DC Value 4-31.5 dB 4-31.5 dB 4-31.5 dB 0, 1, 2, 3 dB
AC Termination No Yes Yes Yes
RF Termination No No Yes - Add 75 Yes - DCOhm Term Term
Input Seizure Block J1 or J2 J1 Only J1 Only J1 Only
Jumper Configuration P1 - Leave P1 - Leave P1 - Pull P1 - Pull
P2 - Leave P2 - Pull P2 - Leave P2 - Leave
P5 - Discard P5 - Discard P5 - Install P5 - Install
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4. SMI Installation GuidelinesBalancing and Alignment
2) Scenario 2 - RF is required at the feeder output for the next unit in the cascade, but there is insufficient AC current to power the next unit:
• Leave P1 jumper in place.• Remove the P2 jumper from the seizure board to block AC from
the feeder output. Another power source must provide AC to the next unit in cascade.
• Discard the P5 jumper.• J1 = Input; J2 = Output.3) Scenario 3 - The unit is the “end-of-line“:• Remove P1 jumper.• Leave P2 jumper in place.• Install P5 jumper.• J1 = Input; J2 = Output.• Install a 75 W terminating output connector.4) Scenario 4 - With a terminating DC (0, 1, 2, 3 dB):• Remove the P1 jumper on the seizure board to prevent AC
current from reaching the feeder.• Leave the P2 jumper in place.• Install the P5 jumper into the appropriate place marked P5 on the
seizure board. Remember, you previously removed P5 from the DC pin holes.
• J1 = Input; J2 = Output.
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4. SMI Installation GuidelinesBalancing and Alignment
• Installing the DC and EQ:- Plug the DC and EQ into the appropriate places on the seizure
board. The silk-screen arrow on the DC should point in the same direction as the signal flow.
• Measuring the AGC voltage:
- Make sure to measure the AGC voltage at TP 3*. A measurement between 7.0 V DC and 8.4 V DC indicates the AGC is in the optimal range.
• If the AGC voltage measurement is higher, add “1” to the original feeder input level values.
• If the AGC voltage measurement is lower, subtract “1” from the original feeder input level values.Note: You determined the original feeder input values in the second bullet of this section.
Use the DC and EQ charts, P/N 570201 for the 8-port or P/N570202 for the 4-port, to select a new DC and EQ value. Plug inand re-measure the AGC voltage at TP3. Repeat this activity untilyou achieve the optimal AGC range.*Note: To identify TP3, look for the silk-screened reference indicator. See the “Motherboard illustration (4-port)” later in this section.
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4. SMI Installation GuidelinesBalancing and Alignment
• Measuring the subscriber module output level:- Measure the level at the subscriber module output. The level at the
output should measure:• 10.0 dBmV ± 0.5 dB @ 51 MHz• 16.0 dBmV ± 0.5 dB @ 550 MHz• 17.0 dBmV ± 0.5 dB @ 650 MHz• 18.0 dBmV ± 0.5 dB @ 750 MHz
Seizure Board illustration (4-port)
Above is an illustration of a seizure board in a 4-port SMI unit with astrand configuration. In a pedestal configuration, the seizure boardposition is oriented 90 degrees counterclockwise.
J2 Seizure Block P2 Power JumperP5 Terminating Jumper
P1 Power Jumper
J1 Seizure Block
Directional Coupler
J4 Seizure Block
J5 Seizure Block Equalizer
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The key steps in balancing & aligning the unit are:
1. Measure input levels with test connector
2. Determine DC & EQ values with slide cards & install
3. Verify unit set up by measuring AGC voltage
4. Measure output levels
4. SMI Installation GuidelinesBalancing and Alignment
Below is an illustration of a motherboard in a 4-port SMI unit. The 8-port unit (not illustrated) contains two 4-port mother-boards.
Motherboard illustration (4-port)
Power Supply
G-Male RFMotherboard
Connectors toSubscriber Module
G-FemaleConnectors to
Drop Port
G-FemaleConnectors to
Drop Port
Edge CardConnectors for
Subscriber Modules
TP3 AGCVoltage
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4. SMI Installation GuidelinesPassing Power to the Home
Some 750 MHz SMI units and subscriber modules are capable of pass-ing 37-90 V AC power to each subscriber port. This capability providespower to a telephony or data network interface unit (NIU)/customerinterface unit (CIU) such as NORTEL CORNERSTONE or TELLABS...
In order to pass power to the home, you must use a power passingsubscriber module, a 750 MHz housing equipped with a power passingpower supply and have a CIU in place. If you have the first two compo-nents and a CIU is not in place, power passes directly to the sub-scriber’s TV or VCR causing damage.
Important! To avoid damaging the subscriber’s TV or VCR when noCIU is in place, use the following table to determine which subscribermodule to install. Your selection is based on which 750 MHzhousing/power supply combination you have.
If 750 MHz housing is You can use...equipped with a...non-power passing any subscriber module.power supply,power passing P/N 564265 (without optionalpower supply, power passing jumper installed),
or P/N 566024 (no power passing capability).
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4. SMI Installation GuidelinesPassing Power to the Home
The following are some key items to remember about passing power to the home:
• If a CIU is not in the home:- Make sure during installation that power is not present at the
subscriber port. Use the proper 750 MHz housing/power supply/subscriber module combination so not to pass power.
• If a CIU is in the home:- Power passes from the subscriber port to the CIU, so install the
optional power passing jumper P/N 568839 in the direction indicated on the subscriber module P/N 564265.
Caution:If no CIU is present at the subscriber drop, do not install a power passing subscriber module in a 750 MHz housing equipped with a
power passing power supply or severe damage to the subscribersTV or VCR may result.
!
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4. SMI Installation GuidelinesPassing Power to Unused Feeder Ports
The 750 MHz interdiction housings are capable of passing power to theunused feeder port. The available port depends on whether the mount-ing configuration is strand or pedestal.Key items to remember• If you have a:
- strand-mounted unit:• Loosen (J4) seizure block screw.
- pedestal-mounted unit:• Find (J5) seizure block; then locate the hard-line tube
connected to J5 seizure block. Loosen the seizure block screwlocated at the opposite end of the hard-line tube from J5 seizure block.
• Installing the hard-line connector:- Make sure you place the hard-line connector (stinger) into the
unused feeder port and tighten between 10 ft-lbs and 15 ft-lbs. • Tightening:
- Make sure you re-tighten the seizure block screw (J4 or J5) between 9 in.-lbs and 11 in.-lbs.
Caution:Keep AC power off the feeder cable during installation of any line equipment.!
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5. SMI Unit Activation
The SMI unit has factory default parameters that immediately activate all ports upon initial installation. There are nojamming frequencies assigned at the factory. This allows the full spec-trum of channels to pass, “in the clear,” to the subscriber drop portonce you install a subscriber module.
The subscriber module will pass signal to the subscriber port “in theclear” until the iCentral authorizes the subscriber module with theappropriate level of service. Once you install both the interdiction unitand subscriber module and turn on the AC, the refresh timer starts.The factory default is 25 days.
Important!: You must activate at least one subscriber port within therefresh timer period or all subscriber ports deactivate.
Key items to remember
• Subscriber module installation location and sequence:
- Install the subscriber module into the appropriate port location. We recommend you install each subscriber module in sequence.
• Serial numbers and port addresses:
- Report the proper serial number and port address to ensure authorization. The first 9 digits correspond to the serial number. The last 7 digits correspond to the hexadecimal address, which the iCentral uses to communicate to each subscriber port.
- Make sure the address matches the port used in the installation.
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5. SMI Unit Activation
• Subscriber modules and port locations:
- During an installation, always start with port 1 for the first subscriber module installation, port 2 for the second module, and so on.
• Authorization:
- Make sure the Customer Service Representative (CSR) authorizes the port address with the proper level of service.
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5. SMI Unit ActivationReverse Path Activation
The subscriber module when installed in a 750 MHz housing is capable ofreturning reverse signals from a CIU. The subscriber module supportseither 5-30 MHz or 5-40 MHz return. The subscriber module that supports5-40 MHz return also provides independent addressable on/off control ofthe reverse path for each subscriber port.Key items to remember• Activating the reverse path:- When activating the reverse path for an individual subscriber, make
sure you clip the lead of the 75 Ω terminating resistor located on the reverse combiner board to allow passage of reverse signals. You will find the reverse combiner board located directly above the motherboard,held with two screws, and next to the power supply. Each subscriber port has a 75 Ω terminating resistor.
- Make sure you plug-in the reverse path cable connector from the reverse combiner board into the rear of the subscriber module.
• Measuring the output level of the reverse path signal:- Remove the DC and plug in the -20 dB test connector P/N 376602 and
verify return path level (-10.5/14.5 for 4/8 pin unit).• Enabling reverse path:- Make sure the central control computer enables the reverse path
switch for subscriber module P/N 564265 where appropriate.• Subscriber module removal:- If you remove a subscriber module, make sure you resolder the lead of
the 75 W terminating resistor located on the reverse combiner board.All sub modules support 5-30 unswitched passive return except564265.Part number 564265 supports switched 5-40 MHz return.
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6. SMI Troubleshooting
The SMI unit has several diagnostic indicators that provide feedback ifthere is a failure or someone tampers with the unit. The indicators arevideo flashes on the subscriber’s television followed by a period of dis-connect. These indicators continue indefinitely until you take the appro-priate troubleshooting action. The information below lists the diagnos-tic indicator and the following information about them:• Conditions• Indicators• Subscriber ports affected• Action that resolves the conditionKey items to remember• TAMPER--1 flash
- With the tamper feature enabled, a tamper condition occurs whenthere is unauthorized entry into the interdiction unit.This condition:• Affects all subscribers ports• Results in all subscriber ports disconnecting and one flash of
video every 9 seconds• Continues flashing in this disconnect state until the
addressable control computer secures and refreshes the unitAn addressable tamper override function in the central controlcomputer allows the system operator to override the tamper condition for authorized entry.
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6. SMI Troubleshooting
• REFRESH TIMER--2 flashes- The refresh timer condition occurs when the interdiction unit
does not receive at least one valid addressable command within the refresh timer limit. This condition:• Affects all subscriber ports• Results in all subscriber ports disconnecting and two flashes
of video every 9 seconds • Continues flashing in the disconnect state until the unit
receives an addressed transaction for one of the subscriber ports
The refresh timer period is a global system parameter defined from3 to 25 days. The factory default is 25 days. The central controlcomputer automatically schedules periodic authorized channelrefreshes to ensure units are addressed at least twice within therefresh timer period.
• VCO FAILURE--4 flashes- The VCO failure condition occurs when any or all of the five VCOs
within a subscriber module fail self-calibration.This condition:• Affects only subscriber modules that fail self-calibration• Results in all failed subscriber modules disconnecting with
four flashes of video every 9 seconds• Continues flashing until the VCO passes self-calibration or you
replace the defective subscriber module The VCO re-calibration period can be set between 1 and 15 minutes. Factory default is 2 minutes.
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7. SMI Jamming WorksheetSMI Interdiction
454443
42
414039
38
37
36
3534333231
3029282726
25
24
2313
12
1110
9
87
222120
19
1817
161514
6
5
432#
CH
OFF-AIR
OFF-AIR
OFF-AIROFF-AIROFF-AIR
OFF-AIR
OFF-AIR
OFF-AIROFF-AIR
OFF-AIR
OFF-AIR
OFF-AIR
PROGRAMTIME
DWELL #Oscillators SLOTS
21 3 4 5 6 7 8 9 10 11 12 13 14 15 16
11
11
11
111
2
2
2
22
22
2
222
22
333
3
33
333
33
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SMI
7. SMI Jamming Worksheet
SMI Interdiction
86
858483
82
81
80
7978777675
7473727170
69
68
6766
65
6463
62
6160595857
56
5554
535251
50
49
484746#
CHPROGRAMTIME
DWELL #Oscillators SLOTS
21 3 4 5 6 7 8 9 10 11 12 13 14 15 16
44
44
44
444
5
5
5
55
55
5
555
55
5
5
4
44
4
3
4
4
4
3
1
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SMI
USEFUL TECHNICAL DATAThe DecibelThe decibel (dB) provides a means of representing large power ratiosas manageable, small numbers, and allows the overall gains and lossesin a module or a network to be calculated by addition and subtraction,rather than by multiplication and division.The original unit is the Bel (named after Alexander Graham Bell). Thedecibel is one-tenth of a Bel. The power ratio of two power measure-ments is calculated as follows:
Ratio of power P1 to power P2, in dB:
The power ratio of two voltage measurements is calculated as follows:Power ratio of voltage V1 to voltage V2, in dB:
Voltage ConfusiondBmV and dBµV expressions of power contain an upper case V. Thisdoes not mean they are expressions of voltage. They are expressionsof power. When all the power scales (dBm, dBmV and dBµV) are laidnext to each other, it is easy to see that each track on a dB for dB basis(see section 6; pages 2 and 3).
dB = 10 log P 1P 2
•
dB = 20 log V 1V 2
•
2
1
Power ConversionsdBmVA power measurement of ‘x dBmV’ indicates that a particular signal is x dB greater than (‘above’) 1 millivolt in 75 ohms. A negative dBmV value indicates that the signal is x dB less than (‘below’) 1 millivolt in 75 ohms.To convert x millivolts to dBmV:
dBµVSimilarly, a measurement of ‘x dBµV’ indicates that the signal is x dBabove one microvolt in 75 ohms.To convert x microvolts to dBµV:
To convert dBmV to dBµV, add 60 to the dBmV reading:
dBmA measurement of ‘x dBm’ indicates that a particular signal is x dBgreater than (‘above’) 1 milliwatt. A negative dBm value indicates thatthe signal is x dB less than (‘below’) 1 milliwatt.To convert x milliwatts to dBm:
dBµV = 20 log (x microvolts)
x dBµV = x dBmV + 60
dBm = 10 log (x milliwatts)
2
2
dBmV = 20 log (x millivolts)
Power Conversion (continued)A power level, in dBmV, can be converted directly to power in dBm, ifthe impedance, Z. is known:To convert x dBmV directly to dBm:
The inverse operation is also possible if impedance is known:To convert dBm directly to dBmV:
Impedance MismatchIt frequently happens that the input impedance of a measuring device(spectrum analyzer; field strength meter, etc.) does not match theimpedance of the system under test. In such a case, a correction mustbe made to the reading displayed on the instrument.
Where Zi is the impedance of the instrument, and Zs is the impedance of the system under test.
dBm = 10 log
x 10
Z 1000 • • 10
dBmV = 10 log
x 10
Z 1000 10 • • •
Correction (in dB) = 10 log Zi
Z s•
2
3
± 5% Standard Resistor Values (Ω)Commonly available values. Values from 10 Ω to 22 MΩ by powers of 10.
±1% Standard Resistor Values (Ω)Values from 10 Ω to 22 MΩ by powers of 10.
STANDARD RESISTOR COLOR CODES AND VALUESFIRST SECOND MULTIPLICATION
TOLERANCE
BLACK =0BROWN =1
RED =2ORANGE =3YELLOW =4
GREEN =5BLUE =6
VIOLET =7GRAY =8
WHITE =9
BLACK =0BROWN =1
RED =2ORANGE =3YELLOW =4
GREEN =5BLUE =6
VIOLET =7GRAY =8
WHITE =9
SILVER MULTIPLY BY 0.01GOLD MULTIPLY BY 0.1
BLACK MULTIPLY BY 1BROWN MULTIPLE BY 10
RED MULTIPLY BY 100ORANGE MULTIPLY BY 1000YELLOW MULTIPLY BY 10000
GREEN MULTIPLY BY 100000BLUE MULTIPLY BY 1000000
GOLD = ± 5%SILVER = ± 10%
NOBAND = ± 20%
10.0 13.3 17.8 23.7 31.6 42.2 56.2 75.010.2 13.7 18.2 24.3 32.4 43.2 57.6 76.810.5 14.0 18.7 24.9 33.2 44.2 59.0 78.710.7 14.3 19.1 25.5 34.0 45.3 60.4 80.611.0 14.7 19.6 26.1 34.8 46.4 61.9 82.511.3 15.0 20.0 26.7 35.7 47.5 63.4 84.511.5 15.4 20.5 27.4 36.5 48.7 64.9 86.611.8 15.8 21.0 28.0 37.4 49.9 66.5 88.712.1 16.2 21.5 28.7 38.3 51.1 68.1 90.912.4 16.5 22.1 29.4 39.2 52.3 69.8 93.112.7 16.9 22.6 30.1 40.2 53.6 71.5 95.313.0 17.4 23.2 30.9 41.2 54.9 73.2 97.6
1.0* 1.8* 3.3* 5.6*1.1 2.0* 3.6 6.21.2* 2.2 3.9* 6.8*1.3 2.4 4.3 7.51.5* 2.7* 4.7* 8.21.6 3.0 5.1 9.1
InsulatedResistor Body
2
4
SYSTEM CALCULATIONS
Carrier/Cross Modulation (XM)1. Cross Modulation for One Amplifier at Operating Level:
2. To Sum Identical Cross Modulation Ratios:
See charts & example (pages 3.13, 3.14, 3.15). 3. To Sum Different Cross Modulation Ratios:
See example (page 3.13). 4. Cross Modulation vs Channel Loading
XM = Cross Modulation Ratio, expressed as a negative (-) number.Rule: 1 dB change of the output of an amplifier will change the crossmodulation by 2 dB.Rule: For every double the number of amplifiers with identical crossmodulation there is a 6 dB degradation in the total cross modulation.
XM = XMREF +2 (Output Level - Reference Level)
XMS = XM -20 • log10 N
XM = -20 • log10 10 +10 +10 -XM1
20 -XM2
20 -XMn 20
XMS = 20 • log10 Channel Loadnew -1 Channel Loadref -1
3
1
SYSTEM CALCULATIONS
Carrier/Composite Triple Beat (CTB)1. Composite Triple Beat for One Amplifier at Operating Level:
2. To Sum Identical Composite Triple Beat Ratios:
See charts & example (pages 3.13, 3.14, 3.15). 3. To Sum Different Composite Triple Beat Ratios:
See example (page 3.13). 4. Composite Triple Beat vs Channel Loading:
A 1 dB change of the output of an amplifier will change the CTB ratioby 2 dB.For every double the number of amplifiers with identical CTB, there is a6 dB degradation in the total CTB ratio.
CTB = CTBREF +2 (Output Level - Reference Level)
CTBS = CTB - 20 log10 N
CTBS = -20 log10 10 +10 +10 -CTB1 -CTB2
20 -CTBn
20 20
∆CTB = 10 log10 Beat Qtynew
Beat Qtyref
3
2
SYSTEM CALCULATIONS
Carrier/Single Second Order Distortion (C/SSO)1. Single Second Order Beat for One Amplifier at Operating Level:
2. To Sum Identical SSO Ratios:
See charts & example (pages 3.13, 3.14, 3.15). 3. To Sum Different SSO Ratios:
See page 3.13 for explanation.
A 1 dB change of the output of an amplifier will change SSO by 1 dB.The 10 log assumptions shown here for second order are conservative.Some engineers use 13 log or 15 log assumptions.
SSO = SSOREF +(Output Level - Reference Level)
SSOS = SSO - 10 • log10 N
SSOS = -10 log10 10 +10 +10
-SSO1 -SSO2 10
-SSOn 10 10
3
3
SYSTEM CALCULATIONS
Carrier/Composite Second Order Distortion (C/CSO)
1. Composite Second Order for One Amplifier at Operating Level:
2. To Sum Identical CSO Ratios:
See charts & example (pages 3.13, 3.14, 3.15). 3. To Sum Different CSO Ratios:
See example (page 3.13). 4. CSO vs Channel Loading:
A 1 dB change of the output of an amplifier will changeCSO by 1 dB.
CSO = CSOREF +(Output Level - Reference Level)
CSOS = CSO - 15 • log10 N
CSOS = -15 log10 10 +10 +10
-CSO1 -CSO2 15
-CSOn 15 15
∆CSO = 10 log10 CSO Beat Qtynew
CSO Beat Qtyref
3
4
SYSTEM CALCULATIONS
Composite Intermodulation Noise (CIN)
It is assumed that CIN is dominated by 3rd order distortion(CIN3). This is the case in systems with analog televisionchannels to 550 MHz and digital video above 550 MHz.
1. Composite Intermodulation Noise for One Amplifier at Operating Level.
2. To Sum Identical Composite Intermodulation Noise Ratios:
See charts & example (pages 3.13, 3.14, 3.15). 3. To Sum Different Composite Intermodulation Noise
Ratios: See page 3.13 for example.
4. To Sum Carrier/Noise and Composite Intermodulation Ratios:
Rule: CIN behaves like CTB in a cascade of amplifiers, but itadds to the C/N noise.
CIN = CINREF +2 (Output Level - Reference Level)
CINS = CIN - 20 log10 N
CINS = - 20 log10 10 +10 +10
-CIN1 -CIN2 20
-CIN320 20
C/Ns = 10 log10 10 +10
-CIN-C/N
20 20
3
5
SYSTEM CALCULATIONS
Carrier/Hum Modulation (C/H)
1. To Sum Identical Carrier/Hum Ratios:
See charts & example (pages 3.13, 3.14, 3.15). 2. To Sum Different Carrier/Hum Ratios:
See page 3.13 for example.
Note: Above calculations assume connection of all powersupplies to the same powerline phase.
3. To Convert Percent Hum to C/H Ratio:
4. To Convert C/H Ratio to % Hum:
C/HS = C/H - 20 • log10 N
C/HS = - 20 • log10 10 +10 +10
-C/H1 -C/H2 20
-C/Hn20 20
C/H (dB) = 20 • log10
100% Hum
Percent Hum = 10 • 100-C/H
20
3
6
SYSTEM CALCULATIONS
Carrier/Noise
1. The Carrier/Noise contribution of a single amplifier when the Noise Figure (NF) is known:
2. To Sum Identical Carrier/Noise Ratios:
See charts & example (pages 3.13, 3.14, 3.15)3. To Sum Different Carrier/Noise Ratios:
See page 3.13 for example.4. Carrier/Noise Ratio vs Bandwidth:
N = Number of equal contributorsNF = Noise FigureG = Gain-59.4 = Thermal Noise in 4 MHz Bandwidth (dBmV)Rule: For every 1 dB increase in input signal level, the C/N improves by 1 dB. For everydouble the number of amplifiers with identical Carrier/Noise Ratios there is adegradation of 3 dB in the total C/N.
C/No = Input Level + 59.4 - NF
C/No = C/N -10 • log10N
C/NS = -10 • log10 10 +10 +10
-C/N1 -C/N2 10
-C/Nn 10 10
∆C/N = 10 • log10 Bandwidthnew
Bandwidthref
3
7
3
8
SYSTEM CALCULATIONSTVRO FORMULAS
1. System Gain Over Temperature
Ag = Antenna Gain (dB)AT = Antenna Temperature (˚K)LNAT = Low Noise Amp Temperature (˚K)
2. Carrier to Noise Ratio*
3. C/N for other RxBw
4. Convert C/N to S/N*
5. Declination Angle (Polar Mount Antenna)
3964 = Radius of the Earth22300 = Distance to Satellite ArcL = Site Latitude
* RxBw = 30 MHz
G/T = Ag -10 Log (AT + LNAT)
C/N = G/T + EIRP -43
C/N = (10 Log ) X 30
Declination = tan -1 3964 SIN L
22300 + 3964 (1-cos L)
S/N = C/N +38
3
9
SYSTEM CALCULATIONSAZIMUTH AND ELEVATION ANGLESAntenna pointing angles can be calculated in degrees fromtrue north from the following equations:
where ∆ is the absolute value of the difference betweensatellite and TVRO site longitudes and Φ is the site latitude.
NOISE TEMPERATURE & NOISE FIGURENoise Noise Noise NoiseFigure Temperature Figure Temperature(dB) (˚K) (dB) (˚K)2.0 170 0.9 671.9 159 0.8 591.8 149 0.7 511.7 139 0.6 431.6 129 0.5 351.5 120 0.4 281.4 110 0.3 211.3 101 0.2 141.2 92 0.1 71.1 84 001.0 75
Azimuth Angle = cos [-tanΦ/ tan Y] -1
Elevation Angle = tan [(cos Y -0.15116)/ sin Y] -1
Y = cos [cosΦ cos∆] -1
SYSTEM CALCULATIONSDETERMINING ACCEPTABLE PEAK-TO-VALLEY DEVIATION
To determine what degree of overall peak-to-valleydeviation is acceptable for the Nth amplifier in a cascade,use this formula.
Where x is equal to the acceptable P-V deviation and, N = number of amplifiers in cascade.
For example, what is the maximum acceptable peak-to-valley deviation at the 32nd amplifier in a cascade?
Thus, 4.2 dB is the maximum acceptable peak-to-valleydeviation (highest peak to lowest valley in the broadbandsignal) at the 32nd amplifier.
X (in dB) = +1N10
X = +1 = 4.2 dB3210
3
10
C/N + SSO CSO CTB & XMODCASCADE (N) 10*LOG(N) 15*LOG(N) 20*LOG(N)
1 0.00 0.00 0.002 3.01 4.52 6.023 4.77 7.16 9.544 6.02 9 03 12.045 6.99 10.48 13.986 7.78 11.67 15.567 8.45 12.68 16.908 9.03 13.55 18.069 9.54 14.31 19.08
10 10.00 15.00 20.0011 10.41 15.62 20.8312 10.79 16.19 21.5813 11.14 16.71 22.2814 11.46 17.19 22.9215 11.76 17.64 23.5216 12.04 18.06 24.0817 12.30 18.46 24.6118 12.55 18.83 25.1119 12.79 19.18 25.5820 13.01 19.52 26.0221 13.22 19.83 26.4422 13.42 20.14 26.8523 13.62 20.43 27.2324 13.80 20.70 27.6025 13.98 20.97 27.96
3
11
SYSTEM CALCULATIONSAMPLIFIER CASCADE FACTOR
3
12
The Amplifier Cascade Factor Chart (on previous page) isused to predict performance considering the contribution ofvarious numbers of amplifiers. It assumes that all amplifiersare operated at the same level (input level for noise, outputlevel for distortion). This is generally the case in a UnityGain Based System.
Example: What is the trunk CTB after 13 trunk amplifiers?
Given: 1 Single trunk amplifier CTB specification is 87 dB @ 32 dBmV flat (from Manufacturers. specs.)
2 Trunk output is 25 dBmV, channel 2Trunk output is 32 dBmV, channel 60(7 dB linear tilt)
Step 1 Re-rate performance of single amp based on actual operating level.
Geometric tilt center = 28.5 dBmV
Add .5 dB correction factor = 29 dBmV average level
32 - 29 = 3 dB x 2 (for CTB) = 6 dB
87 dB + 6 dB = 93 dB CTB @ 29 dBmV average level
Step 2 Find cascade factor for CTB for 13 amps, on the chart = 22.28 dB
Step 3 Subtract cascade factor from single amp operating performance
93 dB - 22.28 = 70.72 dB
CTB = 70.72 dB after 13 amps
SYSTEM CALCULATIONSAMPLIFIER CASCADE FACTOR
SYSTEM CALCULATIONS EXAMPLE
Note: Summing different ratios requires a grasp of the antilog concept.For brevity, the example shown is for CTB only, but the approach isidentical for all system distortion and noise calculations.
Determine End Of Line CTB Given The Following:10 Trunk CTB = 65 dBc1 Bridger CTB = 60 dBc
3 Line Extender CTB = 58 dBc
Step 1. CTBs = 20 log (10 + 10 + 10 )
Step 2. CTBs = 20 log (10 + 10 + 10 )
CTBs = 20 log (antilog -3.25 + antilog -3.00 + antilog -2.90)
Note: To perform the operations in step 2, use the “inverse” log or“antilog” function on most calculators. Antilog (Inverse Log) isused to re-express the different exponent values to voltage so theamounts may be easily summed. Don’t forget the minus sign.
Step 3. CTBs = 20 log (5.62 x 10 + 1 x 10 + 1.26 x 10 )
Step 4. CTBs = 20 log (5.62 x 10 + 10 x 10 + 12.6 x 10 )
Step 5. CTBs = 20 log (28.12 x 10 )
CTB = 51 dBc
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13
-65 -60 -5820 20 20
-3.25 -3.00 -2.90
-4 -3 -3
-4 -4 -4
-4
The 20 Log and 10 Log function derate charts & example on page 3.14, 3.15 & 3.16may also be used to sum different ratios if a scientific calculator is not available.
3
14
diff SUBTRACTION VALUES(dB) 0.00 0.10 0.20 0.30 0.40 0.50 0.60 0.70 0.80 0.90
0 6.02 5.97 5.92 5.87 5.82 5.77 5.73 5.68 5.63 5.581 5.53 5.49 5.44 5.39 5.35 5.30 5.26 5.21 5.17 5.122 5.08 5.03 4.99 4.95 4.90 4.86 4.82 4.78 4.73 4.693 4.65 4.61 4.57 4.53 4.49 4.45 4.41 4.37 4.33 4.294 4.25 4.21 4.17 4.13 4.10 4.06 4.02 3.98 3.95 3.915 3.88 3.84 3.80 3.77 3.73 3.70 3.66 3.63 3.60 3.566 3.53 3.50 3.46 3.43 3.40 3.36 3.33 3.30 3.27 3.247 3.21 3.18 3.15 3.12 3.09 3.06 3.03 3.00 2.97 2.948 2.91 2.88 2.85 2.83 2.80 2.77 2.74 2.72 2.69 2.669 2.64 2.61 2.59 2.56 2.53 2.51 2.48 2.46 2.44 2.4110 2.39 2.36 2.34 2.32 2.29 2.27 2.25 2.22 2.20 2.1811 2.16 2.13 2.11 2.09 2.07 2.05 2.03 2.01 1.99 1.9712 1.95 1.93 1.91 1.89 1.87 1.85 1.83 1.81 1.79 1.7713 1.75 1.74 1.72 1.70 1.68 1.67 1.65 1.63 1.61 1.6014 1.58 1.56 1.55 1.53 1.51 1.50 1.48 1.47 1.45 1.4415 1.42 1.41 1.39 1.38 1.36 1.35 1.33 1.32 1.31 1.2916 1.28 1.26 1.25 1.24 1.22 1.21 1.20 1.19 1.17 1.1617 1.15 1.14 1.12 1.11 1.10 1.09 1.08 1.06 1.05 1.0418 1.03 1.02 1.01 1.00 0.99 0.98 0.96 0.95 0.94 0.9319 0.92 0.91 0.90 0.89 0.88 0.87 0.86 0.86 0.85 0.8420 0.83 0.82 0.81 0.80 0.79 0.78 0.77 0.77 0.76 0.7521 0.74 0.73 0.73 0.72 0.71 0.70 0.69 0.69 0.68 0.6722 0.66 0.66 0.65 0.64 0.64 0.63 0.62 0.61 0.61 0.6023 0.59 0.59 0.58 0.57 0.57 0.56 0.56 0.55 0.54 0.5424 0.53 0.53 0.52 0.51 0.51 0.50 0.50 0.49 0.49 0.4825 0.48 0.47 0.46 0.46 0.45 0.45 0.44 0.44 0.43 0.4326 0.42 0.42 0.42 0.41 0.41 0.40 0.40 0.39 0.39 0.3827 0.38 0.38 0.37 0.37 0.36 0.36 0.35 0.35 0.35 0.3428 0.34 0.34 0.33 0.33 0.32 0.32 0.32 0.31 0.31 0.3129 0.30 0.30 0.30 0.29 0.29 0.29 0.28 0.28 0.28 0.2730 0.27 0.27 0.26 0.26 0.26 0.26 0.25 0.25 0.25 0.2431 0.24 0.24 0.24 0.23 0.23 0.23 0.23 0.22 0.22 0.2232 0.22 0.21 0.21 0.21 0.21 0.20 0.20 0.20 0.20 0.1933 0.19 0.19 0.19 0.19 0.18 0.18 0.18 0.18 0.18 0.1734 0.17 0.17 0.17 0.17 0.16 0.16 0.16 0.16 0.16 0.1535 0.15 0.15 0.15 0.15 0.15 0.14 0.14 0.14 0.14 0.1436 0.14 0.14 0.13 0.13 0.13 0.13 0.13 0.13 0.12 0.1237 0.12 0.12 0.12 0.12 0.12 0.12 0.11 0.11 0.11 0.1138 0.11 0.11 0.11 0.10 0.10 0.10 0.10 0.10 0.10 0.1039 0.10 0.10 0.09 0.09 0.09 0.09 0.09 0.09 0.09 0.0940 0.09 0.09 0.08 0.08 0.08 0.08 0.08 0.08 0.08 0.08
20 LOG FUNCTION DERATE CHART (USE FOR CTB AND XMOD)
See example on page 3.16
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15
10 LOG FUNCTION DERATE CHART (USE FOR CNR AND SSO)
diff. SUBTRACTION VALUES(dB) 0.0 0.1 0.2 0.3 0.4 0.5 0.6 0.7 0.8 0.9
0 3.01 2.96 2.91 2.86 2.81 2.77 2.72 2.67 2.63 2.581 2.54 2.50 2.45 2.41 2.37 2.32 2.28 2.24 2.20 2.162 2.12 2.09 2.05 2.01 1.97 1.94 1.90 1.87 1.83 1.803 1.76 1.73 1.70 1.67 1.63 1.60 1.57 1.54 1.51 1.484 1.46 1.43 1.40 1.37 1.35 1.32 1.29 1.27 1.24 1.225 1.19 1.17 1.15 1.12 1.10 1.08 1.06 1.04 1.01 0.996 0.97 0.95 0.93 0.91 0.90 0.88 0.86 0.84 0.82 0.817 0.79 0.77 0.76 0.74 0.73 0.71 0.70 0.68 0.67 0.658 0.64 0.63 0.61 0.60 0.59 0.57 0.56 0.55 0.54 0.539 0.51 0.50 0.49 0.48 0.47 0.46 0.45 0.44 0.43 0.42
10 0.41 0.40 0.40 0.39 0.38 0.37 0.36 0.35 0.35 0.3411 0.33 0.32 0.32 0.31 0.30 0.30 0.29 0.28 0.28 0.2712 0.27 0.26 0.25 0.25 0.24 0.24 0.23 0.23 0.22 0.2213 0.21 0.21 0.20 0.20 0.19 0.19 0.19 0.18 0.18 0.1714 0.17 0.17 0.16 0.16 0.15 0.15 0.15 0.14 0.14 0.1415 0.14 0.13 0.13 0.13 0.12 0.12 0.12 0.12 0.11 0.1116 0.11 0.11 0.10 0.10 0.10 0.10 0.09 0.09 0.09 0.0917 0.09 0.08 0.08 0.08 0.08 0.08 0.07 0.07 0.07 0.0718 0.07 0.07 0.07 0.06 0.06 0.06 0.06 0.06 0.06 0.0619 0.05 0.05 0.05 0.05 0.05 0.05 0.05 0.05 0.05 0.0420 0.04 0.04 0.04 0.04 0.04 0.04 0.04 0.04 0.04 0.0421 0.03 0.03 0.03 0.03 0.03 0.03 0.03 0.03 0.03 0.0322 0.03 0.03 0.03 0.03 0.02 0.02 0.02 0.02 0.02 0.0223 0.02 0.02 0.02 0.02 0.02 0.02 0.02 0.02 0.02 0.0224 0.02 0.02 0.02 0.02 0.02 0.02 0.02 0.01 0.01 0.0125 0.01 0.01 0.01 0.01 0.01 0.01 0.01 0.01 0.01 0.01
See example on page 3.16
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16
COMBINING TWO X-MOD OR CTB PERFORMANCERATINGS (20 LOG)
Example:Combine trunk and bridger CNR to find the resultant CNR at the Bridgeroutput (no line extenders).Trunk CNR = 56.5 dB Bridger CNR = 65 dBdB difference = 65 - 56.5 = 8.5 dBdB subtraction figure = 0.6 dBBridger output CNR = 56.5 - 0.6 = 55.9 dBSo then, the resultant CNR measure is about 55.9 dB.
The 20 log & 10 log derate charts are used to sum different ratios. The following ex.ample demonstrates how:Step 1 Sum Trunk and Bridger CTB
1.1 Find the dB difference between the two ratios (65-60=5 dB)1.2 Look up the derate (dB Subtraction) for 5.0 dB
difference in the chart (3.88 dB)1.3 Derate the poorer of the two CTB ratios by this amount
(60-3.9=56.1 dBc)Step 2 Sum the Sum of Trunk and Bridger from Step 1 with the
line extenders2.1 Find the dB difference between the two ratios
(58-56.12=1.88)2.2 Look up the derate (dB Subtraction) for 1.88 dB
difference in the chart (5.12) (round 1.88 up to 1.9).2.3 Derate the poorer of the two CTB ratios by this amount
(56.12 - 5.12 = 51.0 dBc)
USING dB SUBTRACTION VALUES
USING dB SUBTRACTION VALUES
10 Trunk CTB = 65 dBc1 Bridger CTB = 60 dBcLine Extender CTB = 58 dBc
COMBINING TWO CNR OR SSO PERFORMANCERATINGS (10 LOG)
Notice that this answer is the same as that arrived at on page 3.13
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17
BEAT PACKET QUANTITY330 MHz 450 MHz 550 MHz 600 MHz 750 MHz
40 Channels 60 Channels 77 Channels 85 Channels 110 ChannelsFrequency CTB CSO CTB CSO CTB CSO CTB CSO CTB CSO
55.25 225 2 615 2 1104 2 1384 2 2465 261.25 240 2 640 2 1137 2 1421 2 2515 267.25 251 2 661 2 1167 2 1455 2 2561 277.25 36 25 56 45 73 62 81 70 106 9583.25 36 24 56 44 73 61 81 69 106 94
121.25 368 2 868 2 1450 2 1774 2 2993 2127.25 384 2 894 2 1485 2 1813 2 3044 2133.25 398 2 918 2 1517 2 1849 2 3093 2139.25 409 2 939 2 1547 2 1883 2 3139 2145.25 420 2 960 2 1576 2 1916 2 3185 2151.25 429 2 979 2 1604 2 1948 2 3229 2157.25 438 2 998 2 1631 2 1979 2 3273 2163.25 445 2 1015 2 1657 2 2009 2 3315 2169.25 452 2 1032 2 1682 2 2038 2 3357 2175.25 458 2 1048 2 1707 2 2067 2 3398 2181.25 464 2 1064 2 1731 2 2095 2 3439 2187.25 469 3 1079 3 1755 3 2123 3 3479 3193.25 473 3 1093 3 1777 3 2149 3 3518 3199.25 476 3 1106 3 1799 3 2175 3 3556 3205.25 478 3 1118 3 1819 3 2199 3 3593 3211.25 479 3 1129 3 1839 3 2223 3 3629 3217.25 479 3 1139 3 1857 3 2245 3 3664 3223.25 478 3 1148 3 1875 3 2267 3 3698 3229.25 476 3 1156 3 1891 3 2287 3 3731 3235.25 473 3 1163 3 1907 3 2307 3 3763 3241.25 469 4 1169 4 1921 4 2325 4 3794 4247.25 464 4 1174 4 1935 4 2343 4 3824 4253.25 458 5 1178 5 1947 5 2359 5 3853 5259.25 451 5 1181 5 1959 5 2375 5 3881 5265.25 443 6 1183 6 1969 6 2389 6 3908 6271.25 435 6 1184 6 1979 6 2403 6 3934 6277.25 427 7 1184 7 1987 7 2415 7 3959 7283.25 419 7 1183 7 1995 7 2427 7 3983 7289.25 410 8 1181 8 2001 8 2437 8 4006 8295.25 400 8 1178 8 2007 8 2447 8 4028 8301.25 389 9 1174 9 2011 9 2455 9 4049 9307.25 377 9 1169 9 2015 9 2463 9 4069 9313.25 364 10 1163 10 2017 10 2469 10 4088 10319.25 349 10 1156 10 2019 10 2475 10 4106 10325.25 331 11 1148 11 2019 11 2479 11 4123 11331.25 1139 11 2019 11 2483 11 4139 11337.25 1129 12 2017 12 2485 12 4154 12343.25 1118 12 2015 12 2487 12 4168 12349.25 1106 13 2011 13 2487 13 4181 13355.25 1093 13 2007 13 2487 13 4193 13361.25 1079 14 2001 14 2485 14 4204 14367.25 1064 14 1995 14 2483 14 4214 14373.25 1048 15 1987 15 2479 15 4223 15379.25 1031 15 1979 15 2475 15 4231 15385.25 1013 16 1969 16 2469 16 4238 16391.25 995 16 1959 16 2463 16 4244 16397.25 977 17 1947 17 2455 17 4249 17403.25 959 17 1935 17 2447 17 4253 17409.25 940 18 1921 18 2437 18 4256 18415.25 920 18 1907 18 2427 18 4258 18
Continued...
