renaissance / hxi products and capabilities product capabilities.pdf · 2020-08-03 · renaissance...
TRANSCRIPT
Renaissance / HXIProducts and Capabilities
Facilities
• Main facility located in Harvard, MA• 16,000 square feet – 9,600 dedicated to production• 70% Defense, Space, Aerospace Contracts• ITAR controlled facility• Facility Clearance level - Secret• AS9100 Rev D• Qual testing within 10 miles• Raytheon Supplier # 0010055138• LMCO Supplier # LM0073109• Insitu’s supplier # 005788
Product Lines
• Ferrites (OVER 8000 DESIGNS!)Isolators, Circulators, Phase Shifters, Switches
• Switches (25K T/R Switches Delivered to GD)Electro-Mechanical, Pin-Diode, MEMS, Switch Matrices
• Wireless Telcom InfrastructureCombiners/Dividers, Attenuators, DAS Products , LNAs, Delay Lines, Duplexers, Filters, Terminations
• Sub-System groupPoint to Point RadioRadarsTransceivers, Front-EndsMixers, LNAs, Amplifiers, Detectors, Switches, Up/down Converters
World Class Customers - Renaissance
Defense and Space Commercial and Telecom
(Preferred Supplier)
70% 20% 10%
Markets
Space Defense Wireless/Telcom Medical
Capabilities
Components - Surface Mount Ferrites, Combiners, Couplers, Programmable Attenuators, LNAsTransceivers from UHF to W-band for Space and AerospaceIntegrated Sub-systems and Front-EndsSwitch Matrices and ATEExamples of other Hi-Rel products produced in a cost/timely manner
Surface Mount Ferrites
1 GHz3 GHz
6 GHz
10 GHz
S21 = 0.5 dB, S12 = 20 dB20% Bandwidth100 Watts Forward-40 to +80°CTrue coplanar for SMT assembly
15 GHz
Combiners/Splitters
4-Way Power Combiner/Divider
Freq: 450 - 2700 MHzLoss: 0.6 dBIsolation: 20 dBReturn loss: 17 dBAmp Bal: ± 0.2 dBInput Power: 0.5 W
Freq: 824 – 894 MHz / 1710 – 2155 MHzLoss: 0.3 dB Typical, Band Edge: 0.5 dBAverage Power Handling:CEL port 200 W, AWS port 100WVSWR/Return Loss: 20 dBIsolation Between Band: 50 dB MinPIM (3rd Order 2*43 dBm): -155 dBc typical
3-Way Power Divider
Freq: 824 – 960, 1960 - 2500 MHzLoss: 6.5±0.2 dBVSWR: 1.2:1 MaxIsolation: 20 dB MinPower: 100 WPIM (3rd Order 2*43 dBm): -145 dBc typical
Freq: 700 - 2700 MHzLoss: 5.5±0.1 dBVSWR: 1.2:1 MaxIsolation: 20 dB MinPower: 790-960 MHz 1000W
1700-2200 MHz 700W2500-2700 MHz 500W
PIM (3rd Order 2*43 dBm): -160 dBc typical
Freq: 698 - 2690 MHzLoss: ±0.8 dBCoupling Value: 3.1 dBVSWR: 1.3:1 dB MaxIsolation: 18 dB MinPower Handling: 50 WPIM (3rd Order 2*43 dBm): -150 dBc typical
Freq: 800 - 2700 MHzLoss: ±0.5 dBCoupling Value: 6±1 dBReturn loss: 15 dB MaxDirectivity: 18 dB MinPower Handling: 80 WPIM (3rd Order 2*43 dBm): -150 dBc typical
Tapered Divider16 Input / 4 Output CombinerFreq: 698-2690 MHzLoss: 0.5 dBAverage Power Handling: 100 WReturn Loss: 18 dBNo of Input Ports: 16No of Output Ports: 4Isolation Between Band: 80 dBPIM (3rd Order 2*43 dBm): -150 dBc typical
Freq: 1.1 – 1.5 GHzLoss: 6 to 18 dBReturn Loss: 20 dB MaxIsolation RF-DC: 20 dB
Couplers/Hybrids
Programmable Attenuator
Freq: DC to 3 GHzAttenuation: 90 / 0.5 dBReturn Loss: 16 dBControl: TTLPower CW: 20 dBmVoltage: 5V @ 20 mASwitching Time: 100 ns
