panacea™ lite [p-12×] routing switcher series · this manual details the features, installation,...
TRANSCRIPT
Edition J
Delivering the Moment
Installation, Configuration, and Operation Manual
Panacea™ Lite(P-12×1) Routing Switcher Series
P-12X1 MAN
February 2010
Publication Information © 2014 Imagine Communications Corp. Proprietary and Confidential.
Imagine Communications considers this document and its contents to be proprietary and confidential. Except for making a reasonable number of copies for your own internal use, you may not reproduce this publication, or any part thereof, in any form, by any method, for any purpose, or in any language other than English without the written consent of Imagine Communications. All others uses are illegal.
This publication is designed to assist in the use of the product as it exists on the date of publication of this manual, and may not reflect the product at the current time or an unknown time in the future. This pub-lication does not in any way warrant description accuracy or guarantee the use for the product to which it refers.
Imagine Communications reserves the right, without notice to make such changes in equipment, design, specifications, components, or documentation as progress may warrant to improve the performance of the product.
Trademarks Panacea™ is a trademark of Imagine Communications or its subsidiaries. Microsoft® and Windows® are registered trademarks of Microsoft Corporation. All other trademarks and trade names are the property of their respective companies.
Contact Information Imagine Communications has office locations around the world. For locations and contact information see: http://www.imaginecommunications.com/contact us/
Support Contact Information For support contact information see:
▪ Support Contacts: http://www.imaginecommunications.com/services/technical support/
▪ eCustomer Portal: http://support.imaginecommunications.com
Panacea™ Lite
Panacea 12×1 Routing Switcher Series
Installation, Configuration, and Operation Manual
Edition J February 2010
iii
Copyright © 2004-2007, 2008, 2010, Harris Corporation
Contents
PrefaceManual Information ............................................................................................x
Audience ......................................................................................................xRevision History ............................................................................................xApplications .................................................................................................xWriting Conventions ...................................................................................xiObtaining Documents .................................................................................xi
Service Information ........................................................................................... xiiUnpacking a Product .................................................................................. xiiServicing a Panacea Lite Product ................................................................. xiiReturning a Product ................................................................................... xiiStandards xiiiProduct Standards ..................................................................................... xiiiCompliance and Safety Standards ............................................................. xivEU Compliances ........................................................................................ xiv
Product Naming Conventions ........................................................................... xviSafety ............................................................................................................. xvii
Safety Terms and Symbols in this Manual ................................................. xvii
IntroductionProduct Description............................................................................................. 1Frame Architecture ............................................................................................ 2Features ............................................................................................................. 3
Signal Formats ............................................................................................. 4Modules ...................................................................................................... 4Control Features .......................................................................................... 8
Frame Configuration and InstallationFrame Configuration ........................................................................................ 12
DIP Switch Summary ................................................................................. 12Back Panel Connections ............................................................................ 13
Installing a Frame ............................................................................................. 18Siting Requirements .................................................................................. 18
Contentsiv
Copyright © 2004-2007, 2008, 2010, Harris Corporation
Mounting Requirements ............................................................................ 19In-Frame Architecture ................................................................................ 19Control Functionality ................................................................................. 20Power Supply ............................................................................................ 20Installing a Panacea Lite Router ................................................................. 20
Installing Other Equipment ............................................................................... 21Analog Video Looping Input Submodule (P12×1-VL) ................................. 21Audio Signal Adapter (P12×1-DTB) ............................................................ 21Serial Communications and Control Submodule (P12×1-SP) ...................... 22Local Control Panel (P12×1-CP) ................................................................. 22Remote Control Panel (P12×1-RCP) ........................................................... 22
Field Upgrading a Panacea Lite Routing Switcher .............................................. 23
Frame OperationControl Features .............................................................................................. 26
Front Panel Options ................................................................................... 26Firmware-Based Control System ................................................................ 26Software-Based Control Systems ............................................................... 26
Control Functionality......................................................................................... 27
P12×1-SP Installation, Configuration, and OperationInstalling a P12×1-SP Submodule ..................................................................... 30
Preparing the Frame .................................................................................. 30Mounting the P12×1-SP Module ............................................................... 30Connecting the Ribbon Cable .................................................................... 31Setting the DIP Switches ............................................................................ 32Setting the RS-232/RS-422 Jumper ............................................................ 32Reassembling the Frame ............................................................................ 32
Configuring a P12×1-SP Submodule ................................................................ 33Changing Configurations .......................................................................... 33Jumper Configuration Reference Point ...................................................... 34
Operating a P12×1-SP Submodule ................................................................... 35SPT Configurations .................................................................................... 35
GVG® 20-TEN™ Control of Harris Routers: GVG20TOLXY ................................ 36References ................................................................................................ 36RS-232/RS-422 Jumper Orientation ........................................................... 37DIP Switch Settings .................................................................................... 37
X-Y Control of GVG® Horizon™ Routers:LXYTOHORIZ .................................................................................................... 39
References ................................................................................................ 40RS-232/RS-422 Jumper Orientation ........................................................... 40DIP Switch Settings .................................................................................... 41
Additional Serial Ports for Harris Routers:LSERIAL ............................................................................................................ 42
References ................................................................................................ 43
Panacea Lite Routing Switcher SeriesInstallation, Configuration, and Operation Manual
v
Copyright © 2004-2007, 2008, 2010, Harris Corporation
RS-232/RS-422 Jumper Orientation ........................................................... 43DIP Switch Settings .................................................................................... 44
X-Y to BARCO VIVALDI™: LXYTOBARC ........................................................... 45References ................................................................................................ 47RS-232/RS-422 Jumper Orientation ........................................................... 47DIP Switch Settings .................................................................................... 48
X-Y Control of Datatek® Routers:LXYTODATEK ................................................................................................... 50
References ................................................................................................ 51RS-232/RS-422 Jumper Orientation ........................................................... 51DIP Switch Settings .................................................................................... 52
X-Y Control of GVG® 20-TEN™ Routers: LXYTOGVG20 ................................... 54References ................................................................................................ 54RS-232/RS-422 Jumper Orientation ........................................................... 55DIP Switch Settings .................................................................................... 55
X-Y Control of a Remote Router via Modem:LXYTOMODEM ................................................................................................ 57
References ................................................................................................ 57RS-232/RS-422 Jumper Orientation ........................................................... 58DIP Switch Settings .................................................................................... 58
X-Y Control of Megahertz® Under Monitor Displays:LXYTOMHzUMD .............................................................................................. 60
Editing Text Displayed on the Megahertz UMD .......................................... 64LXYTOMHzUMD Monitoring Levels ........................................................... 66References ................................................................................................ 66RS-232/RS-422 Jumper Orientation ........................................................... 66DIP Switch Settings .................................................................................... 66
X-Y to Under Monitor Display Using TSL® Protocol:LXYTOTSLUMD ................................................................................................ 68
References ................................................................................................ 74RS-232/RS-422 Jumper Orientation ........................................................... 74DIP Switch Settings .................................................................................... 75
X-Y Control of V-LAN™ Systems: LXYTOVLAN ................................................. 77References ................................................................................................ 77RS-232/RS-422 Jumper Orientation ........................................................... 77DIP Switch Settings .................................................................................... 78
X-Y Control of XPRESS Routers:LXYTOXPRS ..................................................................................................... 80
References ................................................................................................ 80RS-232/RS-422 Jumper Orientation ........................................................... 80DIP Switch Settings .................................................................................... 81
X-Y Control of Another X-Y P12×1-SP: LXYTOXY ............................................ 83References ................................................................................................ 83RS-232/RS-422 Jumper Orientation ........................................................... 83DIP Switch Settings .................................................................................... 84
Contentsvi
Copyright © 2004-2007, 2008, 2010, Harris Corporation
X-Y Control of Remote Router via Modem: LXYTO4800 (Special 4800 or 9600 BaudRate) ................................................................................................................ 86