4
1
SIECOR MIC™ CABLE FIBER IDENTIFICATION GUIDE
(SOLID) (DASHED) (STRIPED)1 -1O 11 -20 21-30
1 Blue 11 Blue + Black Dash 21 Blue + Black Stripe
2 Orange 12 Orange+ Black Dash 22 Orange+ Black Stripe
3 Green 13 Green+ Black Dash 23 Green+ Black Stripe
4 Brown 14 Brown+ Black Dash 24 Brown+ Black Stripe
5 Slate 15 Slate+ Black Dash 25 Slate+ Black Stripe
6 White 16 White+ Black Dash 26 White+ Black Stripe
7 Red 17 Red+ Black Dash 27 Red+ Black Stripe
8 Black 18 Black+ White Dash 28 Black+ White Stripe
9 Yellow 19 Yellow+ Black Dash 29 Yellow+ Black Stripe
10 Violet 20 Violet+ Black Dash 30 Violet+ Black Stripe
FIBER OPTICS
FIBER OPTICS
Standard Single Mode FiberWavelength Attenuation Dispersion
1310 nm 0.35 dB/km 3 ps/(nm•km) .1550 nm 0.22 dB/km 19 ps/(nm•km)
Wavelength Division Multiplexers (WDM)Wavelengths 1310/1550 nmBandpass + 20 nmInsertion Loss < 0.5 dBDirectivity 2 60 dB
JDS Fitel Optical ConnectorsFC/APC Super FC/PC
Insertion Loss 0.2 dB 0.2 dBBack Reflection -68 dB -45 dB
4
2
4
3
FIBER OPTICS
FIBER LOSS VS PATH LENGTHSingle Mode @1310 nm
2.0
4.0
6.0
8.0
10.0
12.0
14.0
16.0
FIB
ER
LO
SS
(dB
)
40.0
35.0
30.0
25.0
20.0
15.0
10.0
5.0
FIBER LENGTH (km)
CONVERTING MW TO DBM
Use the conversion table below, to convert milliwatts (mW) to decibelmilliwatts (dBm).
mW dBm mW dBm0.1 -10.0 2.0 3.010.2 -6.99 3.0 4.770.3 -5.23 4.0 6.020.4 -3.97 5.0 6.990.5 -3.00 6.0 7.780.6 -2.20 7.0 8.450.7 -1.55 8.0 9.030.8 -0.96 9.0 9.540.9 -0.45 10.0 10.001.0 0.00 11.0 10.411.1 0.41 12.0 10.791.2 0.79 13.0 11.141.3 1.14 14.0 11.461.4 1.46 15.0 11.761.5 1.76 16.0 12.041.6 2.04 17.0 12.301.7 2.30 18.0 12.551.8 2.55 19.0 12.791.9 2.79 20.0 13.01
4
4
FIBER OPTICS
4
5
FIBER OPTICSTRANSMITTER/RECEIVER MATRIX
Receivers
Transmitter FIBR
-S4A
-860
-P (7
412-
P) 2
FIBR
-S4A
-860
-PA
(741
2-PA
) 2FI
LN-S
3A-2
050
(753
2) 2
FILN
-S3A
-205
0-8
(751
1-8)
6FI
LN-S
3A-2
050-
16 (7
511-
16) 6
FILN
-S3A
-205
0-24
(751
1-24
) 6M
IAR-
U4T-
11 (7
452)
3M
IAR-
U4T-
31 (7
472)
3M
IAR-
U8T-
11 (7
451)
3M
IAR-
U8T-
31 (7
471)
3M
IBR-
M3T
-25
(743
2) 3
MIB
R-S4
A-21
0 (7
433)
3M
IBR-
S4A-
415
(742
5) 3
MIB
R-S4
A-42
5 (7
438)
3M
IBR-
S4A-
860
(743
4) 3
SIAR
-U4T
-11(
7452
-S) 2
SIAR
-U4T
-31(
7472
-S) 4
SIAR
-U8T
-11(
7451
-S) 2
SIAR
-U8T
-31
(747
1-S)
4SI
BR-M
3T-2
5 (7
432-
S) 2
SIBR
-S4A
-210
(743
3-S)
2SI
BR-S
4A-4
15 (7
425-
S) 2
SIBR
-S4A
-425
(743
8-S)
2
FIBT-S3A-810 (7404-10) 1 XFIBT-S3A-811 (7404-11) 1 X
X X XXXXX XXX X
X X XX X XX
FRDA
Ser
ies
(740
0-xx
) 1
X X
XFIBT-S3A-812 (7404-12) 1 XFIBT-S3A-819 (7404-09) 1 XFIBT-S3A-886 (7403-06) 1 XFIBT-S3A-887 (7403-07) 1 XFIBT-S3A-888 (7403-08) 1 X
XX
X
X
X
X
X
XX
X
X
X
X
X
X
XX
X
X
X
XX
XX
XX
XX
XX
XX
XX
XX
XX
XX
XX
XX
XX
XX
FILT-S3A-2050 (7531) 2 XFILT-S3A-2050-8 (7501-8) 1 XFILT-S3A-2050-12 (7501-12) 1 XFILT-S3A-2050-16 (7501-16) 1 X
XXXX
XXXX
XXXX
MIAT-M3T-11 (7442) 3MIAT-M3T-31 (7462) 3MIAT-M8T-11 (7441) 3MIAT-M8T-31 (7461) 3MIAT-S3T-11 (7443) 3MIAT-S3T-31 (7463) 3MIAT-S5T-11 (7444) 3MIAT-S5T-31 (7473) 3MIBT-M3T-25 (7422) 3MIBT-S3A-210 (7423) 3MIBT-S3A-415 (7424) 3MIBT-S5A-425 (7428) 3SIAT-M3T-11 (7442-S) 2SIAT-M3T-31 (7462-S) 4SIAT-M8T-11 (7441-S) 2SIAT-M8T-31 (7461-S) 4SIAT-S3T-11 (7443-S) 2SIAT-S3T-31 (7463-S) 4SIAT-S5T-11 (7444-S) 2SIAT-S5T-31 (7473-S) 4SIBT-M3T-25 (7422-S) 5SIBT-S3A-210 (7423-S) 2SIBT-S3A-415 (7424-S) 2SIBT-S5A-425 (7428-S) 2
NOTES:(1) Power Supply Included (2) Uses Power Supply: ACCS-PS-170 (7419) Not Included (3) Uses Power Supply: MIPS-12B (7722B) Not Included (4) Uses Power Supply: ACCS-PS-200 (7418) Not Included (5) Uses Power Supply:ACCS-PS-90 (7417) Not Included (6) Powered via 60/90 VAC Power Supply
4
6
FIBER OPTICS
SINGLE MODE PRODUCT SELECTION TREE
Multi-Output:8, 12, 16, 24-Ports
L-Band:Single or Multi-Output
(950-2050 MHz)
BasebandVideo Only or
Video/Audio/Audio
Video/Audio/Audio20 km or 70 km
Video Only20 km or 70 km
Singlemode:Baseband,Broadband,
or L-Band
Single Output
8-OutputTrans:
Trans:
Rcvrs:
12-Output
16-Output
FILT-S3A-2050-8 FILR-S3A-2050
FILN-S3A-2050-8FILN-S3A-2050-16FILN-S3A-2050-24
Trans:
Trans:
Rcvrs:
Rcvrs:
FILT-S3A-2050 FILR-S3A-2050FILN-S3A-2050-8
FILN-S3A-2050-16FILN-S3A-2050-24 MIBT-S3A-210
SIBT-S3A-210 MIBR-S4A-210
SIBR-S4A-210Trans:
Rcvrs:
MIAT-S3T-31 SIAT-S3T-31
MIAR-U4T-31 SIAR-U4T-31
Trans:
Rcvrs:
MIAT-S5T-31 SIAT-S5T-31
MIAR-U4T-31 SIAR-U4T-31
10 Ch (5-250 MHz)15 Ch (5-350 MHz)25 Ch (5-350 MHz)
80 Ch (40-860 MHz)110 Ch (40-860 MHz)
FILT-S3A-2050-8 FILR-S3A-2050FILN-S3A-2050-8
FILN-S3A-2050-16FILN-S3A-2050-24
FILT-S3A-2050-16 FILR-S3A-2050
FILN-S3A-2050-8FILN-S3A-2050-16FILN-S3A-2050-24
Trans:Rcvrs:
Rcvrs:
80 ChannelFIBT-S3A-886, FIBT-S3A-887
FIBT-S3A-888MIBR-S4A-860, FIBR-S4A-860-P
FIBR-S4A-860-PAAll FRRA's and FRDA's
Trans:
Rcvrs:
110 ChannelFIBT-S3A-819, FIBT-S3A-810
FIBT-S3A-811, FIBT-S3A-812MIBR-S4A-860, FIBR-S4A-860-P
FIBR-S4A-860-PAAll FRRA's and FRDA's
Trans:Rcvrs:
Broadband:
10 Channel
Rcvrs:
MIBT-S3A-415 SIBT-S3A-415
MIBR-S4A-415 SIBR-S4A-415
15 ChannelTrans:
Rcvrs:
MIBT-S3A-425 SIBT-S3A-425
MIBR-S4A-425 SIBR-S4A-425
25 ChannelTrans:
20 km
70 km
Trans:
Rcvrs:
MIAT-S3T-11 SIAT-S3T-11
MIAR-U4T-11 SIAR-U4T-11
Trans:
Rcvrs:
MIAT-S5T-11 SIAT-S5T-11
MIAR-U4T-11 SIAR-U4T-11
20 km
70 km
4
7
FIBER OPTICS
MULTIMODE PRODUCT SELECTION TREE
Baseband:Video Only or
Video/Audio/Audio
15 kmTrans: MIAT-M3T-11
SIAT-M3T-11Rcvrs: MIAR-U8T-11
SIAR-U8T-11
1.5 kmTrans: MIAT-M8T-11
SIAT-M8T-11Rcvrs: MIAR-U8T-11
SIAR-U8T-11
Multimode:Baseband or
Limited Broadband
Video Only:1.5 km or 15 km
Video/Audio/Audio:1.5 km or 15 km
15 kmTrans: MIAT-M3T-31
SIAT-M3T-31Rcvrs: MIAR-U4T-31
SIAR-U4T-31
1.5 kmTrans: MIAT-M8T-31
SIAT-M8T-31Rcvrs: MIAR-U8T-31
SIAR-U8T-31
Limited Broadband:5 Channels Only
(5-250 MHz)Trans: MIBT-M3T-25
SIBT-M3T-25Rcvrs: MIBR-M3T-25
SIBR-M3T-25
FIBER OPTICS
MULTIMODE BROADBAND 5 CH. DESIGN TOOL
4
8
1. Determine the optimum input level to the Tx:Pick the point on the X-Axis that corresponds to thenumber of channels that you are going to put throughthe link. Follow this up until you intersect with thecurve, follow this intersection to the Y-axis on the left.This number is the optimum RF input level to theTransmitter. ______dBmV (#1)
2. What is your link budget? This is the sum of all the losses from the Tx to the Rx. _____dBm (#2)
continued....
FIBER OPTICS
MULTIMODE BROADBAND 5 CH. DESIGN TOOL
3. Determine the CNR of the link:
Transmitter Output -7 dBmLink Budget (#2) - dBmReceived Optical Power= dBm (#3.1)
Pick the point on the X-Axis that corresponds to thereceived optical power (#3.1 above). Follow this numberup until you intersect with the appropriate curve, followthis intersection to the Y-axis on the left. This number isthe CNR of the link. ______dB (#3.2)
4
9
continued....
FIBER OPTICS
MULTIMODE BROADBAND 5 CH. DESIGN TOOL
4. Determine the RF output level of the link:
Pick the point on the X-Axis that corresponds to the linkbudget (#2). Follow this up until you intersect with thecurve, follow this intersection to the Y-axis on the left.This number is the link gain. ______dB (#4.1)
Transmitter RF Input ______dBmV (#1)Link Gain +______dB (#4.1)Receiver RF Output =______dBmV (#4.2)
4
10
FIBER OPTICS
SINGLE MODE BROADBAND 10 CH. DESIGN TOOL
4
11
1. Determine the optimum input level to the Tx:
Pick the point on the X-Axis that corresponds to thenumber of channels that you are going to put throughthe link. Follow this up until you intersect with thecurve, follow this intersection to the Y-axis on the left.This number is the optimum RF input level to theTransmitter. ______dBmV (#1)
2. What is your link budget? This is the sum of all the losses from the Tx to the Rx. ______dBm (#2)
continued....
FIBER OPTICS
SINGLE MODE BROADBAND 10 CH. DESIGN TOOL
3. Determine the CNR of the link:
Transmitter Output 3 dBmLink Budget (#2) - dBmReceived Optical Power = dBm (#3.1)
Pick the point on the X-Axis that corresponds to thereceived optical power (#3.1 above). Follow this numberup until you intersect with the curve, follow this intersec-tion to the Y-axis on the left. This number is the CNR of the link. ______dB (#3.2)
4
12
continued....
FIBER OPTICS
SINGLE MODE BROADBAND 10 CH. DESIGN TOOL
4. Determine the RF output level of the link:
Pick the point on the X-Axis that corresponds to the linkbudget (#3.1). Follow this up until you intersect with thecurve, follow this intersection to the Y-axis on the left.This number is the link gain. ______dB (#4.1)
Transmitter RF Input ______dBmV (#1)Link Gain +______dB (#4.1)Receiver RF Output =______dBmV (#4.2)
4
13
FIBER OPTICS
SINGLE MODE BROADBAND 15 CH. DESIGN TOOL
4
14
1. Determine the optimum input level to the Tx:
Pick the point on the X-Axis that corresponds to thenumber of channels that you are going to put throughthe link. Follow this up until you intersect with thecurve, follow this intersection to the Y-axis on the left.This number is the optimum RF input level to theTransmitter. ______dBmV (#1)
8
10
12
14
16
18
20
Driv
e Le
vel p
er C
hann
el (d
Bm
V)
1 10 100
Number of Channels Loading
2. What is your link budget? This is the sum of all thelosses from the Tx to the Rx. ______dBm (#2)
continued....
FIBER OPTICS
SINGLE MODE BROADBAND 15 CH. DESIGN TOOL
3. Determine the CNR of the link:
Transmitter Output 4 dBmLink Budget (#2) - ______dBmReceived Optical Power = ______dBm (#3)
Pick the point on the X-Axis that corresponds to thereceived optical power (#3 above). Follow this numberup until you intersect with the curve, follow this inter-section to the Y-axis on the left. This number is theCNR of the link.
32
34
36
38
40
42
44
46
48
50
52
54
56
58
60
62
CN
R (
dB)
-14 -12 -10 -8 -6 -4 -2 0 2 4
Receiver Input Light Level (dBm)
5 Channels
10 Channels
15 Channels
4
15
continued....
FIBER OPTICS
SINGLE MODE BROADBAND 15 CH. DESIGN TOOL
4. Determine the RF output level of the link:
Pick the point on the X-Axis that corresponds to thelink budget (#3). Follow this up until you intersectwith the curve, follow this intersection to the Y-axis onthe left. This number is the link gain. ______dB (#4)
Transmitter RF Input ______dB (#1)Link Gain +______dB (#4.1)Receiver RF Output =______dB (#4.2)
4
16
FIBER OPTICS
SINGLE MODE BROADBAND 25 CH. DESIGN TOOL
4
17
1. Determine the optimum input level to the Tx:
Pick the point on the X-Axis that corresponds to thenumber of channels that you are going to put throughthe link. Follow this up until you intersect with thecurve, follow this intersection to the Y-axis on the left.This number is the optimum RF input level to theTransmitter. ______dBmV (#1)
6
8
10
12
14
16
18
20
22
Driv
e Le
vel p
er C
hann
el (
dBm
V)
1 10 100
Number of Channels Loading
2. What is your link budget? This is the sum of all thelosses from the Tx to the Rx. ______dBm (#2)
continued....
3. Determine the CNR of the link:
Transmitter Output 4 dBmLink Budget (#2) - ______dBmReceived Optical Power = ______dBm (#3)
Pick the point on the X-Axis that corresponds to thereceived optical power (#3 above). Follow this numberup until you intersect with the curve, follow this inter-section to the Y-axis on the left. This number is theCNR of the link.
FIBER OPTICS
SINGLE MODE BROADBAND 25 CH. DESIGN TOOL
4
18
continued....
FIBER OPTICS
SINGLE MODE BROADBAND 25 CH. DESIGN TOOL
4. Determine the RF output level of the link:
Pick the point on the X-Axis that corresponds to thelink budget (#3). Follow this up until you intersectwith the curve, follow this intersection to the Y-axis onthe left. This number is the link gain. ______dB (#4)
Transmitter RF Input ______dB (#1)Link Gain +______dB (#4.1)Receiver RF Output =______dB (#4.2)
4
19
FIBER OPTICS
FIBT DESIGN TOOL
4
20
1. What is the acceptable C/N you want to see at the output of the fiber optic receiver? dB (#1)
2. Determine the optical input needed at the receiver tomaintain your C/N from above. Find the C/N figure on the Y axis on the chart below. Follow that figure acrossuntil you come to the curve that corresponds to your channel loading. Follow this intersection down to the Xaxis to determine the optical input level. This is the levelthat you need to hit the receiver with in order to maintainthe C/N that you picked in Step #1. dBm (#2)
Optical Input Power (dBm)
Car
rier-
to-N
oise
(dB
)
5 Channels10 Channels24 Channels40 Channels78 Channels110 Channels
continued....
FIBER OPTICS
FIBT DESIGN TOOL
3. What is the link budget? This is the sum of all thelosses from the Tx to the Rx. dBm (#3)
4. Determine the transmitter power necessary tocomplete the link:
Link Budget (#3) dBmReceiver Input (#2) + dBmMinimum Transmitter Output = dBm (#4)
You should round this number up to the next dBmto build in a margin of error to cover any unseenitems in the link budget.
continued....
4
21
FIBER OPTICS
FIBT DESIGN TOOL
5. Determine the RF input level needed at the transmitter.Find the channel loading figure on the X axis on the chartbelow. Follow that figure up until you come to the curvethat corresponds to the series transmitter you are using.The top curve is the 7404 Series, the bottom is the 7403Series. Follow this intersection across to the Y axis to determine the RF input level. This is the levelthat you need to hit the transmitter with in order toensure a quality signal. This is the optimal RF level foryour channel loading configuration. We will also use thisnumber to predict the RF output level of the link dBmV (#5)
7404 SeriesTransmitters(9,10,11,12 dBm)
7403 SeriesTransmitters(6,7,8 dBm)
4
22
continued....
FIBER OPTICS
FIBT DESIGN TOOL6. Determine the RF output level of the receiver.
Find the receiver optical input level on the X axis on the chartbelow. Follow that figure up until you come to the curve thatcorresponds to the series transmitter you are using. The topcurve is the 7403 Series, the bottom is the 7404 Series.Follow this intersection across to the Y axis to determine thelink gain or loss. dB (#6.1)
Determine the receiver RF output level:Transmitter RF Input (#5) ______dB Link Gain or Loss (#6.1) +______dB Receiver RF Output =______dB (#6.2)
7404 SeriesTransmitters(9,10,11,12 dBm)
7403 SeriesTransmitters(6,7,8 dBm)
4
23
FIBER OPTICS
OPTICAL COUPLER DESIGN TOOL
Coupler Ports Ratio Loss (dB)1 x 2 50/50 3.6/3.6
40/60 4.7/2.730/70 6.0/1.920/80 7.9/1.210/90 11.3/0.65/95 15.1/0.5
Coupler Ports Ratio Loss (dB)1 x 3 33/33/33 6.0/6.0/6.0
40/30/30 4.7/6.4/6.450/25/25 3.6/7.3/7.360/20/20 2.7/8.4/8.470/15/15 1.9/9.6/9.680/10/10 1.2/11.3/11.3
Coupler Ports Ratio Loss (dB)1 x 4 25% per port 7.3 per portCoupler Ports Ratio Loss (dB)1 x 6 16.6% per port 9.7 per portCoupler Ports Ratio Loss (dB)1 x 8 12.5% per port 10.8 per port
4
24
FIBER OPTICS
BROADBAND CATV LINK MULTIPLE RECEIVE SITESSINGLE MODE
4
25FIBT-S3A-812
Fiber Optic Transmitter
FOC 23-14-UFiber Optic Coupler, Rack Mount
4 Output
FRDA-S4A-860-43Fiber Receiver Distribution Amp.
+12 dBm OUTPUT
+4.3 dBm OUTPUT
+2 dBm INPUT
Single Mode Fiber<0.5 dB/km LOSS
4.3 km(2.7 MILES)
To Remote Buildings
110 Channel INPUTfrom Headend
+8 dBmV *
+43 dBmV OUTPUT
To BuildingDistribution System
* Input Level ChartChannelLoading
9,10,11,12dBm Tx
6,7,8 dBmTx
110 8 dBmV 3 dBmV78 11 dBmV 4 dBmV61 13 dBmV 5 dBmV45 14 dBmV 7 dBmV
BROADBAND CATV LINK MULTIPLE RECEIVE SITES SINGLE MODE
DWG. NO.
PC-99294AENG.
WNWDWN
12/03/99BLONDER-TONGUE LABORATORIES, INC.ONE JAKE BROWN RD., OLD BRIDGE, NJ 08857
FIBER OPTICS
BROADBAND CATV/25 CH RETURN PATH ON 2 FIBERSSINGLE MODE
FIBT-S3A-812Fiber Optic Transmitter
FRDA-S4A-860-43Fiber Receiver
Distribution Amp.
+12 dBm OUTPUT
+2 dBm INPUT
Single Mode Fiber<0.5 dB/km LOSS
4.3 km(2.7 MILES)
to Remote Buildings
110 Channel INPUTfrom Headend
To BuildingDistribution
System
OUTPUT Level toReturn PathProcessor
INPUT Level FromReturn PathModulator
+8 dBmV INPUT *
SIBR-S5A-425Return Path
Fiber Receiver
SIBT-S5A-425Return Path
Fiber Transmitter
+43 dBmV OUTPUT
* Input Level ChartChannelLoading
9,10,11,12dBm Tx
6,7,8 dBmTx
110 8 dBmV 3 dBmV78 11 dBmV 4 dBmV61 13 dBmV 5 dBmV45 14 dBmV 7 dBmV
BROADBAND CATV/25 CHANNEL RETURN PATH ON 2 FIBERS SINGLE MODE
DWG. NO.
PC-99294GENG.
WNWDWN
12/03/99BLONDER-TONGUE LABORATORIES, INC.ONE JAKE BROWN RD., OLD BRIDGE, NJ 08857
4
26
FIBER OPTICS
BROADBAND CATV W/OPTICAL 25 CH RETURN PATHSINGLE MODE
FIBT-S3A-812Fiber Optic Transmitter
FOC 23-14-UFiber Optic Coupler
Rack Mount4 Output
FRDA-S4A-860-43Fiber Receiver
Distribution Amp.
+12 dBm OUTPUT
+4.3 dBm OUTPUT
+2 dBm INPUT
Single Mode Fiber<0.5 dB/km LOSS
4.3 km(2.7 MILES)
to Remote Buildings
110 Channel INPUTfrom Headend
To BuildingDistribution
System
Wave DivisionMultiplex
WDM-1315
OUTPUT Level toReturn PathProcessor
INPUT Level FromReturn PathModulator
+8 dBmV INPUT *
SIBR-S5A-425Return Path
Fiber Receiver
Wave DivisionMultiplex
WDM-1315
SIBT-S5A-425Return Path
Fiber Transmitter
+43 dBmV OUTPUT
* Input Level ChartChannelLoading
9,10,11,12dBm Tx
6,7,8 dBmTx
110 8 dBmV 3 dBmV78 11 dBmV 4 dBmV61 13 dBmV 5 dBmV45 14 dBmV 7 dBmV
BROADBAND CATV W/OPTICAL 25 CHANNEL RETURN PATH SINGLE MODE
DWG. NO.
PC-99294BENG.
WNWDWN
12/03/99BLONDER-TONGUE LABORATORIES, INC.ONE JAKE BROWN RD., OLD BRIDGE, NJ 08857
4
27
FIBER OPTICS
VIDEO/AUDIO/AUDIO FIBER OPTIC LINKMULTIMODE
SIAT-M3T-311310 nm Standalone
Baseband Transmitter
SIAR-U4T-311310 nm StandaloneBaseband Receiver
-15 dBm OUTPUT, Nominal
-24 dBm INPUT, Nominal
Multimode Fiber<1.8 dB/km LOSS
5+ km(3.1 MILES)
Nominal1V P-P Video,
1V rms Stereo Audio INPUT
Nominal1V P-P Video,
1V rms Stereo Audio OUTPUT
A VACCS-PS-200Power Supply
A V
ACCS-PS-170Power Supply
VIDEO/AUDIO/AUDIO FIBER OPTIC LINK SINGLE MODE
DWG. NO.
PC-99294CENG.
WNWDWN
12/03/99BLONDER-TONGUE LABORATORIES, INC.ONE JAKE BROWN RD., OLD BRIDGE, NJ 08857
4
28
FIBER OPTICS
SINGLE POLARITY L-BAND, DUAL FIBER OPTIC LINKSINGLE MODE
FILR-S3A-2050L-Band Fiber Optic
Receivers
Single Mode Fiber<0.5 dB/km LOSS
2+ km(1.2 MILES)
ACCS-PS-170Power Supply
+0.41 dBm OUTPUT,Nominal
-0.5 dBm INPUT,Nominal
ACCS-PS-170
FILT-S3A-2050L-Band Fiber Optic
Transmitters
Single Mode Fiber<0.5 dB/km LOSS
2+ km(1.2 MILES)
+0.41 dBm OUTPUT,Nominal
-0.5 dBm INPUT,Nominal
950-1450 MHz
950-1450 MHz
-31 dBm INPUT
950-1450 MHzL-Band
950-1450 MHzL-Band
SINGLE POLARITY L-BAND, DUAL FIBER OPTIC LINK SINGLE MODE
DWG. NO.
PC-99294DENG.
WNWDWN
12/03/99BLONDER-TONGUE LABORATORIES, INC.ONE JAKE BROWN RD., OLD BRIDGE, NJ 08857
4
29
FIBER OPTICS
STACKED L-BAND FIBER OPTIC LINKSINGLE MODE
4
30
FILR-S3A-2050L-Band Fiber Optic
Receiver
+0.41 dBm OUTPUT,Nominal
-0.5 dBm INPUT,Nominal
Single Mode Fiber<0.5 dB/km LOSS
2+ km(1.2 MILES)
ACCS-PS-170Power Supply
FILT-S3A-2050L-Band Fiber Optic
Transmitter
ACCS-PS-170Power Supply
Stacked LNB, 950-2050 MHz
-31 dBm INPUT
950-1450 MHzL-Band
to Distribution
STACKED L-BAND FIBER OPTIC LINK SINGLE MODE
DWG. NO.
PC-99294EENG.
WNWDWN
12/03/99BLONDER-TONGUE LABORATORIES, INC.ONE JAKE BROWN RD., OLD BRIDGE, NJ 08857
FIBER OPTICS
MULTI OUTPUT L-BAND FIBER OPTIC LINKSINGLE MODE
-10 dBm
-29/-22 dBm(950/2050 MHz)
NOMINAL OUTPUT(8 Output Model)
-12 dBm(OPTIMUM INPUT)
Single Mode Fiber<0.5 dB/km LOSS
Up To 4 km(2.5 MILES)
To Remote Buildings
-54 TO -34 dBmOPTIMUM INPUT
FILT-S3A-2050-88 Output L-Band Fiber Optic Transmitter
orFILT-S3A-2050-12
12 Output L-Band Fiber Optic Transmitteror
FILT-S3A-2050-1616 Output L-Band Fiber Optic Transmitter
FILN-S3A-2050-88 Output L-Band Fiber Optic Receiver
orFILN-S3A-2050-16
16 Output L-Band Fiber Optic Receiveror
FILN-S3A-2050-2424 Output L-Band Fiber Optic Receiver
MULTI OUTPUT L-BAND FIBER OPTIC LINK SINGLE MODE
DWG. NO.
PC-99294FENG.
WNWDWN
12/03/99BLONDER-TONGUE LABORATORIES, INC.ONE JAKE BROWN RD., OLD BRIDGE, NJ 08857
4
31
3
18
BEAT PACKET QUANTITY330 MHz 450 MHz 550 MHz 600 MHz 750 MHz
40 Channels 60 Channels 77 Channels 85 Channels 110 ChannelsFrequency CTB CSO CTB CSO CTB CSO CTB CSO CTB CSO
421.25 899 19 1891 19 2415 19 4259 19427.25 877 19 1875 19 2403 19 4259 19433.25 854 20 1857 20 2389 20 4258 20439.25 829 20 1839 20 2375 20 4256 20445.25 801 21 1819 21 2359 21 4253 21451.25 1799 21 2343 21 4249 21457.25 1777 22 2325 22 4244 22463.25 1755 22 2307 22 4238 22469.25 1731 23 2287 23 4231 23475.25 1707 23 2267 23 4223 23481.25 1681 24 2245 24 4214 24487.25 1655 24 2223 24 4204 24493.25 1628 25 2199 25 4193 25499.25 1602 25 2175 25 4181 25505.25 1575 26 2149 26 4168 26511.25 1548 26 2123 26 4154 26517.25 1519 27 2095 27 4139 27523.25 1490 27 2067 27 4123 27529.25 1459 28 2037 28 4106 28535.25 1428 28 2007 28 4088 28541.25 1394 29 1976 29 4069 29547.25 1358 29 1946 29 4049 29553.25 1915 30 4028 30559.25 1884 30 4006 30565 25 1851 31 3983 31571.25 1818 31 3959 31577.25 1783 32 3934 32583.25 1748 32 3908 32589.25 1710 33 3881 33595.25 1670 33 3853 33601.25 3824 34607.25 3794 34613.25 3763 35619.25 3731 35625.25 3698 36631.25 3664 36637.25 3629 37643.25 3593 37649.25 3556 38655.25 3518 38661.25 3479 39667.25 3439 39673.25 3398 40679.25 3356 40685.25 3313 41691.25 3270 41697.25 3227 42703.25 3184 42709.25 3140 43715.25 3095 43721.25 3049 44727.25 3002 44733.25 2954 45739.25 2904 45745.25 2851 46
FREQUENCY CHARTSCATV CHANNELS, North America
EIA Standard Incremental HarmonicChan. Chan. Video Audio Video Audio Video Audio
T7 none 7.0000 11.5000 NA NA NA NA
T8 none 13.0000 17.5000 NA NA NA NA
T9 none 19.0000 23.5000 NA NA NA NA
T10 none 25.0000 29.5000 NA NA NA NA
T11 none 31.0000 35.5000 NA NA NA NA
T12 none 37.0000 41.5000 NA NA NA NA
T13 none 43.0000 47.5000 NA NA NA NA
T14 none 49.0000 53.5000 NA NA NA NA
2 02 55.2500 59.7500 55 2625 59.7625 54.0027 58.5027
3 03 61.2500 65.7500 61.2625 65.7625 60.0030 64.5030
4 04 67.2500 71.7500 67.2625 71.7625 66.0033 70.5030
A8 01 NA N A 73.2625 77.7625 72.0036 76.5036
5 05 77.2500 81.7500 79.2625 83.7625 78.0039 82.5039
6 06 83.2500 87.7500 85.2625 89.7625 84.0042 88.5042
A5 95 91.2500 95.7500 91.2625 95.7625 90.0045 94.5045
A4 96 97.2500 101.7500 97.2625 101.7625 96.0048 100.5048
A3 97 103.2500 107.7500 103.2625 107.7625 102.0051 106.5051
A2 98* 109.2750 113.7750 109.2750 113.7750 Cannot lock to comb
A1 99* 115.2750 119.7750 115.2750 119.7750 ref: refer to FCC regs
A 14* 121.2625 125.7625 121.2625 125.7625 120.0060 124.5060
B 15* 127.2625 131.7625 127.2625 131.7625 126.0063 130.5063
C 16* 133.2625 137.7625 133.2625 137.7625 132.0066 136.5066
D 17 139.2500 143.7500 139.2625 143.7625 138.0069 142.5069
5
1
* Means aeronautical channels visual carrier frequency tolerance ± 5KHz* Means aeronautical channels visual carrier frequency tolerance ± 5KHz
CATV CHANNELS, North America
5
2
EIA Standard Incremental HarmonicChan. Chan. Video Audio Video Audio Video Audio
E 18 145.2500 149.7500 145.2625 149.7625 144.0072 148.5072
F 19 151.2500 155.7500 151.2625 155.7625 150.0075 154.5075
G 20 157.2500 161.7500 157.2625 161.7625 156.0078 160.5078
H 21 163.2500 167.7500 163.2625 167.7625 162.0081 166.5081
I 22 169.2500 173.7500 169.2625 173.7625 168.0084 172.5084
7 07 175.2500 179.7500 175.2625 179.7625 174.0087 178.5087
8 08 181.2500 185.7500 181.2625 185.7625 180.0090 184.5090
9 09 187.2500 191.7500 187.2625 191.7625 186.0093 190.5093
10 10 193.2500 197.7500 193.2625 197.7625 192.0096 196.5096
11 11 199.2500 203.7500 199.2625 203.7625 198.0099 202.5099
12 12 205.2500 209.7500 205.2625 209.762 204.0102 208.5102
13 13 211.2500 215.7500 211.2625 215.7625 210.0105 214.5105
J 23 217.2500 221.7500 217.2625 221.7625 216.0108 220.5108
K 24* 223.2500 227.7500 223.2625 227.7625 222.0111 226.5111
L 25* 229.2625 233.7625 229.2625 233.7625 228.0114 232.5114
M 26* 235.2625 239.7625 235.2625 239.7625 234.0117 238.5117
N 27* 241.2625 245.7625 241.2625 245.7625 240.0120 244.5120
O 28* 247.2625 251.7625 247.2625 251.7625 246.0123 250.5123
P 29* 253.2625 257.7625 253.2625 257.7625 252.0126 256.5126
Q 30* 259.2625 263.7625 259.2625 263.7625 258.0129 262.5129
R 31* 265.2625 269.7625 265.2625 269.7625 264.0132 268.5132
S 32* 271.2625 275.7625 271.2625 275.7625 270.0135 274.5135
T 33* 277.2625 281.7625 277.2625 281.7625 276.0138 280.5138
U 34* 283.2625 287.7625 283.2625 287.7625 282.0141 286.5141
* Means aeronautical channels visual carrier frequency tolerance ± 5KHz* Means aeronautical channels visual carrier frequency tolerance ± 5KHz
CATV CHANNELS, North America
5
3
EIA Standard Incremental HarmonicChan. Chan. Video Audio Video Audio Video Audio
V 35* 289.2625 293.7625 289.2625 293.7625 288.0144 292.5144
W 36* 295.2625 299.7625 295.2625 299.7625 294.0147 298.5147
AA 37* 301.2625 305.7625 301.2625 305.7625 300.0150 304.5150
BB 38* 307.2625 311.7625 307.2625 311.7625 306.0153 310.5153
CC 39* 313.2625 317.7625 313.2625 317.7625 312.0156 316.5156
DD 40* 319.2625 323.7625 319.2625 323.7625 318.0159 322.5159
EE 41* 325.2625 329.7625 325.2625 329.7625 324.0162 328.5162
FF 42* 331.2750 335.7750 331.2750 335.7750 330.0165 334.5165
GG 43* 337.2625 341.7625 337.2625 341.7625 336.0168 340.5168
HH 44* 343.2625 347.7625 343.2625 347.7625 342.0168 346.5168
II 45* 349.2625 353.7625 349.2625 353.7625 348.0168 352.5168
JJ 46* 355.2625 359.7625 355.2625 359.7625 354.0168 358.5168
KK 47* 361.2625 365.7625 361.2625 365.7625 360.0168 364.5168
LL 48* 367.2625 371.7625 367.2625 371.7625 366.0168 370.5168
MM 49* 373.2625 377.7625 373.2625 377.7625 372.0168 376.5168
NN 50* 379.2625 383.7625 379.2625 383.7625 378.0168 382.5168
00 51* 385.2625 389.7625 385.2625 389.7625 384.0168 388.5168
PP 52* 391.2625 395.7625 391.2625 395.7625 390.0168 394.5168
QQ 53* 397.2625 401.7625 397.2625 401.7625 396.0168 400.5168
RR 54 403.2500 407.7500 403.2625 407.7625 402.0201 406.5201
SS 55 409.2500 413.7500 409.2625 413.7625 408.0204 412.5204
TT 56 415.2500 419.7500 415.2625 419.7625 414.0207 418.5207
UU 57 421.2500 425.7500 421.2625 425.7625 420.0210 424.5210
VV 58 427.2500 431.7500 427.2625 431.7625 426.0213 430.5213
* Means aeronautical channels visual carrier frequency tolerance ± 5KHz
CATV CHANNELS, North America
5
4
EIA Standard Incremental HarmonicChan. Chan. Video Audio Video Audio Video Audio
WW 59 433.2500 437.7500 433.2625 437.7625 432.0216 436.5216
XX 60 439.2500 443.7500 439.2625 443.7625 438.0219 442.5219
YY 61 445.2500 449.7500 445.2625 449.7625 444.0222 448.5222
ZZ 62 451.2500 455.7500 451.2625 455.7625 450.0225 454.5225
AAA 63 457.2500 461.7500 457.2625 461.7625 456.0228 460.5228
BBB 64 463.2500 467.7500 463.2625 467.7625 462.0231 466.5231
CCC 65 469.2500 473.7500 469.2625 473.7625 468.0234 472.5234
DDD 66 475.2500 479.7500 475.2625 479.7625 474.0237 478.5237
EEE 67 481.2500 485.7500 481.2625 485.7625 480.0240 484.5240
FFF 68 487.2500 491.7500 487.2625 491.7625 486.0243 490.5243
GGG 69 493.2500 497.7500 493.2625 497.7625 492.0246 496.5246
HHH 70 499.2500 503.7500 499.2625 503.7625 498.0249 502.5249
III 71 505.2500 509.7500 505.2625 509.7625 504.0252 508.5252
JJJ 72 511.2500 515.7500 511.2625 515.7625 510.0255 514.5255
KKK 73 517.2500 521.7500 517.2625 521.7625 516.0258 520.5258
LLL 74 523.2500 527.7500 523.2625 527.7625 522.0261 526.5261
MMM 75 529.2500 533.7500 529.2625 533.7625 528.0264 532.5264
NNN 76 535.2500 539.7500 535.2625 539.7625 534.0267 538.5267
000 77 541.2500 545.7500 541.2625 545.7625 540.0270 544.527C
PPP 78 547.2500 551.7500 547.2625 551.7625 546.0273 550.5273
- 79 553.2500 557.7500 553.2625 557.7625 552.0276 556.5276
- 80 559.2500 563.7500 559.2625 563.7625 558.0279 562.5279
- 81 565.2500 569.7500 565.2625 569.7625 564.0282 568.5282
- 82 571.2500 575.7500 571.2625 575.7625 570.0285 574.5285
5
5
EIA Standard Incremental HarmonicChan. Chan. Video Audio Video Audio Video Audio
- 83 577.2500 581.7500 577.2625 581.7625 576.0288 580.5288
- 84 583.2500 587.7500 583.2625 587.7625 582.0291 586.5291
- 85 589.2500 593.7500 589.2625 593.7625 588.0294 592.5294
- 86 595.2500 599.7500 595.2625 599.7625 594.0297 598.5297
- 87 601.2500 605.7500 601.2625 605.7625 600.0300 604.5300
- 88 607.2500 611.7500 607.2625 611.7625 606.0303 610.5303
- 89 613.2500 617.7500 613.2625 617.7625 612.0306 616.5306
- 90 619.2500 623.7500 619.2625 623.7625 618.0309 622.5309
- 91 625.2500 629.7500 625.2625 629.7625 624.0312 628.5312
- 92 631.2500 635.7500 631.2625 635.7625 630.0315 634.5315
- 93 637.2500 641.7500 637.2625 641.7625 636.0318 640.5318
- 94 643.2500 647.7500 643.2625 647.7625 642.0321 646.5321
- 100 649.2500 653.7500 649.2625 653.7625 648.0324 652.5324
- 101 655.2500 659.7500 655.2625 659.7625 654.0327 658.5327
- 102 661.2500 665.7500 661.2625 665.7625 660.0330 664.5330
- 103 667.2500 671.7500 667.2625 671.7625 666.0333 670.5333
- 104 673.2500 677.7500 673.2625 677.7625 672.0336 676.5336
- 105 679.2500 683.7500 679.2625 683.7625 678.0339 682.5339
- 106 685.2500 689.7500 685.2625 689.7625 684.0342 688.5342
- 107 691.2500 695.7500 691.2625 695.7625 690.0345 694.5345
- 108 697.2500 701.7500 697.2625 701.7625 696.0348 700.5348
- 109 703.2500 707.7500 703.2625 707.7625 702.0351 706.5351
- 110 709.2500 713.7500 709.2625 713.7625 708.0354 712.5354
- 111 715.2500 719.7500 715.2625 719.7625 714.0357 718.5357
- 112 721.2500 725.7500 721.2625 725.7625 720.0360 724.5360
CATV CHANNELS, North America
5
6
EIA Standard Incremental HarmonicChan. Chan. Video Audio Video Audio Video Audio
- 113 727.2500 731.7500 727.2625 731.7625 726.0363 730.5363
- 114 733.2500 737.7500 733.2625 737.7625 732.0366 736.5366