SPDT to SP16T, TransferDC to 26.5 GHz2 Million CyclesSMA, N, TNC, SCHigh Power, Low IMD12, 24, 28VVarious Configurations - Latching, Failsafe, TTL, Indicator, Terminated
Hermetic10 Million Cycle Switches
Diplexers/Filters/Attenuators
Electrical Characteristics
Frequency Range 1900 - 2100 MHz
Gain 25 dB
VSWR (max) 1.25:1
Input Power 0 dBm Max
DC Power 12V
Freq: 698 - 2700 MHzGain: 35 - 38dB (unity gain to +3dBm)NF: < 2dBOIP3: 45 dBm minimumP.A.R.: 12 dB (for OFDM application)Input power: -10 dBmSize: ~ 4” x 4” x 0.5”
LNAs/Amplifiers
Satellites/Programs
IRIDIUM Sea Launch MIPAD GPS III
EchoStar XV ARGON NSTAR LANDSTAT
EUTELSAT LEASAT ASTRA CHINASAT
ORION MABUHAY TELSTAR Galileo
Platform Application Frequency Band
WAAS Navigation & Communication L – X
GPS III Frequency standard clock in navigation system
L
MIPAD Communication X
IRIDIUM Communication Ku, Sa
Meteorological satellite Data Transmission S
P142 classified government satellite Power amp line up for communication
UHF
Galileo Constellation Navigation & communication, clock signal
UHF
Aquarius Satellite SSPA on scatterometer for measuring sea water salinity
L
Redundant Switch Matrix
• 10 – 2150 MHz• Multiple Tx/Rx and Monitoring Ports• Redundant Power Supplies and Computer
Processors• Ethernet controlled• 90 dB CH-CH Isolation• CE and FCC Part 15, Class A Certified
Satcom Ground Station Redundant Matrix
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6 x 6 Programmable Delay Line Matrix
Frequency 20 – 2500 MHz
Insertion Loss 30 dB typ.
Attenuation 0-91 dB in 1 dB steps
Delay 0-5 ns 1024 steps
VSWR 2:1 max
Settling Time <200 ns
Size 30” x 19” x 12.25”
Connectors SMA-F
Power Handling +30 dBm max
• PDL Matrix can be used to simulate phased array radar and antenna testing
• Each of the 6 inputs is connected to dividers, programmable attenuators (91/1 dB) and a programmable delay line (10 bit, 5 ps step, DC - 3 GHz) internally
• The amplitude and phase are controlled by custom software with custom defined UDP protocols.
Testing 2CC, 3CC…up to 5CC just became easier
• Renaissance New Switch Matrix is designed to accept multiple frequency bands and then select and combine up to 5 FDD and 2 TDD frequency bands to a common UL port
• All the DL frequencies are combined and presented to the DL port
• Typical Specs (can be customized)
ATE Solutions
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HXI Product Lines
2020 Company Proprietary Renaissance Electronics ~ HXI
Custom-Designed ProductsMulti-Chip ModulesIntegrated AssembliesRadar Front EndsSpace-Qualified AssembliesAuto Radar Test Assemblies at 76-81 GHz5G Test Assemblies at 20 GHz and Up
World Class Customers - HXI
Defense and Space Commercial and Telecom
2020 Company Proprietary Renaissance Electronics ~ HXI
USA Sales Agent for Farran Technology
2020 Company Proprietary Renaissance Electronics ~ HXI
2020 Company Proprietary Renaissance Electronics ~ HXI
For the past 25 years, we have been an essential source to prime defensecontractors and commercial entities with our devices and solutions tosolve their issues with power, bandwidth and miniaturization.