References ................................................................................................ 86RS-232/RS-422 Jumper Orientation ........................................................... 87DIP Switch Settings .................................................................................... 87
X-Y Control of Lightwave® Matrix-HubSeries 1000™ Switcher: LXYTOLIGHTWAVE ..................................................... 89
System and Matrix-Hub Discovery .............................................................. 89Detecting and Reporting Alarm Conditions ................................................ 90Protocol Commands Handled Between X-Y and LXYTOLIGHTWAVE .......... 91Protocol Commands Issued Between LXYTOLIGHTWAVE and Matrix-Hub .. 93Other Information ..................................................................................... 93References ................................................................................................ 94RS-232/RS-422 Jumper Orientation ........................................................... 94DIP Switch Settings .................................................................................... 95
X-Y Control of Sierra® Routing Switchers :LXYTOSIERRA .................................................................................................. 96
System and Matrix Discovery ..................................................................... 96Protocol Commands .................................................................................. 97Other Information ..................................................................................... 99References ................................................................................................ 99RS-232/RS-422 Jumper Orientation ......................................................... 100DIP Switch Settings .................................................................................. 100
X-Y Control of Sony® Control System :LXYTOSONY .................................................................................................. 102
Machine Control Commands ................................................................... 102Status Updates ........................................................................................ 103Error Messages ........................................................................................ 105RS-232/RS-422 Jumper Orientation ......................................................... 105DIP Switch Settings .................................................................................. 105
X-Y to McCurdy® Under Monitor Displays:LXYTOMCUMD .............................................................................................. 107
References .............................................................................................. 108RS-232/RS-422 Jumper Orientation ......................................................... 109DIP Switch Settings .................................................................................. 109
X-Y Control of NVISION® Routers:LXYTONVIS .................................................................................................... 111
References .............................................................................................. 112RS-232/RS-422 Jumper Orientation ......................................................... 112DIP Switch Settings .................................................................................. 112
Panasonic® MARC TYPE II™ SQC Control of Harris Routers:PANMIITOLXY ................................................................................................ 114
References .............................................................................................. 114RS-232/RS-422 Jumper Orientation ......................................................... 115DIP Switch Settings .................................................................................. 115DIP Switch Settings Notes ........................................................................ 116
Panacea Lite Routing Switcher SeriesInstallation, Configuration, and Operation Manual
vii
Copyright © 2004-2007, 2008, 2010, Harris Corporation
Pro-Bel™ Controller for Harris Routers: PROBELTOLXY ................................... 117Configuration Control ............................................................................. 117Configuration Application Notes ............................................................. 117Protocol Commands ................................................................................ 117References .............................................................................................. 118RS-232/RS-422 Jumper Orientation ......................................................... 118DIP Switch Settings .................................................................................. 118
X-Y Control of Sandar® Routers:SANDARTOLXY .............................................................................................. 120
Configuration Control ............................................................................. 120Protocol Commands ................................................................................ 121References .............................................................................................. 123RS-232/RS-422 Jumper Orientation ......................................................... 123DIP Switch Settings .................................................................................. 123
Tandberg™ Controller for Harris Routers:TANDBERGTOLXY .......................................................................................... 125
Configuration Control ............................................................................. 125Protocol Commands ................................................................................ 127References .............................................................................................. 128RS-232/RS-422 Jumper Orientation ......................................................... 128DIP Switch Settings .................................................................................. 129
GVG TEN-XL™ Control of Harris Routers:GVG TEN-XL .................................................................................................. 130
GVG TEN-XL ASCII Protocol ..................................................................... 131GVG TEN-XL SMPTE Protocol ................................................................... 132References .............................................................................................. 136RS-232/RS-422 Jumper Orientation ......................................................... 136DIP Switch Settings .................................................................................. 136
SpecificationsFrame Specifications ...................................................................................... 140Module Specifications .................................................................................... 141
Analog Audio (P-12×1A2) ....................................................................... 141600 Analog Audio (P-12×1A2L) ............................................................ 142AES Audio, Balanced (P-12×1AEB) ........................................................... 143AES Audio, Coaxial (P-12×1AEC) ............................................................. 144Analog Video (P-12×1V) .......................................................................... 145Analog Video/Stereo Analog Audio (P-12×1VA2) ..................................... 146Analog Video/600 Stereo Analog Audio (P-12×1VA2L) ......................... 147Standard Definition Video (P-12×1S) ........................................................ 149Standard Definition Video/Balanced AES Audio (P-12×1SAEB) ................. 150Standard Definition Video/Coaxial AES Audio (P-12×1SAEC) .................... 151High Definition /Standard Definition Video (P-12×1HS) ............................ 153HS Video/Balanced AES Audio (P-12×1HSAEB) ......................................... 154HS Video/Coaxial AES Audio (P-12×1HSAEC) ........................................... 155
Contentsviii
Copyright © 2004-2007, 2008, 2010, Harris Corporation
Appendix: Safety Precautions, Certifications, andCompliancesSafety Terms and Symbols in this Manual........................................................ 157Safety Terms and Symbols on the Product ...................................................... 158Preventing Electrostatic Discharge ................................................................... 158Injury Precautions............................................................................................ 159Product Damage Precautions ......................................................................... 160EMC and Safety Standards ............................................................................. 161
EMC Standards ....................................................................................... 161Additional EMC Information .................................................................... 162Safety Standards ..................................................................................... 163
Appendix: Control Panel Installation and OperationInstalling a P12×1-CP Control Panel ............................................................... 166Installing a P12×1-RCP Control Panel ............................................................. 167Installing Key Cap Labels ................................................................................ 168Choosing the Appropriate Configuration Mode ............................................. 170P12×1-CP DIP Switch Configuration ............................................................... 171P12×1-RCP DIP Switch Configuration ............................................................. 172Operation ...................................................................................................... 173
Source Select ........................................................................................... 173Destination Lock ...................................................................................... 174Panel Enable ............................................................................................ 174Breakaway Operation .............................................................................. 175
IndexKeywords ....................................................................................................... 179
ix
Copyright © 2004-2007, 2008, 2010, Harris Corporation
Preface
Panacea is the remedy that the industry has long sought for the frustratingcompromises traditionally associated with meeting small routing needs:Economical or flexible? Compact or multiformat? Affordable solution for today'srouting requirements or sizeable investment into future-proofed technology? Youcouldn't have it all — until now.
The exciting Panacea Lite product line encompasses an entirely new family ofrouting switchers.
It’s today’s routing platform for tomorrow’s next generation requirements.
It’s a future-proofed, economical and compact, easy to use, multi/mixed-format router, offering flexible configurations/options for utility andon-air applications.
It’s a piece of “glue” that fits your small routing needs today and provides youwith the tools you need to embrace the future.
The Panacea Lite routing switcher series is designed to add a new tier of up to32×32 routing matrices.
Prefacex
Copyright © 2004-2007, 2008, 2010, Harris Corporation
ManualInformation
This manual details the features, installation, operation, maintenance, andspecifications for the Panacea Lite routing switcher series.
Audience This manual is written for technicians and operators responsible for installation,setup, maintenance, and/or operation of the product, and is useful to operationspersonnel for purposes of daily operation and reference.
Revision History
Applications The Panacea Lite platform is ideal for space-constrained operations demanding fulllocal and remote control capabilities in a routing solution.
Panacea Lite products are perfect for
Television production facilities
Cable operators
Production and post-production facilities
Outside broadcast vans/trucks
DBS satellite operations
Table P-1 Revision History of Manual
Edition Date Comments
A June 2004 Initial production release
B July 2004 Added information about audio signal adapteroption
C October 2004 Added cautionary information about X-Y bustermination
D December 2004 Added locational information about serialcontrol commands; added index; addedinformation on labeling panel keys
E June 2005 Added information about P12×1-SP; removedinformation referring to audio signal adapterand P12×1-SP as options
F December 2005 Added specifications for P-12×1A2L andP-12×1VA2L; added information aboutinstallation of P12X1-VL analog video loopingsubmodule
G January 2006 Added information about P-12×1AEB andP-12×1AEC options
H May 2006 Formatting changes
I September 2007 Updated P12×1-CP DIP switch configuration
J February 2010 Removed return loss information fromP-12×1HS specification
Panacea Lite Routing Switcher SeriesInstallation, Configuration, and Operation Manual
xi
Copyright © 2004-2007, 2008, 2010, Harris Corporation
Webcasters
Telcos where professional end-users require a small, flexible, high qualityrouting matrix with the ability to mix and match signal formats and/or signalprocessing functions within the same frame
WritingConventions
To enhance your understanding, the authors of this manual have adhered to thefollowing text conventions:
ObtainingDocuments
Technical documents can be viewed or downloaded from our website.Alternatively, contact your Customer Service representative to request a document.