- 115 739.2500 743.7500 739.2625 743.7625 738.0369 742.5369
- 116 745.2500 749.7500 745.2625 749.7625 744.0372 748.5372
- 117 751.2500 755.7500 751.2625 755.7625 750.0375 754.5375
- 118 757.2500 761.7500 757.2625 761.7625 756.0378 760.5378
- 119 763.2500 767.7500 763.2625 767.7625 762.0381 766.5381
- 120 769.2500 773.7500 769.2625 773.7625 768.0384 772.5384
- 121 775.2500 779.7500 775.2625 779.7625 774.0387 778.5387
- 122 781.2500 785.7500 781.2625 785.7625 780.0390 784.5390
- 123 787.2500 791.7500 787.2625 791.7625 786.0393 790.5393
- 124 793.2500 797.7500 793.2625 797.7625 792.0396 796.5396
- 125 799.2500 803.7500 799.2625 803.7625 798.0399 802.5399
- 126 805.2500 809.7500 805.2625 809.7625 804.0402 808.5402
- 127 811.2500 815.7500 811.2625 815.7625 810.0405 814.5405
- 128 817.2500 821.7500 817.2625 821.7625 816.0408 820.5408
- 129 823.2500 827.7500 823.2625 827.7625 822.0411 826.5411
- 130 829.2500 833.7500 829.2625 833.7625 828.0414 832.5414
- 131 835.2500 839.7500 835.2625 839.7625 834.0417 838.5417
- 132 841.2500 845.7500 841.2625 845.7625 840.0420 844.5420
- 133 847.2500 851.7500 847.2625 851.7625 846.0423 850.5423
- 134 853.2500 857.7500 853.2625 857.7625 852.0426 856.5426
- 135 859.2500 863.7500 859.2625 863.7625 858.0429 862.5429
- 136 865.2500 869.7500 865.2625 869.7625 864.0432 868.5432
CATV CHANNELS, North America
5
7
EIA Standard Incremental HarmonicChan. Chan. Video Audio Video Audio Video Audio
- 137 871.2500 875.7500 871.2625 875.7625 870.0435 874.5435
- 138 877.2500 881.7500 877.2625 881.7625 876.0438 880.5438
- 139 883.2500 887.7500 883.2625 887.7625 882.0441 886.5441
- 140 889.2500 893.7500 889.2625 893.7625 888.0444 892.5444
- 141 895.2500 899.7500 895.2625 899.7625 894.0447 898.5447
- 142 901.2500 905.7500 901.2625 905.7625 900.0450 904.5450
- 143 907.2500 911.7500 907.2625 911.7625 906.0453 910.5453
- 144 913.2500 917.7500 913.2625 917.7625 912.0456 916.5456
- 145 919.2500 923.7500 919.2625 923.7625 918.0459 922.5459
- 146 925.2500 929.7500 925.2625 929.7625 924.0462 928.5462
- 147 931.2500 935.7500 931.2625 935.7625 930.0465 934.5465
- 148 937.2500 941.7500 937.2625 941.7625 936.0468 940.5468
- 149 943.2500 947.7500 943.2625 947.7625 942.0471 946.5471
- 150 949.2500 953.7500 949.2625 953.7625 948.0474 952.5474
- 151 955.2500 959.7500 955.2625 959.7625 954.0477 958.5477
- 152 961.2500 965.7500 961.2625 965.7625 960.0480 964.5480
- 153 967.2500 971.7500 967.2625 971.7625 966.0483 970.5483
- 154 973.2500 977.7500 973.2625 977.7625 972.0486 976.5486
- 155 979.2500 983.7500 979.2625 983.7625 978.0489 982.5489
- 156 985.2500 989.7500 985.2625 989.7625 984.0492 988.5492
- 157 991.2500 995.7500 991.2625 995.7625 990.0495 994.5495
- 158 997.2500 1001.7500 997.2625 1001.7625 996.0498 1000.5498
CATV CHANNELS, North America
CATV CHANNELS, United Kingdom (PAL; CCIR standard I)Channel width: 8MHz
Video Audio Video Audio Video Audio8.0 14.0 296.0 302.0 584.0 590.0
16.0 22.0 304.0 310.0 592.0 598.024.0 30.0 312.0 318.0 600.0 606.032.0 38.0 320.0 326.0 608.0 614.040.0 46.0 328.0 334.0 616.0 622.048.0 54.0 336.0 342.0 624.0 630.056.0 62.0 344.0 350.0 632.0 638.064.0 70.0 352.0 358.0 640.0 646.072.0 78.0 360.0 366.0 648.0 654.080.0 86.0 368.0 374.0 656.0 662.088.0 94.0 376.0 382.0 664.0 670.096.0 102.0 384.0 390.0 672.0 678.0
104.0 110.0 392.0 398.0 680.0 686.0112.0 118.0 400.0 406.0 688.0 694.0120.0 126.0 408.0 414.0 696.0 702.0128.0 134.0 416.0 422.0 704.0 710.0136.0 142.0 424.0 430.0 712.0 718.0144.0 150.0 432.0 438.0 720.0 726.0152.0 158.0 440.0 446.0 728.0 734.0160.0 166.0 448.0 454.0 736.0 742.0168.0 174.0 456.0 462.0 744.0 750.0176.0 182.0 464.0 470.0 752.0 758.0184.0 190.0 472.0 478.0 760.0 766.0192.0 198.0 480.0 486.0 768.0 774.0200.0 206.0 488.0 494.0 776.0 782.0208.0 214.0 496.0 502.0 784.0 790.0216.0 222.0 504.0 510.0 792.0 798.0224.0 230.0 512.0 518.0 800.0 806.0232.0 238.0 520.0 526.0 808.0 814.0240.0 246.0 528.0 534.0 816.0 822.0248.0 254.0 536.0 542.0 824.0 830.0256.0 262.0 544.0 550.0 832.0 838.0264.0 270.0 552.0 558.0 840.0 846.0272.0 278.0 560.0 566.0 848.0 854.0280.0 286.0 568.0 574.0 856.0 862.0288.0 294.0 576.0 582.0 864.0 870.0
Color: 4.43361875 MHz Nicam Aurals Plus 552 KHz
5
8
OFF-AIR CHANNELS, North America (CCIR standard M; NTSC)CHAN BW (MHZ) VIDEO CHROMA AUDIO
Lo VHF2 54-60 55.25 58.83 59.753 60-66 61.25 64.83 65.754 66-72 67.25 70.83 71.755 76-82 77.25 80.83 81.756 82-88 83.25 86.83 87.75
Hi VHF7 174-180 175.25 178.83 179.758 180-186 181.25 184.83 185.759 186-192 187.25 190.83 191.7510 192-198 193.25 196.83 197.7511 198-204 199.25 202.83 203.7512 204-210 205.25 208.83 209.7513 210-216 211.25 214.83 215.75
UHF14 470-476 471.25 474.83 475.7515 476-482 477.25 480.83 481.7516 482-488 483.25 486.83 487.7517 488-494 489.25 492.83 493.7518 494-500 495.25 498.83 499.7519 500-506 501.25 504.83 505.7520 506-512 507.25 510.83 511.7521 512-518 513.25 516.83 517.7522 518-524 519.25 522.83 523.7523 524-530 525.25 528.83 529.7524 530-536 531.25 534.83 535.7525 536-542 537.25 540.83 541.7526 542-548 543.25 546.83 547.7527 548-554 549.25 552.83 553.7528 554-560 555.25 558.83 559.7529 560-566 561.25 564.83 565.7530 566-572 567.25 570.83 571.7531 572-578 573.25 576.83 577.7532 578-584 579.25 582.83 583.7533 584-590 585.25 588.83 589.7534 590-596 591.25 594.83 595.7535 596-602 597.25 600.83 601.7536 602-608 603.25 606.83 607.7537 608-614 609.25 612.83 613 7538 614-620 615.25 618.83 619.75
5
9
OFF-AIR CHANNELS • North AmericaCHAN BW (MHZ) VIDEO CHROMA AUDIO
UHF39 620-626 621.25 624.83 625.7540 626-632 627.25 630.83 631.7541 632-638 633.25 636.83 637.7542 638-644 639.25 642.83 643.7543 644-650 645.25 648.83 649.7544 650-656 651.25 654.83 655.7545 656-662 657.25 660.83 661.7546 662-668 663.25 666.83 667.7547 668-674 669.25 672.83 673.7548 674-680 675.25 678.83 679.7549 680-686 681.25 684.83 685.7550 686-692 687.25 690.83 691.7551 692-698 693.25 696.83 697.7552 698-704 699.25 702.83 703.7553 704-710 705.25 708.83 709.7554 710-716 711.25 714.83 715.7555 716-722 717.25 720.83 721.7556 722-728 723.25 726.83 727.7557 728-734 729.25 732.83 733.7558 734-740 735.25 738.83 739.7559 740-746 741.25 744.83 745.7560 746-752 747.25 750.83 751.7561 752-758 753.25 756.83 757.7562 758-764 759.25 762.83 763.7563 764-770 765.25 768.83 769.7564 770-776 771.25 774.83 775.7565 776-782 777.25 780.83 781.7566 782-788 783.25 786.83 787.7567 788-794 789.25 792.83 793.7568 794-800 795.25 798.83 799.7569 800-806 801.25 804.83 805.7570 806-812 807.25 810.83 811.7571 812-818 813.25 816.83 817.7572 818-824 819.25 822.83 823.7573 824-830 825.25 828.83 829.7574 830-836 831.25 834.83 835.7575 836-842 837.25 840.83 841.7576 842-848 843.25 846.83 847.7577 848-854 849.25 852.83 853.7578 854-860 855.25 858.83 859.7579 860-866 861.25 864.83 865.7580 866-872 867.25 870.83 871.7581 872-878 873.25 876.83 877.7582 878-884 879.25 882.83 883.7583 884-890 885.25 888.83 889.75
5
10
OFF-AIR CHANNELS • CCIR STANDARDS G,H,I,K, & LCHANNEL AUDIO
Europe China BW (MHz) VIDEO G, H I K, LUHF band IV
21 13 470-478 471.25 476.75 477.25 477.2522 14 478-486 479.25 484.75 485.75 485.2523 15 486-494 487.25 492.75 493.75 493.2524 16 494-502 495.25 500.75 501.75 501.2525 17 502-510 503.25 508.75 509.75 509.2526 18 510-518 511.25 516.75 517.75 517.2527 19 518-526 519.25 524.75 525.75 525.2528 20 526-534 527.25 532.75 533.75 533.2529 21 534-542 535.25 540.75 541.75 541.2530 22 542-550 543.25 548.75 549.75 549.2531 23 550-558 551.25 556.75 557.75 557.2532 24 558-566 559.25 564.75 565.75 565.2533 566-574 567.25 572.75 573.75 573.2534 574-582 575.25 580.75 581.75 581.2535 Not defined 582-590 583.25 588.75 589.75 589.2536 590-598 591.25 596.75 597.75 597.2537 598-606 599.25 604.75 605.75 605.25
UHF band V38 25 606-614 607.25 612.75 613.25 613.2539 26 614-622 615.25 620.75 621.75 621.2540 27 622-630 623.25 628.75 629.75 629.2541 28 630-638 631.25 636.75 637.75 637.2542 29 638-646 639.25 644.75 645.75 645.2543 30 646-654 647.25 652.75 653.75 653.2544 31 654-662 655.25 660.75 661.75 661.2545 32 662-670 663.25 668.75 669.75 669.2546 33 670-678 671.25 676.75 677.75 677.2547 34 678-686 679.25 684 75 685.75 685.2548 35 686-694 687.25 692.75 693.75 693.2549 36 694-702 695.25 700.75 701.75 701.2550 37 702-710 703.25 708.75 709.75 709.2551 38 710-718 711.25 716.75 717.75 717.2552 39 718-726 719.25 724.75 725.75 725.2553 40 726-734 727.25 732.75 733.75 733.2554 41 734-742 735.25 740.75 741.75 741.2555 42 742-750 743.25 748.75 749.75 749.2556 43 750-758 751.25 756.75 757.75 757.2557 44 758-766 759.25 764.75 765.75 765.2558 45 766-774 767.25 772.75 773.75 773.2559 46 774-782 775.25 780.75 781.75 781.2560 47 782-790 783.25 788.75 789.75 789.2561 48 790-798 791.25 796.75 797.75 797.2562 49 798-806 799.25 804.75 805.75 805.2563 50 806-814 807.25 812.75 813.75 813.25
5
11
CHANNEL AUDIOEurope P.R. China BW (MHz) VIDEO G, H I K, LUHF band V
64 51 814-822 815.25 820.75 821.25 821.7565 52 822-830 823.25 828.75 829.25 829.7566 53 830-838 831.25 836.75 837.25 837.7567 54 838-846 839.25 844.75 845.25 845.7568 55 846-854 847.25 852.75 853.25 853.7569 56 854-862 855.25 860.75 861.25 861.75
57 862-870 863.25 869.7558 870-878 871.25 877.75
Not defined 59 878-886 879.25 885.7560 886-894 887.25 893.7561 894-902 895.25 901.7562 902-910 903.25 909.75
CCIR STANDARDS BCHAN. BW (MHz) VIDEO CHROMA AUDIO
UHF band IV
28 526-533 527.25 531.68 532.7529 533-540 534.25 538.68 539.7530 540-547 541.25 545.68 546.7531 547-554 548.25 552.68 553.7532 554-561 555.25 559.68 560.7533 561-568 562.25 566.68 567.7534 568-575 569.25 573.68 574.7535 575-582 576.25 580.68 581.75
UHF band V36 582-589 583.25 587.68 588.7537 589-596 590.25 594.68 595.7538 596-603 597.25 601.68 602.75
------------Other channels with 7 MHz spacing----------67 799-806 800.25 804.68 805.7568 806-813 807.25 811.68 812.7569 813-820 814.25 818.68 819.75
OFF-AIR CHANNELS • CCIR STANDARDS G,H,I,K, & L
Color Subcarriers: K 4.406 MHz; L 4.250 MHz; B, G, A, I 4.434 MHz
5
12
FM Broadcast Channel Frequencies (MHz)
Channel Frequency Channel Frequency Channel Frequency
1 88.1 35 94.9 69 101.72 88.3 36 95.1 70 101.93 88.5 37 95.3 71 102.14 88.7 38 95.5 72 102.35 88.9 39 95.7 73 102.56 89.1 40 95.9 74 102.77 89.3 41 96.1 75 102.98 89.5 42 96.3 76 103.19 89.7 43 96.5 77 103.310 89.9 44 96.7 78 103.511 90.1 45 96.9 79 103.712 90.3 46 97.1 80 103913 90.5 47 97.3 81 104.114 90.7 48 97.5 82 104.315 90.9 49 97.7 83 104.516 91.1 50 97.9 84 104.717 91.3 51 98.1 85 104.918 91.5 52 98.3 86 105.119 91.7 53 98.5 87 105.320 91.9 54 98.7 88 105.521 92.1 55 98.9 89 105.722 92.3 56 99.1 90 105.923 92.5 57 99.3 91 106 124 92.7 58 99.5 92 106325 92.9 59 99.7 93 106.526 93.1 60 99.9 94 106.727 93.3 61 100.1 95 106.928 93.5 62 100.3 96 107.129 93.7 63 100.5 97 107.330 93.9 64 100.7 98 107.531 94.1 65 100.9 99 107.732 94.3 66 101.1 100 107.933 94.5 67 101.334 94.7 68 101.5
5
13
INTERNATIONAL CHANNEL STANDARDS
Country Color Broadcast Channel System Standard Frequencies
VHF UHF
Argentina PAL N N AmerAustralia PAL B G AustralianAustria PAL B G West EuroBahamas NTSC M AmerBelgium PAL B H West EuroBermuda NTSC M AmerBolivia NTSC M M AmerBrazil PAL M M AmerCanada NTSC M M AmerChile NTSC M AmerChina PAL D ChineseChina, Rep of NTSC M AmerColombia NTSC M M AmerCosta Rica NTSC M AmerDenmark PAL B G West EuroEcuador NTSC M AmerEgypt SECAM B West EuroFinland PAL B G West EuroFrance SECAM L L FrenchGermany SECAM/PAL B G West EuroGreece SECAM B G West EuroHong Kong PAL I West EuroHungary SECAM D K East EuroHungary SECAM D K East EuroIndia PAL B West EuroIndonesia PAL B West EuroIran SECAM B G West EuroIraq SECAM B West EuroIreland PAL A I Irish
5
14
INTERNATIONAL CHANNEL STANDARDS
Country Color Broadcast Channel System Standard Frequencies
VHF UHF
Israel PAL B G West EuroItaly PAL B G ItalianJapan W M M JPNJordan PAL B G West EuroKorea S. NTSC M M AmerMalaysia PAL B G West EuroMexico NTSC M M AmerMorocco SECAM B MoroccoNetherlands PAL B G West EuroNew Zealand PAL B G NZNorway PAL B G West EuroPanama NTSC M M AmerPeru NTSC M M AmerPhilippines NTSC M AmerPoland SECAM D K East EuroPortugal PAL B G West EuroRomania SECAM D K East EuroRussia SECAM D K East EuroSingapore PAL B G West EuroSpain PAL B G West EuroSweden PAL B G West EuroSwitzerland PAL B G West EuroUnited Kingdom PAL I I West EuroUruguay PAL N AmerUSA NTSC M M AmerVenezuela NTSC M Amer
5
15
CCIR TELEVISION TRANSMISSION CHARACTERISTICS
FOR OFF- AIR CHANNELSSYSTEM LINES FIELD LINE CHAN. VIDEO VID/SND VEST VISUAL AURAL
Freq. Freq. Width B/W Spacing Sideb MOD MOD(Hz) (MHz) (MHz) (MHz) (MHz) (MHz)
B/G 625 50 15,625 7/8 5 + 5.5 0.75 NEG FM
C 625 50 15,625 7 5 + 5.5 0.75 POS AM
D/K 625 50 15,625 8 6 +6.5 0.75 NEG FM
H 625 50 15,625 8 5 + 5.5 1.25 NEG FM
I 625 50 15,625 8 5.5 + 6.0 1.25 NEG FM
K1 625 50 15,625 8 6 + 6.5 1.25 NEG FM
L 525 50 15,625 8 6 +/- 6.5 1.25 POS AM
M 525 60 15,734 6 4.2 + 4 5 0.75 NEG FM
N 625 50 15,625 6 4.2 + 4.5 0.75 NEG FM
CCIR: Commité Consulatif International Radiocommunications
NTSC: National Television Systems Committee“Never Twice the Same Color”
PAL: Phase Alternating Lines “Pay for Additional Luxury”
SECAM: Sequential Color with Memory (Sequentiel Couleur Avec Memoire)“System Essentially Contrary to the American Method”
OIRT: Organisation Internationale Radiodiffusion - Television
5
16
5
17
FREQUENCY SPECTRUM
Ham & Shortwave CB Ham Land Mobile
& Paging Ham TV Channels TV
Channels FM
T-7 T-8 T-9 T-10 T-11 T-12 T-13 2 3 4 1A-6 5 6 95
A-59A-
0
5.7
11.7
5
17.7
5
23.7
5
29.7
5
35.7
5
41.7
5
47.7
5 54 60 66 72 76 82 90 96
12 23J
24K
25L
26M
27N
28O
30Q
31R
32S
33T
34U
3V
11 29P
13 35V
198
204
210
216
222
228
234
240
246
252
258
264
270
276
282
288
294
Government Fixed & Mobile, Including Aero-CommunicationsHam
Land
Mob
ileVHF Television
396
402
408
414
420
426
432
438
444
450
456
462
468
474
480
486
492
470
476
482
488
494
600
606
612
618
624
630
636
642
648
654
660
666
672
678
684
690
696
602
608
614
620
626
632
638
644
650
656
662
668
674
680
686
692
698
804
810
816
822
828
834
840
846
852
858
864
870
876
882
888
894
Research & Other Ham Land Mobile54RR
56TT
57UU
58VV
59WW
60XX
61YY
63AAA
64BBB
65CCC
66DDD
67EEE
69GG
53QQ
62ZZ
55SS
68FFF
88 90 91 92 93 94 105 106 1087 89 107100 101 103 104102
CATV Channel Assignments
UHF Broadcast
Cellular Systems (Public Mobile, Private Base & Public Base)
14 15 16 17 18
49 50 51 5236 37 38 39 40 41 42 43 44 45 46 47 48
127 129 130 131 132 133 139 140126 128 14134 135 137 138136
Trouble Areas
CATV
CATV
CATV
5
18
FREQUENCY SPECTRUM
FM FM Aircraft Radio, Voice& Aeronavigation
SpaceResearch Ha
m Land Mobile Govt. FixedMobile VHF Television
95A-5
96A-4
97A-3
98A-2
99A-1
14A
15B
16C
17D
18E
19F
20G
21H
22I 7 8 9 10
96 102
108
114
120
126
132
138
144
150
156
162
168
174
180
186
192
198
36V
37AA
38BB
39CC
40DD
41EE
42FF
43GG
44HH
45II
46JJ
47KK
48LL
49MM
50NN
51OO
52PP
35V
294
300
312
318
324
330
336
342
348
354
360
366
372
378
384
390
396
306
Government Fixed & MobileHarbor Navigation & Coast Guards
492
498
510
516
522
528
534
540
546
552
558
564
570
576
582
588
594
504
600
494
500
512
518
524
530
536
542
548
554
560
566
572
578
584
590
596
506
602
696
702
714
720
726
732
738
744
750
756
762
768
774
780
786
792
798
708
804
698
704
716
722
728
734
740
746
752
758
764
770
776
782
788
794
800
710
806
894
900
906
918
924
930
936
942
948
954
960
966
972
978
984
990
996
1002912
CATV Channel Assignments
UHF Broadcast
69GGG
70HHH
71III
72JJJ
73KKK
74LLL
75MMM
76NNN
77OOO
78PPP
79QQQ
80RRR
81SSS
82TTT
83UUU
84VVV
85WWW
8FF
86XXX
CATV Channel Assignments
UHF Broadcast
108 109 110 111 112 113 114 115 116 117 118 119 120 121 122 123 12407 125
Radiolocation &Experimental PCS Pa
ging
Syst
em Land MobileNon-common Carrier Private Fixed Aircraft Radionavigation
7 18 20 21 22 23 24 25 26 27 28 29 30 31 32 33 34 3519
1 52 54 55 56 57 58 59 60 62 63 64 65 66 67 68 6953 61
40 142 143 144 145 146 147 148 149 150 151 152 153 154 155 156 157 158141
CABLE TV CHANNEL FORMAT
Low Edgeof Channel
High Edgeof Channel
50 kHz
SoundCarrier
(level is17 dBbelowvideocarrier)
6
VideoCarrier
0 0.5 1.25 4.83 5.25 5.75
0.5MHz
0.25MHz
6 MHz Channel Width
4.5 MHz
4 MHz3.58 MHz
ColorCarrier
5
19
NTSC
FCC AERONAUTICAL BAND FREQUENCIES
Used for Communication and Navigation
FCC AERONAUTICAL BAND
OVERLAPPING CABLE TELEVISION BAND
Navigation Band50 kHz Spaced
Carriers
Air Distress Signal-RequiredOffset 100 kHz
Emergency ShipSurvival-Required
Offset 50 kHz
Emergency AircraftSurvival-Required
Offset 50 kHz
RequiredOffset
25 kHz±5 kHz
RequiredOffset
12.5 kHz±5 kHz
Required Offset12.5 kHz ± 5 kHz
Required Offset25 kHz ± 5 kHz
Required Offset12.5 kHz ± 5 kHz
CommunicationBand 25 kHz
Spaced Carriers
CommunicationBand 25 kHz
Spaced Carriers
NavigationalBand 50 kHz
Spaced Carriers
CommunicationBand 25kHz
Spaced Carriers
108
108 118 127.25 137 157.25 225229.25 328.6 335.4 397.25
109.25 115.25 133.25 223.25 325.25 337.25331.25 400 MHZ
A-2 A-1 A B C G K L EE FF GG QQ
121,25
118121
137156.8
225243
328.6 335.4 400 MHz
5
20
5
21
Panasmat Brazilsat A1 C-Band144° West Longitude
TransponderD/L
Polarity Channel U/L Freq. D/L Freq1A (H) 1 5945 37201B (V) 2 5965 37402A (H) 3 5985 37602B (V) 4 6005 37803A (H) 5 6025 38003B (V) 6 6045 38204A ( H) 7 6065 38404B (V) 8 6085 38605A (H) 9 6105 38805B (V) 10 6125 39006A (H) 11 6145 39206B (V) 12 6165 39407A (H) 13 6185 39607B (V) 14 6205 39808A (H) 15 6225 40008B (V) 16 6245 40209A (H) 17 6265 40409B (V) 18 6285 4060
10A (H) 19 6305 408010B (V) 20 6325 410011A (H) 21 6345 412011B (V) 22 6365 414012A (H) 23 6385 416012B(V) 24 6405 4180
Alascom Aurora 2/GE Satcom C5 C-Band139° West Longitude
TransponderD/L
Polarity Channel U/L Freq. D/L Freq1(V) 1 5945 37202 (H) 2 5965 37403 (V) 3 5985 37604 (H) 4 6005 37805 (V) 5 6025 38006 (H) 6 6045 38207 (V) 7 6065 38408 (H) 8 6085 38609 (V) 9 6105 3880
10 (H) 10 6125 390011 (V) 11 6145 392012 (H) 12 6165 394013 (V) 13 6185 396014 (H) 14 6205 398015 (V) 15 6225 400016 (H) 16 6245 402017 (V) 17 6265 404018 (H) 18 6285 406019 (V) 19 6305 408020 (H) 20 6325 410021 (V) 21 6345 412022 (H) 22 6365 414023 (V) 23 6385 416024 (H) 24 6405 4180
North American SatelliteFrequency/Transponder Conversion Table
Downlink polarization for each transponder denoted in parenthesis.
5
22
GE Satcom C1 C-Band137° West Longitude
TransponderD/L
Polarity Channel U/L Freq. D/L Freq1(H) 1 5945 37202 (V) 2 5965 37403 (H) 3 5985 37604 (V) 4 6005 37805 (H) 5 6025 38006 (V) 6 6045 38207 (H) 7 6065 38408 (V) 8 6085 38609 (H) 9 6105 388010 (V) 10 6125 390011 (H) 11 6145 392012 (V) 12 6165 394013 (H) 13 6185 396014 (V) 14 6205 398015 (H) 15 6225 400016 (V) 16 6245 402017 (H) 17 6265 404018 (V) 18 6285 406019 (H) 19 6305 408020 (V) 20 6325 410021 (H) 21 6345 412022 (V) 22 6365 414023 (H) 23 6385 416024 (V) 24 6405 4180
GE Satcom C4 C-Band135° West Longitude
TransponderD/L
Polarity Channel U/L Freq. D/L Freq1(V) 1 5945 37202 (H) 2 5965 37403 (V) 3 5985 37604 (H) 4 6005 37805 (V) 5 6025 38006 (H) 6 6045 38207 (V) 7 6065 38408 (H) 8 6085 38609 (V) 9 6105 3880
10 (H) 10 6125 390011 (V) 11 6145 392012 (H) 12 6165 394013 (V) 13 6185 396014 (H) 14 6205 398015 (V) 15 6225 400016 (H) 16 6245 402017 (V) 17 6265 404018 (H) 18 6285 406019 (V) 19 6305 408020 (H) 20 6325 410021 (V) 21 6345 412022 (H) 22 6365 414023 (V) 23 6385 416024 (H) 24 6405 4180
North American SatelliteFrequency/Transponder Conversion Table
Downlink polarization for each transponder denoted in parenthesis.
5
23
GE Satcom C3 C-Band131° West Longitude
TransponderD/L
Polarity Channel U/L Freq. D/L Freq1(V) 1 5945 37202 (H) 2 5965 37403 (V) 3 5985 37604 (H) 4 6005 37805 (V) 5 6025 38006 (H) 6 6045 38207 (V) 7 6065 38408 (H) 8 6085 38609 (V) 9 6105 3880
10 (H) 10 6125 390011 (V) 11 6145 392012 (H) 12 6165 394013 (V) 13 6185 396014 (H) 14 6205 398015 (V) 15 6225 400016 (H) 16 6245 402017 (V) 17 6265 404018 (H) 18 6285 406019 (V) 19 6305 408020 (H) 20 6325 410021 (V) 21 6345 412022 (H) 22 6365 414023 (V) 23 6385 416024 (H) 24 6405 4180
Panamsat Galaxy IR C-Band133° West Longitude
TransponderD/L
Polarity Channel U/L Freq. D/L Freq1(H) 1 5945 37202 (V) 2 5965 37403 (H) 3 5985 37604 (V) 4 6005 37805 (H) 5 6025 38006 (V) 6 6045 38207 (H) 7 6065 38408 (V) 8 6085 38609 (H) 9 6105 388010 (V) 10 6125 390011 (H) 11 6145 392012 (V) 12 6165 394013 (H) 13 6185 396014 (V) 14 6205 398015 (H) 15 6225 400016 (V) 16 6245 402017 (H) 17 6265 404018 (V) 18 6285 406019 (H) 19 6305 408020 (V) 20 6325 410021 (H) 21 6345 412022 (V) 22 6365 414023 (H) 23 6385 416024 (V) 24 6405 4180
North American SatelliteFrequency/Transponder Conversion Table
Downlink polarization for each transponder denoted in parenthesis.
5
24
North American SatelliteFrequency/Transponder Conversion Table
Loral Skynet Telstar 7 C-Band129° West Longitude
TransponderD/L
Polarity Channel U/L Freq. D/L Freq1(H) 1 5945 37202 (V) 2 5965 37403 (H) 3 5985 37604 (V) 4 6005 37805 (H) 5 6025 38006 (V) 6 6045 38207 (H) 7 6065 38408 (V) 8 6085 38609 (H) 9 6105 388010 (V) 10 6125 390011 (H) 11 6145 392012 (V) 12 6165 394013 (H) 13 6185 396014 (V) 14 6205 398015 (H) 15 6225 400016 (V) 16 6245 402017 (H) 17 6265 404018 (V) 18 6285 406019 (H) 19 6305 408020 (V) 20 6325 410021 (H) 21 6345 412022 (V) 22 6365 414023 (H) 23 6385 416024 (V) 24 6405 4180
Loral Skynet Telstar 7 Ku-Band129° West Longitude
TransponderD/L
Polarity Channel U/L Freq. D/L Freq1(V) 1 14020 117202 (H) 2 14040 117403 (V) 3 14060 117604 (H) 4 14080 117805 (V) 5 14100 118006 (H) 6 14120 118207 (V) 7 14140 118408 (H) 8 14160 118609 (V) 9 14180 11880
10 (H) 10 14200 1190011 (V) 11 14220 1192012 (H) 12 14240 1194013 (V) 13 14260 1196014 (H) 14 14280 1198015 (V) 15 14300 1200016 (H) 16 14320 1202017 (V) 17 14340 1204018 (H) 18 14360 1206019 (V) 19 14380 1208020 (H) 20 14400 1210021 (V) 21 14420 1212022 (H) 22 14440 1214023 (V) 23 14460 1216024 (H) 24 14480 12180
Downlink polarization for each transponder denoted in parenthesis.
5
25
Panamsat Galaxy 5 C-Band125° West Longitude
TransponderD/L
Polarity Channel U/L Freq. D/L Freq1(H) 1 5945 37202 (V) 2 5965 37403 (H) 3 5985 37604 (V) 4 6005 37805 (H) 5 6025 38006 (V) 6 6045 38207 (H) 7 6065 38408 (V) 8 6085 38609 (H) 9 6105 388010 (V) 10 6125 390011 (H) 11 6145 392012 (V) 12 6165 394013 (H) 13 6185 396014 (V) 14 6205 398015 (H) 15 6225 400016 (V) 16 6245 402017 (H) 17 6265 404018 (V) 18 6285 406019 (H) 19 6305 408020 (V) 20 6325 410021 (H) 21 6345 412022 (V) 22 6365 414023 (H) 23 6385 416024 (V) 24 6405 4180
Panamsat Galaxy 9 C-Band127° West Longitude
TransponderD/L
Polarity Channel U/L Freq. D/L Freq1(V) 1 5945 37202 (H) 2 5965 37403 (V) 3 5985 37604 (H) 4 6005 37805 (V) 5 6025 38006 (H) 6 6045 38207 (V) 7 6065 38408 (H) 8 6085 38609 (V) 9 6105 3880
10 (H) 10 6125 390011 (V) 11 6145 392012 (H) 12 6165 394013 (V) 13 6185 396014 (H) 14 6205 398015 (V) 15 6225 400016 (H) 16 6245 402017 (V) 17 6265 404018 (H) 18 6285 406019 (V) 19 6305 408020 (H) 20 6325 410021 (V) 21 6345 412022 (H) 22 6365 414023 (V) 23 6385 416024 (H) 24 6405 4180
North American SatelliteFrequency/Transponder Conversion Table
Downlink polarization for each transponder denoted in parenthesis.
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North American SatelliteFrequency/Transponder Conversion TableNorth American SatelliteFrequency/Transponder Conversion Table
Panamsat Galaxy 10R Ku-Band123° West Longitude
TransponderD/L
Polarity Channel U/L Freq. D/L Freq1 (V) 1 14020 117202 (H) 2 14040 117403 (V) 3 14060 117604 (H) 4 14080 117805 (V) 5 14100 118006 (H) 6 14120 118207 (V) 7 14140 118408 (H) 8 14160 118609 (V) 9 14180 11880
10 (H) 10 14200 1190011 (V) 11 14220 1192012 (H) 12 14240 1194013 (V) 13 14260 1196014 (H) 14 14280 1198015 (V) 15 14300 1200016 (H) 16 14320 1202017 (V) 17 14340 1204018 (H) 18 14360 1206019 (V) 19 14380 1208020 (H) 20 14400 1210021 (V) 21 14420 1212022 (H) 22 14440 1214023 (V) 23 14460 1216024 (H) 24 14480 12180
Panamsat Galaxy 10R C-Band123° West Longitude
TransponderD/L
Polarity Channel U/L Freq. D/L Freq1(V) 1 5945 37202 (H) 2 5965 37403 (V) 3 5985 37604 (H) 4 6005 37805 (V) 5 6025 38006 (H) 6 6045 38207 (V) 7 6065 38408 (H) 8 6085 38609 (V) 9 6105 3880
10 (H) 10 6125 390011 (V) 11 6145 392012 (H) 12 6165 394013 (V) 13 6185 396014 (H) 14 6205 398015 (V) 15 6225 400016 (H) 16 6245 402017 (V) 17 6265 404018 (H) 18 6285 406019 (V) 19 6305 408020 (H) 20 6325 410021 (V) 21 6345 412022 (H) 22 6365 414023 (V) 23 6385 416024 (H) 24 6405 4180
Downlink polarization for each transponder denoted in parenthesis.
Loral Skynet Morelos 2 C-Band120° West Longitude
TransponderD/L
Polarity Channel U/L Freq. D/L Freq1W/L (H) 1 5945 37201N (V) 2 5965 3740
1W/U (H) 3 5985 37602N (V) 4 6005 3780
2W/L (H) 5 6025 38003N (V) 6 6045 3820
2W/U (H) 7 6065 38404N (V) 8 6085 3860
3W/L (H) 9 6105 38805N (V) 10 6125 3900
3W/U (H) 11 6145 39206N (V) 12 6165 3940
4W/L (H) 13 6185 39607N (V) 14 6205 3980
4W/U (H) 15 6225 40008N (V) 16 6245 4020
5W/L(H) 17 6265 40409N(V) 18 6285 4060
5W/U (H) 19 6305 408010N (V) 20 6325 4100
6W/L (H) 21 6345 412011N (V) 22 6365 4140
6W/U (H) 23 6385 416012N (V) 24 6405 4180
Loral Skynet Morelos 2 Ku-Band120° West Longitude
TransponderD/L
Polarity Channel U/L Freq. D/L Freq1K (H) 1 14064 117642K (H) 2 14188 118883K(H) 3 14312 120124K (H) 4 14436 12136
North American SatelliteFrequency/Transponder Conversion TableNorth American SatelliteFrequency/Transponder Conversion Table
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Downlink polarization for each transponder denoted in parenthesis.
North American SatelliteFrequency/Transponder Conversion Table
SatMex SatMex 5 C-Band116.8° West Longitude
TransponderD/L
Polarity Channel U/L Freq. D/L Freq1(V) 1 5945 37202 (H) 2 5965 37403 (V) 3 5985 37604 (H) 4 6005 37805 (V) 5 6025 38006 (H) 6 6045 38207 (V) 7 6065 38408 (H) 8 6085 38609 (V) 9 6105 3880
10 (H) 10 6125 390011 (V) 11 6145 392012 (H) 12 6165 394013 (V) 13 6185 396014 (H) 14 6205 398015 (V) 15 6225 400016 (H) 16 6245 402017 (V) 17 6265 404018 (H) 18 6285 406019 (V) 19 6305 408020 (H) 20 6325 410021 (V) 21 6345 412022 (H) 22 6365 414023 (V) 23 6385 416024 (H) 24 6405 4180
SatMex SatMex 5 Ku-Band116.8° West Longitude
TransponderD/L
Polarity Channel U/L Freq. D/L Freq1K (H) 1 14020 117202K (V) 2 14040 117403K (H) 3 14060 117604K (V) 4 14080 117805K (H) 5 14100 118006K (V) 6 14120 118207K (H) 7 14140 118408K (V) 8 14160 118609K (H) 9 14180 1188010K (V) 10 14200 1190011K (H) 11 14220 1192012K (V) 12 14240 1194013K (H) 13 14260 1196014K (V) 14 14280 1198015K (H) 15 14300 1200016K (V) 16 14320 1202017K (H) 17 14340 1204018K (V) 18 14360 1206019K (H) 19 14380 1208020K (V) 20 14400 1210021K (H) 21 14420 1212022K (V) 22 14440 1214023K (H) 23 14460 1216024K (V) 24 14480 12180
Downlink polarization for each transponder denoted in parenthesis.
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SatMex Solidaridad F2 C-Band113° West Longitude
TransponderD/L
Polarity Channel U/L Freq. D/L Freq1N (V) 1 5945 3720
1W/L (H) 2 5965 37402N (V) 3 5985 3760
1W/U (H) 4 6005 37803N (V) 5 6025 3800
2W/L (H) 6 6045 38204N (V) 7 6065 3840
2W/U (H) 8 6085 38605N (V) 9 6105 3880
3W/L (H) 10 6125 39006N (V) 11 6145 3920
3W/U (H) 12 6165 39407N (V) 13 6185 3960
4W/L (H) 14 6205 39808N (V) 15 6225 4000
4W/U(H) 16 6245 40209N(V) 17 6265 4040
5W/L (H) 18 6285 406010N (V) 19 6305 4080
5W/U (H) 20 6325 410011N (V) 21 6345 4120
6W/L (H) 22 6365 414012N (V) 23 6385 4160
6W/U (H) 24 6405 4180
North American SatelliteFrequency/Transponder Conversion Table
SatMex Solidaridad F2 Ku-Band113° West Longitude
TransponderD/L
Polarity Channel U/L Freq. D/L Freq1K (H) 1 14030 117302K (H) 2 14091 117913K (H) 3 14152 118524K (H) 4 14213 119135K (H) 5 14274 119746K (H) 6 14335 120357K (H) 7 14396 120968K (H) 8 14457 121579K (V) 9 14043 1174310K (V) 10 14104 1180411K (V) 11 14165 1186512K (V) 12 14226 1192613K (V) 13 14287 1198714K (V) 14 14348 1204815K (V) 15 14409 1210916K (V) 16 14470 12170
Downlink polarization for each transponder denoted in parenthesis.
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North American SatelliteFrequency/Transponder Conversion Table
Telesat Anik E1 C-Band111.1° West Longitude
TransponderD/L
Polarity Channel U/L Freq. D/L Freq1A (H) 1 5945 37201B (V) 2 5965 37402A (H) 3 5985 37602B (V) 4 6005 37803A (H) 5 6025 38003B (V) 6 6045 38204A ( H) 7 6065 38404B (V) 8 6085 38605A (H) 9 6105 38805B (V) 10 6125 39006A (H) 11 6145 39406B (V) 12 6165 39407A (H) 13 6185 39607B (V) 14 6205 39808A (H) 15 6225 40008B (V) 16 6245 40209A (H) 17 6265 40409B (V) 18 6285 4060
10A (H) 19 6305 408010B (V) 20 6325 410011A (H) 21 6345 412011B (V) 22 6365 414012A (H) 23 6385 416012B(V) 24 6405 4180
Telesat Anik E1 Ku-Band111.1° West Longitude
TransponderD/L
Polarity Channel U/L Freq. D/L FreqT1(N) (V) 1 14017 11717T2(N) (V) 2 14043 11743T3(N) (V) 3 14078 11778T4(N) (V) 4 14104 11804T5(N) (V) 5 14139 11839T6(N) (V) 6 14165 11865T9(N) (V) 9 14261 11961T10(N) (V) 10 14287 11987T17(N) (H) 17 14030 11730T18(N) (H) 18 14056 11756T19(N) (H) 19 14091 11791T20(N) (H) 20 14117 11817T27(N) (H) 27 14335 12035T28(N) (H) 28 14361 12061
Downlink polarization for each transponder denoted in parenthesis.