Our customers keep coming back to us for our technical expertise, fastresponse and for schedule/affordability reasons.
Our Differentiation
• 18 GHz to 100 GHz Product Range• Narrowband & Broadband Designs• 2.9 mm, 2.4 mm, 1.85 mm & Waveguide Interfaces• Internal Voltage Regulation & Sequencing• Convenient RF Port Locations for System Insertion
LNAModel
FrequencyRange
Noise Figure (Typical) Gain (Typical)
HLNAKK-641 17-27 GHz 2.3 dB 21 dB
HLNAAK-642 26-34 GHz 2.7 dB 19 dB
HLNAQK-643 33-45 GHz 3.1 dB 17 dB
HLNAV-361 57-66 GHz 5.0 dB 28 dB
HLNAE-630 71-76 GHz 5.5 dB 18 dB
HLNAE-631 76-81 GHz 4.5 dB 18 dB
HLNAE-632 81-86 GHz 4.5 dB 17 dB
Low Noise Amplifiers (HLNA Series)
Partial Listing
2020 Company Proprietary Renaissance Electronics ~ HXI
• 20 GHz to 96 GHz Product Range• Narrowband & Broadband Frequency Coverage• 2.9 mm, 2.4 mm, 1.85 mm & Waveguide Interfaces• Internal Voltage Regulation & Sequencing• Convenient RF Port Locations for System Insertion
Power AmplifierModel
FrequencyRange P1dB (Typical) Gain (Typical)
HMPAAK-133 17-31 GHz +20 dBm 30 dB
HHPAA-301 32-36 GHz +25 dBm 20 dB
HHPAB2.4-511 40-47 GHz +23 dBm 15 dB
HHPAV-330 57-66 GHz +14 dBm 25 dB
HHPAE-603 71-76 GHz +20 dBm 35 dB
HHPAE-604 81-86 GHz +20 dBm 33 dB
HHPAW-348 92-96 GHz +15 dBm (PSAT) 18 dB
Power Amplifiers (HHPA Series)
Partial Listing
2020 Company Proprietary Renaissance Electronics ~ HXI
• 18 GHz to 96 GHz Product Range• Coaxial & Waveguide Interface Versions• Internal Voltage Regulation and Sequencing
MultiplierModel
MultFactor
Output FrequencyRange
Output Power Output Interface
HAFMA2-117 X2 32-40 GHz +13 dBm 2.9 mm Female
HAFMV4-223 X4 57-66 GHz +14 dBm WR-15, UG-385/U
HAFME4-139 X4 71-76 GHz +13 dBm WR-12, UG-387/U
Frequency Multipliers (HAFM Series)
Partial Listing
2020 Company Proprietary Renaissance Electronics ~ HXI
• 26 GHz to 110 GHz Product Range• Low Conversion Loss• High input P1dB• E-Band Designs with Integral LO Multiplier
Mixer/UpconverterModel
RF FrequencyRange Conversion Loss RF/LO Interfaces
HBM28XX-XXXHBUC28XX-XXX 33-37 GHz 6 dB Typical
7 dB Typical WR-28, UG-599/U
HBM19XX-XXXHBUC19XX-XXX 47-53 GHz 6.5 dB Typical
7.5 dB Typical WR-19, UG383/U-M
HBM15XX-XXXHBUC15XX-XXX 57-65 GHz 6.5 dB Typical
7.5 dB Typical WR-15, UG-385/U
HBM12XX-XXXHBUC12XX-XXX
71-76 GHz76-81 GHz81-86 GHz
7.0 dB Typical WR-12, UG-387/U
HBM12XX-X4-XXXHBUC12XX-X4-XXX 71-76 GHz 7.0 dB Typical WR-12, UG-387/U
2.9 mm Female (LO)
HBM12XX-X6-XXXHBM12XX-X6-XXX
76-81 GHz81-86 GHz 7.0 dB Typical WR-12, UG-387/U
2.9 mm Female (LO)
HBM10XX-XXX 92-96 GHz 7.0 dB Typical WR-10, UG-387/U-M
Mixers & Upconverters (HBM & HBUC Series)
Partial Listing2020 Company Proprietary Renaissance Electronics ~ HXI
Waveguide Isolators and Circulators
• 18 GHz to 110 GHz• Compact designs• Magnetically-Shielded Versions• High Power Versions• Low Cost Designs Available
Isolator Model * Frequency Range Insertion Loss/Isolation
HMI15-385-61.5-9.0 57 - 66 GHz 1.2 dB / 12 dB