Table P-2 Writing Conventions
Term orConvention Description
Bold Indicates dialog boxes, property sheets, fields, buttons,check boxes, list boxes, combo boxes, menus, submenus,windows, lists, and selection names
Italics Indicates email addresses, the names of books orpublications, and the first instances of new terms andspecialized words that need emphasis
CAPS Indicates a specific key on the keyboard, such as ENTER,TAB, CTRL, ALT, or DELETE
Code Indicates variables or command-line entries, such as a DOSentry or something you type into a field
> Indicates the direction of navigation through a hierarchy ofmenus and windows
hyperlink Indicates a jump to another location within the electronicdocument or elsewhere
Internet address Indicates a jump to a website or URL
NOTE: Indicates important information that helps to avoid andtroubleshoot problems
Prefacexii
Copyright © 2004-2007, 2008, 2010, Harris Corporation
ServiceInformation
Unpacking aProduct
This product was carefully inspected, tested, and calibrated before shipment toensure years of stable and trouble-free service.
1 Check equipment for any visible damage that may have occurred duringtransit.
2 Confirm that you have received all items listed on the packing list.
3 Contact your dealer if any item on the packing list is missing.
4 Contact the carrier if any item is damaged.
5 Remove all packaging material from the product and its associatedcomponents before you install the unit.
Keep at least one set of original packaging, in the event that you need to return aproduct for servicing.
Servicing aPanacea Lite
Product
The Panacea Lite product line is not designed for extensive field service. Returnyour Panacea product to the service center for most hardware upgrades,modifications, or repairs.
You can install and configure these options on-site. Contact Customer Services formore information about ordering these options.
Analog video looping input submodule (P12X1-VL) (see page 7 for adescription)
Local control panel (P12X1-CP) (see page 8 for a description)
Remote control panel (P12X1-RCP) (see page 8 for a description)
Serial communications and control submodule (P12X1-SP) (see page 7 for adescription)
Returning aProduct
In the unlikely event that your product fails to operate properly, please contactCustomer Service to obtain a Return Authorization (RA) number, then send theunit back for servicing.
Keep at least one set of original packaging in the event that a product needs to bereturned for service. If the original package is not available, you can supply yourown packaging as long as it meets the following criteria:
The packaging must be able to withstand the product’s weight.
The product must be held rigid within the packaging.
There must be at least 2 in. (5 cm) of space between the product and thecontainer.
The corners of the product must be protected.
Panacea Lite Routing Switcher SeriesInstallation, Configuration, and Operation Manual
xiii
Copyright © 2004-2007, 2008, 2010, Harris Corporation
Ship products back to us for servicing prepaid and, if possible, in the originalpackaging material. If the product is still within the warranty period, we will returnthe product prepaid after servicing.
Standards There are three different types of standards listed: product standards, compliancestandards, and safety standards.
ProductStandards
Product standards for each routing switcher type are listed below.
Analog Audio ANSI/SMPTE RP120For Analog Audio Inter-Modulation Testing (IMD)
Analog Video SMPTE170MComposite Analog Video Signal-NTSC for Studio Applications
SMPTE240MSignal Parameters 1125-Line High-Definition Production Systems
ITU-R BT.470-6Conventional Television System
SMPTE PR168Definition of Vertical Interval Switching Point for Synchronous Video Switching
AES Audio, BalancedConfiguration
AES3-2003AES Recommended Practice for Digital Audio Engineering — SerialTransmission Format for Two-Channel Linearly Represented Digital Audio Data
AES Audio, CoaxConfiguration
AES3id-2001AES Information Document for Digital Audio Engineering — Transmission ofAES3 Formatted Data by Unbalanced Coaxial Cable
SMPTE 276M-1995SMPTE Standard for Television — Transmission of AES-EBU Digital AudioSignals Over Coaxial Cable
HS/S SMPTE 259MSMPTE Standard for Television - 10-Bit 4:2:2 Component and 4fsc CompositeDigital Signals - Serial Digital Interface
SMPTE 292MSMPTE Standard for Television - Bit-Serial Digital Interface for High DefinitionTelevision Systems
SMPTE 344MSMPTE Standard for Television - 540 Mb/s Serial Digital Interface
Prefacexiv
Copyright © 2004-2007, 2008, 2010, Harris Corporation
DVB-ASIDigital Video Broadcasting Interfaces for CATV/SMATV Headends and SimilarProfessional Equipment
Compliance andSafety Standards
Appendix A, Safety Precautions, Certifications, and Compliances containsproduct compliance and safety standards.
EU Compliances
Restriction onHazardous
Substances (RoHS)Compliance
Directive 2002/95/EC—commonly known as the European Union (EU) Restrictionon Hazardous Substances (RoHS)—sets limits on the use of certain substancesfound in electrical and electronic equipment. The intent of this legislation is toreduce the amount of hazardous chemicals that may leach out of landfill sites orotherwise contaminate the environment during end-of-life recycling. The Directive,which took effect on July 1, 2006, refers to the following hazardous substances:
Lead (Pb)
Mercury (Hg)
Cadmium (Cd)
Hexavalent Chromium (Cr-V1)
Polybrominated Biphenyls (PBB)
Polybrominated Diphenyl Ethers (PBDE)
According to this EU Directive, all products sold in the European Union will be fullyRoHS-compliant and “lead-free.” (See our website for more information on datesand deadlines for compliance.) Spare parts supplied for the repair and upgrade ofequipment sold before July 1, 2006 are exempt from the legislation. Equipmentthat complies with the EU directive will be marked with a RoHS-compliant emblem,as shown in Figure P-1.
Figure P-1 RoHS Compliance Emblem
Waste fromElectrical and
ElectronicEquipment (WEEE)
Compliance
The European Union (EU) Directive 2002/96/EC on Waste from Electrical andElectronic Equipment (WEEE) deals with the collection, treatment, recovery, andrecycling of electrical and electronic waste products. The objective of the WEEEDirective is to assign the responsibility for the disposal of associated hazardouswaste to either the producers or users of these products. Effective August 13,2005, producers or users will be required to recycle electrical and electronicequipment at end of its useful life, and may not dispose of the equipment inlandfills or by using other unapproved methods. (Some EU member states mayhave different deadlines.)
Panacea Lite Routing Switcher SeriesInstallation, Configuration, and Operation Manual
xv
Copyright © 2004-2007, 2008, 2010, Harris Corporation
In accordance with this EU Directive, companies selling electric or electronic devicesin the EU will affix labels indicating that such products must be properly recycled.(See our website for more information on dates and deadlines for compliance.)Contact your local Sales representative for information on returning these productsfor recycling. Equipment that complies with the EU directive will be marked with aWEEE-compliant emblem, as shown in Figure P-2
Figure P-2 WEEE Compliance Emblem
Prefacexvi
Copyright © 2004-2007, 2008, 2010, Harris Corporation
ProductNaming
Conventions
Throughout this manual, Panacea Lite series products are referred to by specificnames; for example., P-12×1V, P-12×1VA2. Table P-3 lists each productdescription and its corresponding specific name.
Table P-3 Panacea Lite Product Naming Conventions
Product Description Product Name
Analog audio - standardAnalog audio - 600
P-12×1A2P-12×1A2L
AES audio - balancedAES audio - coax
P-12×1AEBP-12×1AEC
Analog videoAnalog video / stereo analog audio -standardAnalog video / 600 stereo analog audio
P-12×1VP-12×1VA2P-12×1VA2L
Standard definition (S) videoS video / balanced AESS video / coaxial AES
P-12×1SP-12×1SAEBP-12×1SAEC
High definition (HS) videoHS video / balanced AESHS video / coaxial AES
P-12×1HSP-12×1HSAEBP-12×1HSAEC
Panacea Lite Routing Switcher SeriesInstallation, Configuration, and Operation Manual
xvii
Copyright © 2004-2007, 2008, 2010, Harris Corporation
Safety Carefully review all safety precautions to avoid injury and prevent damage to thisproduct or any products connected to it. You will find a complete list of safetyprecautions in Appendix A. Any user-serviceable components (such as fuses orbatteries) are only replaceable by those components listed in the manual.
IMPORTANT! Only qualified personnel should perform service procedures.
Safety Terms andSymbols in this
Manual
WARNING: Statements identifying conditions or practices that mayresult in personal injury or loss of life. High voltage is present.
CAUTION: Statements identifying conditions or practices that canresult in damage to the equipment or other property.