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SatMex Solidaridad F1 C-Band109.2° West Longitude
TransponderD/L
Polarity Channel U/L Freq. D/L Freq1N (V) 1 5945 3720
1W/L (H) 2 5965 37402N (V) 3 5985 3720
1W/U (H) 4 6005 37803N (V) 5 6025 3800
2W/L (H) 6 6045 38204N (V) 7 6065 3840
2W/U (H) 8 6085 38605N (V) 9 6105 3880
3W/L (H) 10 6125 39006N (V) 11 6145 3920
3W/U (H) 12 6165 39407N (V) 13 6185 3960
4W/L (H) 14 6205 39808N (V) 15 6225 4000
4W/U(H) 16 6245 40209N(V) 17 6265 4040
5W/L (H) 18 6285 406010N (V) 19 6305 4080
5W/U (H) 20 6325 410011N (V) 21 6345 4120
6W/L (H) 22 6365 414012N (V) 23 6385 4160
6W/U (H) 24 6405 4180
SatMex Solidaridad F1 Ku-Band109.2° West Longitude
TransponderD/L
Polarity Channel U/L Freq. D/L Freq1K (H) 1 14030 117302K (H) 2 14091 117913K (H) 3 14152 118524K (H) 4 14213 119135K (H) 5 14274 119746K (H) 6 14335 120357K (H) 7 14396 120968K (H) 8 14457 121579K (V) 9 14043 1174310K (V) 10 14104 1180411K (V) 11 14165 1186512K (V) 12 14226 1192613K (V) 13 14287 1198714K (V) 14 14348 1204815K (V) 15 14409 1210916K (V) 16 14470 12170
North American SatelliteFrequency/Transponder Conversion Table
Downlink polarization for each transponder denoted in parenthesis.
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North American SatelliteFrequency/Transponder Conversion Table
Telesat Anik E2 C-Band107.3° West Longitude
TransponderD/L
Polarity Channel U/L Freq. D/L Freq/1A (H) 1 5945 37201B (V) 2 5965 37402A (H) 3 5985 37602B (V) 4 6005 37803A (H) 5 6025 38003B (V) 6 6045 38204A ( H) 7 6065 38404B (V) 8 6085 38605A (H) 9 6105 38805B (V) 10 6125 39006A (H) 11 6145 39406B (V) 12 6165 39407A (H) 13 6185 39607B (V) 14 6205 39808A (H) 15 6225 40008B (V) 16 6245 40209A (H) 17 6265 40409B (V) 18 6285 4060
10A (H) 19 6305 408010B (V) 20 6325 410011A (H) 21 6345 412011B (V) 22 6365 414012A (H) 23 6385 416012B(V) 24 6405 4180
Telesat Anik E2 Ku-Band107.3° West Longitude
TransponderD/L
Polarity Channel U/L Freq. D/L Freq/T1(N) (V) 1 14017 11717T2(N) (V) 2 14043 11743T3(N) (V) 3 14078 11778T4(N) (V) 4 14104 11804T5(N) (V) 5 14139 11839T6(N) (V) 6 14165 11865T7(N) (V) 7 14200 11900T8(N) (V) 8 14226 11926T9(W) (V) 9 14261 11961T10(W) (V) 10 14287 11987T11(W) (V) 11 14322 12022T12(W) (V) 12 14348 12048T13(W) (V) 13 14383 12083T14(W) (V) 14 14409 12109T15(W) (V) 15 14444 12144T16(W) (V) 16 14470 12170T17(N) (H) 17 14030 11730T18(N) (H) 18 14056 11756T19(N) (H) 19 14091 11791T20(N) (H) 20 14117 11817T21(E) (H) 21 14152 11852T22(E) (H) 22 14178 11878T23(E) (H) 23 14213 11913T24(E) (H) 24 14239 11939T25(E) (H) 25 14274 11974T26(E) (H) 26 14300 12000T27(E) (H) 27 14335 12035T28(E) (H) 28 14361 12061T29(E) (H) 29 14396 12096T30(E) (V) 30 14422 12122T31(E) (H) 31 14457 1215732(E) (H) 32 14483 12183
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Downlink polarization for each transponderdenoted in parenthesis.
North American SatelliteFrequency/Transponder Conversion Table
GE GE-1 C-Band103° West Longitude
TransponderD/L
Polarity Channel U/L Freq. D/L Freq1(H) 1 5945 37202 (V) 2 5965 37403 (H) 3 5985 37604 (V) 4 6005 37805 (H) 5 6025 38006 (V) 6 6045 38207 (H) 7 6065 38408 (V) 8 6085 38609 (H) 9 6105 388010 (V) 10 6125 390011 (H) 11 6145 392012 (V) 12 6165 394013 (H) 13 6185 396014 (V) 14 6205 398015 (H) 15 6225 400016 (V) 16 6245 402017 (H) 17 6265 404018 (V) 18 6285 406019 (H) 19 6305 408020 (V) 20 6325 410021 (H) 21 6345 412022 (V) 22 6365 414023 (H) 23 6385 416024 (V) 24 6405 4180
GE GE-1 Ku-Band103° West Longitude
TransponderD/L
Polarity Channel U/L Freq. D/L Freq1K (H) 1 14020 117202K (V) 2 14040 117403K (H) 3 14060 117604K (V) 4 14080 117805K (H) 5 14100 118006K (V) 6 14120 118207K (H) 7 14140 118408K (V) 8 14160 118609K (H) 9 14180 1188010K (V) 10 14200 1190011K (H) 11 14220 1192012K (V) 12 14240 1194013K (H) 13 14260 1196014K (V) 14 14280 1198015K (H) 15 14300 1200016K (V) 16 14320 1202017K (H) 17 14340 1204018K (V) 18 14360 1206019K (H) 19 14380 1208020K (V) 20 14400 1210021K (H) 21 14420 1212022K (V) 22 14440 1214023K (H) 23 14460 1216024K (V) 24 14480 12180
Downlink polarization for each transponder denoted in parenthesis.
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North American SatelliteFrequency/Transponder Conversion Table
GE Gtar 4 Ku-Band105° West Longitude
TransponderD/L
Polarity Channel U/L Freq. D/L Freq1(H) 1 14030 117302 (H) 2 14091 117913 (H) 3 14152 118524 (H) 4 14213 119135 (H) 5 14274 119746 (H) 6 14335 120357 (H) 7 14396 120968 (H) 8 14457 121579 (V) 9 14044 1174410 (V) 10 14105 1180511 (V) 11 14166 1186612 (V) 12 14227 1192713 (V) 13 14228 1198814 (V) 14 14349 1204915 (V) 15 14410 1211016 (V) 16 14471 12171
GE 4 C-Band101° West Longitude
TransponderD/L
Polarity Channel U/L Freq. D/L Freq1 (V) 1 5945 37202 (V) 3 5985 37603 (V) 5 6025 38004 (V) 7 6065 38405 (V) 9 6105 38806 (V) 11 6145 39207 ( H) 2 5965 37408 (H) 4 6005 37809 (H) 6 6045 382010 (H) 8 6085 386011 (H) 10 6125 390012 (H) 12 6165 394013L (V) 13 6185 396013U (V) 15 6225 400014L (V) 17 6265 404014U (V) 19 6305 408015L (V) 21 6345 412015U (V) 23 6385 416016L (H) 14 6205 398016U (H) 16 6245 402017L (H) 18 6285 406017U (H) 20 6325 410018L (H) 22 6365 414018U (H) 24 6405 4180
GE 4 Ku-Band101° West Longitude
TransponderD/L
Polarity Channel U/L Freq. D/L Freq19 (H) 19 14040 1174020 (H) 20 14120 1182021 (H) 21 14200 1190022 (H) 22 14280 1198023 (H) 23 14360 1206024 (H) 24 14440 12140
Downlink polarization for each transponder denoted in parenthesis.
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North American SatelliteFrequency/Transponder Conversion Table
Panamsat Galaxy 4R C-Band99° West Longitude
TransponderD/L
Polarity Channel U/L Freq. D/L Freq1 (H) 1 5945 37202 (V) 2 5965 37403 (H) 3 5985 37604 (V) 4 6005 37805 (H) 5 6025 38006 (V) 6 6045 38207 (H) 7 6065 38408 (V) 8 6085 38609 (H) 9 6105 388010 (V) 10 6125 390011 (H) 11 6145 392012 (V) 12 6165 394013 (H) 13 6185 396014 (V) 14 6205 398015 (H) 15 6225 400016 (V) 16 6245 402017 (H) 17 6265 404018 (V) 18 6285 406019 (H) 19 6305 408020 (V) 20 6325 410021 (H) 21 6345 412022 (V) 22 6365 414023 (H) 23 6385 416024 (V) 24 6405 4180
Downlink polarization for each transponder denoted in parenthesis.
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Panamsat Galaxy 4R Ku-Band99° West Longitude
TransponderD/L
Polarity Channel U/L Freq. D/L Freq1 (H) 1 14020 117202 (V) 2 14040 117403 (H) 3 14060 117604 (V) 4 14080 117805 (H) 5 14100 118006 (V) 6 14120 118207 (H) 7 14140 118408 (V) 8 14160 118609 (H) 9 14180 1188010 (V) 10 14200 1190011 (H) 11 14220 1192012 (V) 12 14240 1194013 (H) 13 14260 1196014 (V) 14 14280 1198015 (H) 15 14300 1200016 (V) 16 14320 1202017 (H) 17 14340 1204018 (V) 18 14360 1206019 (H) 19 14380 1208020 (V) 20 14400 1210021 (H) 21 14420 1212022 (V) 22 14440 1214023 (H) 23 14460 1216024 (V) 24 14480 12180
North American SatelliteFrequency/Transponder Conversion Table
Loral Skynet Telstar 5 Ku-Band97° West Longitude
TransponderD/L
Polarity Channel U/L Freq. D/L Freq/1(V) 1 14028.5 11728.52 (H) 2 14035.0 11735.03 (V) 3 14089.5 11789.54 (H) 4 14096.0 11796.05 (V) 5 14136.0 11836.06 (H) 6 14142.5 11842.57 (V) 7 14167.0 11867.08 (H) 8 14173.5 11873.59 (V) 9 14201.0 11901.0
10 (H) 10 14204.5 11904.511 (V) 11 14229.0 11929.012 (H) 12 14236.0 11936.013 (V) 13 14258.0 11958.014 (H) 14 14266.5 11966.515 (V) 15 14291.0 11991.016 (H) 16 14297.5 11997.517 (V) 17 14322.0 12022.018 (H) 18 14328.5 12028.519 (V) 19 14353.0 12053.020 (H) 20 14362.0 12062.021 (V) 21 14384.0 12084.022 (H) 22 14390.5 12090.523 (V) 23 14415.0 12115.024 (H) 24 14423.0 12123.025 (V) 25 14444.0 12144.026 (H) 26 14452.5 12152.527 (V) 27 14477.0 12177.028 (H) 28 14483.5 12183.5
Downlink polarization for each transponder denoted in parenthesis.
Loral Skynet Telstar 5 C-Band 97° West Longitude
TransponderD/L
Polarity Channel U/L Freq. D/L Freq1(V) 1 5945 37202 (H) 2 5965 37403 (V) 3 5985 37604 (H) 4 6005 37805 (V) 5 6025 38006 (H) 6 6045 38207 (V) 7 6065 38408 (H) 8 6085 38609 (V) 9 6105 3880
10 (H) 10 6125 390011 (V) 11 6145 392012 (H) 12 6165 394013 (V) 13 6185 396014 (H) 14 6205 398015 (V) 15 6225 400016 (H) 16 6245 402017 (V) 17 6265 404018 (H) 18 6285 406019 (V) 19 6305 408020 (H) 20 6325 410021 (V) 21 6345 412022 (H) 22 6365 414023 (V) 23 6385 416024 (H) 24 6405 4180
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North American SatelliteFrequency/Transponder Conversion Table
Panamsat Galaxy 3R Ku-Band95° West Longitude
TransponderD/L
Polarity Channel U/L Freq. D/L Freq1 (H) 1 14020 117202 (V) 2 14050 117503 (H) 3 14050 117504 (H) 4 14080 117805 (V) 5 14110 118106 (H) 6 14110 118107 (H) 7 14140 118408 (V) 8 14170 118709 (H) 9 14170 1187010 (H) 10 14200 1190011 (V) 11 14230 1193012 (H) 12 14230 1193013 (H) 13 14260 1196014 (V) 14 14290 1199015 (H) 15 14290 1199016 (H) 16 14320 1202017 (V) 17 14350 1205018 (H) 18 14350 1205019 (H) 19 14380 1208020 (V) 20 14410 1211021 (H) 21 14410 1211022 (H) 22 14440 1214023 (V) 23 14470 1217024 (H) 24 14470 12170
Downlink polarization for each transponder denoted in parenthesis.
Panamsat Galaxy 3R C-Band95° West Longitude
TransponderD/L
Polarity Channel U/L Freq. D/L Freq/1 (H) 1 5945 37202 (V) 2 5965 37403 (H) 3 5985 37604 (V) 4 6005 37805 (H) 5 6025 38006 (V) 6 6045 38207 (H) 7 6065 38408 (V) 8 6085 38609 (H) 9 6105 388010 (V) 10 6125 390011 (H) 11 6145 392012 (V) 12 6165 394013 (H) 13 6185 396014 (V) 14 6205 398015 (H) 15 6225 400016 (V) 16 6245 402017 (H) 17 6265 404018 (V) 18 6285 406019 (H) 19 6305 408020 (V) 20 6325 410021 (H) 21 6345 412022 (V) 22 6365 414023 (H) 23 6385 416024 (V) 24 6405 4180
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North American SatelliteFrequency/Transponder Conversion Table
Loral Skynet Telstar 6 Ku-Band93° West Longitude
TransponderD/L
Polarity Channel U/L Freq. D/L Freq1(V) 1 14028.5 11728.52 (H) 2 14035.0 11735.03 (V) 3 14089.5 11789.54 (H) 4 14096.0 11796.05 (V) 5 14136.0 11836.06 (H) 6 14142.5 11842.57 (V) 7 14167.0 11867.08 (H) 8 14173.5 11873.59 (V) 9 14198.0 11898.0
10 (H) 10 14204.5 11904.511 (V) 11 14229.0 11929.012 (H) 12 14235.0 11935.013 (V) 13 14260.0 11960.014 (H) 14 14266.5 11966.515 (V) 15 14291.0 11991.016 (H) 16 14297.5 11997.517 (V) 17 14322.0 12022.018 (H) 18 14328.5 12028.519 (V) 19 14353.0 12053.020 (H) 20 14359.5 12059.521 (V) 21 14384.0 12084.022 (H) 22 14390.5 12090.523 (V) 23 14415.0 12115.024 (H) 24 14421.5 12121.525 (V) 25 14446.0 12146.026 (H) 26 14452.5 12152.527 (V) 27 14477.0 12177.028 (H) 28 14483.5 12183.5
Downlink polarization for each transponder denoted in parenthesis.
Loral Skynet Telstar 6 C-Band93° West Longitude
TransponderD/L
Polarity Channel U/L Freq. D/L Freq1(V) 1 5945 37202 (H) 2 5965 37403 (V) 3 5985 37604 (H) 4 6005 37805 (V) 5 6025 38006 (H) 6 6045 38207 (V) 7 6065 38408 (H) 8 6085 38609 (V) 9 6105 3880
10 (H) 10 6125 390011 (V) 11 6145 392012 (H) 12 6165 394013 (V) 13 6185 396014 (H) 14 6205 398015 (V) 15 6225 400016 (H) 16 6245 402017 (V) 17 6265 404018 (H) 18 6285 406019 (V) 19 6305 408020 (H) 20 6325 410021 (V) 21 6345 412022 (H) 22 6365 414023 (V) 23 6385 416024 (H) 24 6405 4180
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North American SatelliteFrequency/Transponder Conversion Table
Panamsat Galaxy 11 Ku-Band91° West Longitude
TransponderD/L
Polarity Channel U/L Freq. D/L Freq1 (H) 1 14020 117202 (V) 2 14040 117403 (H) 3 14060 117604 (V) 4 14080 117805 (H) 5 14100 118006 (V) 6 14120 118207 (H) 7 14140 118408 (V) 8 14160 118609 (H) 9 14180 1188010 (V) 10 14200 1190011 (H) 11 14220 1192012 (V) 12 14240 1194013 (H) 13 14260 1196014 (V) 14 14280 1198015 (H) 15 14300 1200016 (V) 16 14320 1202017 (H) 17 14340 1204018 (V) 18 14360 1206019 (H) 19 14380 1208020 (V) 20 14400 1210021 (H) 21 14420 1212022 (V) 22 14440 1214023 (H) 23 14460 1216024 (V) 24 14480 1218025 (H) 25 14014 1096426 (V) 26 14026 1097627 (H) 27 14044 1099428 (V) 28 14056 1100629 (H) 29 14074 1102430 (V) 30 14086 1103631 (H) 31 14104 1105432 (V) 32 14116 1106633 (H) 33 14134 1108434 (V) 34 14146 1109635 (H) 35 14164 1111436 (V) 36 14176 11126
Panamsat Galaxy 11 C-Band91° West Longitude
TransponderD/L
Polarity Channel U/L Freq. D/L Freq1(H) 1 5945 37202 (V) 2 5965 37403 (H) 3 5985 37604 (V) 4 6005 37805 (H) 5 6025 38006 (V) 6 6045 38207 (H) 7 6065 38408 (V) 8 6085 38609 (H) 9 6105 388010 (V) 10 6125 390011 (H) 11 6145 392012 (V) 12 6165 394013 (H) 13 6185 396014 (V) 14 6205 398015 (H) 15 6225 400016 (V) 16 6245 402017 (H) 17 6265 404018 (V) 18 6285 406019 (H) 19 6305 408020 (V) 20 6325 410021 (H) 21 6345 412022 (V) 22 6365 414023 (H) 23 6385 416024 (V) 24 6405 4180
Panamsat Galaxy 11 Ku-Band91° West Longitude
TransponderD/L
Polarity Channel U/L Freq. D/L Freq37 (H) 37 14194 1114438 (V) 38 14206 1115639 (H) 39 14224 1117440 (V) 40 14236 11186
5
39
North American SatelliteFrequency/Transponder Conversion Table
Panamsat Galaxy 7 Ku-Band91° West Longitude
TransponderD/L
Polarity Channel U/L Freq. D/L Freq1 (V) 1 14020 117203 (V) 3 14050 117504 (V) 4 14080 117805 (H) 5 14110 118106 (V) 6 14110 118107 (V) 7 14140 118408 (H) 8 14170 118709 (V) 9 14170 1187010 (V) 10 14200 1190011 (H) 11 14230 1193012 (V) 12 14230 1193013 (V) 13 14260 11960
14L (H) 54 14276 1197614U (H) 64 14305 1200515 (V) 15 14291 1199116 (V) 16 14320 12020
17L (H) 57 14335 1203517U (H) 67 14365 1206518 (V) 18 14350 1205019 (V) 19 14380 1208020 (H) 20 14410 1211021 (V) 21 14410 1211022 (V) 22 14440 1214024 (V) 24 14470 12170
5
40
Downlink polarization for each transponder denoted in parenthesis.
Panamsat Galaxy 7 C-Band91° West Longitude
TransponderD/L
Polarity Channel U/L Freq. D/L Freq1 (H) 1 5945 37202 (V) 2 5965 37403 (H) 3 5985 37604 (V) 4 6005 37805 (H) 5 6025 38006 (V) 6 6045 38207 (H) 7 6065 38408 (V) 8 6085 38609 (H) 9 6105 388010 (V) 10 6125 390011 (H) 11 6145 392012 (V) 12 6165 394013 (H) 13 6185 396014 (V) 14 6205 398015 (H) 15 6225 400016 (V) 16 6245 402017 (H) 17 6265 404018 (V) 18 6285 406019 (H) 19 6305 408020 (V) 20 6325 410021 (H) 21 6345 412022 (V) 22 6365 414023 (H) 23 6385 416024 (V) 24 6405 4180
North American SatelliteFrequency/Transponder Conversion Table
5
41
Downlink polarization for each transponder denoted in parenthesis.
Loral-Skynet Telstar 4 C-Band89° West Longitude
TransponderD/L
Polarity Channel U/L Freq. D/L Freq1(V) 1 5945 37202 (H) 2 5965 37403 (V) 3 5985 37604 (H) 4 6005 37805 (V) 5 6025 38006 (H) 6 6045 38207 (V) 7 6065 38408 (H) 8 6085 38609 (V) 9 6105 3880
10 (H) 10 6125 390011 (V) 11 6145 392012 (H) 12 6165 394013 (V) 13 6185 396014 (H) 14 6205 398015 (V) 15 6225 400016 (H) 16 6245 402017 (V) 17 6265 404018 (H) 18 6285 406019 (V) 19 6305 408020 (H) 20 6325 410021 (V) 21 6345 412022 (H) 22 6365 414023 (V) 23 6385 416024 (H) 24 6405 4180
Loral-Skynet Telstar 4 Ku-Band89° West Longitude
TransponderD/L
Polarity Channel U/L Freq. D/L Freq/1(V) 1 14030 117302 (H) 2 14043 117433 (V) 3 14090 117904 (H) 4 14103 118035 (V) 5 14150 118506 (H) 6 14163 118637 (V) 7 14210 119108 (H) 8 14223 119239A (V) 9L 14256 119569B (V) 9U 14286 1198610 (H) 10 14284 1198411 (V) 11 14333 1203312 (H) 12 14346 1204613A (V) 13L 14380 1208013 (V) 13 14395 12095
13B (V) 13U 14410 1211014 (H) 14 14408 1210815A (V) 15L 14442 1214215B (V) 15U 14472 1217216A (H) 16L 14455 1215516B (H) 16U 14485 12185
North American SatelliteFrequency/Transponder Conversion Table
5
42
Downlink polarization for each transponder denoted in parenthesis.
GE GE-3 C-Band87° West Longitude
TransponderD/L
Polarity Channel U/L Freq. D/L Freq/1 (H) 1 5945 37202 (V) 2 5965 37403 (H) 3 5985 37604 (V) 4 6005 37805 (H) 5 6025 38006 (V) 6 6045 38207 (H) 7 6065 38408 (V) 8 6085 38609 (H) 9 6105 388010 (V) 10 6125 390011 (H) 11 6145 392012 (V) 12 6165 394013 (H) 13 6185 396014 (V) 14 6205 398015 (H) 15 6225 400016 (V) 16 6245 402017 (H) 17 6265 404018 (V) 18 6285 406019 (H) 19 6305 408020 (V) 20 6325 410021 (H) 21 6345 412022 (V) 22 6365 414023 (H) 23 6385 416024 (V) 24 6405 4180
GE GE-3 Ku-Band87° West Longitude
TransponderD/L
Polarity Channel U/L Freq. D/L Freq1 (H) 1 14020 117202 (V) 2 14040 117403 (H) 3 14060 117604 (V) 4 14080 117805 (H) 5 14100 118006 (V) 6 14120 118207 (H) 7 14140 118408 (V) 8 14160 118609 (H) 9 14180 1188010 (V) 10 14200 1190011 (H) 11 14220 1192012 (V) 12 14240 1194013 (H) 13 14260 1196014 (V) 14 14280 1198015 (H) 15 14300 1200016 (V) 16 14320 1202017 (H) 17 14340 1204018 (V) 18 14360 1206019 (H) 19 14380 1208020 (V) 20 14400 1210021 (H) 21 14420 1212022 (V) 22 14440 1214023 (H) 23 14460 1216024 (V) 24 14480 12180
North American SatelliteFrequency/Transponder Conversion Table
5
43
Downlink polarization for each transponder denoted in parenthesis.
GE GE-2 C-Band85° West Longitude
TransponderD/L
Polarity Channel U/L Freq. D/L Freq1 (V) 1 5945 37202 (H) 2 5965 37403 (V) 3 5985 37604 (H) 4 6005 37805 (V) 5 6025 38006 (H) 6 6045 38207 (V) 7 6065 38408 (H) 8 6085 38609 (V) 9 6105 3880
10 (H) 10 6125 390011 (V) 11 6145 392012 (H) 12 6165 394013 (V) 13 6185 396014 (H) 14 6205 398015 (V) 15 6225 400016 (H) 16 6245 402017 (V) 17 6265 404018 (H) 18 6285 406019 (V) 19 6305 408020 (H) 20 6325 410021 (V) 21 6345 412022 (H) 22 6365 414023 (V) 23 6385 416024 (H) 24 6405 4180
GE K2 Ku-Band81° West Longitude
TransponderD/L
Polarity Channel U/L Freq. D/L Freq1(H) 1 14029.0 11729.02 (V) 2 14058.5 11758.53 (H) 3 14088.0 11788.04 (V) 4 14117.5 11817.55 (H) 5 14147.0 11847.06 (V) 6 14176.5 11876.57 (H) 7 14206.0 11906.08 (V) 8 14235.5 11935.59 (H) 9 14265.0 11965.010 (V) 10 14294.5 11994.511 (H) 11 14324.0 12024.012 (V) 12 14353.5 12053.513 (H) 13 14383.0 12083.014 (V) 14 14412.5 12112.515 (H) 15 14442.0 12142.016 (V) 16 14471.5 12171.5
North American SatelliteFrequency/Transponder Conversion Table
Downlink polarization for each transponder denoted in parenthesis.
GE Spacenet 4 Ku-Band81° West Longitude
TransponderD/L
Polarity Channel U/L Freq. D/L Freq19 (H) 19 14040 1174020 (H) 20 14120 1182021 (H) 21 14200 1190022 (H) 22 14280 1198023 (H) 23 14360 1206024 (H) 24 14440 12140
GE Spacenet 4 C-Band81° West Longitude
TransponderD/L
Polarity Channel U/L Freq. D/L Freq1(V) 1 5945 37201 (V) 3 5985 37603 (V) 5 6025 38004 (V) 7 6065 38405 (V) 9 6105 38806 (V) 11 6145 39207 (H) 2 5965 37408 (H) 4 6005 37809 (H) 6 6045 382010 (H) 8 6085 386011 (H) 10 6125 390012 (H) 12 6165 394013L (V) 13 6185 396013U (V) 15 6225 400014L (V) 17 6265 404014U (V) 19 6305 408015L (H) 21 6345 412015U (V) 23 6385 416016L (H) 14 6205 398016U (H) 16 6425 402017L (H) 18 6245 406017U (H) 20 6325 410018L (H) 22 6365 414018U (H) 24 6405 4180
5
44
North American SatelliteFrequency/Transponder Conversion Table
Downlink polarization for each transponder denoted in parenthesis.
5
45
GE GE-5 Ku-Band79° West Longitude
TransponderD/L
Polarity Channel U/L Freq. D/L Freq1 (V) 1 14030 117302 (H) 2 14043 117433 (V) 3 14091 117914 (H) 4 14104 118045 (V) 5 14152 118526 (H) 6 14165 118657 (V) 7 14213 119138 (H) 8 14226 119269 (V) 9 14274 11974
10 (H) 10 14287 1198711 (V) 11 14335 1203512 (H) 12 14348 1204813 (V) 13 14396 1209614 (H) 14 14409 1210915 (V) 15 14457 12157
16L (H) 16 14455 1215516U (H) 16 14495 12195
Panamsat SBS 4 Ku-Band77° West Longitude
TransponderD/L
Polarity Channel U/L Freq. D/L Freq1 (H) 1 14025 117251* (H) 1 14030 117302 (H) 2 14074 117742* (H) 2 14080 117803 (H) 3 14123 118234 (H) 4 14172 118725 (H) 5 14221 119216 (H) 6 14270 119707 (H) 7 14319 120198 (H) 8 14368 120689 (H) 9 14417 1211710 (H) 10 14466 12166
North American SatelliteFrequency/Transponder Conversion Table
* Frequency when using uplink less than3.5 meter.
Panamsat Galaxy 674° West Longitude
TransponderD/L
Polarity Channel U/L Freq. D/L Freq1(H) 1 5945 37202 (V) 2 5965 37403 (H) 3 5985 37604 (V) 4 6005 37805 (H) 5 6025 38006 (V) 6 6045 38207 (H) 7 6065 38408 (V) 8 6085 38609 (H) 9 6105 388010 (V) 10 6125 390011 (H) 11 6145 392012 (V) 12 6165 394013 (H) 13 6185 396014 (V) 14 6205 398015 (H) 15 6225 400016 (V) 16 6245 402017 (H) 17 6265 404018 (V) 18 6285 406019 (H) 19 6305 408020 (V) 20 6325 410021 (H) 21 6345 412022 (V) 22 6365 414023 (H) 23 6385 416024 (V) 24 6405 4180
5
46
North American SatelliteFrequency/Transponder Conversion Table
5
47
Panamsat SBS 6 Ku-Band74° West Longitude
TransponderD/L
Polarity Channel U/L Freq. D/L Freq1 (H) 1 14025 117252 (V) 2 14049 117493 (H) 3 14074 117743L (H) 3 14062 117624L (V) 34 14086 117864 (V) 4 14098 11798
4U (V) 44 14110 118105 (H) 5 14123 118236L (V) 36 14135 118356 (V) 6 14147 11847
6U (V) 46 14159 118597 (H) 7 14172 118728L (V) 38 14184 118848 (V) 8 14200 11900
8U (V) 48 14208 119089 (H) 9 14221 1192110 (V) 10 14245 1194511 (H) 11 14270 1197012 (V) 12 14294 11994
13L (H) 13A 14307 1200713U (H) 13B 14331 1203114L (V) 54 14331 1203114 (V) 14 14343 12043
14U (V) 64 14355 1205515 (H) 15 14368 1206816L (V) 56 14380 1208016 (V) 16 14392 12092
16U (V) 66 14404 1210417 (H) 17 14420 1212018L (V) 58 14429 1212918 (V) 18 14441 12141
18U (V) 68 14453 1215319L (H) 59 14454 1215419 (H) 19 14466 12166
19U (H) 69 14478 12178
Downlink polarization for each transponderdenoted in parenthesis.
NahuelSAt Nahuel 171.8° West Longitude
TransponderD/L
Polarity Channel U/L Freq. D/L Freq1(V) 1 14030 117302 (H) 2 14043 117433 (V) 3 14091 117914 (H) 4 14104 118045 (V) 5 14152 118526 (H) 6 14165 118657 (V) 7 14213 119138 (H) 8 14226 119269 (V) 9 14274 119749L (V) 9 14259 1195910 (H) 10 14287 1198711 (V) 11 14335 1203512 (H) 12 14348 1204813 (V) 13 14396 1209614 (H) 14 14409 1210915 (V) 15 14457 1215716 (H) 16 14470 1217017 (V) 17 13777 11488.6719 (V) 19 13838 11549.6721 (v) 21 13899 11610.6723 (V) 23 13958.67 11670.34
North American SatelliteC & Ku Band
ECHO
STAR
3
61.5
°WDB
S
SBS 6
74.0
°WKu
-Ban
d
SBS 4
77.0
°WKu
-Ban
d
NAHU
EL
171
.8°W
Ku-B
andGA
LAXY
6
74.0
°WC-
Band
GE-5
79.0
°WKu
-Ban
dCO
MST
ARD4
76.0
°WC-
Band
SPAC
ENET
481
.0°W
C/Ku
-Ban
dHy
brid
TELS
TAR
489
.0°W
C/Ku
-Ban
dHy
brid
TELS
TAR
693
.0°W
C/Ku
-Ban
dHy
brid
GE-2
85.0
°WC/
Ku-B
and
Hybr
id
GALA
XY7
91.0
°WC/
Ku-B
and
Hybr
id
SATC
OMK2
(81.
0°W
)Ku
-Ban
d
NIM
IQ91
.0°W
DBS
GALA
XY3R
95.0
°WC/
Ku-B
and
Hybr
id
DIRE
CTV
310
0.85
°WDB
SDIRE
CTV
210
0.9°
WDB
S
GSTA
R4A
105.
0°W
Ku-B
and
ECHO
STAR
511
0.0°
WDB
S
ECHO
STAR
611
9.0°
WDB
SEC
HOST
AR4
119.
35°W
DBS
ECHO
STAR
211
9.05
°WDB
S
DIRE
CTV
1R10
1.07
°WDB
S
ANIK
C1
(106
.3°W
)Ku
-Ban
d
DIRE
CTV
111
0.1°
WDB
S
TEM
PO 211
8.8°
WDB
S
ANIK
E2
107.
3°W
C/Ku
-Ban
dHy
brid
MOR
ELOS
2(1
20.0
°W)
C/Ku
-Ban
dHy
brid
ANIK
E1
111.
1°W
C/Ku
-Ban
dHy
brid
SATM
EX
511
6.8°
WC/
Ku-B
and
Hybr
id
GE 110
3°W
C/Ku
-Ban
dHy
brid
SOLID
ARID
ADF1
109.
2°W
C/Ku
-Ban
dHy
brid
SOLID
ARID
ADF2
113.
0°W
C/Ku
-Ban
dHy
brid
GALA
XY4R
99.0
°WC/
Ku-B
and
Hybr
id
GALA
XY10
R12
3.0°
WC/
Ku-B
and
Hybr
id
SATC
OMC3
131.
0°W
C-Ba
ndSA
TCOM
C413
5.0°
WC-
Band
SATC
OMC1
137.
0°W
C-Ba
nd
GALA
XY9
127.
0°W
C-Ba
nd
GALA
XY5
125.
0°W
C-Ba
nd
GALA
XY1R
133.
0°W
C-Ba
nd
AURO
RA2/S
ATCO
M13
9.0°
WC-
Band
GE 410
1.0°
WC/
Ku-B
and
Hybr
id
TELS
TAR
597
.0°W
C/Ku
-Ban
dHy
brid
GALA
XY8
95.0
°WKu
-Ban
d
GALA
XY 11
91.0
°WC/
Ku-B
and
Hybr
id
GE-3
87.0
°WC/
Ku-B
and
Hybr
idTE
LSTA
R7
129.