HMI12-387-73.5 71 - 76 GHz 1.0 dB / 16 dB
HMI10-387-79.04-4.0 77 – 81 GHz .09 dB / 16 dB
HMI12-387-83.5-5.0 81 - 86 GHz 1.0 dB / 16 dB
HMI10-387-94.0-4.0 92 - 96 GHz .8 dB / 18 dB
HMI28-599-35.0-2.0 26.5 – 40 GHz .4 dB / 20 dB
2020 Company Proprietary Renaissance Electronics ~ HXI
Partial Listing
• 18 GHz to 50+ GHz• Full band versions available• Fast switching times• SPST & SPDT• Coaxial and waveguide models
SwitchModel
FrequencyRange
Insertion Loss/Isolation Power Handling
HSWM4201/2.9-320SPST
18.0-26.5 GHz 1.0 dB / 35 dB 100 mW
HSW2801SPST
26.5-40.0 GHz 1.2 dB / 30 dB 100 mW
HSWM22801/2.9-239SPDT
26.5-40.0 GHz 1.6 dB / 23 dB 100 mW
HSWM22801/2.9-309SPDT
26.5-40.0 GHz 1.8 dB / 30 dB 10W
HSWM22801-324 26.5-40.0 GHz 2.0 dB / 38 dB 10W
PIN Switches
Partial Listing2020 Company Proprietary Renaissance Electronics ~ HXI
Auto Radar Test Solutions
• Up/Down Converters, including Subharmonic• Low Noise and Power Amps• Isolators, Switches, Power Splitters & more
Example of Test Set for Auto Radar MMICs or Sensors
2020 Company Proprietary Renaissance Electronics ~ HXI
2020 Company Proprietary Renaissance Electronics ~ HXI
Components for 5G Development & Testing
• Coaxial & Waveguide LNAs• Coaxial & Waveguide Power Amplifiers• Active Frequency Multipliers• PIN Diode Switches (Up to 10W)• Broadband Digital Attenuator• Isolators & Circulators
Radar Front End Capability
• Provided integrated subsystems for military customers, think tanks and commercial ventures
• Transmitters, receivers, transceivers, block upconverters and test sets from a few GHz to 100+ GHz, are all within our capability and experience.
2020 Company Proprietary Renaissance Electronics ~ HXI
Multi-Band Radar
POD Mounted Airborne Application
8 Different Electronics Trays
System Block Diagram
2020 Company Proprietary Renaissance Electronics ~ HXI
Ka-Band Landing System Transceivers
• Sole source for flight and ground-based transceivers to support automatic landing of the Shadow 200 UAV
• Highly integrated ground-based unit features 17 individual MMW and IF circuit functions, including 3.5W Ka-Band power amplifier and SP4T switch matrix
• Customized quality system put in place for customer• Highly interactive engineering development with customer• Typical current ~ 300 mA• Voltages: +15, +7, +5, -5, -2 and -15V
2020 Company Proprietary Renaissance Electronics ~ HXI
X-Band Integrated Front End – Space Environment
J3SMA
J1WR90
J2WR90
DRIVER
+28V
28V RTN
TELEMETRY
FLYBACKTRANSFORMER ISOLATEDSWITCHING REGULATOR
3.3,12,-12V
LVDS LINERECEIVER NON-REFLECTIVE
SPST SWITCH130 watts peak37 watts average83 dB min Isolation
700W peak210W avg
Integrated Front End (IFE)
2020 Company Proprietary Renaissance Electronics ~ HXI
94 GHz Pulsed Radar Front End
• Developed for helicopter landing radar with imaging capability. (Blackhawk test vehicle)
• Common LO distribution/upconversion packaging using MMIC/microstrip technologies.