Prefacexviii
Copyright © 2004-2007, 2008, 2010, Harris Corporation
1
Copyright © 2004-2007, 2008, 2010, Harris Corporation
1 Introduction
This chapter includes the following topics:
Control Features on page 8
Features on page 3
Modules on page 4
Product Description on page 1
Features on page 3
Product DescriptionThe Panacea Lite series consists of dual- or single-format routing switchers with thecapability to meet the multiple format signal switching requirements of today’smarket. Panacea Lite routing switchers are available in a 1RU frame size. The framearchitecture provides both front and rear rack attachment capabilities, whichallows for complementary front-racked local control in the same rack space, aswell as more flexible systemization.
Chapter 1Introduction
2
Copyright © 2004-2007, 2008, 2010, Harris Corporation
FrameArchitecture
NOTE: While a DB-9 connector is present in all configurations, it is activeonly when the P12×1-SP submodule is installed.
The P12×1-VL submodule is only available for the P-12×1V and theP-12×1VA2 routing switchers.
The standard Panacea Lite frame includes a universal AC power input, a coaxial(X-Y) control port, a looping sync input, a serial communications and controlsubmodule (P12×1-SP), and an audio signal adapter (P12×1-DTB). Dual outputsare provided.
These options are available for the frame.
A local control panel (P12×1-CP)
An analog video looping input submodule (P12×1-VL)
A remote control panel (P12×1-RCP) is available as an accessory.
Figure 1-1 Panacea Lite Frame Architecture
Panacea Lite Routing Switcher SeriesInstallation, Configuration, and Operation Manual
3
Copyright © 2004-2007, 2008, 2010, Harris Corporation
Features The Panacea Lite series comes in a 1RU frame size only (see Figure 1-2). Table 1-1provides dimensions, module and signal capacity, and standard equipment, for theP-12×1 1RU frame size.
Figure 1-2 Panacea Lite Frame
Table 1-1 Dimensions, Module and Signal Capacity, and Standard Equipment
Item Description
Width 19 in. (48.3 cm)
Depth 5.25 in. (13.3 cm)
Height 1.75 in. (44 cm)
Cabinet size (in./cm) 19 in. (48.3 cm)
Matrix module capacity 1
Signal capacity
One signal type
Available on these models: P-12×1VA2 P-12×1HS P-12×1S
Two signal types
Available on these models: P-12×1VA2 P-12×1HSAEB 12×1HSAEC P-12×1S P-12×1SAEB P-12×1SAEC
Internal AC power supply Yes
Chapter 1Introduction
4
Copyright © 2004-2007, 2008, 2010, Harris Corporation
Signal Formats The Panacea Lite supports the following signal formats:
Analog audio (A2): see Figure 2-5 on page 15 for a back panel view
Analog video (V): see Figure 2-8 on page 16 for a back panel view
AES balanced audio (AEB): see Figure 2-6 on page 15 for a back panel view
AES coax audio (AEC): see Figure 2-7 on page 15 for a back panel view
Analog video / stereo analog audio (VA2): see Figure 2-9 on page 16 for aback panel view
Standard definition video (S): see Figure 2-10 on page 16 for a back panelview
Standard definition video / balanced AES (SAEB): see Figure 2-11 on page 16for a back panel view
Standard definition video / coaxial AES (SAEC): see Figure 2-12 on page 17for a back panel view
High definition / standard definition video (HS): see Figure 2-13 on page 17for a back panel view
HD/SD video / balanced AES (HSAEB): see Figure 2-14 on page 17 for a backpanel view
HD/SD video / coaxial AES (HSAEC): see Figure 2-15 on page 17 for a backpanel view
Modules The module types installed in the Panacea Lite frame are as follows:
Core routing module (see page 5)
Power supply (see page 6)
Serial communications and control submodule (P12×1-SP) (see page 7)
Audio signal adapter (see page 5)
Options:
Analog video looping input submodule (P12×1-VL) (see page 7)
Local control panel (P12×1-CP) (see page 8)
Accessories
Remote control panel (P12×1-RCP) (see page 8)
A power LED is present on all blank front panels. The power LED is illuminatedgreen when power is present. If the power LED is not lit, one or more of the supplyrails on the module is invalid.
The location of this LED is shown in Figure 1-2 (page 3).
Panacea Lite Routing Switcher SeriesInstallation, Configuration, and Operation Manual
5
Copyright © 2004-2007, 2008, 2010, Harris Corporation
Core RoutingModule
Figure 1-3 Core Routing Module
The core routing module combines input, output, control, and switching circuitry.
Audio SignalAdapter
All audio signals are connected using male D-type 62-pin connectors (see Figure1-5) or screw terminal connections on the P12×1-DTB1 adapter (see Figure 1-4).See page 21 for installation information.
Figure 1-4 P12×1-DTB Stereo Audio Adapter
1 As of July 1, 2005, the P12×1-DTB is included as standard equipment on the Panacea Lite.Installation information is included for customers who purchased a Panacea Lite frame priorto July 1, 2005, and who now want to install a P12×1-DTB.
Chapter 1Introduction
6
Copyright © 2004-2007, 2008, 2010, Harris Corporation
Figure 1-5 Audio Connector Pin Assignment
Power Supply The 1RU frame is equipped with a single AC power supply. Input specifications forthe power supply are as follows:
Input voltage: 85-265 VAC
Frequency: 47-440 Hz
Maximum power: 45 W max
Panacea Lite Routing Switcher SeriesInstallation, Configuration, and Operation Manual
7
Copyright © 2004-2007, 2008, 2010, Harris Corporation
SerialCommunications
and ControlSubmodule(P12×1-SP)
Figure 1-6 P12×1-SP1
The P12×1-SP provides serial port control for Panacea Lite routing switchers. It alsotranslates between Harris protocol and protocols used by other manufacturers orequipment. The P12×1-SP can be used to integrate otherwise incompatible devicesin a system, and it may be used to expand a system beyond the normal limitationsimposed by hardware or system design. See Chapter 4 for installation,configuration and operation information.
Options
Analog VideoLooping Input
Submodule(P12×1-VL)
Figure 1-7 P12×1-VL
The P12×1-VL provides looping analog video inputs for the P-12×1V and theP-12×1VA2 routing switchers. Twenty-six BNC connectors are present on thesubmodule: 24 for the 12 input channels, and 2 for the 2 output channels. Youcan install this option yourself. See page 21 for installation information.
1 As of July 1, 2005, the P12×1-SP is installed as standard equipment on the Panacea Lite.Installation information is included for customers who purchased a Panacea Lite frame priorto July 1, 2005, and who now want to install a P12×1-SP.
Chapter 1Introduction
8
Copyright © 2004-2007, 2008, 2010, Harris Corporation
Local Control Panel(P12×1-CP)
Figure 1-8 P12×1-CP
The P12×1-CP is a local control panel with 12 source buttons to 1 destination withbreakaway button.
You can install this option yourself. See Installing a P12×1-CP Control Panel onpage 166 for installation, configuration, and operation information.
Accessories:
Remote ControlPanel (P12×1-RCP)
Figure 1-9 P12×1-RCP
The P12×1-RCP is a remote control panel with 12 source buttons to 1 destinationwith breakaway button.
You can install this accessory yourself. See Installing a P12×1-RCP Control Panelon page 167 for installation, configuration, and operation information.
Control Features The Panacea Lite routing switchers are compatible with all existing Harris routersand control panels. Panacea Lite frames include these control options:
One looping coaxial (X-Y) port for connecting to remote control panels andother routers
One loop-through port for the connection of an NTSC or PAL analog videosynchronization signal (unused looping port is terminated)
A submodule for providing serial communications and control (P12×1-SP)
An optional local control panel (P12×1-CP) or remote control panel(P12×1-RCP)
Front PanelConfigurations
A Panacea Lite frame can be configured with one of the following front panelstyles:
A blank front with green power indicator LED (standard); the LED will beilluminated if power is applied to frame
Panacea Lite Routing Switcher SeriesInstallation, Configuration, and Operation Manual
9
Copyright © 2004-2007, 2008, 2010, Harris Corporation
A local control panel (P12×1-CP), which is available as an option
A remote control panel (P12×1-RCP), which is available as an accessory
Figure 1-10 shows an example of the “blank” front panel available for the frame.See Figure 1-8 on page 8 for an example of a local control panel and Figure 1-9on page 8 for an example of a remote control panel.
Figure 1-10 Blank Front Panel
Operating Mode The Panacea Lite operates in DIP switch mode for basic matrix switching on theX-Y bus with Harris protocol.
For more information about frame DIP switch settings, see Chapter 2.
For more information about P12×1-SP DIP switch settings, see Chapter 4.
For more information about control panel DIP switch settings, seeAppendix B.