0°W
C/Ku
-Ban
d
BRAZ
ILSAT
A1(1
44.0
°W)
C-Ba
nd
ECHO
STAR
111
8.9°
WDB
S
( ) D
ENOT
ES IN
CLIN
ED O
RBIT
5
48
100 DISH NET NEWS102 USA NETWORK104 COMEDY CENTRAL106 NICK AT NITE’S TV LAND108 LIFETIME110 TV FOOD NETWORK112 HOME & GARDEN NETWORK114 E! ENTERTAINMENT TELEVISION116 GAME SHOW NETWORK117 DISCOVERY PEOPLE118 ARTS & ENTERTAINMENT120 THE HISTORY CHANNEL122 THE SCI-FI CHANNEL124 BLACK ENTERTAINMENT TV129 BRAVO130 AMERICAN MOVIE CLASSICS131 ROMANCE CLASSICS/INDEPENDENT
FILM CHANNEL132 TURNER CLASSIC MOVIES135 BBC America137 FX138 TURNER NETWORK TELEVISION140 ESPN142 ESPNEWS143 ESPN CLASSIC144 ESPN2145 ESPN ALTERNATE146 ESPN ALTERNATE153 OUTDOOR CHANNEL160 MTV: MUSIC TELEVISION161 M2: MUSIC TELEVISION162 VH1 MUSIC FIRST
166 COUNTRY MUSIC TELEVISION168 THE NASHVILLE NETWORK169 NOGGIN170 NICKELODEON/NICK AT NITE (EAST)171 NICKELODEON/NICK AT NITE (WEST)172 DISNEY CHANNEL (EAST)173 DISNEY CHANNEL (WEST)174 TOON DISNEY176 THE CARTOON NETWORK178 THE LEARNING CHANNEL180 THE FAMILY CHANNEL181 PAX TV182 DISCOVERY CHANNEL184 ANIMAL PLANET191 ZDTV200 CABLE NEWS NETWORK202 HEADLINE NEWS204 COURT TV205 FOX NEWS CHANNEL206 CNN FINANCIAL/CNN INTERNATIONAL207 BLOOMBERG INFORMATION TV208 CNBC209 MSNBC210 C-SPAN212 C-SPAN2213 NASA CHANNEL214 THE WEATHER CHANNEL216 AMERICA’S VOICE220 THE TRAVEL CHANNEL222 HOME SHOPPING NETWORK224 SHOP AT HOME NETWORK226 QVC
5
49
DISH Network Video/AudioProgramming Services
DISH Network Video/Audio Programming Services:
Echostar 1 = 148° DBS-Ku Echostar 4 = 119.35° DBS-KuEchostar 2 = 119.05° DBS-Ku Echostar 5 = 110.0° DBS-KuEchostar 3 = 61.5° DBS-Ku Echostar 6 = 119.0° DBS-Ku
228 VALUE VISION230 TBS232 KTLA234 WPIX235 KWGN236 WSBK238 WWOR239 WGN241 NBC EAST242 NBC WEST243 CBS EAST244 CBS WEST245 ABC EAST246 ABC WEST247 FOX EAST248 FOX WEST249 PBS260 TRINITY BROADCASTING NETWORK261 EWTN262 ANGEL ONE270 UNIVISION272 GALAVISION300 HBO EAST301 HBO PLUS EAST302 HBO SIGNATURE EAST303 HBO WEST304 HBO PLUS WEST305 HBO FAMILY310 CINEMAX EAST311 CINEMAX WEST312 MOREMAX318 SHOWTIME EAST319 SHOWTIME WEST320 SHOWTIME 2 EAST
321 SHOWTIME 3 EAST322 SHOWTIME EXTREME323 SHOWTIME BEYOND327 THE MOVIE CHANNEL EAST328 THE MOVIE CHANNEL WEST332 SUNDANCE CHANNEL333 FLIX340 ENCORE EAST342 ENCORE WESTERNS350 STARZ EAST351 STARZ THEATER401 THE GOLF CHANNEL405 TV GAMES NETWORK412 MADISON SQUARE GARDEN 413 FOX SPORTS NEW YORK414 FOX SPORTS ROCKY MOUNTAIN415 FOX SPORTS ARIZONA416 FOX SPORTS SOUTHWEST417 FOX SPORTS WEST418 FOX SPORTS MIDWEST419 FOX SPORTS BAY AREA420 FOX SPORTS SOUTH421 FOX SPORTS CHICAGO422 SUNSHINE423 SPORTSCHANNEL FLORIDA424 HOME TEAM SPORTS425 FOX SPORTS OHIO426 FOX SPORTS NORTHWEST427 FOX SPORTS CINCINNATI428 FOX SPORTS PITTSBURGH430 FOX SPORTS DETROIT432 EMPIRE434 NEW ENGLAND SPORTS NETWORK435 FOX SPORTS NEW ENGLAND
DISH Network Video/AudioProgramming ServicesDISH Network Video/AudioProgramming Services
DISH Network Video/Audio Programming Services:
5
50
DISH Network Video/AudioProgramming Services
436 MIDWEST SPORTS CHANNEL451 ALTERNATE 1452 ALTERNATE 2453 ALTERNATE 3495 TeN496 EXTASY497 PLAYBOY 498 PLAYBOY EN ESPANOL 499 PLEASURE500 DISH-ON-DEMAND PROMOS501 DISH-ON-DEMAND PROMOS502 DISH-ON-DEMAND503 DISH-ON-DEMAND504 DISH-ON-DEMAND505 DISH-ON-DEMAND506 DISH-ON-DEMAND507 DISH-ON-DEMAND508 DISH-ON-DEMAND509 DISH-ON-DEMAND510 DISH-ON-DEMAND511 DISH-ON-DEMAND512 DISH-ON-DEMAND513 DISH-ON-DEMAND514 DISH-ON-DEMAND515 DISH-ON-DEMAND516 DISH-ON-DEMAND517 DISH-ON-DEMAND518 DISH-ON-DEMAND519 DISH-ON-DEMAND520 DISH-ON-DEMAND521 DISH-ON-DEMAND522 DISH-ON-DEMAND523 DISH-ON-DEMAND524 DISH-ON-DEMAND
525 DISH-ON-DEMAND531 DISH-ON-DEMAND 532 DISH-ON-DEMAND533 DISH-ON-DEMAND534 DISH-ON-DEMAND535 DISH-ON-DEMAND581 TRACKPOWER582 TRACKPOWER585 THE RACING NETWORK586 THE RACING NETWORK587 THE RACING NETWORK588 THE RACING NETWORK592 NTV593 NTV PLUS596 GLOBO (Portuguese)600 RAI602 MEGAcosmos603 ERT Sat604 ANTENNA TV606 TV5608 TV POLONIA610 ZEE TV611 ZEE TV612 TV ASIA613 TV ASIA615 RTPI617 ZEE GOLD620 TELEMUNDO621 DISCOVERY EN ESPANOL622 GEMS625 TV CHILE626 CBS TELENOTICIAS627 SUR628 FOX SPORTS WORLD ESPANOL
DISH Network Video/AudioProgramming Services
DISH Network Video/Audio Programming Services:
5
51
629 HTV630 MTV-S631 CINE LATINO632 GRAN CANAL LATINO633 CD - LATINO POP634 CD - VIVA MARIACHI635 CD - FIESTA MEXICANA636 CD - LATINO STYLES637 CD - MIAMI MIX638 CD - TEJANO639 TV JAPAN650 ART651 ART MOVIES652 LBC 653 ALJAZEERA654 CHANNEL KOREA655 RADIO MARIA SPANISH658 RADIO MARIA ITALY (Italian)660 RADIO FRANCE INTERNATIONALE662 POLSKIE RADIO PROGRAM 1663 POLSKIE RADIO PROGRAM 3664 RADIO MARIA POLAND (Polish)668 AL ZIKR669 ART MUSIC700 WJLA - ABC Washington, D.C.701 WLS - ABC Chicago702 WCVB - ABC Boston703 WCVB - ABC Boston704 WJLA - ABC Washington, D.C.705 WABC - ABC New York City706 WSB - ABC Atlanta707 WPLG - ABC Miami708 WTAE - ABC Pittsburgh709 WPLG - ABC Miami
710 WTAE - ABC Pittsburgh711 WSB - ABC Atlanta712 WLS - ABC Chicago713 WFAA - ABC Dallas715 WFAA - ABC Dallas716 KGO - ABC San Francisco717 KNXV - ABC Phoneix718 KMGH - ABC Denver719 KTVX - ABC Salt Lake City720 KOMO - ABC Seattle721 KSTP - ABC Minneapolis723 WXYZ - ABC Detroit725 WUSA - CBS Washington, D.C.726 WBBM - CBS Chicago727 WBZ - CBS Boston728 WBZ - CBS Boston729 WUSA - CBS Washington, D.C.730 WCBS - CBS New York City731 WGNX - CBS Atlanta732 WFOR - CBS Miami733 KDKA - CBS Pittsburgh734 WFOR - CBS Miami735 KDKA - CBS Pittsburgh736 WGNX - CBS Atlanta737 WBBM - CBS Chicago738 KTVT - CBS Dallas740 KTVT - CBS Dallas741 KPIX - CBS San Francisco742 KPHO - CBS Phoneix743 KCNC - CBS Denver744 KUTV - CBS Salt Lake City745 KIRO - CBS Seattle746 WCCO - CBS Minneapolis748 WWJ - CBS Detroit
DISH Network Video/AudioProgramming Services
DISH Network Video/Audio Programming Services:
5
52
750 WRC - NBC Washington, D.C.751 WMAQ - NBC Chicago752 WHDH - NBC Boston753 WHDH - NBC Boston754 WRC - NBC Washington, D.C.755 WNBC - NBC New York City756 WXIA - NBC Atlanta757 WTVJ - NBC Miami758 WPXI - NBC Pittsburgh759 WTVJ - NBC Miami760 WPXI - NBC Pittsburgh761 WXIA - NBC Atlanta762 WMAQ - NBC Chicago763 KXAS - NBC Dallas765 KXAS - NBC Dallas766 KRON - NBC San Francisco767 KPNX - NBC Phoneix768 KUSA - NBC Denver769 KSL - NBC Salt Lake City770 KING - NBC Seattle771 KARE - NBC Minneapolis773 WDIV - NBC Detroit775 WTTG - FOX Washington, D.C.776 WFLD - FOX Chicago777 WFXT - FOX Boston778 WFXT - FOX Boston779 WTTG - FOX Washington, D.C.780 WNYW - FOX New York City781 WAGA - FOX Atlanta782 WSVN - FOX Miami783 WPGH - FOX Pittsburgh784 WSVN - FOX Miami785 WPGH - FOX Pittsburgh786 WAGA - FOX Atlanta
787 WFLD - FOX Chicago788 KDFW - FOX Dallas790 KDFW - FOX Dallas791 KTVU - FOX San Francisco792 KSAZ - FOX Phoneix793 KDVR - FOX Denver794 KSTU - FOX Salt Lake City795 KCPQ - FOX Seattle796 WFTC - FOX Minneapolis798 WJBK - FOX Detroit815 KJZZ - UPN Salt Lake City830 WGBH - PBS Boston835 WGBH - PBS Boston870 WPVI - ABC Philadelphia871 WKRN - ABC Nashville872 KTRK - ABC Houston874 KMBC - ABC Kansas City877 KYW - CBS Philadelphia878 WTVF - CBS Nashville879 KHOU - CBS Houston881 KCTV-CBS Kansas City884 WCAU - NBC Philadelphia885 WSMV - NBC Nashville886 KPRC - NBC Houston888 KSHB - NBC Kansas City891 WTXF - FOX Philadelphia892 WZTV - FOX Nashville893 KRIV- FOX Houston895 WDAF - FOX Kansas City950 NEW COUNTRY951 COUNTRY CLASSICS952 COUNTRY CURRENTS953 JUKEBOX GOLD954 70S SONGBOOK
DISH Network Video/AudioProgramming Services
DISH Network Video/Audio Programming Services:
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DISH Network Video/AudioProgramming Services
955 ADULT FAVORITES956 ADULT CONTEMPORARY957 ADULT ALTERNATIVE958 HOT HITS959 CLASSIC ROCK960 MODERN ROCK ALTERNATIVE961 POWER ROCK962 NON-STOP HIP HOP963 URBAN BEAT964 LATIN STYLES965 FIESTA MEXICANA966 EUROSTYLE967 JAZZ TRADITIONS968 CONTEMPORARY JAZZ FLAVORS969 ACOUSTIC CROSSROADS970 CONTEMPORARY INSTRUMENTALS971 CONCERT CLASSICS972 LIGHT CLASSICAL973 EASY INSTRUMENTALS974 BIG BAND ERA975 CONTEMPORARY CHRISTIAN976 KIDTUNES977 NEW AGE978 BLUES979 REGGAE988 SHOWROOM PROMOTIONS990 LDS RADIO NETWORK9400 RESEARCH TV9401 HITN9402 PBS YOU9403 BYU9410 LINKMEDIA
9411 NORTHERN ARIZONA UNIVERSITY9412 UNIVERSITY OF CALIFORNIA9413 DELLL9414 MAYERSON ACADEMY9415 FREE SPEECH TV9416 GOOD SAMARITAN NETWORK
DISH Network Video/Audio Programming Services:
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54
100-199 DIRECT TICKET Pay-Per-ViewMovies & Events
200 DIRECTV BIG EVENTS201 Customer Service Update202 CNN203 Court TV204 Headline News205 CNN/Sports Illustrated206 ESPN207 ESPNEWS208 ESPN2212 DIRECTV This Month ON SPORTS220 DIRECTV Sports Schedule229 Home & Garden Television (HGTV)231 Food Network233 Travel Channel236 E! Entertainment Television240 Home Shopping Network (HSN)242 USA Network244 SCI FI Channel245 TNT247 TBS Superstation248 FX249 Comedy Central252 Lifetime254 American Movie Classics (AMC)256 Turner Classic Movies (TCM)258 fXM: Movies from Fox260 Romance Classics264 BBC America265 A&E Network269 The History Channel
273 Bravo278 Discovery Health Channel280 The Learning Channel (TLC)282 Animal Planet290 Disney Channel (East)291 Disney Channel (West)292 Toon Disney296 Cartoon Network299 Nickelodeon/Nick at Nite (East)300 Nickelodeon/Nick at Nite (West)301 TV Land307 WGN Superstation309 Game Show Network311 Fox Family Channel313 Discovery People315 TRIO317 QVC325 The Nashville Network (TNN)327 Country Music Television (CMT329 Black Entertainment Television (BET)331 MTV333 MTV2335 VH1339 MuchMusic350 C-SPAN351 C-SPAN2353 Bloomberg Television354 ZDTV355 CNBC356 MSNBC358 CNNfn/CNN International360 Fox News Channel
DIRECTV Video/AudioProgramming Services
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55
DIRECTV 1R = 101.07˚W DIRECTV 1 = 110.1˚WDIRECTV 2 = 100.9˚W DIRECTV 6 = 118.8˚WDIRECTV 3 = 100.85˚W
DIRECTV Video/Audio Programming Services:
362 The Weather Channel364 All News Channel366 Newsworld International368 The Health Network370 ValueVision372 Trinity Broadcasting Network (TBN)380 CBS East*381 CBS West*382 NBC East*383 NBC West*384 PBS*386 ABC East*387 ABC West*388 FOX East*402 Univision404 Galavision500 DIRECTV Platinum Presents501 HBO502 HBO Plus503 HBO Signature504 HBO West505 HBO Plus West507 HBO Family508 HBO Family West512 Cinemax East513 Cinemax MoreMAX514 Cinemax West520 STARZ! East521 STARZ! West522 STARZ! Theater East523 STARZ! Theater West526 Encore East527 Encore West528 Encore Love Stories529 Encore Westerns
530 Encore Mystery531 Encore True Stories532 Encore Action533 Encore WAM!537 SHOWTIME East538 SHOWTIME Two539 SHOWTIME Three540 SHOWTIME West542 SHOWTIME Extreme544 The Movie Channel East545 The Movie Channel West547 FLIX549 Sundance Channel550 Independent Film Channel (IFC)593 DIRECT TICKET® Pay Per View Previews594 DIRECTV BIG EVENTS595 PLAYBOY TV600 DIRECTV Platinum Presents601 DIRECTV This Month ON SPORTS603 DIRECTV Sports Schedule605 The Golf Channel606 ESPN Classic607 Speedvision608 Outdoor Life Network613 FOX Sports World620 FOX Sports New England621 Madison Square Garden (MSG)623 New England Sports Network (NESN)624 FOX Sports New York626 Empire Sports Network628 FOX Sports Pittsburgh629 Home Team Sports (HTS)630 FOX Sports South632 Sunshine Network634 SPORTSCHANNEL Florida
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56
DIRECTV Video/AudioProgramming Services
DIRECTV Video/Audio Programming Services:
DIRECTV Video/AudioProgramming Services
636 FOX Sports Detroit637 FOX Sports Ohio638 FOX Sports Cincinnati639 FOX Sports Chicago641 Midwest Sports Channel (MSC)643 FOX Sports Southwest645 FOX Sports Rocky Mountain647 FOX Sports Midwest649 FOX Sports Arizona651 FOX Sports Northwest652 FOX Sports West653 FOX Sports West 2654 FOX Sports Bay Area699 DIRECTV Sports Schedule700 DIRECTV This Month ON SPORTS701 NFL SUNDAY TICKET EXTRA703 NFL SUNDAY SNAP704-717 NFL SUNDAY TICKET™723-733 NBA LEAGUE PASS723-727 WNBA SEASON PASS740-750 NHL® CENTER ICE®753 DIRECTV Sports Schedule754-768 MLB EXTRA INNINGSSM
770-779 ESPN GamePlan780-793 ESPN FULL COURT794-799 MLS/ESPN SHOOTOUT™802 Music Choice Showcase I804 Music Choice New Releases805 Music Choice American Originals806 Music Choice Sounds of the Seasons808 Music Choice World Beat811 Music Choice R&B Hits812 Music Choice Dance813 Music Choice Channel X814 Music Choice Rap
816 Music Choice Metal817 Music Choice Alternative Rock818 Music Choice Progressive819 Music Choice Classic Rock821 Music Choice Soft Rock822 Music Choice Hit List823 Music Choice '80s824 Music Choice '70s825 Music Choice Solid Gold Oldies828 Music Choice Today's Country829 Music Choice Classic Country830 Music Choice Big Band831 Music Choice Singers & Standards833 Music Choice Easy Listening834 Music Choice Classical Masterpieces836 Music Choice Classical Light838 Music Choice Atmospheres839 Music Choice Jazz Light840 Music Choice Jazz841 Music Choice Blues842 Music Choice Gospel843 Music Choice Contemporary Christian
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57
DIRECTV Video/Audio Programming Services:
Bell ExpressVu Video/AudioProgramming Services
Bell ExpressVu Programming Services:
100 SOCIETE RADIO CANADA (CBFT)MONTREAL
101 SOCIETE RADIO CANADA (CBUFT) VANCOUVER
102 RESEAU D'INFORMATION MONTREAL
103 TELEVISION QUATRE SAISONS(CFJP) - MON.
104 CFTM - MONTREAL105 CFTM - MONTREAL107 LE CHANNEL NOUVELLES
(NUVLE) MONTREAL108 RESEAU DE SPORT - MONTREAL109 MUSIQUE PLUS - MONTREAL110 MUSIMAX - MONTREAL111 TELETOON FRENCH - EDMONTON112 TELETOON FRENCH WEST -
EDMONTON113 CANAL FAMILLE - MONTREAL114 CANAL D - MONTREAL 115 CANAL SAVOIR - MONTREAL116 TELEQUEBEC - MONTREAL117 TELEVISION FRANCAIS
ONTARIO TORONTO118 TV5 - LE TELEVISION
INTERNATIONALE -MONT.119 CANAL VIE - MONTREAL125 L'ASSEMBLEE NATIONALE DU
QUEBEC - QUE.126 CABLE PUBLIC AFFAIRS CHANNEL
(FRENCH)130 METEO MEDIA - MONTREAL135 SUPER ECRAN - MONTREAL136 SUPER ECRAN - MONTREAL
137 SUPER ECRAN - MONTREAL150 BELL EXPRESSVU FRENCH
PAY PER VIEW PREVIEWS151 BELL EXPRESSVU FRENCH
PAY PER VIEW152 BELL EXPRESSVU FRENCH
PAY PER VIEW153 BELL EXPRESSVU FRENCH
PAY PER VIEW154 BELL EXPRESSVU FRENCH
PAY PER VIEW155 BELL EXPRESSVU FRENCH
PAY PER VIEW156 BELL EXPRESSVU FRENCH
PAY PER VIEW157 BELL EXPRESSVU FRENCH
PAY PER VIEW158 BELL EXPRESSVU FRENCH
PAY PER VIEW159 BELL EXPRESSVU FRENCH
PAY PER VIEW169 BELL EXPRESSVU FRENCH
ADULT PAY PER VIEW 171 CANAL INDIGO - MONTREAL172 CANAL INDIGO - MONTREAL195 XPRS CHANNEL196 XPRS CHANNEL197 XPRS CHANNEL198 XPRS CHANNEL199 THE XPRS CHANNEL200 CBC HALIFAX (CBHT)201 CTV ST. JOHN'S - (CJON)202 ATV - ST. JOHN - CTV - (CJCH)203 ATLANTIC SATELLITE NETWORK
HALIFAX
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58
Nimiq 91°West Longitude
Bell ExpressVu Video/AudioProgramming Services
Bell ExpressVu Programming Services:
206 CTV - OTTAWA208 CTV - MONTREAL210 CBC TORONTO - (CBLT)212 CTV - CFTO - TORONTO213 CIII - GLOBAL TORONTO214 CITY TV - TORONTO215 ONTV - HAMILTON216 THE NEW VR - BARRIE218 CFMT - TORONTO221 ITV - EDMONTON - (CITV)222 THE A-CHANNEL - EDMONTON223 CTV - EDMONTON224 CBRT - CALGARY227 CICT - CALGARY 7231 CBC - WINNIPEG232 GLOBAL - WINNIPEG233 CTV- WINNIPEG240 CBC - VANCOUVER- CBUT)241 CTV VANCOUVER - (CHAN)242 GLOBAL - VANCOUVER243 VTV - VANCOUVER - (CIVT)300 WHDH - BOSTON301 WCVB - BOSTON302 WBZ - BOSTON303 WFXT - BOSTON320 CHICAGO SUPERSTATION321 BOSTON SUPERSTATION (VPN)322 NEW YORK SUPERSTATION (WB11)323 ATLANTA SUPERSTATION (TBS)330 KING - SEATTLE331 KOMO - SEATTLE332 KIRO- SEATTLE333 KCPQ - SEATTLE
334 L.A. SUPERSTATION390 JOCKEY CLUB - PAY PER VIEW391 JOCKEY CLUB - PAY PER VIEW400 THE SPORTS NETWORK - TORONTO402 REGIONAL FEEDS403 EXPRESSVU NHL CHANNEL405 CTV SPORTSNET ONTARIO406 CTV SPORTSNET EAST407 CTV SPORTSNET PACIFIC408 CTV SPORTSNETWEST411 NHL CHANNEL - PAY PER VIEW412 NHL CHANNEL - PAY PER VIEW413 NHL CHANNEL - PAY PER VIEW414 NHL CHANNEL - PAY PER VIEW415 NHL CHANNEL - PAY PER VIEW416 NHL CHANNEL - PAY PER VIEW417 NHL CHANNEL - PAY PER VIEW418 NHL CHANNEL - PAY PER VIEW419 NHL CHANNEL - PAY PER VIEW420 NHL CHANNEL - PAY PER VIEW430 HEADLINE SPORTS - HLS - TORONTO431 SPEEDVISION - STANFORD, CA432 THE GOLF CHANNEL - ORLANDO, FLOR433 THE OUTDOOR LIFE NETWORK
OLN - TORONTO434 THE DISCOVERY CHANNEL - TORONTO435 THE HISTORY CHANNEL - TORONTO436 THE LEARNING CHANNEL -
WASHINGTON, DC437 COURT NETWORK - NEW YORK438 VISION - TORONTO439 CROSSROADS TV SYSTEM (CTS)
BURL, ONT.
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59
Bell ExpressVu Video/AudioProgramming Services
Bell ExpressVu Programming Services:
440 CANADIAN LEARNING TELEVISIONTORONTO
441 ABORIGINALS PEOPLES TV NETWINNIPEG
442 WGBH - BOSTON443 KCTS - SEATTLE444 TELEVISION ONTARIO - (CICA)
TORONTO445 KNOWLEDGE NETWORK -
VANCOUVER446 SCN - SASKATCHEWAN447 ACCESS - EDMONTON448 GLOBAL AFFILIATE - PRIME
TORONTO449 GLOBAL AFFILIATE - PRIME450 ARTS AND ENTERTAINMENT
NEW YORK451 BRAVO! - TORONTO452 SHOWCASE TELEVISION
TORONTO453 SHOWCASE TELEVISION
TORONTO454 THE SPACE NETWORK - TORONTO455 THE COMEDY NETWORK
TORONTO456 THE COMEDY NETWORK - WEST457 THE NASHVILLE NETWORK -
NASHVILLE458 THE LIFE NETWORK - TORONTO459 THE HOME AND GARDEN NETWORK
TORONTO460 THE HEALTH NETWORK -
LOS ANGELES461 THE FOOD NETWORK - NEW YORK
462 WOMEN'S TELEVISION NETWORKWINNIPEG
470 MUCH MUSIC - TORONTO471 MUCH MORE MUSIC - TORONTO472 COUNTRY MUSIC TELEVISION
CALGARY473 BET - WASHINGTON, DC479 GAMESHOW - BURBANK, CA480 YOUTH TELEVISION - TORONTO481 YOUTH TELEVISION - TORONTO482 THE FAMILY CHANNEL - EDMONTON483 THE FAMILY CHANNEL - EDMONTON484 TREEHOUSE TV - TORONTO486 TELETOON - EDMONTON487 TELETOON - EDMONTON490 CHILDREN'S PAY PER VIEW491 CHILDREN'S PAY PER VIEW492 CHILDREN'S PAY PER VIEW500 CABLE NEWS NETWORK - ATLANTA,
GEORGIA501 BBC WORLD NEWS - ENGLAND502 HEADLINE NATIONAL NEWS - ATLANTA503 CABLE PULSE 24 - TORONTO504 CABLE NAT. BROADCASTING CORP.
NEW JERSEY505 CTV NEWS NET - TORONTO506 REPORT ON BUSINESS TV - HAMILTON507 STAR NETWORK - TORONTO510 CABLE PUBLIC AFFAIRS - TORONTO511 CBC NEWSWORLD - TORONTO512 THE WEATHER NETWORK -
TORONTO513 THE SHOPPING CHANNEL -
TORONTO
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60
Bell ExpressVu Video/AudioProgramming Services
Bell ExpressVu Programming Services:
600 THE SUPERCHANNEL - EDMONTON601 THE SUPERCHANNEL - EDMONTON602 THE SUPERCHANNEL - EDMONTON603 MOVIE MAX - EDMONTON604 MOVIE MAX2 - EDMONTON605 MOVIE PIX - TORONTO610 THE MOVIE NETWORK - TORONTO611 THE MOVIE NETWORK - TORONTO612 THE MOVIE NETWORK - TORONTO613 THE MOVIE NETWORK - TORONTO614 THE MOVIE NETWORK - TORONTO 667 VENUS INFORMATION CHANNEL668 PLAYBOY - BEVERLY HILLS669 BELL EXPRESSVU ADULT
PAY PER VIEW PREVIEWS700 BELL EXPRESSVU
PAY PER VIEW PREVIEWS701 BELL EXPRESSVU
PAY PER VIEW - TORONTO702 BELL EXPRESSVU
PAY PER VIEW - TORONTO703 BELL EXPRESSVU
PAY PER VIEW - TORONTO704 BELL EXPRESSVU
PAY PER VIEW - TORONTO705 BELL EXPRESSVU
PAY PER VIEW - TORONTO706 BELL EXPRESSVU
PAY PER VIEW - TORONTO707 BELL EXPRESSVU
PAY PER VIEW - TORONTO708 BELL EXPRESSVU
PAY PER VIEW - TORONTO709 BELL EXPRESSVU
PAY PER VIEW - TORONTO
710 BELL EXPRESSVU PAY PER VIEW - TORONTO
711 BELL EXPRESSVU PAY PER VIEW - TORONTO
712 BELL EXPRESSVU PAY PER VIEW - TORONTO
713 BELL EXPRESSVU PAY PER VIEW - TORONTO
714 BELL EXPRESSVU PAY PER VIEW - TORONTO
715 BELL EXPRESSVU PAY PER VIEW - TORONTO
716 BELL EXPRESSVU PAY PER VIEW - TORONTO
717 BELL EXPRESSVU PAY PER VIEW - TORONTO
718 BELL EXPRESSVU PAY PER VIEW - TORONTO
719 BELL EXPRESSVU PAY PER VIEW - TORONTO
720 BELL EXPRESSVU PAY PER VIEW - TORONTO
751 BELL EXPRESSVU ADULT PAY PER VIEW
752 BELL EXPRESSVU ADULT PAY PER VIEW
753 BELL EXPRESSVU ADULT PAY PER VIEW
754 BELL EXPRESSVU ADULT PAY PER VIEW
760 VIEWER'S CHOICE PREVIEWS - TORONTO
761 VIEWER'S CHOICE - TORONTO762 VIEWER'S CHOICE - TORONTO
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61
Bell ExpressVu Video/AudioProgramming Services
Bell ExpressVu Programming Services:
763 VIEWER'S CHOICE - TORONTO764 VIEWER'S CHOICE - TORONTO851 FAIRCHILD - TORONTO852 FAIRCHILD WEST853 TELATINO NETWORK- TORONTO854 SOUTH ASIAN NETWORK -
NEWMARKET855 DEUTSCHE WELLE - GERMANY890 TDTV892 BUSINESS TV901 GALAXIE ROCK902 GALAXIE NEW ROCK903 GALAXIE ADULT ALTERNATIVE904 GALAXIE POP ADULT905 GALAXIE AMBIENT LOUNGE906 GALAXIE RHYTHM MACHINE907 GALAXIE HIT LIST908 GALAXIE NEW COUNTRY909 GALAXIE COUNTRY CLASSICS910 GALAXIE FRANCO COUNTRY911 GALAXIE FRANCO ROCK912 GALAXIE FRANCO ROMANCE913 GALAXIE FRANCO SUCCES914 GALAXIE NOSTALGIE915 GALAXIE BIG BAND SWING916 GALAXIE JAZZ MASTERS / GEANTS
DE JAZZ917 GALAXIE JAZZ NOW / JAZZ ACTUEL918 GALAXIE BLUES TIME919 GALAXIE FOLK ROOTS920 GALAXIE GLOBAL VILLAGE /
MUSIQUES DE MONDE921 GALAXIE ROCKANDROLL922 GALAXIE SMOOTH AWAY / EVASION
923 GALAXIE ENVIRONMENT / ENVIRON-NMENT
924 GALAXIE POP CLASSICS / CLAS-SIQUES POPULAIRES
925 GALAXIE ALL BAROQUE / BAROQUE926 GALAXIE CLASSIC MASTERS /
GRANDS CLASSIQUES927 GALAXIE CHAMBER MUSIC /
MUSIQUE DE CHAMBRE928 GALAXIE THE 80'S929 GALAXIE KIDS STUFF930 GALAXIE MOUSSES MUSIQUE960 CBC RADIO ONE961 RADIO-CANADA (RADIO AM)
FRANCAIS962 CBC RADIO TWO963 RADIO-CANADA (CHAINE CUL-
TURELLE FM)964 THE FAN 590 - ALL SPORTS RADIO -
TORONTO965 DEUTSCHE WELLE RADIO 1966 DEUTSCHE WELLE RADIO 2967 NEWSWORLD VOICE PRINT DATA
PROGRAMMING968 Q107 - TORONTO969 CKAC AM - MONTREAL970 CJRT FM - TORONTO971 CLASSICAL 96 FM - TORONTO972 WAHSA FM973 CJAD AM - MONTREAL974 WRN FM975 COUNTRY FM 105 - CALGARY976 POWER FM 97.5 - WINNIPEG977 NEW ROCK EDGE 102 - TORONTO980 RADIO IGA (FOR BUSINESS ONLY)
5
62
5
63
WSNet Video/AudioProgramming Services
WSNet 1(Transponder 15 vert. 1241 L-band)200202223225227229240301
ESPNESPN ALTERNATETBSUSA EASTDISCOVERY EASTA&ECNNNickelodeon East
WSNet 2(Transponder 27 vert. 1427 L-band)232234247260263280300302350
E! EASTCOURT TVWEATHEROXYGENFOODAMCODYSSEYToonCMTV
WSNet 3(Transponder 18 horz. 1278.5 L-band)
221243244245262315345355
FX EASTMSNBCCNBCCNN FNDIYHSNVH1 EASTBET
WSNet Programming Services:
T6 = 93°West Longitude
5
64
WSNet 4(Transponder 10 horz. 1154.5 L-band)
222224226228241249250307308340
TNT EASTWGNLIFETIME EASTTLC EASTHEADLINE NEWSC-SPANC-SPAN2ANIMAL PLANETTRAVELMTV EAST
WSNet Video/AudioProgramming Services
WSNet 5(Transponder 8 horz. 1123.5 L-band)220233317319322480
TNN EASTGALAVISION EASTTV LANDBOOMERANGDISNEY EASTRUSSIAN NETWORK
WSNet Programming Services:
T6 = 93°West Longitude
TV STATIONS
5
65
Florence WOWL-TV 15 14 NB 0WYLE 2 20 WBWFIQ 36 22 PB -
Gadsden WNAL-TV 44 45 CB +WTJP 60 26 IN 0
Huntsville WHNT-TV 19 59 CB 0WHIQ 25 24 PB +
WAAY-TV 31 32 AB +WZDX 54 49 FO 0
Huntsville-DecaturWAFF 48 41 NB -
Louisville WGIQ 43 42 PB +Mobile WKRG-TV 5 27 CB +
WALA-TV 10 9 FO +WPMI 15 26 NB +
WMPV-TV 21 20 TB +WEIQ 42 18 PB 0
Montgomery WSFA 12 57 NB 0WCOV-TV 20 16 FO 0
WAIQ 26 14 PB +WHOA-TV 32 51 AB 0WMCF-TV 45 46 IN -
Mount Cheaha State Park WCIQ 7 56 PB -
Opelika-AuburnWSWS 66 31 WB 0
Ozark WDFX-TV 34 33 FO -Selma WAKA 8 55 CB -Troy WRJM-TV 67 48 * 0TuscaloosaWCFT-TV 33 34 AB 0Tuskegee * 22 24 * -ALASKA
Anchorage KTUU-TV 2 18 NB -KTBY 4 20 FO -KYES 5 22 UP,
WB 0KAKM 7 24 PB -
* 9 26 * -KTVA 11 28 CB -KIMO 13 30 AB -
KDMD 33 32 HS 0Bethel KYUK-TV 4 3 PB 0Dillingham * 2 9 * 0Fairbanks KATN 2 18 AB,
NB +KFXF 7 22 FO +
KUAC -TV 9 24 PB +KTVF 11 26 CB,
NB +* 13 28 * +
Juneau KTOO-TV 3 6 PB 0KJUD 8 11 AB,
NB 0Ketchikan KNEB 4 13 CB,
AB 0* 9 8 * 0
North Pole KJNP-TV 4 20 TB +Sitka KTNL 13 2 CB 0ARIZONA
Flagstaff KNAZ-TV 2 22 NB 0KTFL 4 18 * +KCFG 9 28 * 0KWBF 13 27WB 0
Green Valley KXGR 46 47 * 0Kingman KMOH-TV 6 19 WB -Lake Havasu City
KMCC 34 35 * +Mesa KPNX 12 36 NB -Phoenix KTVK 3 24 IN +
KPHO-TV 5 17 CB -KAET 8 29 PB +
KSAZ-TV 10 23 FO -KNXV-TV 15 14 AB -KPAZ-TV 21 20 TB 0
KTVW-TV 33 34 UN 0KUTP 45 26 UP 0
KASW 61 49 FO,WB 0
Prescott KUSK 7 25 IN 0Sierra Vista KWBA 58 44 * 0
ALABAMA
Anniston WJSU-TV 40 58 AB -Bessemer WDBB 17 18 FO 0Birmingham
WBRC-TV 6 50 FO -W81Q 10 53 PB -
WVTM-TV 13 52 NB -WTTO 21 28 IN -
WBMG 42 30 CB +WABM 68 36 UP +
Demopolis WIIQ 41 19 PB 0Dothan WTVY 4 36 CB 0
WDHN 18 21 AB 0Dozier WDIQ 2 59 PB -
LEGEND
AB Indicates ABCCB Indicates CBSNB Indicates NBCFO Indicates FoxUP Indicates UPNWB Indicates WBNHS Indicates HSNTB Indicates TBNUN Indicates UnivisionTE Indicates TelemundoPB Indicates PBSED Indicates EducationalIN Indicates Independent* DATA Pending Indicates Channel
Number Column Indicates HDTV
Channel Number Column
Indicates Frequency Allocation Position 0 ±10 KHz
5
66
TV STATIONSBakersfield KGET 17 25 NB 0
KERO-TV 23 10 AB -KBAK-TV 29 33 CB 0KUZZ-TV 45 55 UP +
Barstow KHIZ 64 44 IN 0Calipatria KAJB 54 50 * 0Ceres KBSV 23 15 ED 0Chico KHSL-TV 12 43 CB -
KCPM 24 36 NB +Clovis KGMC 43 44 WB 0Concord KTNC-TV 42 63 IN 0Corona KVEA 52 39 TE 0Cotati KRCB 22 23 PB -El Centro KVYE 7 22 UN +
KECY-TV 9 48 FO +Eureka KIEM-TV 3 16 NB -
KVIQ-TV 6 17 CB -KEET 13 11 PB +KBVU 29 28 FO 0
Fort Bragg KFWU 8 15 AB -Fresno KVPT 18 40 PB +
KSEE 24 16 NB 0KFSN-TV 30 9 AB +
KJEO 47 14 CB 0KAIL 53 7 UP 0
Hanford KFTV 21 20 UN 0Huntington Beach
KOCE 50 48 PB -Los Angeles KCBS 2 60 CB 0
KNBC 4 36 NB 0KTLA 5 68 WB 0KABC 7 8 AB 0KCAL 9 43 IN 0KTTV 11 65 FO 0KCOP 13 66 UP 0
KWHY 22 42 IN 0KCET 28 59 PB 0
KMEX 34 35 UN 0KLCS 58 41 PB -
* 68 36 * -
Merced KNSO 51 38 WB 0Modesto KUVS 19 18 UN -Monterey KION 46 32 CB -Novato KWOK 68 17 * 0Oakland KTVU 2 56 FO +Ontario KHSC 46 47 HS 0Oxnard KADY 63 24 UP +Palm Springs KMIR 36 46 NB -
KESQ 42 52 AB 0Paradise KCVU 30 20 UP 0Porterville KKAG 61 48 IN 0Ranchos Palos Verdes
KMCC 44 51 * +Redding KRCR-TV 7 14 IN 0
KIXE-TV 9 18 PB 0Riverside KRCA 62 69 IN 0Sacramento KCRA 3 35 NB 0
KVIE 6 53 PB 0KXTV 10 61 AB 0
KCMY 29 48 HS -KPWB 31 21 UP -KTXL 40 55 FO -
Salinas KSBW 8 43 NB +KCBA 35 13 FO -KSMS 67 31 UN -
San Bernadino KSCI 18 61 IN -KVCR 24 26 PB -KZKI 30 38 IN 0
San Diego KFMB 8 55 CB 0KGTV 10 25 AB 0KPBS 15 30 PB 0KNSD 39 40 NB 0KUSI 51 18 UP 0
KSWB 69 19 WB 0San Francisco KRON 4 57 NB -
KPIX 5 28 CB +KGO 7 24 AB -
KQED 9 34 PB +KDTV 14 29 UN 0KOFY 20 19 WB -
Tolleson KAJW 51 52 * 0Tucson KVOA 4 31 NB -
KUAT-TV 6 30 PB +KGUN 9 35 AB -
KMSB-TV 11 25 FO 0KOLD-TV 13 32 CB -KTTU-TV 18 19 UP -KUAS-TV 27 28 PB -
KHRR 40 41 TE 0Yuma KYMA 11 41 NB -
KSWT 13 16 CB,TE +
ARKANSAS
Arkadelphia KETG 9 46 PB +El Dorado KTVE 10 27 * -Fayetteville KAFT 13 45 PB -
KHOG-TV 29 15 AB +Fort Smith KFSM-TV 5 18 CB -
KPOM-TV 24 17 NB +KHBS 40 21 AB -
Hot Springs KVTH 26 14 IN 0Jonesboro KAIT-TV 8 58 AB -
KTEJ 19 20 PB -KTVJ 48 49 * +
Little Rock KETS 2 47 PB -KARK-TV 4 32 NB 0
KATV 7 22 AB -KTHV 11 12 CB +KLRT 16 33 FO -KVUT 42 43 * 0
Mountain ViewKEMV 6 35 PB -
Newark KLEP 17 26 ED 0Pine Bluff KVTN 25 24 IN -
KASN 38 39 UP -Rogers KFAA 51 50 NB -Springdale KSBN-TV 57 39 IN 0CALIFORNIA
Anaheim KDOC-TV 56 32 IN -Arcata KAEF 23 22 AB 0
5
67
TV STATIONSKTSF 26 27 IN -
KMTP 32 33 PB +KCNS 38 39 IN 0KBHK 44 45 UP -
Sanger KMSG 59 36 TE 0San Jose KNTV 11 12 AB +
KICU 36 52 IN 0KSTS 48 49 TE -KTEH 54 50 PB 0KLXV 65 41 IN 0
San Luis ObispoKSBY 6 15 NB +KTAS 33 34 0
San Mateo KCSM 60 59 PB 0Santa Ana KTBN 40 53 TB 0Santa Barbara KEYT 3 27 AB -
* 38 22 * 0Santa Maria KCOY 12 19 CB +Santa Rosa KFTY 50 54 IN -Stockton KOVR 13 25 CB +
KQCA 58 46 UP 0KFTL 64 62 HS 0
Twentynine PalmsKVMD 31 23 * 0
Tijuana-San DiegoXETV 6 FO
XEWT 12 INVallejo-Fairfield
KPST-TV 66 30 HS 0Ventura KSTV 57 49 WB +Visalia KMPH 26 28 FO
KNXT 49 50 EDWatsonville KCAH 25 58 ED +COLORADO
Boulder KTVJ 14 15 HS 0Broomfield KBDI 12 36 PB 0Castle Rock KWHD 53 47 IN 0Colorado Springs
KKTV 11 10 CB 0
KRDO 13 24 AB 0KXRM 21 22 FO,
UP 0Denver KWGN 2 34 WB 0
KCNC 4 35 CB -KRMA 6 18 PB -KMGH 7 17 AB 0KUSA 9 16 NB -KTVD 20 19 UP 0KDVR 31 32 FO 0KRMT 41 40 ED 0KCEC 50 51 IN 0KUBD 59 44 TE 0
Durango KREZ 6 17 CB +Fort Collins KFCT 22 21 FO -Glenwood Spnngs
KREG 3 23 CB -Grand Junction
KFQX 4 15 * +KREX 5 2 CB -KJCT 8 7 AB -KKCO 11 14 NB +KRMJ 18 16 PB +
Longmont KDEN 25 26 * 0Montrose KREY 10 13 CB +Pueblo KOAA 5 27 NB 0
KTSC 8 29 PB 0Steamboat Springs
KSBS 24 10 IN +Sterling KTVS 3 23 CB 0CONNECTICUT
Bridgport WHAI 43 42 IN -WEDW 49 52 PB -
Hartford WFSB 3 11 CB +WHCT-TV 18 46 IN -
WEDH 24 32 PB 0WTIC 61 5 FO +
New Britain WVIT 30 35 NB +New Haven WTNH 8 10 AB +
WBNE 59 6 WB +
WEDY 65 39 PB 0New London WTWS 26 34 IN +Norwich WEDN 53 45 PB 0Waterbury WTXX 20 12 UP 0DELAWARE
Seaford WDPB 64 44 PB 0Wilmington WHYY 12 55 PB 0
WTGI 61 31 IN 0DISTRICT OF COLUMBIA
Washington WRC 4 48 NB -WTTG 5 6 FO -WJLA 7 39 AB +WUSA 9 34 CB 0WDCA 20 35 UP +WETA 26 27 PB -
WHMM 32 33 PB +WBDC 50 51 WB 0
FLORIDA
Boca RatonWPPB-TV 63 44 * 0
Bradenton WFCT 66 42 IN 0Cape Coral WFTX 36 35 FO 0Clearwater WCLF 22 21 IN 0Clermont WKCF 18 17 WB -Cocoa WTGL 52 51 IN 0
W8CC 68 30 ED 0Daytona Beach
WESH 2 11 NB -WNTO 26 49 IN 0
Fort LauderdaleWSCV 51 52 TE 0
Fort Myers WINK 11 53 CB +WBBH 20 15 NB +WGCH 30 31 PB 0
Fort Pierce WTCE 21 38 ED -WTVX 34 50 UP,
WB 0Fort Walton Beach