• Waveguide downconvert mixer used for its high compression point and input power handling capabilities, with noise figure within one dB of using a MMIC LNA. (30 dB power handling advantage)
• Separate transmit power amplifier so future power improvements would not affect main transceiver packaging.
• Phase 1 (breadboard) and Phase 2 (pre-production) units flew in demonstrations for the U.S. Army and advanced the program to the next phase.
Specifications:Frequency Range: 92.5 to 95.5 GHzLO Input Frequency Range: 13.75 to 14.25 GHzIF Output: 10 GHz +/- 300 MHz Noise Figure: 7.5 dB at mixer inputTransmit power: +24 dBm at HPA output *RF Interface: WR-10, UG-387/U-MLO/IF Interfaces: SMA Female
LO/Upconverter
2020 Company Proprietary Renaissance Electronics ~ HXI
W-Band Helicopter Landing System Transceiver
ProductionPrototype
• Delivered several W-Band prototypes and pre-production units for helicopter landing systems.
• Subsystem also includes 250 mW power amplifier and high-power handling (>10W) Tx and Rx switches
• Highly interactive engineering development with customer
2020 Company Proprietary Renaissance Electronics ~ HXI
94 GHz FOD Runway Radar
2020 Company Proprietary Renaissance Electronics ~ HXI
94 GHz Foreign Obstacle Detection (FOD) Runway Radar
• HXI has completed a design working with a foreign government technology development organization for a 94 GHz FOD radar to be used at airport runways.
• Dual aperture design with 4 x 1 aspect ratio antennas for accurate azimuth determination.
• DDS-based design with upconversion to 94 GHz and 2nd conversion for accurate IQ output.
2020 Company Proprietary Renaissance Electronics ~ HXI
Custom Solutions
2020 Company Proprietary Renaissance Electronics ~ HXI
2020 Company Proprietary Renaissance Electronics ~ HXI
60 GHz Transmitter/Receiver Pair
Multiple Uses
Propagation Studies
Material Characterization
Custom-Configured Low Latency Radio Links
Many radio link applications require performance or characteristics that off-the-shelf radio links just cannot provide
HXI can modify existing radio designs or design new radio links at MW or MMW frequencies for specialized applications
Transmit power, antennas and packaging can all be customized
HXI has relationships with many GaAs and GaN foundries, allowing us to tailor performance and cost for individual customers. E-Band MMIC LNAs with 2 dB noise figure and MMIC power amplifiers exceeding ¼ watt can be implemented.
Support services include installation/alignment training, range calculations and site installation recommendations
2020 Company Proprietary Renaissance Electronics ~ HXI
RF and Microwave Circuit Simulation• ANSOFT HFSS• Microwave Office• Eagleware• Internally Developed Software
Multi-pactor Analysis• ESA/ESTEC• Internally Developed Software
3D Design and Modeling• Solidworks• Autodesk Inventor
Mechanical and Thermal Stress Analysis• Autodesk Algor
Engineering
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• Access to Class 100,000 Clean Room
• 10 Assembly Stations
• J-STD 001 and IPC Certified Assemblers and Instructors
• FOD, FOE and ESD Awareness Programs
Access to Clean Room Assembly
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• Thermal Shock and Temperature Cycle• Temperature-Altitude• Thermal Vacuum• Particle Impact Noise Detection• Mechanical Shock and Vibration• Corona• Multi-paction• Humidity• Gross Leak• EMI• DPA
Access to Environmental Lab
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Capability to meet the following specs:
• Screening: MIL-PRF-38534 Table C-III Passive Element Evaluation• Specs:
• MIL-STD-202 Environmental Test Methods (i.e., Vibration, Shock, etc.)