For more information about operating the Panacea Lite routing switcher, seeChapter 3.
For more information about operating the P12×1-SP submodule, seeChapter 4.
For more information about operating local or remote control panels, seeAppendix B.
Chapter 1Introduction
10
Copyright © 2004-2007, 2008, 2010, Harris Corporation
11
Copyright © 2004-2007, 2008, 2010, Harris Corporation
2 Frame Configurationand Installation
WARNING: Potentially lethal voltages are present within the frameduring normal operation. Disconnect all power cords from the framebefore you remove the front panel. Do not apply power to theframe while the front panel is open unless the unit is being servicedby properly trained personnel.
This chapter includes the following information necessary for configuring andinstalling a Panacea Lite frame:
Field Upgrading a Panacea Lite Routing Switcher on page 23
Frame Configuration on page 12
Back Panel Connections on page 13
Control Functionality on page 20
DIP Switch Summary on page 12
Installing a Frame on page 18
CAUTION: Test your system before its final installation. Make sureyou verify its configuration, cabling, and proper system operation.
Chapter 2Frame Configuration and Installation
12
Copyright © 2004-2007, 2008, 2010, Harris Corporation
Frame Con-figuration
DIP SwitchSummary
Figure 2-1 and Figure 2-2 show the location of the DIP switch on the Panacea Liteback panel. Figure 2-3 provides a summary of the functions of each DIP switch.(Specific information on the switches appears in Appendix B.)
Figure 2-1 DIP Switch Location (-A2, -V, -VA2, -S, -AEB, -SAEB, -HS, -HSAEB)
Figure 2-2 DIP Switch Location (-AEC, -HSAEC, -SAEC)
Panacea Lite Routing Switcher SeriesInstallation, Configuration, and Operation Manual
13
Copyright © 2004-2007, 2008, 2010, Harris Corporation
Figure 2-3 DIP Switch Configuration
Back PanelConnections
The control and power section of the rear panel includes these items:
AC power supply input
One 9-pin serial port (only active with P12×1-SP option installed)
One pair of BNC X-Y ports (single looping X-Y)
One pair of BNC sync inputs (single looping sync)
Chapter 2Frame Configuration and Installation
14
Copyright © 2004-2007, 2008, 2010, Harris Corporation
Figure 2-4 Back Panel Connections
The Panacea Lite supports X-Y communications and controls. If the P12×1-SPoption is installed, RS-232 and RS-422 will also be supported via a 9-pin serial port.
Although the serial connector is present in all configurations, it will be functionalonly when the P12×1-SP option is installed.
Serial Port NOTE: See P12×1-SP Installation, Configuration, and Operation onpage 29 for serial port control command information.
When the P12×1-SP option is installed, the serial port allows external control ofthe Panacea Lite by a computer, user, or automation system via a serial connectionusing RS-232 or RS-422. Pin assignments for each signal format are provided inTable 2-1. The port is configured for RS-232 or RS-422 at the manufacturingfacility, before the frame is shipped.
One of the many powerful features of the router control system is its ability to usea serial port to access the entire system. The serial port, in effect, is the controlgateway to the entire routing system.
Table 2-1 Signal Format Pin Assignments
Pin RS-232 Function RS-422 Function
1 Frame ground Frame ground
2 RxD (Data received by router) Ts (Data sent by router)
3 TxD (Data sent by router) Rb (Data received by router)
4 Data terminal ready* Rc Receiver common
5 Ground Ground
6 Data set ready (DSR)* Tc Transmit common
7 Request to send (RTS)** Tb (Data sent by router)
8 Clear to send (RTS)** Ra (Data received by router)
9 Frame ground Frame ground
* Pins 4 and 6 connected internally** Pins 7 and 8 connected internally
Panacea Lite Routing Switcher SeriesInstallation, Configuration, and Operation Manual
15
Copyright © 2004-2007, 2008, 2010, Harris Corporation
All Harris protocols currently use 8 data bits, no parity, and 1 stop bit.
X-Y Port The X-Y control bus is a high speed serial interface by which Harris routers andcontrol panels are interconnected. The X-Y control bus links multiple routers andcontrol panels in a bus topology.
The X-Y coaxial control port allows control panels and router frames to beinterconnected using standard 75 video coax cable. The ends of the X-Y busmust be terminated using standard 75 video terminators. The unused loopingX-Y port must be terminated.
Back Panel I/OModules
Analog Audio Back Panel I/O Connectors
The analog audio back panel uses two D-type 62-pin connectors. These connectorsare positioned as shown in Figure 2-5.
Figure 2-5 Analog Audio Back Panel Connectors
AES Audio Back Panel Balanced I/O Connectors
The balanced AES audio back panel uses 2 D-type 62-pin connectors for AESinputs/outputs. These connectors are positioned as shown in Figure 2-6.
Figure 2-6 Balanced AES Audio Back Panel I/O Connectors
AES Audio Back Panel Coax I/O Connectors
The coax AES audio back panel uses 12 BNC connectors for inputs and 2 foroutputs for each of the 2 AES channels. These connectors are positioned as shownin Figure 2-7.
Figure 2-7 Coax AES Audio Back Panel I/O Connectors
Analog Video Back Panel I/O Connectors
The analog video back panel uses 12 BNC connectors for inputs and 2 for outputs.These connectors are positioned as shown in Figure 2-8.
You can use the analog video looping input submodule (P12×1-VL) with thisproduct.
Chapter 2Frame Configuration and Installation
16
Copyright © 2004-2007, 2008, 2010, Harris Corporation
Figure 2-8 Analog Video Back Panel Connectors
Analog Video / Stereo Analog Audio Back Panel I/O Connectors
The analog video / stereo analog audio back panel uses 12 BNC connectors forvideo inputs and two for outputs; and 2 D-type 62-pin connectors for audioinputs/outputs. These connectors are positioned as shown in Figure 2-9.
You can use the analog video looping input submodule (P12×1-VL) with thisproduct.
Figure 2-9 Analog Video / Stereo Analog Audio Back Panel I/O Connectors
Standard Definition (SD) Video Back Panel I/O Connectors
The SD video back panel uses 12 BNC connectors for inputs and 2 for outputs.These connectors are positioned as shown in Figure 2-10.
Figure 2-10 SD Video Back Panel I/O Connectors
Standard Definition (SD) Video / Balanced AES Audio Back PanelI/O Connectors
The SD video / balanced AES audio back panel uses 12 BNC connectors for videoinputs and 2 for outputs; and 2 D-type 62-pin connectors for AES inputs/outputs.These connectors are positioned as shown in Figure 2-11.
Figure 2-11 SD Video / Balanced AES Audio Back Panel I/O Connectors
Standard Definition (SD) Video / Coax AES Audio Back Panel I/OConnectors
The SD video/coax AES audio back panel uses 12 BNC connectors for inputs and 2for outputs; and 12 BNC connectors for inputs and 2 for outputs for each of the 2AES channels. These connectors are positioned as shown in Figure 2-12.
Panacea Lite Routing Switcher SeriesInstallation, Configuration, and Operation Manual
17
Copyright © 2004-2007, 2008, 2010, Harris Corporation
Figure 2-12 SD Video / Coax AES Audio Back Panel I/O Connectors
High Definition / Standard Definition (HS) Video Back Panel I/O Connectors
The HS video back panel uses 12 BNC connectors for inputs and 2 for outputs.These connectors are positioned as shown in Figure 2-13.
Figure 2-13 HS Video Back Panel I/O Connectors
High Definition / Standard Definition (HS) Video / Balanced AES AudioBack Panel I/O Connectors
The HS video / balanced AES audio back panel uses 12 BNC connectors for videoinputs and 2 for outputs; and 2 D-type 62-pin connectors for AES inputs/outputs.These connectors are positioned as shown in Figure 2-14.
Figure 2-14 HS Video / Balanced AES Audio Back Panel I/O Connectors
High Definition / Standard Definition (HS) Video / Coaxial AES Audio BackPanel I/O Connectors
The HS video/coaxial AES audio back panel uses 12 BNC connectors for inputs and2 for outputs; and 12 BNC connectors for inputs and 2 for outputs for each of the2 AES channels. These connectors are positioned as shown in Figure 2-15.
Figure 2-15 HS Video / Coaxial AES Audio Back Panel I/O Connectors
Chapter 2Frame Configuration and Installation
18
Copyright © 2004-2007, 2008, 2010, Harris Corporation
Installing aFrame
The Panacea Lite 1RU mounting frame requires one unit of rack space, that is, 1.75in. (44 mm) of standard rack space. The depth from the mounting surface is 5.25in. (13.3 cm).