WFGX 35 25 IN 0
5
68
TV STATIONSWFTV 9 39 AB 0WMFE 24 23 PB -WZWY 27 14 *WOFL 35 22 FO +
WRBW 65 41 UP 0Palm Beach WFGC 61 49 IN 0Panama City WJHG 7 41 NB +
WMBB 13 19 AB 0WPGX 28 29 FO -WFSG 56 38 PB 0
Panama City BeachWPCT 46 47 IN 0
Pensacola WEAR 3 17 ABWSRE 23 31 PB 0WHBR 33 34 IN +WJTC 44 45 UP 0
St. PetersburgWTSP 10 24 CB -WTTA 38 57 IN 0WTOG 44 59 UP +
Sarasota WWSB 40 52 AB 0Tallahassee WFSU 11 32 PB -
WTXL 27 22 AB +WTWC 40 2 NB +
Tampa WEDU 3 54 PB 0WFLA 8 7 NB -WTVT 13 12 FO -WUSF 16 34 PB 0WFTS 28 29 AB 0WBHS 50 47 HS 0
Tequesta WPBF 25 16 AB 0Tice WRXY 49 33 IN 0Venice WBSV-TV 62 25 IN 0West Palm Beach
WPTV 5 55 * 0WPEC 12 13 CB 0WFLX 29 28 FO +WXEL 42 27 PB +
GEORGIA
Albany WALB 10 17 NB 0WFXL 31 30 FO -
Athens WGTV 8 22 PB 0WNGM 34 48 IN 0
Atlanta WSB 2 39 AB 0WAGA 5 27 FO -WXIA 11 10 NB +WTBS 17 20 IN -WPBA 30 21 PB 0WATL 36 25 WB 0
WGNX 46 19 CB -WATC 57 38 ED +WUPA 69 43 UP 0
Augusta WJBF 6 42 AB +WRDW 12 31 CB -WAGT 26 30 NB 0WFXG 54 51 FO -
Bainbridge WTLH 49 50 FO 0Baxley WUBI 34 35 UP +Brunswick WBSG 21 24 WB 0Chatsworth WCLP 18 33 PB -Cochran WDCO 29 7 PB +Columbus WRBL 3 15 CB 0
WTVM 9 47 AB +WJSP 28 23 PB 0WLTZ 38 35 NB +WXTX 54 49 FO +
Cordele WSST 55 51 IN +Dalton WELF 23 16 TB 0Dawson WACS 25 26 PB 0Macon WMAZ 13 45 CB +
WGXA 24 16 FO +WMGT 41 40 NB +WGNM 64 50 UP -
Monroe WHSG 63 44 TB 0Pelham WABW-TV 14 2 PB -Perry WPGA 58 32 AB +Rome WTLK 14 51 IN +Savannah WSAV 3 39 NB +
WVAN 9 46 PB -WTOC 11 15 CB 0WJCL 22 23 AB 0
WPAN 53 40 IN 0WAWD 58 49 * 0
Gainesville WUFT 5 36 PB -WCJB 20 16 AB 0
High Springs WGFL 53 28 * +Hollywood WYHS 69 47 HS 0Inverness * 64 34 * 0Jacksonville WJXT 4 42 CB +
WJCT 7 38 PB 0WTLV 12 13 NB +WJKS 17 34 AB 0
WAWS 30 32 FO +WTEV 47 19 UP -WJEB 59 44 ED 0
Key West WWFD 8 12 IN 0WEYS 22 3 IN +
Lakeland WWWB 32 19 WB 0Lake Worth WHBI 67 46 * 0Leesburg WACX 55 40 IN 0Live Oak WFXU 57 48 * -Melbourne WBSF 43 20 HS +
WIRB 56 48 IN 0Miami WPBT 2 19 PB 0
WFOR 4 22 CB 0WTVJ 6 30 NB 0WSVN 7 8 FO -WPLG 10 9 AB +WLRN 17 18 PB -WLTV 23 24 UN -WBFS 33 32 UP 0WCTD 35 21 IN 0WDZL 39 20 WB 0WHFT 45 46 TB +
Naples WZVN 26 43 AB -WTVK 46 45 UP 0
New Smyma BeachWCEU 15 33 PB +
Ocala WOGX 51 31 FO -Orange Park WJXX 25 10 AB -Orlando WCPX 6 58 CB -
5
69
TV STATIONSIDAHO
Boise KBCI 2 25 CB 0KAID 4 21 PB +KTVB 7 26 NB 0
Caldwell KNIN 9 10 UP -Coeur d’Alene KCDT 26 56 PB +Filer KBGH 19 18 ED -Idaho Falls KIDK 3 36 CB 0
KIFI 8 9 AB +Lewiston KLEW 3 32 CB -Moscow KUID 12 33 PB -Nampa KIVI 6 22 AB 0
KTRV 12 27 FO +Pocatello KPVI 6 23 NB -
KISU 10 17 PB 0Twin Falls KMVT 11 16 CB 0
KIPT 13 24 PB -KXTF 35 34 AB,
FO 0ILLINOIS
Aurora WEHS 60 59 HS 0Blomington-Normal
WYZZ 43 28 FO 0Carbondale WSIU 8 40 PB 0Champaign WCIA 3 48 CB +
WICD 15 41 NB -Charleston WEIU 51 50 PB +Chicago WBBM 2 3 CB -
WMAQ 5 29 NB 0WLS 7 52 AB 0WGN 9 19 WB +
WTTW 11 47 PB 0WYCC 20 21 PB 0WCIU 26 27 IN 0WFLD 32 31 FO 0WCFC 38 43 IN -WSNS 44 45 TE 0
Decatur WAND 17 18 AB 0WFHL 23 22 IN -
East St. LouisWHSL 46 47 * 0
Freeport WIFR 23 41 CB 0Harrisburg WSIL 3 34 AB 0Jacksonville WSEC 14 15 PB 0Joliet WGBO 66 53 UN +LaSalle WWTO 35 10 TB 0Macomb WMEC 22 21 PB +Marion WTCT 27 17 IN 0Moline WQAD 8 38 AB 0
WQPT 24 23 PB -Mount Vernon
WCEE 13 21 IN +Olney WUSI 16 19 PB -Peoria WHOI 19 40 AB 0
WEEK 25 57 NB +WMBD 31 30 CB +WTVP 47 46 PB -WAOE 59 39 * +
Quincy WGEM 10 54 NB -WTJR 16 32 TB +WQEC 27 34 PB +
Rock Island WHBF 4 58 CB +Rockford WREX 13 54 NB 0
WTVO 17 16 AB -WQRF 39 42 FO 0
Springfield WICS 20 42 NB +WCFN 49 53 CB -WRSP 55 44 FO +
Urbana WILL 12 33 PB -WCCU 27 26 FO 0
INDIANA
Angola WINM 63 12 TB 0Bloomington WTTV 4 53 IN 0
WTIU 30 14 PB -WCLJ 42 56 TB +WIIB 63 27 IN +
Elkhart WSJV 28 58 FO +Evansvillle WTVW 7 28 FO 0
WNIN 9 54 PB +
Thomasville WCTV 6 52 * 0Toccoa WNEG 32 24 IN -Valdosta WGVP 44 43 UP -Waycross WXGA 8 18 PB +Wrens WCES 20 36 PB -HAWAII
Hilo KHBC 2 22 NB 0* 4 19 * 0
KGMD 9 8 CB 0KHAW 11 21 FO 0KHVO 13 18 AB 0
KWHH 14 23 WB +* 32 31 * +* 38 39 * +
Honolulu KHON 2 22 FO +KITV 4 40 AB -KFVE 5 23 IN 0
KGMB 9 8 CB -KHET 11 18 PB +KHNL 13 35 NB -KWHE 14 31 IN 0
KIKU 20 19 IN 0KAAH 26 27 IN 0KBFD 32 33 IN 0KAIE 38 39 * 0
KWBN 44 43 EDKailua-Kona KLEI 6 25 IN 0Kaneohe KAPA 66 41 * 0Lihue * 8 12 * -
* 21 7 * -* 27 28 * -* 67 45 * 0
Wailuku KGMV 3 24 CB 0KAII 7 36 FO 0
KMEB 10 30 PB 0KMAU 12 29 AB 0KOGG 15 16 NB 0
KWHM 21 20 WB 027 28 * 033 34 * 0
5
70
TV STATIONSDavenport KWQC 6 56 NB +
KLJB 18 49 FO +KQCT 36 34 PB +
Des Moines KCCI 8 31 CB -KNID 11 50 PB +WHO 13 19 NB -
KDSM 17 16 FO,UP +
* 63 26 * -Dubuque KFXB 40 43 AB 0Fort Dodge KTIN 21 25 PB 0lowa City KIIN 12 45 PB +
KWKB 20 25 * -Mason City KIMT 3 42 CB +
KYIN 24 18 PB +Ottumwa KYOU 15 14 FO +Red Oak KHIN 36 35 PB 0Sioux City KTIV 4 41 NB -
KCAU 9 30 AB 0KMEG 14 39 CB 0KSIN 27 28 PB -KPTH 44 49 * 0
Waterloo KWWL 7 55 NB +KRIN 32 35 PB -
KANSAS
Colby KLBY 4 15 AB 0Ensign KBSD 6 5 CB +Fort Scott * 20 40 * +Garden City KSNG 11 17 NB +
KUPK 13 18 AB -Goodland KBSL 10 14 CB 0Great Bend KSNC 2 22 NB 0Hays KBSH 7 20 CB -
KOOD 9 16 PB 0Hutchinson KPTS 8 29 PB 0
KWCH 12 19 CB 0* 36 35 * +
Lakin KSWK 3 23 PB 0Lawrence KMCI 38 39 IN 0Pittsburg KOAM 7 30 CB +
Salina KAAS 18 17 FO +Topeka KTWU 11 23 PB 0
WIBW 13 44 CB +KSNT 27 26 NB 0KTKA 49 48 AB 0
Wichita KSNW 3 45 NB -KAKE 10 21 AB -KSAS 24 25 FO -
KWCV 33 34 * 0KENTUCKY
Ashland WKAS 25 26 PB -WTSF 61 45 IN +
Beattyville WLJC 65 7 TB 0Bowling Green
WBKO 13 33 AB 0WKYU 24 18 PB -WKNT 40 16 FO +WKGB 53 48 PB -
CampbellsvilleWGRB 34 19 FO -
Covington WCVN 54 24 PB +Danville WDKY 56 4 FO,
UP 0Eizabethtown WKZT 23 43 PB +Harlan WAGV 44 51 * -Hazard WKHA 35 16 PB +
WYMT 57 12 CB -Lexington WLEX 18 20 NB +
WKYT 27 59 CB -WTVQ 36 40 AB 0WKLE 46 42 PB 0
Louisville WAVE 3 47 NB -WHAS 11 55 AB +WKPC 15 17 PB 0WBNA 21 8 WB -WLKY 32 26 CB -WDRB 41 49 FB +WKMJ 68 38 PB +
Madisonville WLCN 19 20 IN -WKMA 35 42 PB -
WFIE 14 58 NB -WEHT 25 59 AB -WEVV 44 45 CB 0
Fort Wayne WANE 15 4 CB +WPTA 21 24 AB +WKJG 33 19 NB -WFWA 39 40 PB -WFFT 55 36 FO 0
Gary WPWR 50 51 UPWYIN 56 56 PB +
Hammond WJYS 62 36 IN +Indianapolis WRTV 6 25 AB 0
WISH 8 9 CB -WTHR 13 46 NB -WFYI 20 21 PB -
WHMB 40 26 IN 0WXIN 59 45 FO -WTBU 69 44 ED 0
Kokomo WTTK 29 54 IN -Lafayette WLFI 18 11 CB 0Marion WNDY 23 32 WB 0Muncie WIPB 49 52 PB 0Richmond WKOI 43 30 TB +Salem WFTE 58 57 UP +South Bend WNDU 16 42 NB 0
WSBT 22 30 CB 0WNIT 34 35 PB -
WHME 46 48 IN 0Terre Haute WTWO 2 36 NB +
WTHI 10 24 CB 0WBAK 38 39 FO 0
Vincennes WVUT 22 52 PB -IOWA
Ames WOI 5 59 AB 0Burlington KJMH 26 41 FO -Cedar Rapids KGAN 2 51 CB 0
KCRG 9 52 AB -KFXA 28 27 FO +KTVC 48 47 IN -
Council Bluffs KBIN 32 33 PB 0
5
71
TV STATIONS
Shreveport KTBS 3 28 AB -KSLA 12 17 CB 0KLTS 24 23 PB -
KMSS 33 34 FO 0KSHV 45 44 UP,
WB +Slidell WUPL 54 24 UP +West Monroe KARD 14 36 FO -
KMCT 39 38 IN +MAINE
Augusta WCBB 10 17 PB -Bangor WLBZ 2 25 NB -
WABI 5 19 CB +WVII 7 14 AB -
Biddeford WMEA 26 45 PB -Calais WMED 13 15 PB -Lewiston WPME 35 39 * -Orono WMEB 12 22 PB -Portland WCSH 6 44 NB -
WGME 13 38 CB +WPXT 51 4 FO +
Poland SpringWMTW 8 16 AB -
Presque IsleWAGM 82 16 CB,
NB,AB 0
WMEM 10 20 PB +MARYLAND
Annapolis WMPT 22 42 PB +Baltimore WMAR 2 52 AB +
WBAL 11 59 NB -WJZ 13 38 CB +
WHSW 24 41 HB +WBFF 45 46 FO 0
WNUV 54 40 WB 0WMPB 67 29 PB -
Fredrick WFPT 62 28 PB 0Hagerstown WHAG 25 55 NB -
WWPB 31 44 PB 0WJAL 68 16 WB +
Oakland WGPT 36 54 PB +Salisbury WBOC 16 21 CB +
WCPB 28 56 PB -WMDT 47 53 AB,
NB 0MASSACHUSETTS
Adams WCDC 19 36 AB 0Boston WGBH 2 19 PB +
WBZ 4 30 CB +WCVB 5 20 AB -WHDH 7 42 NB +WFXT 25 31 FO +WSBK 38 39 UP 0WGBX 44 43 PB 0WABU 68 32 IN +
Cambridge WLVI 56 41 WB 0Lawrence WMFP 62 18 IN 0Marlborough WHSH 66 23 HS 0New Bedford * 6 49 * +
WLWC 28 22 * -Norwell WHRC 46 52 IN +Springfield WWLP 22 33 NB 0
WGGB 40 55 AB 0WGBY 57 58 PB +
Vineyard HavenWZBU 58 40 IN +
Worcester WUNI 27 29 UN 0WYDN 48 47 * +
MICHIGAN
Alpena WCML 6 57 PB 0WBKB 11 13 CB 0
Ann Arbor WBSX 31 33 HS +Bad Axe WUCX 35 15 PB 0Battle Creek WOTV 41 20 AB +
WILV 43 44 IN -Bay City WNEM 5 22 CB -Cadillac WWTV 9 40 CB 0
Morehead WKMR 38 15 PB +WAOM 67 21 * -
Murray WKMU 21 36 PB +Newport WXIX-TV 19 29 * +Owensboro WKOH 31 29 PB -Owenton WKON 52 44 PB +Paducah WPSD 6 32 NB +
WKPD 29 41 PB 0WDKA 49 50 UP 0
Pikeville WKPI 22 24 PB -Somerset WKSO 29 14 PB +LOUISIANA
Alexandria KALB 5 35 NB 0KLPA 25 26 PB +KLAX 31 32 AB +
Baton Rouge WBRZ 2 42 AB 0WAFB 9 46 CB -WLPB 27 22 PB +WVLA 33 34 NB -
WGMB 44 45 FO +Columbia KAQY 11 57 * +Lafayette KATC 3 28 AB +
KLFY 10 56 CB 0KADN 15 16 FO 0KLPB 24 23 PB 0
Lake Charles KPLC 7 53 NB -KLTL 18 20 PB -
KVHP 29 30 FO -Monroe KNOE 8 55 CB +
KLTM 13 19 PB -New Orleans WWL 4 30 CB +
WDSU 6 43 NB 0WVUE 8 29 FO 0WYES 12 11 PB 0WHNO 20 14 IN -WGNO 26 15 AB 0WLAE 32 31 PB +WNOL 38 39 WB +WCCL 49 50 HS 0
5
72
TV STATIONSSaginaw WEYI 25 30 NB -
WAQP 49 48 TB -Sault Ste. Marie
WGTQ 8 56 AB 0WWUP 10 49 CB +
Traverse CityWPBN 7 50 NB +WGTU 29 31 AB -
University CenterWUCM 19 18 PB +
Vanderbilt WGKU 45 59 FO 0MINNESOTA
Alexandria WCCO 7 24 CB 0KSAX 42 14 AB 0
Appleton KWCM 10 31 PB -Austin KAAL 6 33 AB,
FO -KSMQ 15 20 PB -
Bemidji KAWE 9 18 PB 0Brainerd KAWB 22 28 PB 0Duluth KDLH 3 33 CB 0
WDSE 8 38 PB 0WDIO 10 43 AB,
FO +KNLD 21 17 IN +
Hibbing WIRT 13 36 AB,FO -
Mankato KEYC 12 38 CB 0Minneapolis-St. Paul
KTCA 2 34 PB -WCCO 4 32 CB +KSTP 5 50 AB -
KMSP 9 26 UP +KARE 11 35 NB -KTCI 17 16 PB 0
KLGT 23 22 WB +WFTC 29 21 FO +KVBM 45 44 HS 0
Redwood FallsKRWF 43 27 AB 0
Rochester KTTC 10 36 NB 0KXLT 47 46 IN -
St. Cloud KXLI 41 40 IN 0Thief River Falls
KBRR 10 57 FO 0Walker KCCW 12 20 CB -Worthington KSMN 20 15 PB 0MISSISSIPPI
Biloxi WLOX 13 36 AB +WMAH 19 35 PB +
Booneville WMAE 12 55 PB -Bude WMAU 17 18 PB +Columbus WCBI 4 35 CB -Greenvile WXVT 15 17 CB -Greenwood
WABG-TV 6 54 AB +WMAO-TV 23 26 PB +
Gulfport WXXV 25 48 FO -Hattiesburg WHLT 22 23 CB 0Holly Springs WBUY 40 41 TB 0Jackson WLBT 3 51 NB 0
WJTV 12 52 CB +WAPT 16 21 AB 0
WMPN 29 20 PB +WDBD 40 41 FO +
Laurel WDAM 7 28 NB 0Meridian WTOK 11 49 AB -
WMAW 14 47 PB 0WMDN 24 25 CB -WGBC 30 31 NB -
Mississippi StateWMAB 2 38 PB +
Natchez WNTZ 48 49 FO +Oxford WMAV 18 36 PB 0Tupelo-Columbus
WTVA 9 57 NB -WLOV 27 16 FO 0
MISSOURI
Cape Girardeau
WCMV 27 58 PB 0WGKI 33 47 FO,
UP 0Clumet WBKP 5 18 AB -Cheboygan WTOM 4 14 NB +Detroit WJBK 2 58 FO +
WDIV 4 45 NB 0WXYZ 7 41 AB -
WDWB 20 21 WB +WKBD 50 14 UP -WTVS 56 43 PB 0WWJ 62 44 CB 0
East Lansing WKAR 23 55 PB -Escanaba WJMN 3 48 CB +Flint WJRT 12 36 AB -
WFUM 28 52 PB -WSMH 66 16 FO -
Grand RapidsWOOD 8 7 NB +WZZM 13 39 AB +WXMI 17 19 FO 0WGVU 35 11 PB +
Iron MountainWDHS 8 22 IN -
Jackson * 18 34 * +Kalamazoo WWMT 3 2 CB -
WGVK 52 5 PB +WLLA 64 45 IN 0
Lansing WLNS 6 59 CB -WSYM 47 38 FO +WLAJ 53 51 AB -
Manistee WCMW 21 17 PB 0Marquette WLUC 6 35 NB -
WNMU 13 33 PB 0Mount Clemens
WADL 38 39 IN +Mount Pleasant
WCMU 14 56 PB 0Muskegon WTLJ 54 24 TB +Onandaga WILX-TV 10 57 * -
5
73
TV STATIONSKULR 8 11 NB 0
Bozeman KCTZ 7 16 FO -KUSM 9 20 PB 0
Butte KXLF 4 15 CB 0KTVM 6 2 NB +KWYB 18 19 AB 0
Glendive KXGN 5 15 CB,NB +
Great Falls KRTV 3 44 CB +KFBB 5 39 AB +KTGF 16 45 NB 0
Hardin KHMT 4 19 FO +Helena KAQR 10 29 NB +
KTVH 12 14 NB 0Kalispell KCFW 9 38 NB -Lewistown * 13 21 * 0Miles City KYUS 3 13 CB,
NB -Missoula KPAX 8 35 CB -
KUFM-TV 11 27 ED +KECI 13 40 NB -
KTMF 23 36 AB -NEBRASKA
Albion KLKE 24 23 AB +Alliance KTNE 13 24 PB -Bassett KMNE 7 15 PB -Grand Island KGIN 11 32 CB -
KTVG 17 19 FO,UP 0
Hastings KHAS 5 21 NB -KHNE 29 14 PB +
Hayes Center KWNB 6 18 AB 0Kearney KHGI 13 35 AB 0Lexington KLNE 3 26 PB +Lincoln KLKN 8 31 AB +
KOLN 10 25 CB +KUON 12 40 PB -
McCook KSNK 8 12 NB -Merriman KRNE 12 17 PB 0Norfolk KXNE 19 16 PB +
North Platte KNOP 2 22 NB -KPNE 9 16 PB +
Omaha KMTV 3 45 CB 0WOWT 6 22 NB +
KETV 7 20 AB 0KXVO 15 38 WB 0KYNE 26 17 PB 0KPTM 42 43 FO,
UP +Scottsbluff KSTF 10 29 CB -Superior KSNB 4 34 AB +NEVADA
Elko KENV 10 8 NB -Henderson KVVU 5 24 FO +Las Vegas KVBC 3 2 NB 0
KLAS 8 7 CB -KLVX 10 11 PB +KTNV 13 17 AB -KINC 15 16 UN +
KUPN 21 20 UP +KFBT 33 32 WB +
Paradise KBLR 39 38 TE +Reno KTVN 2 32 CB 0
KRNV 4 33 NB 0KNPB 5 15 PB 0KOLO 8 23 AB 0KRXI 11 41 FO 0
KAME 21 22 UP +KREN 27 26 WB +
Winnemucca KWNV 7 12 * +NEW HAMPSHIRE
Berlin * 40 15 PB -Concord WNBU 21 33 IN +Derry WNDS 50 35 IN -Durham WENH 11 57 PB 0Keene WEKW 52 49 PB +Littleton WLED 49 48 PB +Manchester WMUR 9 59 AB,
FO -Merrimack WGOT 60 34 IN +
KFVS 12 57 CB 0KBSI 23 22 FO 0
Columbia KOMU 8 36 NB +KMIZ 17 22 AB -
Hannibal-QuincyKHQA 7 29 CB -
Jefferson City KRCG 13 12 CB 0KNLJ 25 20 IN 0
Joplin KODE 12 43 AB +KSNF 16 46 NB 0KOZJ 26 25 PB -
Kansas City WDAF 4 34 FO 0KCTV 5 24 CB +
KMBC 9 14 AB +KCPT 19 18 PB +KSHB 41 42 NB -KINB 50 51 IN -
KSMO 62 47 UP +Kirksville * 3 33 * -Poplar Bluff KPOB 15 18 AB +St. Joseph KQTV 2 53 AB -
KTAJ 16 21 TB -St. Louis KTVI 2 43 FO 0
KMOV 4 56 CB -KSDK 5 35 NB -KETC 9 39 PB 0KPLR 11 26 WB -KNLC 24 14 IN +KDNL 30 31 AB +
Sedalia-WarrensburgKMOS 6 15 PB 0
Springfield KYTV 3 44 NB +KOLR 10 52 CB 0KOZK 21 23 PB -KDEB 27 28 FO -KSPR 33 19 AB 0
MONTANA
Billings KTVQ 2 17 CB -KSVI 6 18 AB,
FO 0
5
74
TV STATIONSRoswell KOBR 8 38 NB 0
KBIM-TV 10 41 CB -KRPV 27 28 IN -
Santa Fe KASA-TV 2 27 FO +KCHF 11 10 IN -KAUO 19 29 * -
Silver City KOVT 10 12 AB +NEW YORK
Albany WTEN 10 26 AB -WNYT 13 15 NB 0
WXXA-TV 23 4 FOWMHQ 45 43 PB 0
Amsterdam WOCD 55 50 IN 0Batavia WAQF 51 53 * -Bath * 14 20 * -Binghamton
WBNG-TV 12 7 CB -WMGC-TV 34 4 AB 0
WICZ-TV 40 8 FO -WSKG 46 42 PB +
Buffalo WGRZ-TV 2 33 NB 0WIVB-TV 4 39 CB 0
WKBW-TV 7 38 AB +WNED-TV 17 43 PB 0WNEQ-TV 23 32 PB 0
WUTV 29 14 FO, UP -
WNYO-TV 49 34 IN -Carthage-Watertown
WWNY-TV 7 35 CB, NB -
Coming WYDC 48 50 UP,WB +
Elmira WETM-TV 18 2 NB +WENY-TV 36 55 AB -
Garden City WLIW 21 22 PB -Jamestown WNYB 26 27 TB +Kingston WRNN-TV 62 21 IN +New York WCBS-TV 2 56 CB 0
WNBC 4 28 NB 0WNYW 5 44 FO +
WABC-TV 7 45 AB 0WPIX 11 33 WB +
WNYE-TV 25 24 PB 0WPXN-TV 31 30 IN -
North Pole WPTZ 5 14 * 0Norwood WNPI-TV 18 23 PB 0Plattsburg WCFE-TV 57 38 PB 0Poughkeepsie
WTBY 54 27 TB +Riverhead WLNY 55 57 IN +Rochester
WROC-TV 8 45 CB 0WHEC-TV 10 58 NB 0
WOKR 13 59 AB -WXXI-TV 21 16 PB 0
WUHF 31 28 FO, UP +
Schenectady WRGB 6 39 CB 0WMHT 17 34 PB +
SmithtownWHSI-TV 67 23 HS 0
Springville WNGS 67 46 IN +Syracuse
WSTM-TV 3 54 NB -WTVH 5 47 CB -WIXT 9 17 AB -
WCNY-TV 24 25 PB +WNYS-TV 43 44 UP +
WSYT 68 19 FO -Utica WKTV 2 29 NB -
WUTR 20 30 AB +WFXV 33 27 FO 0
WatertownWNPE-TV 16 41 PB 0
WWTI 50 21 AB +NORTH CAROLINA
Asheville WLOS 13 56 * -
NEW JERSEY
Atlantic City WWAC 53 46 IN +WACI 62 49 * +
Burlington WGTW 48 27 * -Camden WNJS 23 22 PB +Montclaire WNJN 50 51 PB +New Brunswick
WNJB 58 18 PB 0Newark WNET 13 61 PB -
WNJU 47 36 TE +WHSE-TV 68 53 HS 0
Newton WMBC-TV 63 8 IN 0Patterson WXTV 41 40 UN -Secaucus
WWOR-TV 9 38 UP +Trenton WNJT 52 43 PB -Vineland WHSP-TV 65 66 HS -West Milford
WFME-TV 66 29 ED 0Wildwood
WMGM-TV 40 36 NB 0NEW MEXICO
AlbuquerqueKOB-TV 4 26 NB +
KNME-TV 5 25 PB +KOAT-TV 7 21 AB +
KRQE 13 16 CB +KNAT 23 22 TB -KAZQ 32 17 ED +
KLUZ-TV 41 42 UN +KASY-TV 50 51 UP 0
Carlsbad KOCT 6 19 AB -Clovis KVIH-TV 12 20 AB -Farmington KOFT 3 29 * 0
KOBF 12 15 NB +Hobbs KHFT 29 17 UP +Las Cruces
KRWG-TV 22 23 PB -KZIA 48 28 UP +
Portales KENW 3 32 PB +
5
75
TV STATIONSNew Bern WCTI 12 48 AB +Raleigh-Durham
WRAL-TV 5 53 CB 0WLFL 22 57 FO 0WRAZ 50 49 WB +
Roanoke RapidsWUNP-TV 36 39 PB -
Rocky MountWRMY 47 15 IN -
WashingtonWITN-TV 7 32 NB 0
Wilmington WWAY 3 46 AB -WECT 6 54 NB 0
WSFX-TV 26 30 FO -WUNJ-TV 39 29 PB -
Wilson WRAY-TV 30 42 IN -Winston-Salem
WXII 12 31 * 0WUNL-TV 26 43 PB +WXLV-TV 45 29 AB 0
NORTH DAKOTA
Bismarck KBME 3 22 PB 0KFYR-TV 5 31 NB 0
KXMB-TV 12 23 CB -KBMY 17 16 AB -
Devils LakeWDAZ-TV 8 59 AB +
Dickinson KXMA-TV 2 19 CB +KQCD-TV 7 18 NB 0
KDSE 9 20 PB 0Ellendale KJRE 19 20 PB -Fargo WDAY-TV 6 21 AB 0
KVLY-TV 11 58 NB +KFME 13 39 PB 0KVRR 15 19 FO -
Grand Forks KGFE 2 56 PB 0Jamestown KJRR 7 14 FO -Minot KSRE 6 57 PB +
KMOT 10 58 NB -KXMC-TV 13 45 CB -
KMCY 14 15 AB -Pembina KNRR 12 15 FO 0Valley City KXJB-TV 4 38 CB -Willston KWSE 4 51 PB 0
KUMV-TV 8 52 NB -KXMD-TV 11 14 CB -
OHIO
Akron WAKC-TV 23 59 IN +WEAO 49 32 PB +
WBNX-TV 55 30 WB -Alliance WNEO 45 46 PB +Athens WOUB-TV 20 27 PB 0Bowing Green
WBGU-TV 27 56 PB +Cambridge
WOUC-TV 44 35 PB -Canton WDLI 17 39 TB -
WOAC 67 47 IN 0Chillicothe WWHO 53 46 UP 0Cincinnati WLWT 5 35 NB -
WCPO-TV 9 10 AB 0WKRC-TV 12 31 CB 0
WCET 48 34 PB -WSTR 64 33 UP -
Cleveland WKYC 3 2 NB 0WEWS 5 15 AB +
WJW 8 31 FO 0WVIZ 25 26 PB +
WQHS 61 34 HS 0Columbus WCMH 4 14 NB -
WSYX 6 13 AB +WBNS 10 11 CB +WTTE 28 36 FO,
UP -WOSU 34 38 PB 0
Dayton WDTN 2 50 AB 0WHIO 7 41 CB +WPTD 16 58 PB +WKEF 22 51 NB +WRGT 45 39 FO,
WHNS 21 57 * +WUNF-TV 33 25 PB 0WASV-TV 62 45 UP,
WB 0Belmont WJZY 46 47 UP +Burlington WAAP 16 14 IN 0Chapel Hill
WUNC-TV 4 59 PB +Charlotte WBTV 3 23 CB 0
WSOC-TV 9 34 AB +WCCB 18 21 FO 0
WCNC-TV 36 22 NB 0WTVI 42 24 PB +
Columbia WUND-TV 2 20 PB 0Concord WUNG-TV 58 44 PB 0Durham-Raleigh
WTVD 11 52 AB +WRDC 28 27 UP +
Fayetteville WKFT 40 38 IN +WFAY 62 36 FO 0
Goldsboro WNCN 17 55 NB -Greensboro
WFMY-TV 2 51 CB -WUPN-TV 48 33 UP -WLXI-TV 61 32 TB 0
Greenville WNCT-TV 9 10 CB -WYDO 14 21 FO 0
WUNK-TV 25 23 PB 0Hickory WHKY-TV 14 40 IN -High Point
WGHP-TV 8 35 * -Jacksonville
WUNM-TV 19 44 PB 0WFXZ-TV 35 34 * 0
Kannapolis WAXN 64 50 IN -Lexington WBFX 20 19WB,
FO 0Linville WUNE-TV 17 54 PB 0Lumberton WUNU 31 25 PB 0Morehead City WFXI 8 24 FO +
5
76
TV STATIONSKTBO 14 15 TB -KOKH 25 24 FO -KOCB 34 33 CB -KTLC 43 40 PB +KSBI 52 51 IN 0
KMNZ 62 50 IN +Okmulgee KGLB 44 28 * -Shawnee KAQS 30 29 * 0Tulsa KJRH 2 56 NB +
KOTV 6 55 CB +KTUL 8 58 AB -KOED 11 38 PB -KOKI 23 22 FO 0KTFO 41 42 UP +
KWHB 47 48 IN 0KWMJ 53 49 IN 0
OREGON
Bend KOAB 3 11 PB +KTVZ 21 18 NB +
Coos Bay KCBY 11 21 CB 0KMTZ 23 22 NB +
Corvallis KOAC 7 39 PB -Eugene KEZI 9 14 AB +
KVAL 13 25 CB 0KMTR 16 17 NB +KEPB 28 29 PB -
KLSR-TV 34 26 UP 0Klamath Falls KOTI 2 40 NB -
KFTS 22 33 PB +KDKF 31 29 AB 0
La Grande KTVR 13 5 PB +Medford KOBI 5 15 NB 0
KSYS 8 42 PB +KTVL 10 35 CB +KDRV 12 38 AB +KMVU 26 27 FO,
UP 0Pendleton KAUP 11 4 * -Portland KATU 2 43 AB 0
KOIN 6 40 CB +KGW 8 46 NB -
KOPB 10 27 PB 0KPTV 12 30 UP 0
KNMT 24 45 TB +Roseburg KPIC 4 19 CB +
KROZ 36 18 WB 0KMTX 46 45 NB +
Salem KBSP 22 20 HS 0KWBP 32 33 WB 0
PENNSYLVANIA
Allentown WLVT 39 62 PB 0WFMZ 69 46 IN 0
Altoona WTAJ 10 32 CB -WATM 23 24 AB -WKBS 47 46 IN 0
Bethlehem WBPH 60 59 IN -Clearfield WPSX 3 15 PB +Erie WICU 12 52 NB 0
WJET 24 58 AB 0WSEE 35 16 CB +WQLN 54 50 PB +WFXP 66 22 FO +
Greensburg WPCB 40 50 IN +Harrisburg WHP 21 4 CB +
WHTM 27 57 AB -WITF 33 36 PB +
Hazleton WWLF 56 9 FO 0Jeanette WNPA 19 30 WB +Johnstown WJAC 6 34 NB 0
WWCP 8 29 FO -Lancaster WGAL 8 58 NB -
WLYH 15 23 CB +Philadelphia KYW 3 26 CB 0
WPVI 6 64 AB -WCAU 10 67 NB 0WPHL 17 54 WB -WTXF 29 42 FO 0WYBE 35 34 PB -
UP 0Lima WLIO 35 20 NB -
WTLW 44 57 IN +Lorain WUAB 43 28 UP 0Mansfield WMFD 68 12 IN -Newark WSFJ 51 24 IN 0Oxford WPTO 14 28 PB +Portsmouth WHCP 30 17 * 0
WPBO 42 43 PB -Sandusky WGGN 52 42 TB 0Shaker Heights
WOIO 19 10 CB 0Springfield WTJC 26 18 HS +Steubenville WTOV 9 57 NB +Toledo WTOL 11 17 CB -
WTVG 13 19 AB 0WNWO 24 49 NB -WGTE 30 29 PB +
WUPW 36 46 FO -WLMB 40 5 * 0
Youngstown WFMJ 21 20 NB -WKBN 27 41 CB 0WYTV 33 36 AB, 0
FOZanesville WHIZ 18 40 NB -OKLAHOMA
Ada-Ardmore KTEN 10 26 AB,NB,FO +
Bartlesville KDOR 17 14 TB +Cheyenne KWET 12 8 PB +Claremore KRSC 35 36 ED 0Enid KAFU 20 18 * -Eufaula KOET 3 31 PB 0Lawton KSWO 7 23 AB +Oklahoma City
KFOR 4 27 NB -KOCO 5 16 AB 0KWTV 9 39 CB -KETA 13 32 PB +
TV STATIONS
5
77
WPSG 57 32 UP 0Pittsburgh KDKA 2 25 CB -
WTAE 4 51 AB +WPXI 11 48 NB 0
WQED 13 38 PB -WQEX 16 26 PB 0WPTT 22 42 WB 0WPGH 53 43 FO +
Reading WTVE 51 25 HS 0Red Lion WGCB 49 30 IN +Scranton WNEP 16 49 AB -
WYOU 22 13 CB -WOLF 38 31 FO +WVIA 44 41 PB -
WSWB-TV 64 32 * 0Wilkes-Barre WBRE 28 11 NB 0Williamsport WILF 53 29 FO -York WPMT 43 47 FO 0RHODE ISLAND
Block IslandWOST-TV 69 17 * 0
Providence WJAR 10 51 NB +WPRI 12 13 CB +WSBE 36 21 PB 0WNAC 64 54 FO +
SOUTH CAROLINA
Allendale WEBA 14 33 PB 0Anderson WFBC 40 14 WB 0Beaufort WJWJ 16 44 PB -Charleston WCBD 2 59 NB +
WCIV 4 53 AB 0WCSC 5 52 CB +WITV 7 49 PB -WTAT 24 40 FO 0
WMMP 36 35 UP +Columbia WIS 10 41 NB -
WLTX 19 17 CB +WOLO 25 8 AB -
WRLK 35 32 PB +WACH 57 48 FO -
Conway WHMC 23 58 PB +Florence WBTW 13 56 CB +
WPDE 15 16 AB -WWMB 21 20 UP 0WJPM 33 45 PB +
Greenville WYFF 4 59 NB -WGGS 16 52 IN +WNTV 29 9 PB 0
Greenwood WNEH 38 18 PB 0Hardeeville WTGS 28 27 FO -Myrtle Beach WFXB 43 18 FO +Rockhill WNSC 30 15 PB +
WFVT 55 39 WB -Spartanburg WSPA 7 53 CB +
WRET 49 43 PB 0Sumter WRJA 27 28 PB -
WQHB 63 38 * -SOUTH DAKOTA
Aberdeen KABY 9 28 AB -KDSD 16 17 PB -
Brookings KESD 8 18 PB 0Eagle Butte KPSD 13 24 PB 0Florence KDLO 3 25 CB -Huron KTTM 12 22 FO +Lead KIVV 5 26 FO -
KHSD 11 27 AB +Lowry KQSD 11 15 PB -Martin KZSD 8 20 PB -Mitchell KDLT 5 26 NB +Pierre KPRY 4 19 AB 0
KTSD 10 21 PB +Rapid City KOTA 3 22 AB +
KEVN 7 18 FO +KBHE 9 23 PB 0KCLO 15 16 CB -
Reliance KPLO 6 14 CB -Sioux Falls KELO 11 32 CB 0
KSFY 13 29 AB +KTTW 17 7 FO -KCSD 23 24 PB 0KAUN 36 48 * -
* 46 47 * 0Vermillion KUSD 2 34 PB +TENNESSEE
Chattanooga WRCB 3 55 NB +WTVC 9 35 AB 0WDEF 12 47 CB +WTCI 45 29 PB 0WDSI 61 40 FO -
Cleveland WFLI 53 42 UP 0Cookeville WCTE 22 52 PB 0
WKZX 28 36 WB +Crossville WBXX-TV 20 50 WB +Greenveville WEMT 39 38 FO -Hendersonville
WPGD 50 51 IN 0Jackson WBBJ 7 43 AB +
WMTU 16 39 UP +Jellico WPMC 54 23 IN -Johnson City WJHL 11 58 CB -Kingsport WKPT 19 27 AB 0Knoxville WATE 6 26 AB 0
WVLT-TV 8 30 CB 0WBIR 10 31 NB +
WKOP 15 17 PB -WTNZ 43 34 FO +
Lebanon WJFB 66 44 IN 0Lexington WLJT 11 47 PB 0Memphis WREG 3 28 CB -
WMC 5 52 NB +WKNO 10 29 PB +WHBQ 13 53 FO +WPTY 24 25 AB 0WLMT 30 31 UP 0
WFBI 50 51 HS +Murfreesboro WHTN 39 38 IN +
5
78
TV STATIONSNashville WKRN 2 27 AB -
WSMV 4 10 NB +WTVF 5 56 CB 0
WDCN 8 46 PB +WZTV 17 15 FO +WUXP 30 21 UP +WNAB 58 23 WB +
Sneedville WSJK 2 41 PB +TEXAS
Abilene KRBC-TV 9 29 NB +KTAB-TV 32 24 CB +
Alvin KHSH-TV 67 36 HS -Amarillo KACV-TV 2 21 PB +
KAMR-TV 4 19 NB 0KVII-TV 7 24 AB 0
KFDA-TV 10 9 CB 0KCIT 14 15 FO,
UP +Arlington KINZ 68 42 IN 0Austin KTBC-TV 7 56 FO +
KLRU 18 22 PB +KVUE-TV 24 33 AB 0KXAN-TV 36 21 NB 0KEYE-TV 42 43 CB -
KNVA 54 49 WB 0Baytown KVVV 57 41 IN +Beaumont KFDM-TV 6 21 CB -
KBMT 12 50 AB -KITU 34 33 ED -
Belton KNCT 46 47 PB -Big Spring
KWAB-TV 4 33 NB -Blanco * 52 45 * +Brownsville KVEO 23 24 NB 0Bryan KBTX-TV 3 59 CB 0
KAMU-TV 15 12 * -KYLE 28 29 FO 0
College StationKAMU-TV 15 12 PB
Conroe KTFH 49 5 INKHIM 55 42 * +
Corpus ChristiKIII-TV 3 47 AB -
KRIS-TV 6 50 NB 0KZTV 10 18 CB -
KEDT-TV 16 22 PB 0KORO 28 27 UN -
Dallas KDFW-TV 4 35 FO +WFAA-TV 8 9 AB 0KERA-TV 13 14 PB +KDFI-TV 27 36 IN -
KDAF 33 32 WB +KXTX-TV 39 40 IN 0KDTX-TV 58 45 TB 0
Decatur KMPX 29 30 IN 0Del Rio KTRG 10 28 * 0Denton KDTN 2 31 PB 0Eagle Pass KVAW 16 18 TE +El Paso KDBC-TV 4 16 CB 0
KVIA-TV 7 17 AB 0KTSM-TV 9 18 NB 0
KCOS 13 29 PB 0KFOX-TV 14 15 FO 0KINT-TV 26 25 UN +
KSCE 38 39 ED -KJLF-TV 65 51 WB 0
Fort Worth KXAS-TV 5 41 NB +KTVT 11 19 CB - KTXA 21 18 UP -
KFWD 52 51 TE -Fredericksburg
* 2 38 * +Galveston KLTJ 22 23 ED 0
KTMD 48 47 TE -Garland KUVN 23 24 UN 0Greenville KTAQ 47 46 IN +Harlingen KGBT-TV 4 31 CB +
KLUJ 44 34 ED 0
KMBH 60 38 PB 0Houston KPRC-TV 2 35 NB -
KUHT 8 53 PB 0KHOU-TV 11 31 CB +KTRK-TV 13 32 AB -
KETH 14 24 ED 0KTXH 20 19 UP 0KRIV 26 27 FO 0KHTV 39 38 WB -KZJL 61 44 IN 0
Irving KHSX-TV 49 48 HS 0Jacksonville
KETK-TV 56 22 NB 0Juarez-El Paso
XEPM-TV 2 INXEJ-TV 5 IN
XHIJ-TV 44 TEKaty KNWS-TV 51 52 IN +Kerrville KRRT 35 17 WB +Killeen KAKW 62 23 UP,
WB 0Lake Dallas KLDT 55 43 * 0Laredo KGNS-TV 8 15 NB,
AB 0KVTV 13 14 AB 0
KLDO-TV 27 19 TE -Llano KXAM-TV 14 27 NB -Longview KFXK 51 52 FO,
UP -Lubbock KTXT-TV 5 39 PB -
KCBD-TV 11 44 NB 0KLBK-TV 13 40 CB -
KPTB 16 25 IN +KAMC 28 27 AB 0KJTV 34 35 FO -
Lufkin KTRE 9 43 AB 0McAllen KNVO 48 30 UN 0Midland KMID 2 26 AB -Nacogdoches
KLSB-TV 19 18 NB -
TV STATIONS
5
79
Odessa KOSA-TV 7 31 CB -KWES-TV 9 15 NB -
KPEJ 24 23 FO -KOCV-TV 36 22 PB +
KMLM 42 43 IN 0Port Arthur KJAC-TV 4 40 NB -Rio Grande City
KAIO 40 20 * 0Rosenberg KXLN-TV 45 46 UN 0San Angelo KACB-TV 3 16 NB -
KIDY 6 19 FO 0KLST 8 11 CB +
San AntonioKMOL-TV 4 58 NB 0KENS-TV 5 55 CB 0
KLRN 9 20 PB -KSAT-TV 12 48 AB +
KHCE 23 16 ED -KABB 29 30 FO +
KWEX-TV 41 40 UN +KVDA 60 39 TE +
Sherman KXII 12 20 CB 0Snyder KPCB 17 10 IN -SweetwaterKTXS-TV 12 20 AB 0Temple KCEN-TV 6 50 NB +Texarcana KTAL-TV 6 15 * 0Tyler KLTV 7 38 AB 0Victoria KVCT 19 34 FO +
KAVU-TV 25 15 AB 0Waco KWTX-TV 10 53 CB +
KXXV 25 26 AB +KCTF 34 20 PB +
KWKT 44 57 FO -Weslaco KRGV-TV 5 13 AB -Wichita Falls
KFDX-TV 3 28 NB +KAUZ 6 22 CB -KJTL 18 17 FO,
UP -
UTAH
Cedar City KSGI-TV 4 14 IN 0Ogden KULC 9 35 PB +
KOOG-TV 30 29WB 0Provo KBYU-TV 11 39 PB -
KZAR-TV 16 17 * 0Salt Lake City KUTV 2 34 CB -
KTVX 4 38 AB -KSL-TV 5 36 NB +
KUED 7 40 PB -KSTU 13 28 FO +
KJZZ-TV 14 27 UP -St. George KUSG 12 9 * 0VERMONT
Burlington WCAX-TV 3 53 CB 0WVNY 22 16 AB +WETK 33 32 PB -
WFFF-TV 44 43 FO +Hartford WNNE-TV 31 25 NB 0Rutland WVER 28 56 PB +St. Johnsbury WVTB 20 18 PB -Windsor WVTA 41 24 PB 0VIRGINIA
Arlington WTMW 14 15 HS -Ashland WUPV 65 47WB 0Bristol WCYB-TV 5 28 NB +Charlottesville
WVIR-TV 29 32 NB -WHTJ 41 14 PB -
* 64 47 * +Danville WDRL-TV 24 41 UP -Fairfax WNVC 56 57 ED 0Front Royal WVPY 42 21 PB 0Goldvein WNVT 53 30 PB 0Grundy WLFG 68 49 IN 0Hampton-Norfolk WVEC-TV 13 41 AB -
WHRO-TV 15 16 PB 0
HarrisonburgWHSV-TV 3 49 AB,
FO -Lynchburg WSET-TV 13 56 AB 0
WJPR 21 20 FO -Manassas WVVI 66 36 IN +Marion WMSY-TV 52 42 PB 0Norfolk WTKR 3 58 CB +
WTVZ 33 38 FO 0WJCB 49 14 IN -
Norton WSBN-TV 47 32 PB -Petersburg WRIC-TV 8 22 AB 0Portsmouth WGNT 27 19 UP 0Portsmouth-Norfolk-Newport News
WAVY-TV 10 31 NB +Richmond WTVR-TV 6 25 CB +
WWBT 12 54 NB -WCVE-TV 23 24 PB 0WRLH-TV 35 26 FO +
WCVW 57 44 PB -Roanoke WDBJ 7 18 CB -
WSLS-TV 10 30 NB 0WBRA-TV 15 3 PB +WFXR-TV 27 17 FO +
WEFC 38 36 IN -Staunton WVPT 51 19 PB -Virginia BeachWVBT 43 29 WB +
WASHINGTON
Bellevue KBGE 33 32 IN +KBEH 51 50 * +
BellinghamKVOS-TV 12 35 IN +KBCB 24 19 * 0
Centralia KCKA 15 19 PB +Everett KONG-TV 16 31 * -Kennewick KVEW 42 14 AB +Pasco KEPR-TV 19 20 CB -Pullman KWSU-TV 10 17 PB -Richland KNDU 25 26 NB 0
5
80
TV STATIONSKTNW 31 30 PB 0
Seattle KOMO-TV 4 38 A 0KING 5 48 NB +KIRO 7 39 CB 0KCTS 9 41 PB 0KTZZ 22 25 WB +KHCV 45 44 * +
Spokane KREM 2 57 CB -KXLY 4 54 AB -KHQ 6 55 NB -
KSPS 7 39 PB +KSKN 22 38 HS 0KAYU 28 29 FO,
UP -Tacoma KSTW 11 36 UP +
KCPQ 13 18 FO -KTBW 20 14 TB 0KBTC 28 26 PB 0
KWDK 56 42 * 0Vancouver KPDX 49 48 FO -Wenatchee KCWT 27 56 * 0Yakima KNDO 23 16 NB +
KIMA 29 52 CB +KAPP 35 34 AB 0KYVE 47 21 PB 0
WEST VIRGINA
Bluefield WVVA 6 46 NB -WLFB 40 14 * -
Charleston WCHS 8 55 AB +WVAH 11 19 FO,
UP +WKRP-TV 29 39 * 0
Clarksburg WBOY 12 52 NB +WLYJ 46 28 IN -
Grandview WSWP 9 53 PB -Huntington WSAZ 3 23 NB +
WOWK 13 54 CB +WPBY 33 34 PB +
Lewisburg WVSX 59 48 FO -
Martinsburg WSHE 60 12 IN +Morgantown WNPB 24 33 PB -Oak Hill WOAY 4 50 AB 0Parkersburg WTAP 15 49 NB -Weston WDTV 5 58 CB 0Wheeling WTRF 7 56 CB 0WISCONSIN
Appleton WACY 32 59 UP +Chippewa Falls
WEUX 48 49 FO 0Eagle River WYOW 34 17 AB 0Eau Claire WEAU 13 39 NB +
WQOW 18 15 AB 0Fond Du Lac
WMMF-TV 68 44 * 0Green Bay WBAY 2 23 AB +
WFRV 5 56 CB +WLUK 11 51 FO +WGBA 26 41 NB +WPNE 38 42 PB 0
Janesville WJNW 57 32 * +Kenosha WHKE 55 40 IN -La Crosse WKBT 8 53 CB +
WXOW 19 14 AB +WLAX 25 17 FO 0WHLA 31 30 PB 0
Madison WISC 3 50 CB 0WMTV 15 19 NB 0
WHA 21 20 PB -WKOW 27 26 AB -WMSN 47 11 FO +
Manitowoc * 16 19 * +Mayville WWRS-TV 52 43 * 0Menomonie WHWC 28 27 PB -Millwaukee WTMJ 4 28 NB -
WITI 6 33 FO 0WMVS 10 8 PB +WISN 12 34 AB 0WVTV 18 61 WB -
WCGV 24 25 UP +WVCY 30 22 IN 0WMVT 36 35 PB 0WDJT 58 46 CB 0
Park Falls WLEF 36 47 PB -Racine WJJA 49 48 HS +Rhinelander WJFW 12 16 NB +Superior KSNB-TV 6 19 * +Suring WSCO 14 21 IN -Wausau WSAW 7 40 CB -
WAOW 9 29 AB 0WHRM 20 24 PB +
WYOMING
Casper KTWO 2 17NB,WB +
KGWC 14 15 CB -KFNB 20 18 AB,
FO -Cheyenne KGWN 5 30 CB,
AB +KLWY 27 28 FO -KKTU 33 11NB,
WB -Jackson KJWY 2 14 NB 0Lander-Riverton
KCWC 4 8 PB 0KGWL 5 7 CB 0
Rawlins KFNR 11 9 AB -Riverton KFNE 10 16 AB +Rock Springs KGWR 13 19 CB 0Sheridan KSGW 12 21 AB +
OHM’S LAW & JOULE’S LAW
Ohm’s Law Joule’s LawV = IR P = IV
V = voltage in volts P = power in wattsI = current in amperes I = current in amperesR = resistance in ohms V = voltage in volts
Equations Summary of Ohm’s & Joule’s Laws
Pow
er,P Current, I
Voltage, V Resista
nce,
RPR
=
=
=
PI2
VI= V2
PPR=
= IR
= PI
= V2
R
= IV
= I2R = PV
= VR
6
1
6
2
TABLE OF CONVERSIONSThe following table lists the conversions between voltage and powermeasurements for the range of signal levels commonly encountered inBroadband networks. The equations described on the first three pagesof section 2 were used in the compilation of this table.