• MIL-STD-810 Environmental Test Methods (i.e., Temperature Test, Vibration, Shock, etc.)
• MIL-STD-461 Electromagnetic Interference
• MIL-STD-883 Environmental Test Methods for Microcircuits, i.e. Barometric Pressure, Vibration, etc.
• MIL-I-45208 Inspection System Requirements (cancelled) (using AS9100C)
• MIL-STD-31000 Technical Data Package
• MIL-Q-9858 Quality Program Requirements (cancelled) (using AS9100C)
• ISO 17025 Calibration Standard
• ESCC 3202 European Space Components Coordination (Ferrite Microwave Components)
• MIL-R-10509 Resistor Fixed Film (high stability)
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Space Grade Capability
• MIL-PRF-55342 is the military performance specification for surface mount and wire bondable, fixed film chip resistors.
• MIL-PRF-32159 is the military performance specification for surface mount and wire bondable zero ohm resistors.
• MIL-PRF-55342 resistors and MIL-PRF-55342 zero ohm resistors are used in mission critical avionic, satellite, space, biomedical, and military applications.
• MIL-PRF-55342 includes two screening levels: established reliability failure rate level maintained on the basis of life testing, and space level T which includes 100% power conditioning and a full Group B.
• Product levels M, P, R, S, U & V are established reliability (ER) failure rate product. ER products are subject to Group A, B, & C testing. Group A is performed on a manufacturing lot basis. Group B is performed on an inspection lot basis for ER levels M, P, R, & S and on a production lot basis for ER levels U & V. Group C is performed on an inspection lot basis for all ER levels.
• Product level T is a space level resistor that includes power conditioning (burn-in) on a 100% basis as part of Group A to identify and screen any infant mortality defects from the manufacturing lot. Group B is performed on a production lot basis and Group C is performed on an inspection lot basis for product level T.
Testing
Group A Inspection•Precap Visual Inspection•100% Thermal Shock•100% Power Conditioning (T level only) •100% D.C. Resistance•100% Visual (T level only)•Visual Inspection•Solderability•Resistance to Solvents (marked parts)
Group B Inspection•Resistance Temperature Characteristic•Short Time Overload•Mounting Integrity
Group C Inspection•Life Test•Thermal Shock•Low Temp Operation•Resistance to Soldering Heat•Moisture Resistance•High Temp Exposure
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“At Renaissance Electronics & HXI, we are Customer centric. This is at the core of ourbelief. Our primary goal is to ensure we meet or exceed the needs of our customers byproviding high quality, reliability products/services on time and at a competitive price, whilemaintaining total conformance to all appropriate customer and regulatory requirements.”
President and CEO
Our Quality Policy
We achieve this by:
Having an engaged organization with strong leadership, effective tools and a culture of continuous improvement.
Taking ownership for our business processes/systems via the identification of risk and improvement opportunities.
Providing exceptional service to our customers.
Quality Objectives
Effective Quality Management System
Industry Accreditations/Certifications
QMS Architecture
Quality
Manual
Procedures
Work Instructions
Forms
Records
LOOK FOR RISK FOLLOW DMAIC STRUCTURED
PROBLEM SOLVING METHOD
CAPTURE LEARNINGS IN
SYSTEM
TRAIN ALL AFFECTED
REPEAT
Quality Improvement Strategy
Quality Awards
Raytheon Supplier Award. Our plan is to continue to maintain the margin of improvement with a Goal to become qualified for our 5th Star in 2020.
Gold Tier Award for exceptional performance and contributions to supply chain success in 2019 for BAE Systems’ Electronic Systems sector.
Thank you!!