Figure 2-16 Panacea Lite Routing Switcher Series Frame Physical Dimensions
SitingRequirements
Ensuring AdequateRack Space
The Panacea Lite frame is designed for mounting into a standard width 19-in.(48.3-cm) rack. Frames are secured to the rack with standard front-mounting ears.Make sure to provide adequate space behind the mounting ears, and appropriateclearance for the connecting cables at the rear of the frame.
Ensuring ProperTemperature and
Ventilation
The Panacea Lite frame is cooled by convection only. You can stack any number offrames in a rack as long as you maintain proper ventilation and remove allobstructions to air flow.
CAUTION: To ensure proper ventilation, keep the front panel of theframe closed during operation; otherwise, the frame could overheat.
An ambient temperature should be maintained between 32°F (0°C) and 122°F(50°C) at a relative humidity of 10%-90% (non-condensing). No special coolingarrangements are necessary, but make sure to prevent excessive ambient heat risein closed, unventilated equipment racks.
Panacea Lite Routing Switcher SeriesInstallation, Configuration, and Operation Manual
19
Copyright © 2004-2007, 2008, 2010, Harris Corporation
Meeting ElectricalRequirements
Load Limitations
The Panacea Lite mounting frame holds one internal power supply unit (PSU). Thepower consumption is 45 W maximum. A fully loaded frame will operate with asingle power supply.
Maximum Power Dissipation
These ratings refer to the total module power consumption (excluding that of thepower supply) allowable within a Panacea Lite frame. The limits are based on theability of the unit to dissipate heat over a temperature range of 32° F to 122° F (0°C to 50° C).
Voltage Selection
The Panacea Lite frame does not have a voltage selector switch. The power supplyhas a continuous input range of 85 VAC to 265 VAC.
Protective Ground
The Panacea Lite frame does not have a separate protective safety earth groundconnector.
MountingRequirements
A Panacea Lite frame can be mounted in a standard width 19-in. (48.3 cm) rackusing four 10/32 Phillips-head mounting screws. The back of the frame does notneed to be supported. The frame can be mounted in either the front or the rear ofthe rack, thereby providing more efficient use of your equipment housing space.The rack ears can be attached to the frame in either direction, thereby allowingyou flexible mounting options.
Mounting a PanaceaLite Frame in the
Rack Front
Frames are secured to the rack with standard front-mounting ears attached to thechassis. The steps for mounting a Panacea frame in the front of the rack areoutlined in Installing a Panacea Lite Router on page 20.
Mounting a PanaceaLite Frame in the
Rack Rear
Frames are secured to the rack with standard back-mounting ears attached to thechassis. Make sure to provide adequate space behind the mounting ears, andappropriate clearance for the connecting cables at the rear of the frame.
In-FrameArchitecture
The Panacea Lite is made of the following building blocks:
Back panel I/O modules
Power supply module
Audio signal adapter (available for P-12×1A2, P-12×1VA2, P-12×1AEB,P-12×1SAEB, P-12×1HSAEB, only)
P12×1-SP submodule
(Optional) Local control panel
(Optional) Analog video looping input submodule (available for P-12×1V,P-12×1VA2 only)
All modules and power supplies ordered are installed in the Panacea Lite framebefore it is shipped.
Chapter 2Frame Configuration and Installation
20
Copyright © 2004-2007, 2008, 2010, Harris Corporation
ControlFunctionality
DIP switch mode operation allows you to operate your Panacea Lite with minimal(and often no) additional setup. See DIP Switch Summary on page 12 for moreinformation.
Power Supply The Panacea Lite product line includes an internal power supply module. Noconfiguration settings are needed for the power supply. See Power Supply onpage 6 for more information.
Installing aPanacea Lite
Router
NOTE: Since the Panacea Lite is specifically ordered in a particularconfiguration, the Panacea Lite frame will be custom configured to thosespecifications.
The Panacea Lite can be installed anywhere within a routing system and can becontrolled in a variety of ways, including local or remote control panels andPC-based software control; or serial port control with the P12×1-SP optioninstalled. Because the flexibility of the Panacea Lite allows for many possibleconfigurations, the installation procedures will depend on the desiredconfiguration and system design. General installation procedures are as follows:
1 Ensure that all packing foam, strapping, and tape is removed from the frame.
2 Mount the frame in an rack that provides power and cooling facilities. Theframe is designed for mounting in a standard equipment rack.
3 Align the frame so that all 4 screw holes in the mounting ears match up withthose in the rack. (Adjustable ears on each side of the frame allow adjustabledepth placement of the frame within the rack.
4 Secure the frame to the rack with the rack screws and washers.
5 Connect each source to the appropriate input connection on the back panel I/O module.
6 Connect each destination to the output connection on the back panel I/Omodule.
7 Connect the control device to the appropriate port (XY or SERIAL) on theframe’s rear panel.
8 If the router is to be used in a multiple frame system, connect the additionalframes using the X-Y port. Be sure to terminate any unused X-Y ports. ThePanacea Lite router will not communicate properly unless at least one end ofthe X-Y bus is terminated.
9 If the router is a the end of the X-Y bus, terminate the other X-Y connectorwith a coaxial 75 termination.
10 Connect the power input receptacle to the power source.
Panacea Lite Routing Switcher SeriesInstallation, Configuration, and Operation Manual
21
Copyright © 2004-2007, 2008, 2010, Harris Corporation
InstallingOther
Equipment
You can install and configure these modules and options on-site.
Analog VideoLooping Input
Submodule(P12×1-VL)
1 Disconnect power from the frame.
2 Remove the frame from its rack location and set the frame onto a flat surface.
3 Unscrew the screws on the top of the Panacea Lite frame, then remove theframe top from the frame body. Set these screws aside, as you will need themlater.
4 On the inside back panel of the router, locate jumpers JT1 through JT12.
5 Remove all of the jumper pins from the jumpers. (You may want to save thesejumper pins; you will need to re-install them if you no longer want the loopinginput option on your analog video router.)
6 Reattach the Panacea Lite frame top to the frame body. Use the original screwsto reattach the top to body.
7 Insert the submodule assembly onto the 14 BNC video I/O connectors on thePanacea Lite frame.
8 Tighten the two thumbscrews located in the upper corners of the submoduleto secure the assembly to the frame.
9 Reinstall the frame back in its rack location.
10 Connect the power input receptacle on the frame to its power source.
11 Attach inputs to the appropriate video I/O connectors (see Figure 2-17).
Figure 2-17 P12×1-VL Video I/O Connectors
Audio SignalAdapter
(P12×1-DTB)
CAUTION: Disconnect power from the frame before removing orinstalling adapters. Removing or installing adapters with the poweron could cause serious damage to system components.
1 Disconnect power from the frame.
2 Connect the adapter to the 62-pin D type connectors on the back of the audioframe.
3 Wire up the audio signal adapter according to the diagram shown in Figure2-18.
Chapter 2Frame Configuration and Installation
22
Copyright © 2004-2007, 2008, 2010, Harris Corporation
4 Screw in the screw lock connections and ensure the connector is securelyfastened to the rear connector.
5 Check that the power setting is correct, and then apply power to the frame.
Figure 2-18 P12×1-DTB Wiring Diagram1
SerialCommunications
and ControlSubmodule(P12×1-SP)
See P12×1-SP Installation, Configuration, and Operation on page 29 forinstallation, configuration, and operation information.1
Local ControlPanel (P12×1-CP)
See Installing a P12×1-CP Control Panel on page 166 for installation,configuration, and operation information.
Remote ControlPanel
(P12×1-RCP)
See Installing a P12×1-RCP Control Panel on page 167 for installation,configuration, and operation information.
1 As of July 1, 2005, the P12×1-SP and the P12×1-DTB are available as standard equipmenton the Panacea Lite. Installation information in this manual is included for customers whopurchased a Panacea Lite frame prior to July 1, 2005, and who now want to install aP12×1-SP and/or a P12×1-DTB.
Panacea Lite Routing Switcher SeriesInstallation, Configuration, and Operation Manual
23
Copyright © 2004-2007, 2008, 2010, Harris Corporation
Field Upgrading a Panacea Lite Routing SwitcherThe Panacea Lite product line is not designed for extensive field service. Mosthardware upgrades, modifications, and repairs must be performed at the servicecenter. See Servicing a Panacea Lite Product on page xii for more information.