mV dBmV dbµV dBm0.0010 -60 0 -108.750.0011 -59 1 -107.750.0013 -58 2 -106.750.0014 -57 3 -105.750.0016 -56 4 -104.750.0018 -55 5 -103.750.0020 -54 6 -102.750.0022 -53 7 -101.750.0025 -52 8 -100.750.0028 -51 9 -99.750.0032 -50 10 -98.750.0035 -49 11 -97.750.0040 -48 12 -96.750.0045 -47 13 -95.750.0050 -46 14 -94.750.0056 -45 15 -93.750.0063 -44 16 -92.750.0071 -43 17 -91.750.0079 -42 18 -90.750.0089 -41 19 -89.750.0100 -40 20 -88.750.0112 -39 21 -87.750.0126 -38 22 -86.750.0141 -37 23 -85.750.0158 -36 24 -84.750.0178 -35 25 -83.750.0200 -34 26 -82.750.0224 -33 27 -81.750.0251 -32 28 -80.750.0282 -31 29 -79.750.0316 -30 30 -78.750.0355 -29 31 -77.750.0398 -28 32 -76.75
mV dBmV dbµV dBm0.0447 -27 33 -75.750.0501 -26 34 -74.750.0562 -25 35 -73.750.0631 -24 36 -72.750.0708 -23 37 -71.750.0794 -22 38 -70.750.0891 -21 39 -69.750.1000 -20 40 -68.750.1122 -19 41 -67.750.1259 -18 42 -66.750.1413 -17 43 -65.750.1585 -16 44 -64.750.1778 -15 45 -63.750.1995 -14 46 -62.750.2239 -13 47 -61.750.2512 -12 48 -60.750.2818 -11 49 -59.750.3162 -10 50 -58.750.3548 -9 51 -57.750.3981 -8 52 -56.750.4467 -7 53 -55.750.5012 -6 54 -54.750.5623 -5 55 -53.750.6310 -4 56 -52.750.7079 -3 57 -51.750.7943 -2 58 -50.750.8913 -1 59 -49.751.0000 0 60 -48.751.1220 1 61 -47.751.2589 2 62 -46.751.4125 3 63 -45.751.5849 4 64 -44.751.7783 5 65 -43.75
6
3
mV dBmV dbµV dBm1.9953 6 66 -42.752.2387 7 67 -41.752.5119 8 68 -40.752.8184 9 69 -39.753.1623 10 70 -38.753.5481 11 71 -37.753.9811 12 72 -36.754.4668 13 73 -35.755.0119 14 74 -34.755.6234 15 75 -33.756.3096 16 76 -32.757.0795 17 77 -31.757.9433 18 78 -30.758.9125 19 79 -29.7510.0000 20 80 -28.7511.2202 21 81 -27.7512.5893 22 82 -26.7514.1254 23 83 -25.7515.8489 24 84 -24.7517.7828 25 85 -23.7519.9526 26 86 -22.7522.3872 27 87 -21.7525.1189 28 88 -20.7528.1838 29 89 -19.7531.6228 30 90 -18.7535.4813 31 91 -17.7539.8107 32 92 -16.7544.6684 33 93 -15.7550.1187 34 94 -14.7556.2341 35 95 -13.7563.0957 36 96 -12.7570.7946 37 97 -11.7579.4328 38 98 -10.7589.1251 39 99 -9.75100.0000 40 100 -8.75112.2018 41 101 -7.75125.8925 42 102 -6.75141.2538 43 103 -5.75
mV dBmV dbµV dBm158.4893 44 104 -4.75177.8279 45 105 -3.75199.5262 46 106 -2.75223.8721 47 107 -1.75251.1886 48 108 -0.75273.8420 48.75 108.75 0281.8383 49 109 0.25316.2278 50 110 1.25354.8134 51 111 2.25398.1072 52 112 3.25446.6836 53 113 4.25501.1872 54 114 5.25562.3413 55 115 6.25630.9573 56 116 7.25707.9458 57 117 8.25794.3282 58 118 9.25891.2509 59 119 10.251000.0000 60 120 11.251122.0185 61 121 12.251258.9254 62 122 13.251412.5375 63 123 14.251584.8932 64 124 15.251778.2794 65 125 16.251995.2623 66 126 17.252238.7211 67 127 18.252511.8864 68 128 19.252818.3829 69 129 20.253162.2777 70 130 21.253548.1339 71 131 22.253981.0717 72 132 23.254466.8359 73 133 24.255011.8723 74 134 25.255623.4133 75 135 26.256309.5734 76 136 27.257079.4578 77 137 28.257943.2823 78 138 29.258912.5094 79 139 30.2510000.0000 80 140 31.25
TABLE OF CONVERSIONS
6
4
Return Loss Reflection VSWR Return Reflection VSWRLoss (dB) Reflection Coefficient (%) Loss (dB) Coefficient (%)
0.0 4.3 100.00 20.0 10.00 1.2220.5 2.2 94.41 34.753 20.5 9.44 1.2081.0 1.26 89.13 17.391 21.0 8.91 1.1961.5 .74 84.14 11.610 21.5 8.41 1.1842.0 .45 79.43 8.724 22.0 7.94 1.1732.5 .28 74.99 6.997 22.5 7.50 1.1623.0 .17 70.79 5.848 23.0 7.08 1.1523.5 .11 66.83 5.030 23.5 6.68 1.1434.0 .07 63.10 4.419 24.0 6.31 1.1354.5 .04 59.57 3.946 24.5 5.96 1.1275.0 56.23 3.570 25.0 5.62 1.1195.5 53.09 3.263 25.5 5.31 1.1126.0 50.12 3.010 26.0 5.01 1.1066.5 47.32 2.796 26.5 4.73 1.0997.0 44.67 2.615 27.0 4.47 1.0947.5 42.17 2.458 27.5 4.22 1.0888.0 39.81 2.323 28.0 3.98 1.0838.5 37.58 2.204 28.5 3.76 1.0789.0 35.48 2.100 29.0 3.55 1.0749.5 33.50 2.007 29.5 3.35 1.06910.0 31.62 1.925 30.0 3.16 1.06510.5 29.85 1.851 30.5 2.99 1.06211.0 28.18 1.785 31.0 2.82 1.05811.5 26.61 1.725 31.5 2.66 1.05512.0 25.12 1.671 32.0 2.51 1.05212.5 23.71 1.622 32.5 2.37 1.04913.0 22.39 1.577 33.0 2.24 1.04613.5 21.13 1.536 33.5 2.11 1.04314.0 19.95 1.499 34.0 2.00 1.04114.5 18.84 1.464 34.5 1.88 1.03815.0 17.78 1.433 35.0 1.78 1.03615.5 16.79 1.404 35.5 1.68 1.03416.0 15.85 1.377 36.0 1.58 1.03216.5 14.96 1.352 36.5 1.50 1.03017.0 14.13 1.329 37.0 1.41 1.02917.5 13.34 1.308 37.5 1.33 1.02718.0 12.59 1.288 38.0 1.26 1.02518.5 11.89 1.270 38.5 1.19 1.02419.0 11.22 1.253 39.0 1.12 1.02319.5 10.59 1.237 39.5 1.06 1.021
RETURN LOSS, REFLECTION COEFFICIENT, AND VOLTAGE STANDING WAVE RATIO (VSWR)
6
5
RETURN LOSS RATIO(RLR)
30.0010.006.00
4.00
3.00
2.50
2.00
1.70
1.601.50
1.40
1.30
1.20
1.15
1.10
1.08
1.06
1.05
1.04
1.03
1.02
0
-5
-10
-15
-20
-25
-30
-35
-40
RLR (dB) VSWR
Note: In a 75-Ohm transmission line.
RLR (dB) = -20 • log10 (SWR - 1)(SWR +1)
RLR (dB) = -20 • log10 (% Reflection )
100
RLR (dB) = -20 • log10 Z75 + Zx (see note)Z75 - Zx
% Reflection = (SWR - 1) • 100(SWR +1)
Loss (Reflection) = 10 • log (VSWR +1)4(VSWR )
2
SWR = Emax
Emin
SWR = 10 +1
10 -1
RL 20
RL 20
The column marked Loss (Reflection), on page 6.5,indicates the insertion loss that is attributable to theamount of signal reflected at the device input.
6
6
SIGNAL LEVELS
0 dBm = + 48.75 dBmV /75 ohms
0 dBW = + 78.75 dBmV /75 ohms
0 dBmV = 60 dBµV
PREFIXES
milli (m) = 1/1,000micro (µ) = 1/1,000,000nano (n) = 1/1,000,000,000pica (p) = 1/1,000,000,000,000kilo (k) = 1,000
mega (M) = 1,000,000giga (G) = 1,000,000,000
ENERGY / HEAT
12,000 BTU = One Ton1 Watt / hour = 3.415 Btu1 horsepower = 746 Watts1 atmosphere = 14.6 pounds per square inch
°Fahrenheit = (9/5 x °C) + 32°CELSIUS = 5/9 x (°F - 32)
CONVERSION FACTORS
6
7
CONVERSION FACTORS
VOLUME
1 cubic yard = 27 cubic feet1 cubic inch = 16.38716 cubic centimeters
1 cubic meter = 1.307943 cubic yards1 US gallon = 3.7853 liters1 US gallon = 128 fluid ounces1 US gallon = 0.8327 Imperial Gallons
1 liter = 61.025 cubic inches1 liter = 1000 cubic centimeters
WEIGHT
1 pound = 16 ounces1 pound = 453.592 grams
1 kilogram = 2.20462 pounds1 kilogram = 1000 grams
1 ton = 2000 pounds1 ton = 907.185 kilograms
1 metric ton = 2205 pounds
6
8
LINEAR
1 mile = 5280 feet1 mile = 1.60935 kilometers
1 kilometer = 3280.83 feet1 kilometer = 0.621 miles1 kilometer = 1000 meters
1 meter = 39.37 inches1 meter = 3.281 feet1 meter = 100 centimeters
1 centimeter = 10 millimeters1 centimeter = 0.394 inches1 millimeter = 1000 microns
1 micron = 1000 nanometers1 foot = 30.48 centimeters1 inch = 25.4 millimeters1 inch = 1000 mils1 mil = 25.4 microns
1 micron = 0.3937 mil1 yard = 36 inches
CONVERSION FACTORS
6
9
F 0 -1 -2 - 3 -4 - 5 - 6 - 7 - 8 9
-40 -40.0 -40.6 -41.1 -41.7 -42.2 -42.8 -43.3 -43.9 -44.4 -45.0-30 -34.4 -35.0 -35.6 -36.1 -36.7 -37.2 -37.8 -38.3 -38.9 -39.4-20 -28.9 -29.4 -30.0 -30.6 -31.1 -31.7 -32.2 -32.8 -33.3 -33.9-10 -23.3 -23.9 -24.4 -25.0 -25.6 -26.1 -26.7 -27.2 -27.8 -28.30 -17.8 -18.3 -18.9 -19.4 -20.0 -20.6 -21.1 -21.7 -22.2 -22.8
+ 0 1 2 3 4 5 6 7 8 9
0 -17.8 -17-.2 -16.7 -16.1 -15.6 -15.0 -14.4 -13.9 -13.3 -12.810 -12.2 -11.7 -11.1 -10.6 -10.0 -9.4 -8.9 -8.3 -7.8 -7.220 -6.7 -6.1 -5.6 -5.0 -4.4 -3.9 -3.3 -2.8 -2.2 -1.730 -1.1 -0.6 0.0 0.6 1.1 1.7 2.2 2.8 3.3 3.940 4.4 5.0 5.6 6.1 6.7 7.2 7.8 8.3 8.9 9.450 10.0 10.6 11.1 11.7 12.2 12.8 13.3 13.9 14.4 15.060 15.6 16.1 16.7 17.2 17.8 18.3 18.9 19.4 20.0 20.670 21.1 21.7 22.2 22.8 23.3 23.9 24.4 25.0 25.6 26.180 26.7 27.2 27.8 28.3 28.9 29.4 30.0 30.6 31.1 31.790 32.2 32.8 33.3 33.9 34.4 35.0 35.6 36.1 36.7 37.2100 37.8 38.3 38.9 39.4 40.0 40.6 41.1 41.7 42.2 42.8110 43.3 43.9 44.4 45.0 45.6 46.1 46.7 47.2 47.8 48.3120 48.9 49.4 50.0 50.6 51.1 51.7 52.2 52.8 53.3 53.9130 54.4 55.0 55.6 56.1 56.7 57.2 57.8 58.3 58.9 59.4140 60.0 60.6 61.1 61.7 62.2 62.8 63.3 63.9 64.4 65.0150 65.6 66.1 66.7 67.2 67.8 68.3 68.9 69.4 70.0 70.6160 71.1 71.7 72.2 72.8 73.3 73.9 74.4 75.0 75.6 76.1170 76.7 77.2 77.8 78.3 78.9 79.4 80.0 80.6 81.1 81.7
CONVERSION FACTORSDegrees, Fahrenheit to Celsius
6
10
TEMPERATURE CONVERSION NOMOGRAPH
+150
+140
+130
+120
+110
+100
+90
+80
+70
+60
+50
+40
+30
+20
+10
0
-10
-20
-30
-40
+70
+60
+50
+40
+30
+20
+10
0
-10
-20
-30
-40
°C °F
FAHRENHEIT, °F
9°F = °C x + 325( )
CELSIUS, °C
5°C = (°F – 32)9
KELVIN, °K
°K = °C + 273
6
11
WIRE GAUGE DATA (AWG)AWG Diameter Area, circular Ohms per 1000 ft. Weight per
mils, d mils, d2 at 20°C, or 68° F 1000 ft. (lbs.)0000 460.00 211,600 0.04901 640.5000 409.64 167,805 0.06180 508.000 364.80 133.079 0.07793 402.80 324.86 105.534 0.09827 319.51 289.30 83,694 0.1239 253.32 257.63 66.373 0.1563 200.93 229.42 52,634 0.1970 159.34 204.31 41,743 0.2485 126.45 181.94 33,102 0.3133 100.26 162.02 26,250 0.3951 79.467 144.28 20,817 0.4982 63.028 129.49 16,768 0.6282 49.989 114.43 13,094 0.7921 39.6310 101.89 10,382 0.9989 31.4311 90.742 8,234.1 1.260 24.9312 80.808 6,529.9 1.588 19.7713 71.961 5,178.4 2.003 15.6814 64.084 4,106.8 2.525 12.4215 57.068 3,256.8 3.184 9.85816 50.820 2,582.7 4.016 7.81817 45.257 2,048.2 5.064 6.20018 40.303 1,624.3 6.385 4.91719 35.890 1,288.1 8.051 3.89920 31.961 1,021.5 10.15 3.09221 28.465 810.10 12.80 2.45222 25.347 642.47 16.14 1.94523 22.571 509.45 20.36 1.54224 20.100 404.01 25.67 1.22325 17.900 320.41 32.37 0.969926 15.940 254.08 40.81 0.769227 14.195 201.50 51.47 0.610028 12.641 159.79 64.90 0.483729 11.257 126.72 81.83 0.383630 10.025 100.50 103.2 0.304231 8.928 79.71 130.1 0.241332 7.950 63.20 164.1 0.191333 7.080 50.13 206.9 0.151734 6.305 39.75 260.9 0.120335 5.615 31.53 329.0 0.095436 5.000 25.00 414.8 0.075737 4.453 19.83 523.1 0.060038 3.965 15.72 059.6 0.047639 3.531 12.47 831.8 0.037740 3.145 9.89 1049 0.0299
6
12
CURRENT RATINGS FOR ELECTRONIC CABLESThe maximum continuous current rating for an electronic cable is limited by
conductor size, number of conductors contained within the cable, maximum temperature rating of the cable, and environmental conditions such as ambient temperature and air flow. To use the current capacity chart, first determine conductor size, temperature rating, andnumber of conductors from the applicable product description for the cable of interest.
Next, find the current value on the chart for the proper temperature rating and conductorsize. To calculate the maximum current rating/conductor, multiply the chart value by theappropriate conductor factor. The chart assumes cable is surrounded by still air at an ambienttemperature of 25˚ C. Current values are in RMS Amperes and are valid for copper conductorsonly.
100908070
60
50
40
30
20
10987
6
5
4
3
2
1
28 26 24 22 20 18 16 14 12 10 8
Conductor Size (in AWG)
10˚ C Temp. RiseAbove Ambient
35˚ C Temp. RiseAbove Ambient
Curre
nt (I
n Am
pere
s)
No. of Conductors** Factors1 1.6
2 - 3 1.04 - 5 .86 - 15 .716 - 30 .5
**Do notcount
shieldsunless
usedas a
conductor.
NOTE: Current ratings are intended asgeneral guidelines for low powerelectronic communications and controlapplications. Current ratings for powerapplications generally are set byregulatory agencies such as UL, CSA,NEC, and others.
6
13
CABLE SUBSTITUTION CHART (PER NEC*)
CATVPFPLP
CL3P
CL2P
CMP
MPP
CATVRFPLR
CL3R
CL2R
CMR
MPR
CATVFPLP
PLTC
CL3
CMGCM
MPGMP
CL2
CATVXCL3X
CL2X
CMX
PLENUM4
UL-910NFPA-262(STEINERTUNNEL)
RISER3
UL-1666(VERTICALSHAFT)
GENERALPURPOSE2
UL-1581(VERTICALTRAYORCSA FT 4)
RESIDENTIAL1 (LOWEST)
UL-1581VW-1(VERTICALFLAME)
FireResistant
Level4
(Highest)Test
Requirements 800 725 760 820NEC ARTICLES
Under certain conditions these cables can be substituted[NEC 760-51 (A), (B), & (G).]
Cables indicated can be substituted.
Type MP =Multipurpose Cables
Type CM =Communications Cables
Type CL2, CL3 =Class 2 and Class 3Remote Control, Signalingand Power Limited Cables
Type FPL =Power-Limited FireAlarm Cables
Type CATV =Community AntennaTelevision and RadioDistribution Cables
Type OFN =Non-conductive OpticalFiber Cables
Type OFC =Conductive Optical FiberCables
Type PLTC =Power-Limited Tray Cables
Type CMG =A CM Which Passes CSA FT4
Type MPG=A MP Which Passes CSA FT4
Type OFNG=A OFN Which Passes CSA FT4
Type OFCG=A OFC Which Passes CSA FT4
*National Electrical Code and NEC are registered trademarks of the NationalFire Protection Association, Inc., Quincy, MA.
COMMON CATV SYMBOLS
7
1
1 2
3
3x
% loss
2x
% loss
4x
% loss
2-way
3-way
4-way
Headend
Amplifier
2 Way Splitter
3 Way Splitter(Dot IndicatesHigh Output Leg)
4 Way Splitter
HUB Location
FeedforwardAmplifier
DirectionalCoupler
DirectionalCouplerHigh Loss Leg
Optical Splitter WithLevel Assignments
OpticalSpliceLocations
OpticalCouplers
AC PowerBlock
Feeder LineEqualizer
A-B Switch
Amplifier WithSubscriber Distribution
hileg
Bridging Amplifier WithSubscriber Distribution
Terminating (non-bridging)Amplifier WithSubscriber Distribution
Bridging Amplifier WithSubscriber Distribution
7
2
COMMON CATV SYMBOLS
#
#
#
14
F# Optical CableWith NumberOf Fibers
Fiber CableRepresentations
Connector
Receiver
Transmitter
Splice
Terminating Tap
Fixed Attenuator
Termination
StandbyPower Supply
Power Inserter
Power Supply
0.412 Inch Cable
0.500 Inch Cable
0.750 Inch Cable
1.000 Inch Cable
OpticalFigure Eight
Stand AloneStatus Monitor
6 Output Tap
4 Output Tap
2 Output Tap
Tap
Eq.
# Ports
Att.
148 3
16 InterdictionUnit Symbol
# 1 Output Tap
# 8 OutputTap
Male
Female
7
3
== =DC IN
DC
DC
= =
T
V H
V H T
V H T
V H T
V H T
DC
MultiswitchSMS 3400
MultiswitchSMS 3810
MultiswitchSMK 3340
MultiswitchLA 3310
MultiswitchLPI 3300
22/27
T
22/27
T
V H
26/29
T
20
AmplifierLDA 28-2
AmplifierLDA 36
AmplifierLA124-20LA922-20
10
=
Booster AmpLPA-10
Power InserterLPI 2200Power Supply: Multiswitch
LPI 188Ps
AmplifiersPS120-1218; PS120-12; LPI 122PS; LPI 183PS
18/24
A
18/24
B18V 13V
AmplifierLDAP-24
DIGITAL “L-BAND” DISTRIBUTION SYMBOLS
7
4
24
20
16
12
8
24
20
16
12
=
= =
=
==== =
==== == =
1 PortDir. CouplerDCL-108
1 PortDir. CouplerDCL-112
1 PortDir. CouplerDCL-116
1 PortDir. CouplerDCL-120
1 PortDir. CouplerDCL-124
Trunk GradeSplitterLPD-2
Trunk GradeSplitterLPD-2p
Trunk GradeSplitterLPD-3p
Trunk GradeSplitterLPD-4
Trunk GradeSplitterLPD-4p
Trunk GradeSplitterLPD-6
Trunk GradeSplitterLPD-6p
Trunk GradeSplitterLPD-8
Trunk GradeSplitterLPD-8p
2 PortDir. CouplerDCL-212
2 PortDir. CouplerDCL-216
2 PortDir. CouplerDCL-220
2 PortDir. CouplerDCL-224
24
20
16
12
4 PortDir. CouplerDCL-412
4 PortDir. CouplerDCL-416
4 PortDir. CouplerDCL-420
4 PortDir. CouplerDCL-424
DiplexerLUV 2150
TerminatorLTF 2150
DIGITAL “L-BAND” DISTRIBUTION SYMBOLS
CABLE AND EQUALIZER FORMULAS
1. CABLE LOSS RATIOThe ratio of cable attenuation at two frequencies is approximatelyequal to the square root of the ratio of the two frequencies.
Example: To calculate the approximate cable loss at 55 MHzwhen the loss at 450 MHz is 20 dB,
2. TILT TO CABLE LOSSTo convert tilt (differential in signal level between end frequenciesof the cable bandpass) to cable loss at the highest frequency:
Example: To calculate the cable loss at the highest frequency when the measured tilt is 12 dB between 55 and 450 MHz
Cable Loss Ratio = f 1f 2
Attenuation (at 55 MHz) = x 20 = 6.99 dB55 450
f 1f 2
dB of Cable =
1-
Tilt (dB)
dB of Cable = = 18.45 dB 1-
1255
450
8
1
CABLE AND EQUALIZER FORMULAS
3. EQUALIZER LOSS AT ANY FREQUENCYTo calculate the equalizer loss at any frequency, the following formulamay be used:
Example: To calculate the loss of an equalizer for 20 dB of cable at 450 MHz at a frequency f1 of 55 MHz,
Loss at f = Eq. Value - (( Eq. value x ) -1)f 1f 2
1
Loss at 55 MHz = 20 - ((20 x ) -1) = 14.01 dB55 450
8
2
Use this chart tofind a cable span’sattenuation at anew frequency ifyou already knowits attenuation atone frequency.
If you know thecable loss at f1and want to findthe correspondingloss at a higherfrequency f2multiply the lossat f1 by the conversion factor.The result is thecable loss at f2.
If you know thecable loss at f2and want to findthe correspondingloss at a lowerfrequency f1divide the loss atf2 by the conver-sion factor. Theresult is the cableloss at f1.
Example: If a cable span attenuates a 220 MHz signal by10 dB, by how much will it attenuate a 300 MHz signal?Loss at 300 MHz = Loss at 220 MHz x conversion factor
= 1O dB x 1.168= 11.68 dB
CABLE-LOSS CONVERSION CHART
f
1f 2 f
1f 2
8
3
f1 f2 f1 f2(MHz) (MHz) (MHz) (MHz)220 270 1.108 400 440 1.049220 300 1.168 400 500 1.118220 330 1.225 400 550 1.173220 400 1.348 400 600 1.225220 440 1.414 400 750 1.369220 500 1.508 400 860 1.466220 550 1.581 400 1000 1.581220 600 1.651270 300 1.054 440 500 1.066270 330 1.106 440 55O 1.118270 400 1.217 440 600 1.168270 440 1.277 440 750 1.306270 500 1.361 440 860 1.398270 550 1.427 440 1000 1.508270 600 1.491300 330 1.049 500 550 1.049300 400 1.155 500 600 1.095300 440 1.211 500 750 1.225300 500 1.291 500 860 1.311300 550 1.354 500 1000 1.414300 600 1.414330 400 1.101 550 600 1.044330 440 1.155 550 750 1.168330 500 1.231 550 860 1.250330 550 1.291 550 1000 1.348330 600 1.348 1000 1250 1.118330 750 1.508 1000 1500 1.225330 860 1.614 1000 1750 1.323330 1000 1.741 1000 2000 1.414
1000 2150 1.466
CABLE LOSS AND TEMPERATURE
This equation calculates the percentage of change in cable attenuation(loss) caused by a temperature change:
% change in cable loss = 1.1% per 10°F
This equation calculates the change in cable loss in a span of cable,expressed in dB.
change in cable loss (in dB) =standard loss x % change in cable loss
Example: If the standard loss is 22 dB* when the temperature is70°F and the temperature drops to -40°F, what is the change in attenuation for that cable span?
1. Determine the number of degrees of temperature change.T = T2 - T1 = (-40°F) - 70°F = (-110° F)
2. Find the percent change in cable loss.% change = 1% per 10°F x (-110°F)
= (1%/10°F) x (-110°F)= - 11%
3. Find the dB change in the span’s loss.Change in cable loss (in dB) = -11% x 22 dB
= -2.42 dB
So, if the span’s loss was 22 dB at 70°F it becomes22 dB + (-2.42 dB) = 19.58 dB at -40°F.
Changes in cable loss accumulate over multiple cable spans and cancause performance degradation if not controlled by AGC/ASC units.
8
4
TYPICAL CABLE ATTENUATION CHART IN dB/100 FEET @ 68 °F (20 °C)Frequency Drop Cable SemiFlex Cable(MHz) RG59 RG6 RG7 RG11 412 500 625 750 875 1000 565 700 840 1160
5 0.77 0.57 0.56 0.36 0.20 0.16 0.13 0.11 0.09 0.08 0.14 0.11 0.09 0.07
55 1.88 1.50 1.22 0.95 0.68 0.55 0.45 0.37 0.32 0.29 0.47 0.37 0.32 0.24
211 3.59 2.87 2.29 1.81 1.35 1.08 0.89 0.73 0.64 0.58 0.93 0.74 0.64 0.48
250 3.89 3.12 2.49 1.98 1.49 1.19 0.98 0.81 0.70 0.64 1.03 0.82 0.70 0.53
270 4.05 3.24 2.59 2.06 1.55 1.24 1.02 0.84 0.73 0.67 1.07 0.85 0.73 0.56
300 4.27 3.43 2.74 2.17 1.64 1.31 1.08 0.89 0.78 0.72 1.13 0.90 0.77 0.59
330 4.50 3.61 2.89 2.29 1.73 1.38 1.14 0.94 0.82 0.76 1.19 0.95 0.82 0.63
350 4.64 3.72 2.98 2.36 1.78 1.43 1.18 0.97 0.84 0.78 1.23 0.98 0.84 0.65
400 4.88 4.00 3.20 2.53 1.91 1.53 1.27 1.05 0.91 0.84 1.32 1.05 0.91 0.70
450 5.30 4.28 3.41 2.69 2.03 1.63 1.35 1.12 0.97 0.90 1.40 1.12 0.97 0.75
500 5.50 4.51 3.61 2.85 2.15 1.73 1.43 1.18 1.03 0.96 1.49 1.19 1.03 0.80
550 5.90 4.76 3.80 3.01 2.26 1.82 1.51 1.25 1.09 1.01 1.56 1.25 1.09 0.84
600 6.18 4.98 3.99 3.16 2.37 1.91 1.58 1.31 1.14 1.06 1.64 1.31 1.14 0.89
750 6.96 5.62 4.50 3.58 2.68 2.16 1.79 1.48 1.29 1.21 1.85 1.49 1.30 1.01
870 7.54 6.09 4.87 3.90 2.90 2.35 1.95 1.61 1.41 1.33 2.01 1.62 1.41 1.11
950 7.90 6.39 5.11 4.10 3.03 2.49 2.04 1.72 1.50 1.35 2.15 1.75 1.51 1.15
1000 8.09 6.54 5.25 4.23 3.13 2.53 2.11 1.74 1.53 1.44 2.17 1.75 1.53 1.20
1200 8.91 7.18 5.77 4.71 3.44 2.83 2.32 1.96 1.72 1.55 2.45 2.00 1.72 1.33
1450 9.82 7.89 6.34 5.29 3.81 3.12 2.61 2.16 1.90 1.81 2.66 2.13 1.90 1.52
1750 10.92 8.74 6.93 5.95 4.23 3.47 2.92 2.41 2.13 2.03 2.96 2.36 2.13 1.71
1850 11.23 8.99 7.13 6.12 4.36 3.60 2.97 2.52 2.22 2.07 3.13 2.57 2.23 1.74
2000 11.67 9.34 7.41 6.36 4.55 3.76 3.12 2.64 2.32 2.11 3.27 2.69 2.33 1.82
2150 12.10 9.69 7.68 6.60 4.74 3.92 3.24 2.75 2.43 2.21 3.41 2.81 2.44 1.91Loop 59.9 39.6 26.8 19.5 2.5 1.7 1.1 0.8 0.4 1.3 0.9 0.9 0.6 0.3
Resist.
8
5
Note: Loop resistance shown in ohms/1000 ft.
Loss T-Attenuator Pi-Attenuator(dB) Resistor (Ω) Resistor (Ω)
a b c d0.5 2.16 1302.16 2606.49 4.321.0 4.31 650.00 1304.32 8.651.5 6.46 432.14 870.75 13.022.0 8.60 322.86 654.32 17.422.5 10.72 257.01 524.75 21.893.0 12.82 212.89 438.60 26.424.0 16.97 157.24 331.46 35.775.0 21.01 123.36 267.73 45.606.0 24.92 100.40 225.71 56.037.0 28.69 83.70 196.09 67.208.0 32.29 70.96 174.21 79.279.0 35.72 60.89 157.49 92.38
10.0 38.96 52.70 144.37 106.7311.0 42.02 45.92 133.87 122.4912.0 44.89 40.22 125.32 139.8713.0 47.56 35.35 118.27 159.1114.0 50.05 31.17 112.39 180.4615.0 52.35 27.55 107.44 204.2116.0 54.48 24.39 103.25 230.6717.0 56.43 21.62 99.67 260.1818.0 58.23 19.19 96.60 293.1519.0 59.87 17.04 93.96 330.0120.0 61.36 15.15 91.67 371.25
b
a a
T-Attenuator Pad
c
d
PI-Attenuator Pad
c
75 OHM ATTENUATOR TABLE & EQUATIONS
9
1
75 OHM ATTENUATOR TABLE & EQUATIONS
The equations necessary to calculate the resistance values in ohms (Ω)for T and Pi pad Attenuators are as follows:
where:n = loss in dBz = impedance value in ΩTo obtain resistance values at various impedances, simply multiply theresistances by the impedance value.
a = z10 -1
n20
10 +1 n
20c = z
10 +1
10 -1
b = 2z10
10 -1 d =
10
10 -1 z2
/
/
n20 /
n20 /
2n20 /n
20 /
n20 /
2n20 /
Example:Given n = 2.0, calculate the resistance values for a 75 ΩT-Attenuator:
a = 7510 -1
= 751.259 -1 1.259 +1
= 75 (0.1146) = 8.60 Ω10 +1
b = 2(75)10
10 -1 = 150
1.259 1.585 -1
= 150(2.152) = 322.86 Ω
2 20 /
2x2 20 /
2 20 /
2 20 /
9
2
GHOSTSGhosts are duplicates of the reproduced picture located to the rightor left of the picture. Ghosts displaced to the left are generally dueto ingress , for example, direct pick up. Assuming ghosts are notpresent in the signals at the headend, ghosts displaced to the rightare generally indicative of impedance mismatches in the system, for
example, devices with poor return loss.The following will help to find the causeof a ghost that is displaced to the right.
25845 = constant derived from speed of light x scan time for horizontal lineX = distance in feet between the source of reflection and re-reflectiond = displacement of ghost on TV set in inchesD = horizontal width of TV set in inches
Vp = Velocity of Propagation referenced to free air
Example:TV screen, D = 24 inches wideGhost image, d = 0.16 inches wideVelocity of propagation for cable, Vp = 0.88
X = (25845 ft) x (0.16 in) x (0.88) = 152 ft between devices24 in.
Once distance X is calculated, check the system maps for both (1) the circumstance where there are devices that are approximately distance Xapart and (2) that the circumstance is between to the signal source and the location where the ghost is being viewed.
X = x (V ) x 25845 ft. dD P
d
D
9
3
ECHO RATING GRAPH0 -5 -10
-15
-20
-25
-30
-35
-40
-45
-50
GHOS
TNO
TVI
SIBL
E
GHOS
TVI
SIBL
E
1010
010
0010
000
1000
00TI
ME
DELA
Y (n
s)
RATIO OF REFLECTED TO DESIRED SIGNAL (dB)
86.4
864
50
43.2
DIST
ANCE
(ft)
@ .8
8 VP
200
400
345
173
8642
9
4
SIGNAL TO INTERFERENCE LIMITSNON-COHERENT CARRIERS
-30
-40
-50
-58
AMPLITUDE BELOW VIDEO CARRIER (dB)
01
23
45
6CH
ANNE
L BA
NDPA
SS (M
Hz)
VISI
BLE
NOT
VISI
BLE
Video Carrier
Color Carrier
Sound Carrier
9
5
ERROR CORRECTIONS CHART
Use this table to find the error correction when measuring levels within10 dB of the noise floor. For example, measuring a level 7 dB abovethe noise floor would give a display error of 1 dB.
109
87
65
43
21
0012345678
DISPLAY ERROR (dB)
DISP
LAY
SIGN
AL A
BOVE
NOI
SE L
EVEL
(dB)
9
6
HETERODYNE MODULATOR
CH
AN
NE
L "2
"
SO
UN
D41
.25
MH
ZP
ICT
UR
E45
.75
MH
Z
CH
AN
NE
L "1
2"
AU
DIO
"IF
"
AU
DIO
/ V
IDE
OM
OD
ULA
TOR
OU
TP
UT
CO
NV
ER
TE
RM
OD
ULE
VID
EO
"IF
"
Fc
AU
DIO
VID
EO
Fv
9
7
HETERODYNE PROCESSOR
CH
AN
NE
L "2
"
SO
UN
D41
.25
MH
ZP
ICT
UR
E45
.75
MH
Z
"IF
" LO
OP
CH
AN
NE
L "1
2"
"IF
"
INP
UT
CO
NV
ER
TE
RM
OD
ULE
OU
TP
UT
CO
NV
ER
TE
RM
OD
ULE
9
8
BROADBAND RF NETWORK POWERINGIn order to properly design AC powering, several things must be considered:• What AC voltage will provide the best performance / least number
of power supplies?• What AC voltage can the network's active components use for powering?• What are the operating voltages, minimum and maximum,
of all network devices?• Current Draw - Know the product nuances
eg 1. Linear supplies may draw more current when a lower input voltage tap is selected and vice versa.
2. True switching supplies automatically draw less current for a higher input voltage and vice versa. Scanning the SMI interdiction charts on pages 1-65 thru 1-67 should help.
• What is the AC current passing capacity of all network devices, active and passive?
• Will any power be required for customer premise devices?• Will additional powering requirements be needed later,
such as RF return amplifiers?• To what percentage of efficiency will you be loading your power supplies?** Efficiency rating (how much of the maximum available current to
use). Rule of thumb is an 80% efficiency rating • Will your power supplies have battery backup (standby) and if so, how
much running time will you expect to achieve before battery depletion?• Will you try to locate your power supplies along key locations of the
electric company's power grid? Example: If a customer's electric service goes down, will they still have Broadband signals or can you coordinate the two losses of service?
• Will you have special designs such as express feeder, where only trunk but no distribution plant will have any AC voltage or current present? (does not allow for powering of subscriber devices).
• Will you have separate power supplies for distribution plant to power short amplifier cascades and interdiction units and/or subscriber devices? This leaves the power supplies for fiber optic nodes and trunk amplifiers longer standby run time.
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BROADBAND RF NETWORK POWERINGIt is best that the current from a power supply is distributed equally to the'input' side and 'output' side of the power inserter. The reason is that devicesadded to one side of the power inserter will not lower the voltages to deviceson the other side. This allows more 'reach' per power supply; more devicescan be powered than if there is a single cable extending only in one direction.It is critical to remember that an AC power supply is powering devices thatare both upstream (toward headend) and downstream (away from headend).
Adding active devices to a cable increases the total current draw through thatcable, reducing voltages to all active devices due to the IR loss of the cable.(It is critical to remember that when an additional active component is addedto a cable, voltages and current must be recalculated for every active devicefed from that side of the power inserter.)
Here is a simple powering design using some known quantities. (fig. 1)
1. The voltage from the power supply in figure 1 is 60 VAC.2. Amplifier 'A' in figure 1 draws 1.0 ampere of current.3. The loop resistance of the cable in figure 1 is 1.7 ohms per 1000'.• The loop resistance of the span of cable in figure 1 is calculated by
multiplying 1.7 ohms by 1.2 thousand feet to achieve 2.04 ohms.• The voltage drop through the cable will equal 1.0 ampere X 2.04 ohms
or 2.04 volts.• The voltage at amplifier 'A' will be 60 VAC minus 2.04 VAC or 57.96
volts AC.
AMPLIFIER 'A'
1,200 feet
PSA-599815 Ampere Capacity60 VAC
Figure 1
BROADBAND RF NETWORK POWERINGAdding another amplifier beyond amplifier 'A' has this effect on thedesign: (fig. 2)
1. Amplifier 'B' in figure 2 draws 2.5 amperes of current.• The loop resistance of the second span of cable is calculated by
multiplying 1.7 ohms by 1.2 thousand feet to achieve 2.38 ohms.
• The current draws of the two amplifiers are added totaling 3.5 amperes.
• The voltage drop through the first span of cable increases to 7.14 volts because the current drawn by amplifier 'B' must also flow through it. The second span of cable will only carry the current drawn by amplifier 'B'.
• The current draw through the second span of cable is 2.5 amperes (amplifier 'B' only) X 2.38 ohms = 5.95 volts.
• The voltage at amplifier 'A' becomes 60 VAC minus 7.14 VAC or 52.86 volts AC.
• The voltage at amplifier 'B' will be 52.86 VAC minus 5.95 VAC or 46.91 volts AC.
A diagram of a more complicated network powering design for one half ofthe power inserter is shown in figure 3.
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AMPLIFIER 'A'
1,200 feet
PSA-599815 Ampere Capacity60 VAC
1,400 feet
AMPLIFIER 'B'
A B
Figure 2
BROADBAND RF NETWORK POWERING
Power Supply Locating Hints:• Basically approach the design by moving from the last active device,
toward the anticipated power supply location.• Begin with the assumption that the minimum voltage plus saftey margin
(start voltage) will be delivered to the last active device.• Use the cable span loop resistance from the last active device to calculate the
voltage drop of the span. Calculate the additional voltage drop for each additional active device moving device by device and span by span.
• Add the current draw from all active devices until each side of the power inserter accounts for roughly 40% of the total rated power supply current capacity, while ensuring that the sum of all the voltage drops and the start voltage does not exceed the power supply rated output voltage.
• To check the design perform the calculations again, starting at the power supply and moving away from it.
• Design system so that the power supply’s total current is near the manufacturers efficiency ratings (roughly 80% of maximum).
• Maintain voltages above the minimum active device requirements.• Make sure your power supply locations can be reached easily for
maintenance and repair and can be legally installed.• Plan for new subdivisions. Leave extra powering available for them.
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POWERINSERTER
POWER SUPPLY
60VAC15 A
LOOPRESISTANCE
FOR SPAN
59.8V
42.97V Required@ 0.375A
53.7V
43.5V
48.6V
2.041200'3.0A
6.12V
VOLTAGE DROPTHIS SPAN
TOTAL CURRENTIN THIS SPAN
.500 AL COAXLOOP RESISTANCE =
1.7 OHMS/1000'
1.36 800' 0.375A0.51V
1.36 800'
1.36 800'
1.36 800'
0.75A1.02V
0.75A1.02V
0.375A0.51V
2.041200'2.5A
2.041200'2.0A
5.1V 4.08V
44.5V43V Required@ 0.5A
PSA-599815 Ampere Capacity
Loaded to 12.0 Amperes
Assume 5.0 Amperes
Current Drawn From Similar
Distribution System
Figure 3
CUMULATIVE LEAKAGE INDEX
Cumulative Leakage Index (CLI), also referred to as a “figure of merit”measurement, is a method for assessing the leakage integrity of acable plant. The cable operator demonstrates compliance with a cumulative signal leakage index by showing either that:
or:
using either:
or:
where:
and where:r = Distance in meters (m) between the leakage source and the center of the
cable system.ø = Fraction of the system cable length actually examined for leakage
sources. The fraction is equal to the strand miles tested divided by total strand miles.
R = Slant height distance (m) from leakage source i to a point 3,000 meters above the center of the cable system.
E = Electric field strength in microvolts per meter (µV/m) measured 3 metersfrom leak i.
n = Number of leaks found with a field strength ≥ 50 µV/m.
300010 log I ≤ -7 ∞10 log I ≤ 64
3000I =E i2
R i21 ø ∑
n
i=1I = E i2
1 ø ∑
n
i=1∞
2R = r + (3000) i2
i2
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CUMULATIVE LEAKAGE INDEX
The following formula may be substituted to determine the CLI figureof merit. Compliance is attained if the formula yields a figure of meritless than or equal to 64.
where:Mp = Total Plant Miles (miles)Md = Total Plant Miles Driven (miles)n = Number of leaks with the same levelL = Level of the leak in microvolts per meter (µV/m)k = Number of different levels
i210 log n L ≤ 64
M pM d
∑n
i=1i
Example: Given the following information about a cable system, determine the CLI.
Mp = Total plant miles = 1500 milesMd = Plant miles driven = 1350 milesNumber of leaks andlevel of each in µV/m = n1 =300 leaks @ L1 = 50 µV/m
n2 = 30 leaks @ L2 = 100 µV/mn3 = 3 leaks @ L3 = 450 µV/m
Sum of: niLi2 + n2L2
2 + n3L32 =
(300 x 50 x 50) + (30 x 100 x 100) + (3 x 450 x 450) =750000 + 300000 + 607500 = 1657500
CLI = 10 log (1.11 x 1657500)= 10 log (1839825)= 62.65 ≤ 64
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MAXIMUM LEAKAGE LEVELSThe following table gives the maximum leakage levels at the givenchannels and voltage level.Ch# Visual 20 µV/M 50 µV/m Ch# Visual 20 µV/M 50 µV/m
Carrier (dBmV) (dBmV) Carrier (dBmV) (dBmV)T-7 7.0000 -17.33 -9.37 25 229.2625 -47.63 -39.67T-8 13.0000 -22.70 -14.74 26 235.2625 -47.85 -39.90T-9 19.0000 -26.00 -18.04 27 241.2625 -48.07 -40.11T-10 25.0000 -28.38 -20.42 28 247.2625 -48.29 -40.33T-11 31.0000 -30.25 -22.29 29 253.2625 -48.50 -40.54T-12 37.0000 -31.79 -23.83 30 259.2625 -48.70 -40.74T-13 43.0000 -33.09 -25.13 31 265.2625 -48.90 -40.94
2 55.2500 -35.27 -27.31 32 271.2625 -49.09 -41.133 61.2500 -36.17 -28.21 33 277.2625 -49.28 -41.324 67.2500 -36.98 -29.02 34 283.2625 -49.47 -41.515 77.2500 -38.18 -30.22 35 289.2625 -49.65 -41.696 83.2500 -38.83 -30.87 36 295.2625 -49.83 -41.8714 121.2625 -42.10 -34.14 37 301.2625 -50.00 -42.0415 127.2625 -42.52 -34.56 38 307.2625 -50.17 -42.2216 133.2625 -42.92 -34.96 39 313.2625 -50.34 -42.3817 139.2500 -43.30 -35.34 40 319.2625 -50.51 -42.5518 145.2500 -43.67 -35.71 41 325.2625 -50.67 -42.7119 151.2500 -44.02 -36.06 42 331.2625 -50.83 -42.8720 157.2500 -44.36 -36.40 43 337.2625 -50.98 -43.0221 163.2500 -44.68 -36.72 44 343.2625 -51.14 -43.1822 169.2500 -44.99 -37.04 45 349.2625 -51.29 -43.337 175.2500 -45.30 -37.34 46 355.2625 -51.43 -43.488 181.2500 -45.59 -37.63 47 361.2625 -51.58 -43.629 187.2500 -45.87 -37.91 48 367.2625 -51.72 -43.7610 193.2500 -46.15 -38.19 49 373.2625 -51.86 -43.9111 199.2500 -46.41 -38.45 50 379.2625 -52.00 -44.0412 205.2500 -46.67 -38.71 51 385.2625 -52.14 -44.1813 211.2500 -46.92 -38.96 52 391.2625 -52.27 -44.3123 217.2500 -47.16 -39.20 53 397.2625 -52.41 -44.4524 223.2500 -47.40 -39.44 54 403.2500 -52.54 -44.58
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MAXIMUM LEAKAGE LEVELS
Ch# Visual 20 µV/M 50 µV/m Ch# Visual 20 µV/M 50 µV/mCarrier (dBmV) (dBmV) Carrier (dBmV) (dBmV)
55 409.2500 -52.66 -44.70 87 601.2500 -56.00 -48.0556 415.2500 -52.79 -44.83 88 607.2500 -56.09 -48.1357 421.2500 -52.91 -44.96 89 613.2500 -56.18 -48.2258 427.2500 -53.04 -45.08 90 619.2500 -56.26 -48.3059 433.2500 -53.16 -45.20 91 625.2500 -56.34 -48.3960 439.2500 -53.28 -45.32 92 631.2500 -56.43 -48.4761 445.2500 -53.40 -45.44 93 637.2500 -56.51 -48.5562 451.2500 -53.51 -45.55 94 643.2500 -56.59 -48.6363 457.2500 -53.63 -45.67 100 649.2500 -56.67 -48.7164 463.2500 -53.74 -45.78 101 655.2500 -56.75 -48.7965 469.2500 -53.85 -45.89 102 661.2500 -56.83 -48.8766 475.2500 -53.96 -46.00 103 667.2500 -56.91 -48.9567 481.2500 -54.07 -46.11 104 673.2500 -56.99 -49.0368 487.2500 -54.18 -46.22 105 679.2500 -57.06 -49.1169 493.2500 -54.29 -46.33 106 685.2500 -57.14 -49.1870 499.2500 -54.39 -46.43 107 691.2500 -57.22 -49.2671 505.2500 -54.49 -46.54 108 697.2500 -57.29 -49.3372 511.2500 -54.60 -46.64 109 703.2500 -57.37 -49.4173 517.2500 -54.70 -46.74 110 709.2500 -57.44 -49.4874 523.2500 -54.80 -46.84 111 715.2500 -57.51 -49.5575 529.2500 -54.90 -46.94 112 721.2500 -57.59 -49.6376 535.2500 -54.99 -47.04 113 727.2500 -57.66 -49.7077 541.2500 -55.09 -47.13 114 733.2500 -57.73 -49.7778 547.2500 -55.19 -47.23 115 739.2500 -57.80 -49.8479 553.2500 -55.28 -47.32 116 745.2500 -57.87 -49.9180 559.2500 -55.38 -47.42 117 751.2500 -57.94 -49.9881 565.2500 -55.47 -47.51 118 757.2500 -58.01 -50.0582 571.2500 -55.56 -47.60 119 763.2500 -58.08 -50.1283 577.2500 -55.65 -47.69 120 769.2500 -58.15 -50.1984 583.2500 -55.74 -47.78 121 775.2500 -58.21 -50.2585 589.2500 -55.83 -47.87 122 781.2500 -58.28 -50.3286 595.2500 -55.92 -47.96 123 787.2500 -58.35 -50.39
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L = 20logE 21 ƒ
MAXIMUM LEAKAGE LEVELS
Ch# Visual 20 µV/m 50 µV/m Ch# Visual 20 µV/M 50 µV/mCarrier (dBmV) (dBmV) Carrier (dBmV) (dBmV)
124 793.2500 -58.41 -50.45 142 901.2500 -59.52 -51.56125 799.2500 -58.48 -50.52 143 907.2500 -59.58 -51.62126 805.2500 -58.54 -50.58 144 913.2500 -59.64 -51.68127 811.2500 -58.61 -50.65 145 919.2500 -51.73 -51.73128 817.2500 -58.67 -50.71 146 925.2500 -59.75 -51.79129 823.2500 -58.73 -50.78 147 931.2500 -59.81 -51.85130 829.2500 -58.80 -50.84 148 937.2500 -59.86 -51.90131 835.2500 -58.86 -50.90 149 943.2500 -59.92 -51.96132 841.2500 -58.92 -50.96 150 949.2500 -59.97 -52.01133 847.2500 -58.98 -51.03 151 955.2500 -60.03 -52.07134 853.2500 -59.05 -51.09 152 961.2500 -60.08 -52.12135 859.2500 -59.11 -51.15 153 967.2500 -60.13 -52.18136 865.2500 -59.17 -51.21 154 973.2500 -60.19 -52.23137 871.2500 -59.23 -51.27 155 979.2500 -60.24 -52.28138 877.2500 -59.29 -51.33 156 985.2500 -60.29 -52.34139 883.2500 -59.35 -51.39 157 991.2500 -60.35 -52.39140 889.2500 -59.40 -51.45 158 997.2500 -60.40 -52.44141 895.2500 -59.46 -51.50
Determine the maximum leakage levels by using the following equation:
where:L = Maximum leakage level (dBmV)E = Voltage ƒ = Visual Carrier Frequency (MHz)
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5
HIGHLIGHTS OF FCC RULES & REGULATIONSPART 76
This section is a summary of FCC specifications that CATV systems arerequired to meet. This section was created so technicians and engi-neers could have a ready reference at their fingertips.
All specifications in this handbook were taken from Title 47Telecommunications, part 76.605 from the FCC. It spells out the rule,standard, number of channels to be tested, frequency of testing, andequipment needed to perform each test.
The intention of this section is to summarize FCC specifications it is not intended to replace them. Consult the current editions of all specifica-tions and regulations for complete and detailed requirements.
!
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6
AERONAUTICAL OPERATIONAL REQUIREMENTS
Frequency OffsetsAll carrier signals or signal components carried at an average powerlevel equal to or greater than 10 -4 watts in a 25 kHz bandwidth in any160 microseconds period must operate at frequencies offset from cer-tain frequencies which may be used by aeronautical radio servicesoperated by FCC licensees or by the United States Government or itsAgencies. The following table summarizes the frequency offsetrequirements.
For Harmonically Related Carrier (HRC) systems, the fundamental fre-quency from which the visual carrier frequencies are derived should bea multiple of 6.0003 MHz ±1 Hz.
Frequency OffsetsFrequency Band(Standard and IRC Offset Tolerance118-137, 225-325.6 and 335.4-400 MHz 12.5 kHz ±5 kHz108-118 and 328.6-335.4 MHz 25.0 kHz ±5kHz
http://www.fcc.gov/Bureaus/Cable/WWW/aeronaut.html
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AERONAUTICAL FREQUENCY NOTIFICATIONSCable operators planning to use the frequencies in the communicationsand navigational frequency bands must notify the FCC prior to the activation of these frequencies. The aeronautical operational require-ments in the aeronautical bands are contained in 47 CFR Sections76.610-76.616. Each notification shall include an FCC Form 159.
Legal name and local address of the cable television operator;
The names and FCC identifiers (e.g. CA0001) of the system communities affected;
The names and telephone numbers of local system officials who are responsible for compliance with 76.610, 76.611, and 76.612 through 76.616 of the rules;
Carrier and subcarrier frequencies and tolerance, type of modulation and the maximum average power levels of all carriers and subcarriers occurring at any location in the cable distribution system;
The geographical coordinates of a point near the center of the cable system, together with the distance (in kilometers) from the designated point to the most remote point of the cable plant, existing or planned, which defines a circle enclosing the entire cable plant;
A description of the routine monitoring procedure to be used;
The cumulative leakage index derived under 76.611 (a)(1) or the results of airspace measurements derived under 76.611 (a)(2), including a description of the method by which compliance with the basic signal leakage criteria is achieved and the method of calibrating the measurement equipment. Use FCC Form 320 to submit the results.
HIGHLIGHTS OF FCC RULES & REGULATIONSPART 76
Standard 4.5 MHz 5 kHz at subscriber terminal & output of modulating or processing equipment
Number Of Channels 4 channels minimum, plus 1 channel for every 100 MHz or fractional increase:5 Channels/54-216 MHz6 Channels/54-300 MHz7 Channels/54-400 MHz8 Channels/54-500 MHz
Frequency Of Testing Two times per yearType Of Equipment Spectrum analyzer, frequency counter, or
automated testing system
Rule 76.605 (a)(2) Aural carrier center frequency
Standard 0 dBmV at subscriber terminal and3.0 dBmV at end of 100 ft. drop cable connected to tap
Number Of Channels All NTSC or similar video channelsFrequency Of Testing Two times per yearType Of Equipment SLM system analyzer, spectrum analyzer, or
automated test system
Rule 76.605 (a)(3) Minimum visual carrier level
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9
See charts in Section 5 (pages 5.1, 5.2, & 5.3). Tolerance: aeronauticalchannels ± 5 KHz indicated by asterisk. For all other channels no spe-cific tolerance indicated by FCC. Good engineering practice ± 10 KHzfor non broadcast. Local VHF broadcasts carried “on channel” shouldbe zero frequency tolerance. See option 14 Section 1, page 1.8.
Visual carrier center frequency
HIGHLIGHTS OF FCC RULES ANDREGULATIONS PART 76
Standard Not to vary more than 8 dB within any six month interval (measured before theconverter)
Number Of Channels All NTSC or similar video channelsFrequency Of Testing In July / August and January / February,
1 test each channel every 6 hours foreach 24 hour test
Type Of Equipment SLM, system analyzer, spectrum analyzer, or automated test system
Rule 76.605 (a)(4) Visual carrier level24 hour variation
Standard Within 3 dB of any visual carrierwithin 6 MHz
Number Of Channels All NTSC or similar video channelsFrequency Of Testing In July / August and January / February,
1 test each channel every 6 hours for each 24 hour test
Type Of Equipment SLM system analyzer, spectrum analyzer, or automated test system
Rule 76.605 (a)(4)(i) Maximum signal level ofadjacent channel
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HIGHLIGHTS OF FCC RULES ANDREGULATIONS PART 76
Standard Within 10 dB of the visual signal on any other channel on a cable system of up to 300 MHz. A 1 dB increase in level separation for each additional 100 MHz of bandwidth11 dB for a 400 MHz System12 dB for a 500 MHz System13 dB for a 600 MHz System
Number Of Channels All NTSC or similar video channelsFrequency Of Testing In July / August and January / February, 1
test each channel every 6 hours for each 24 hour test
Type Of Equipment SLM, system analyzer, spectrum analyzer, or automated test system
Rule 76.605 (a) (4) (ii) Minimum/maximumbandwidth visual carrier level
Standard A maximum level that will not overload the subscribers terminal or receiver
Number Of Channels All NTSC or similar video channelsFrequency Of Testing Two times per yearType Of Equipment SLM, system analyzer, spectrum analyzer, or
automated test system
Rule 76.605 (a) (4) (iii) Maximum visual carrier level
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11
HIGHLIGHTS OF FCC RULES & REGULATIONSPART 76
Standard 10 dB to 17 dB below the associated visual signal level. Baseband converter: 6.5 dB to 17 dB below the associated visual-signal level
Number Of Channels All NTSC or similar video channelsFrequency Of Testing Two times per yearType Of Equipment SLM system analyzer, spectrum analyzer, or
automated test system
Rule 76.605 (a)(5) Aural carrier level
Standard ± 2 dB from -0.75 MHz to 5.0 MHz from thechannels bottom boundary at tap and before converter (prior to Dec. 30, 1999) above lower boundary frequency of CATV channel (referenced to average of the highest and lowest amplitudes)
Number Of Channels 4 channels minimum, plus 1 channel for every 100 MHz or fractional increase:5 Channels/54-216 MHz6 Channels/54-300 MHz7 Channels/54-400 MHz8 Channels/54-500 MHz
Frequency Of Testing Two times per yearType Of Equipment Sweep transmitter/receiver, spectrum
analyzer, or automated test system
Rule 76.605 (a)(6) Amplitude characteristic ofa single CATV channel
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12
HIGHLIGHTS OF FCC RULES & REGULATIONSPART 76
Standard Carrier to noise shall not be less than:1) 40 dB (June 30,1993-June 30, 1995)2) 43 dB (As of July 1,1995)
Number Of Channels 4 channels minimum, + 1 channel for every 100 MHz or fractional increase:5 Channels/54-216 MHz6 Channels/54-300 MHz7 Channels/54-400 MHz8 Channels/54-500 MHz
Frequency Of Testing Two times per yearType Of Equipment SLM system analyzer, spectrum analyzer, or
automated test system
Rule 76.605 (a)(7)(ii) Carrier to noise (C/N)76.605 (a)(7)(iii) Carrier to noise (C/N)
Standard Not less than 51 dB for non-coherent (standard) CATV systems Or not less than 47 dB for coherent (HRC/IRC) CATV systems
Number Of Channels 4 channels minimum, plus 1 channel for every 100 MHz or fractional increase:5 Channels/54-216 MHz6 Channels/54-300 MHz7 Channels/54-400 MHz8 Channels/54-500 MHz
Frequency Of Testing Two times per yearType Of Equipment SLM system analyzer, spectrum analyzer, or
automated test system
Rule 76.605 (a)(8)(i) Visual signal-to-coherent beats
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13
HIGHLIGHTS OF FCC RULES & REGULATIONSPART 76
Standard Not less than 18 dB (manufacturer’s specification) and sufficient to prevent subscriber-caused terminal reflections
Number Of Channels 4 channel minimum, plus 1 channel for every100 MHz or fractional increase:5 Channels/54-216 MHz6 Channels/54-300 MHz7 Channels/54-400 MHz8 Channels/54-500 MHz
Frequency Of Testing Two times per yearType Of Equipment Manufacturer’s specifications
Rule 76.605 (a)(9)(i)(ii) Terminal isolation
Standard Not to exceed 3% of visual signal levelNumber Of Channels Only on a single channel with a single
unmodulated carrierFrequency Of Testing Two times per year TestingType Of Equipment SLM system analyzer, spectrum analyzer, or
automated test system
Rule 76.605 (a)(10) Hum
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HIGHLIGHTS OF FCC RULES & REGULATIONSPART 76
Standard ± 170 nsNumber Of Channels 4 channels minimum, plus 1 channel for
every 100 MHz or fractional increase:5 Channels/54-216 MHz6 Channels/54-300 MHz7 Channels/54-400 MHz8 Channels/54-500 MHz
Frequency Of Testing once every 3 years TestingType Of Equipment Vectorscope, waveform monitor, or
automated test system
Rule 76.605 (a)(11)(i) Chrominanceluminance delay
Standard Not to exceed ± 20%Number Of Channels 4 channels minimum, plus 1 channel for
every 100 MHz or fractional increase5 Channels/54-216 MHz6 Channels/54-300 MHz7 Channels/54-400 MHz8 Channels/54-500 MHz
Frequency Of Testing once every 3 years TestingType Of Equipment Vectorscope, waveform monitor, or
automated test system
Rule 76.605 (a)(11)(ii) Differential gain
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15
HIGHLIGHTS OF FCC RULES & REGULATIONSPART 76
Standard Not to exceed ± 10 degreesNumber Of Channels 4 channels minimum, plus 1 channel for
every 100 MHz or fractional increase:5 Channels/54-216 MHz6 Channels/54-300 MHz7 Channels/54-400 MHz8 Channels/54-500 MHz
Frequency Of Testing once every 3 yearsType Of Equipment Vectorscope, waveform monitor, or
automated test system
Rule 76.605 (a)(11)(iii) Differential phase
Standard < 54 MHz = 15 mV/m @ 30 m54-216 MHz = 20 mV/m @ 3 m>216 MHz = 15mV/m @30m
Number Of Channels 4 channels minimum, plus 1 channel forevery 100 MHz or fractional increase:5 Channels/54-216 MHz6 Channels/54-300 MHz7 Channels/54-400 MHz
Frequency Of Testing Two times per yearType Of Equipment SLM, system analyzer, or spectrum analyzer
and dipole, leakage field strength meter
Rule 76.605 (a)(12) RF signal leakage
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BROADBAND COMMUNICATION DESIGN & PERFORMANCE STANDARDS
Parameter IEEE 802.7 MAP FCCC/L Delay ± 170 nsDifferential Gain ± 20%Differential Phase ± 10 degreesHeadend Input Level-Outbound +54 dBmV +54 dBmVUser Outlet Level- +10 dBmV ≥0 dBmV &Outbound ≥3.0 dBmV @
100’ DropUser Input Level-Inbound +54 dBmV +54 dBmVPath Loss - Outbound 44 ± 5 dB 44 ± 3 dB
Design Accept44 ± 6 dB Oper.
Path Loss- Inbound 44 ± 5 dB Same asOutbound
CNR - Outbound 43 dB 43 dB 43 dBCNR - Inbound 41 dB 40 dBCTB - Outbound 53 dB 51 dB
(47 dB HRC)CTB - Inbound 53 dBCSO - Outbound 51 dB
(47 dB HRC)3 IM - Outbound 78 dB 60 dB @66 51 dB
dBmV Input (47 dB HRC)3 IM - Inbound 78 dB 60 dB @66
dBmV Input2 IM - Outbound 60 dB 60 dB 51 dB
(47 dB HRC)2 IM - Inbound 60 dB 60 dBX-MOD; Outbound 53 dBX-MOD - Inbound 53 dBHum Distortion 2% 1.5% (37 dB) 3%(Incidental Modulation)
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17
BROADBAND COMMUNICATION DESIGN & PERFORMANCE STANDARDS
Parameter IEEE 802.7 MAP FCCSignal Leakage
76.605(a)1254 MHz 15 µV/m @54 to216 MHz 30m same same>216 MHz 20 µV/m @ 3 m
15 µV/m @30 m
Frequency Response-Peak to Valley 0.17 dB1 MHz 1.0 dB 1.5 dB ± 2 dB6 MHz 1.5 dB 2.0 dB12 MHz 2.0 dB 2.0 dB18 MHz ≤ 3.0 dB
between adjac.carriers
Entire inbound or outbound ≤ 3 dB or ≤10 dB/300 MHzfrequency range N/1 0 + 1.5 dB ≤11 dB/400 MHz
≤12 dB/500 MHzetc.
Return Loss 16 dBAmplifiers/Passives 16 dBSemi-rigid coaxial cable reel 30 dBSemi-rigid coaxial cable 26 dBinstalled 26 dBFlexible coaxial cable, reel 26 dBFlexible coaxial cable, installedIsolation Outlet to Outlet 25 dB 25 dB 18 dB
@ > 10 MHz10
18
WAVELENGTH & ANTENNAS
1. Vertical antenna separationAntennas for different frequencies mounted on a common mast shouldbe separated by at least the length of the longest element of the largestantenna.2. Wavelength in
inches is given by:
3. Approximate length of a quarter wave whip antenna in inches is given by:
λ = WavelengthF = Frequency, MHz
4. Distance to the horizon is given by:
Assume smooth earth D = Distance, statute milesH = Height, feet
5. Maximum Line of Sight is Given by:
6. Radio Frequency PropagationIn free space, it is approximately 186,000 mi/sec or 982 ft/msec.Multiply by the velocity of propagation to determine the distance incoaxial cable.
λ (in) = 11,811F (MHz)
= 2775F
λ4
Optical D = 1.23 H
Radio D = 1.41 H
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1
2H + 2HT RRadio D =
1.51H + 1.51HT ROptical D =
DIPOLE ANTENNA EQUATIONS
Shown below is a typical half-wave dipole antenna. The radiation pattern of a Hertz dipole antenna is perpendicular to the axis of theantenna. In directions other than the optimum directions, the antennais ineffective.
To calculate the wavelength of a signal, λ or the dipole length, L, or the frequency, f, of a half-wave dipole antenna, use the following three formulas:
where:λ = Wavelength (m)k = Velocity Factorc = Speed of light = 3 x 108 (m/s)
f = Frequency (Hz)L = Length of the Dipole (m)
λL
λ = kcf
L = λ2
f = kcλ
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2
MULTIPLEXERS
DSV
Combined5-860 MHz
Low5-30 MHz
High54-860 MHz
L-Band
Combined5-2150 MHz
Low5-806 MHz
High956-2150 MHz
MUVFVHF UHF
VHF & UHF
MLHFHB LB
HB & LB
UHFVHF
MUVF
MLHF
LB HB
2
4
5
7
9
11
13
MXF Base & Filters
BTY-LP-BB & BTY-UHF-BB
Rejected Passed
High Pass Filter
Rejected
Low Pass Filter
Passed
V U H L
L HL H11
3
ANTENNA - GENERAL INFORMATION
Factors Which Determine The Quality Of Reception:A) Distance to transmitterB) Height of transmitting antennaC) Transmitter powerD) Transmitter frequency (TV channel)E) Type of receiving antennaF) Height of receiving antennaG) Terrain between the transmitter and receiving antennaH) Obstacles between the transmitter and receiving antenna
(tall buildings, water tower, etc.)Major Characteristics:Gain: Indicates the amount of received signal level increase
as compared to reference antenna. (usually a resonant dipole)
Bandwidth: The range of frequencies (TV channels) over which the antenna is designed to operate. In principle, there are two types of antennas:
1) Broadband2) Single-Channel
Impedance: Home type antennas are usually 300 OHMs and commercial antennas are usually 75 OHMs.
Pattern: Generally consists of two components, beam width and front to back ratio. Refer to diagram.
B A
-3 dB
BEAM WIDTH
FRONT TO BACK RATIO = A - B
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ANTENNA STACKING
Methods to Increase Received Signal Level
NOTE: Refer to ANTENNA SPACING chart for dimensions
VERTICAL HORIZONTAL
B
C
0.8
B = 2/3 C = 1
0.8
X X
QUAD ARRAY
1.6
1.6
DIAMOND ARRAY
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5
ANTENNA SPACING
Mounting Channelized Antennas on the Same Mast
NOTE: Refer to ANTENNA SPACING chart for dimensions
VERTICAL HORIZONTAL
TOWER MOUNTING
D
D
D = Min. 1/2 of lower channelOptimum is 2/3 of lower channel
D = .12 min. of lower channel
A
B
B/2
B/2
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ANTENNA SPACING CHART
Dimension Notes:A) The minimum
horizontal spacing between the tower structure and the antenna crossbar.
B) The recommended vertical spacing for a gain of 3 dB.
B/2)The minimum vertical spacing between the antenna crossbar and adjacent mechanical structures.
C) The recommended horizontal spacing for a gain of 3 dB.D) The minimum spacing between antennas of different channels and
is the figure given for the antenna with the lowest frequencyFormulae:One Wavelength in space . . . . . . . . . . . . . . .λ (inches) = 11811
Freq. in MHzOne Wavelength in 75 Ohm coax (solid) . . .λ (inches) = 7783
Freq. in MHzOne Wavelength in 75 Ohm coax (foam) . . .λ (inches) = 9565
Freq. in MHzAntenna Nulling (finding H) . . . . . . . . . . . . . . . . .d (λ) = 1
2 sin φ
Dimensions are in inches
Channel A B C DNo. 2/3 λ 1 λ 1/2 λ2 113 138 208 1043 101 125 188 944 91 115 172 865 78 100 150 756 72 93 139 70
FM 72 80 120 607 40 44 67 338 39 43 65 329 37 42 62 3110 36 40 61 3011 35 39 59 2912 34 38 57 2913 34 37 55 28
11
7
5 5.733 50 0.65310 2.88 55 0.61015 1.931 60 0.57720 1.462 65 0.55125 1.183 70 0.53230 1.000 75 0.51735 0.871 80 0.50740 0.777 85 0.50245 0.707 90 0.500
ANTENNA PHASING
Signal Nulling
H
X X
0
UNDESIRED DESIRED
0
UNDESIRED
DESIRED
φ° d(λ) φ° d(λ)
Instructions:1. Determine angle “φ“ using a field strength meter, compass, and a
single channel antenna.2. Locate angle “φ“ in chart No. III and determine d(λ);
multiply λ(inches) in chart No. II to find the spacing of “H”.3. Both antennas must be identical, facing in the same direction, in the
same horizontal plane and both be right side up.4. For angles not listed, d(λ) = 1
2 sin (φ)
Chart No. III
2 2083 1884 1725 1506 139
FM 1207 678 659 6210 6111 5912 5713 55
Chart No. IIφ° λ(inches)
11
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PRE-AMP NOISE FIGURE VS CARRIER TO NOISE (4 MHz BW)InputSignal Noise Figure (dB)Level 2 3 4 5 6 7 8 9 10-30 27 26 25 24 23 22 21 20 19-29 28 27 26 25 24 23 22 21 20-28 29 28 27 26 25 24 23 22 21-27 30 29 28 27 26 25 24 23 22-26 31 30 29 28 27 26 25 24 23-25 32 31 30 29 28 27 26 25 24-24 33 32 31 30 29 28 27 26 25-23 34 33 32 31 30 29 28 27 26-22 35 34 33 32 31 30 29 28 27-21 36 35 34 33 32 31 30 29 28-20 37 36 35 34 33 32 31 30 29-19 38 37 36 35 34 33 32 31 30-18 39 38 37 36 35 34 33 32 31-17 40 39 38 37 36 35 34 33 32-16 41 40 39 38 37 36 35 34 33-15 42 41 40 39 38 37 36 35 34-14 43 42 41 40 39 38 37 36 35-13 4 43 42 41 40 39 38 37 36-12 45 44 43 42 41 40 39 38 37-11 46 45 44 43 42 41 40 39 38-10 47 46 45 44 43 42 41 40 39-9 48 47 46 45 44 43 42 41 40-8 49 48 47 46 45 44 43 42 41-7 50 49 48 47 46 45 44 43 42-6 51 50 49 48 47 46 45 44 43-5 52 51 50 49 48 47 46 45 44-4 53 52 51 50 49 48 47 46 45-3 54 53 52 51 50 49 48 47 46-2 55 54 53 52 51 50 49 48 47-1 56 55 54 53 52 51 50 49 480 57 56 55 54 53 52 51 50 491 58 57 56 55 54 53 52 51 502 59 58 57 56 55 54 53 52 513 60 59 58 57 56 55 54 53 524 61 60 59 58 57 56 55 54 535 62 61 60 59 58 57 56 55 546 63 62 61 60 59 58 57 56 557 64 63 62 61 60 59 58 57 568 65 64 63 62 61 60 59 58 579 66 65 64 63 62 61 60 59 5810 67 66 65 64 63 62 61 60 59
TASO(TELEVISIONALLOCATIONSTUDYORGANIZATION)GRADES
EXCELLENT 46 DBFINE 36 DBPASSABLE 30 DBMARGINAL 25 DBINFERIOR 19 DB
A SNR OF 36 DBMEANS A FINEPICTURE TO ANAVERAGE VIEWER,
A 30 dBRATIO MEANS APASSABLE PICTUREAND SO ON.
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Contact List
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Specifications are subject to change without notice.
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