You can install and configure these items on-site. Contact the Customer ServicesDepartment for more information about ordering these options.
Analog video looping input submodule (P12×1-VL)
See page 7 for a description.
See page 21 for installation instructions.
Serial communications and control submodule (P12×1-SP)1
See page 7 for a description.
See page 30 for installation instructions.1
Audio signal adapter (P12×1-DTB)1
See page 5 for a description.
See page 30 for installation instructions.1
Local control panel (P12×1-CP)
See page 8 for a description.
See Installing a P12×1-CP Control Panel on page 166 for installationinstructions.
Remote control panel (P12×1-RCP)
See page 8 for a description.
See Installing a P12×1-RCP Control Panel on page 167 for installationinstructions.
Chapter 2Frame Configuration and Installation
24
Copyright © 2004-2007, 2008, 2010, Harris Corporation
25
Copyright © 2004-2007, 2008, 2010, Harris Corporation
3 Frame Operation
This chapter includes the following information:
Control Features on page 26
Front Panel Options on page 26
Firmware-Based Control System on page 26
Software-Based Control Systems on page 26
Control Functionality on page 27
Chapter 3Frame Operation
26
Copyright © 2004-2007, 2008, 2010, Harris Corporation
ControlFeatures
NOTE: The Panacea Lite can be factory-configured to use an RS-232 serialport or an RS-422 serial port when the P12×1-SP option is installed.Although the DB-9 connector is present in all configurations, it is onlyactivated when this option is installed.
Panacea Lite routing switcher series products are compatible with all existing Harrisrouters and control panels. Panacea Lite frames include the following controloptions:
An optional serial control port for remote control from computers, users, andautomation systems (configurable for RS-232 or RS-422) (see page 14 forconfiguration information)
A single looping X-Y port for connecting to remote control panels and otherrouters (see page 15 for configuration information)
A local control panel option
A software-based control system
Front PanelOptions
You can configure your Panacea Lite frame with one of these front panel styles:
A blank front
An optional local control panel (a remote control panel is also available as anaccessory)
Firmware-BasedControl System
The Panacea Lite can operate in DIP switch mode (page 27), which is used for basicmatrix switching on the X-Y bus with Harris protocol.
Software-BasedControl Systems
The Panacea Lite routing switcher system makes use of the most innovative controlavailable on the market today. The operating system used for the Panacea Lite is areal-time embedded operating system that uses an interrupt-driven andpriority-based task scheduling algorithm to control the operations of the router.This means that switches will occur in a timely manner, which allows the PanaceaLite to be used in broadcast facilities where timing is crucial to the success of thefacility.
The configuration utility for programming your Panacea Lite for operation is calledRouterMapper™, an easy-to-use Windows-based application for programmingRouterWorks™, router frames, control panels, and the Opus master controller.Using RouterMapper, you may create a database that describes a routing system(i.e., available levels, sources, and destinations). That database may bedownloaded to a control panel and/or router frame, and may be used inconjunction with RouterWorks software applications. See your RouterMappermanual for instructions on how to set up your Panacea Lite for operation.
If you have an optional P12×1-SP submodule installed, there are several softwareapplications available to control your Panacea Lite:
Panacea Lite Routing Switcher SeriesInstallation, Configuration, and Operation Manual
27
Copyright © 2004-2007, 2008, 2010, Harris Corporation
Navigator™, an application that allows you to easily create custom browserpages that represent your network and its various environments around theworld. You can associate objects on these pages with network events,user-defined actions, and other browser pages. This allows you to consolidate,simplify, and centralize the status monitoring of the network's many devicesand environments on a few easy-to-use and -understand browser pages. Thiscan lead to more efficient and economical operation of your network.
RouterWorks®, a Windows®-based 32 bit control system application thatuses a graphic user interface to improve the manageability and ease of use ofthe control system.
Control FunctionalityDIP switch mode operation allows you to operate your Panacea Lite with minimal(and often no) additional setup.
See Figure 2-3 on page 13 for the proper frame DIP switch settings.
See Figure B-7 on page 171 for the proper local control panel DIP switchsettings.
See Figure B-8 on page 172 for the proper remote control panel DIP switchsettings.
Chapter 3Frame Operation
28
Copyright © 2004-2007, 2008, 2010, Harris Corporation
29
Copyright © 2004-2007, 2008, 2010, Harris Corporation
4 P12×1-SP Installation,Configuration, andOperation
The P12×1-SP is a submodule that provides serial port control. It also translatesbetween Harris protocol and protocols used by other manufacturers or equipment.The P12×1-SP can be used to integrate otherwise incompatible devices in a system,and it may be used to expand a system beyond the normal limitations imposed byhardware or system design.
This chapter covers the following topics:
Configuring a P12×1-SP Submodule on page 33 (this topic applies to allPanacea Lite frames)
Installing a P12×1-SP Submodule on page 30 (this topic applies to PanaceaLite frames that do not have a P12×1-SP submodule already installed)
Operating a P12×1-SP Submodule on page 35 (this topic applies to allPanacea Lite frames)
SPT Configurations on page 35 (this topic applies to all Panacea Lite frames)
Chapter 4P12×1-SP Installation, Configuration, and Operation
30
Copyright © 2004-2007, 2008, 2010, Harris Corporation
Installing aP12×1-SP
Submodule
If your Panacea Lite frame already has a P12×1-SP submodule installed, skipthis section and go directly to Configuring a P12×1-SP Submodule on page33.
If you are upgrading an existing Panacea Lite to include the P12×1-SPsubmodule, follow these installation instructions to install the submodule intothe frame.
Preparing theFrame
1 Unplug the Panacea Lite frame so that it does not receive electrical power.
2 Remove the frame from its rack location and set the frame onto a flat surface.
3 Unscrew the screws on the top of the Panacea Lite frame, then remove theframe top from the frame body. Set these screws aside, as you will need themlater.
Mounting theP12×1-SP Module
1 Locate the P12×1-SP mounting holes on the inside of the frame.
Figure 4-1 P12×1-SP Mounting Holes
2 Mount the P12×1-SP to the frame, using the screws provided. (It may be easierto do this if you turn the router on its side.)
If the extenders on the P12×1-SP do not line up exactly with the mountingholes in the frame, you may want to slightly loosen the screws holding theextenders onto the P12×1-SP. This will allow you to move the extendersenough to line up with the mounting holes.
Panacea Lite Routing Switcher SeriesInstallation, Configuration, and Operation Manual
31
Copyright © 2004-2007, 2008, 2010, Harris Corporation
Figure 4-2 Attaching the P12×1-SP (Back View)
Figure 4-3 P12×1-SP Submodule Installed
Connecting theRibbon Cable
1 Remove the jumpers from the pack panel connector JC6.
2 Plug one end of the ribbon cable to the connector on the P12×1-SPsubmodule. Make sure that the colored wire on the ribbon cable goes topin 1 on the connector.
3 Plug the other end of the ribbon cable to the connector JC6 on the corerouting module. Make sure that the colored wire on the ribbon cablegoes to pin 1 on the connector JC6.
Chapter 4P12×1-SP Installation, Configuration, and Operation
32
Copyright © 2004-2007, 2008, 2010, Harris Corporation
Figure 4-4 P12×1-SP Ribbon Cable Connections
Setting the DIPSwitches
Each SPT switch configuration section provides appropriate DIP switch settings. Alist of sections (with the corresponding beginning page numbers) is provided onpage 35 To set the DIP switches for your SPT configuration, see the appropriateconfiguration section in this chapter for specific operating instructions. Figure 4-5on page 33 shows the locations of the SW1 and SW2 DIP switches.
Setting theRS-232/RS-422
Jumper
Each SPT configuration section provides an RS-232/RS-422 jumper setting. A list ofsections (with the corresponding beginning page number) is provided on page 35.Figure 4-5 on page 33 shows the locations of the RS-232/RS-422 jumper. To setthe RS-232/RS-422 jumper for your SPT configuration, see the appropriateconfiguration section in this chapter for specific operating instructions. (SeeJumper Configuration Reference Point on page 34 for more information aboutthis jumper’s orientation.)
Reassembling theFrame
1 Reattach the Panacea Lite frame top to the frame body. Use the original screwsto reattach the top to body.
2 Reinstall the frame back in its rack location.
3 Connect the power input receptacle on the frame to its power source.
Panacea Lite Routing Switcher SeriesInstallation, Configuration, and Operation Manual
33
Copyright © 2004-2007, 2008, 2010, Harris Corporation
Configuring aP12×1-SP
Submodule
The P-SPT submodule can be configured to match any of the existing Harris SPTs.SPT configuration, protocol notes, related configuration/operation notes, RS-232/RS-422 jumper settings, and DIP switch settings are included.
Figure 4-5 shows the locations of the SW1 and SW2 DIP switches, and of theRS-232/RS-422 jumper.
Figure 4-5 P12×1-SP DIP Switch and RS-232/RS-422 Jumper Locations
Changing Config-urations
To change the DIP switch and RS-232/RS-422 jumper configurations for aP12×1-SP:
1 Unplug the Panacea Lite frame so that it does not receive electrical power.
2 Remove the frame from its rack location and set the frame onto a flat surface.
3 Unscrew the screws on the top of the Panacea Lite frame, then remove theframe top from the frame body. Set these screws aside, as you will need themlater.
4 Set the DIP switches: Each SPT switch configuration section providesappropriate DIP switch settings. A list of sections (with the correspondingbeginning page numbers) is provided on page 35. To set the DIP switches foryour SPT configuration, see the appropriate configuration section in thischapter for specific operating instructions.
5 If necessary, set the RS-232/RS-422 jumper: Each SPT configuration sectionprovides an RS-232/RS-422 jumper setting. A list of sections (with thecorresponding beginning page numbers) is provided on page 35. To set theRS-232/RS-422 jumper for your SPT configuration, see the appropriate
Chapter 4P12×1-SP Installation, Configuration, and Operation
34
Copyright © 2004-2007, 2008, 2010, Harris Corporation
configuration section in this chapter for specific operating instructions. (SeeJumper Configuration Reference Point on page 34 for more informationabout this jumper’s orientation.)
6 Reattach the Panacea Lite frame top to the frame body. Use the original screwsto reattach the top to body.
7 Reinstall the frame back in its rack location.
8 Connect the power input receptacle on the frame to its power source.
Jumper Configu-ration Reference
Point
Each SPT configuration section provides an RS-232/RS-422 jumper setting. Thisjumper’s orientation is shown as though you are viewing the SP module with framecover removed, the frame front facing toward you, and the frame back panelfacing away from you. The pin 1 marker will be your reference point.
Figure 4-6 shows this configuration orientation and pin 1 reference point location.In this illustration the jumper is set for RS-232.
Figure 4-6 RS-232/RS-422 Configuration Orientation and Pin 1 Reference Point
Panacea Lite Routing Switcher SeriesInstallation, Configuration, and Operation Manual
35
Copyright © 2004-2007, 2008, 2010, Harris Corporation
Operating aP12×1-SP
Submodule
P12×1-SP operation is dependent on the type of configuration you have selected.See the appropriate configuration section in this chapter for specific operatinginstructions.
SPT Configura-tions
A list of configuration sections (with the corresponding beginning page number) isprovided below.
Additional Serial Ports for Harris Routers: LSERIAL — page 42
GVG® 20-TEN™ Control of Harris Routers: GVG20TOLXY — page 36
GVG TEN-XL™ Control of Harris Routers: GVG TEN-XL — page 130
X-Y to BARCO VIVALDI™: LXYTOBARC — page 45
X-Y Control of Another X-Y P12×1-SP: LXYTOXY — page 83
X-Y Control of Datatek® Routers: LXYTODATEK — page 50
X-Y Control of GVG® 20-TEN™ Routers: LXYTOGVG20 — page 54
X-Y Control of GVG® Horizon™ Routers: LXYTOHORIZ — page 39
X-Y Control of Lightwave® Matrix-Hub Series 1000™ Switcher:LXYTOLIGHTWAVE — page 89
X-Y Control of NVISION® Routers: LXYTONVIS — page 111
X-Y Control of Megahertz® Under Monitor Displays:LXYTOMHzUMD — page 60
X-Y Control of a Remote Router via Modem: LXYTOMODEM — page 57
X-Y Control of Sandar® Routers: SANDARTOLXY — page 120
X-Y Control of Sierra® Routing Switchers : LXYTOSIERRA — page 96
X-Y Control of Sony® Control System : LXYTOSONY — page 102
X-Y Control of V-LAN™ Systems: LXYTOVLAN — page 77
X-Y Control of XPRESS Routers: LXYTOXPRS — page 77
X-Y to Under Monitor Display Using TSL® Protocol: LXYTOTSLUMD —page 68
X-Y to McCurdy® Under Monitor Displays: LXYTOMCUMD — page 107
Panasonic® MARC TYPE II™ SQC Control of Harris Routers:PANMIITOLXY — page 114
Pro-Bel™ Controller for Harris Routers: PROBELTOLXY — page 117
Tandberg™ Controller for Harris Routers: TANDBERGTOLXY —page 125
Chapter 4P12×1-SP Installation, Configuration, and Operation
36
Copyright © 2004-2007, 2008, 2010, Harris Corporation
GVG®
20-TEN™ Con-trol of Harris
Routers:GVG20TOLXY
NOTE: This submodule can also be set up to operate in LSERIAL mode. Seepage 42 for more information about LSERIAL mode.
Use the GVG20TOLXY1 configuration in conjunction with a Harris routing switcherto allow control of the switcher via automation system software written for GVG20-TEN equipment. In this application, the P12×1-SP translates from Grass Valleyprotocol to the protocol required by the Harris routing switcher.
The Grass Valley 20-TEN protocol is a bidirectional RS-232/RS-422 protocol inwhich all communications are initiated by the controller (in this case, the controlleris the equipment designed to interface with the GVG 20-TEN router). TheGVG20TOLXY comes up and begins to search for Harris frames by sending outFrame Size requests on the X-Y bus. For every Frame Size response it receives, theGVG20TOLXY will send out a Status request to determine the status of thedestinations in that Harris frame. During normal operations, the GVG20TOLXY willcontinue to send Frame Size requests periodically. Any new frames found in thesystem will be added automatically, and frames that disappear from the system willbe reflected as missing.
The GVG20TOLXY will respond to any request in less than 1s, as guaranteed bythe GVG 20-TEN protocol. If a response is sent faster, the GVG20TOLXY will beready for further communications. This timing allows any equipment or softwaredesigned for use with the GVG 20-TEN router to also work with a Harris router (viathe GVG20TOLXY).
The important difference between a GVG 20-TEN router and the GVG20TOLXY isthat Protects do not have to be refreshed on a Harris router and will stay activeuntil removed. This should make third party software easier to implement. There isthe potential, however, that existing software that expects Protects to “go away”after 13 seconds will no longer work.
The GVG20TOLXY supports all functionality of the Grass Valley/Tektronix 20-TENprotocol. The features supported are listed in Table 4-1 on page 36.
References The following reference was used for implementing the protocol translation:
1 The GVG 20-TEN routing switcher, and corresponding router interface and automation sys-tem software, are products of Grass Valley Group, a subsidiary of Thomson Broadcast Sys-tems.
Table 4-1 GVG 20-TEN Protocol Features Supported by GVG20TOLXY
Feature Description
Take Switches the source to the destination on the four levelsexpected to be controlled by the Harris router
Status Request Returns the status of all four levels expected to becontrolled by the Harris router
Protect / Unprotect Protects or unprotects the requested destination on allfour levels expected to be controlled by the Harris router
Panacea Lite Routing Switcher SeriesInstallation, Configuration, and Operation Manual
37
Copyright © 2004-2007, 2008, 2010, Harris Corporation
Grass Valley 20-TEN Compact Routing Systems Instruction Manual, PublicationNumber TP3132-01, Issue A1 (October 1994)
RS-232/RS-422Jumper Orienta-
tion
Figure 4-7 shows the proper orientation for the RS-232 and RS-422 jumper. (SeeFigure 4-6 on page 34 for an illustration of the pin 1 reference point location.)
Figure 4-7 GVG20TOLXY RS-232/RS-422 Jumper Orientation
DIP Switch Set-tings
Figure 4-8 on page 38 shows the proper DIP switch settings for this configuration.Factory default items are marked with an asterisk (*).
Chapter 4P12×1-SP Installation, Configuration, and Operation
38
Copyright © 2004-2007, 2008, 2010, Harris Corporation
Figure 4-8 GVG20TOLXY DIP Switch Settings
Panacea Lite Routing Switcher SeriesInstallation, Configuration, and Operation Manual
39
Copyright © 2004-2007, 2008, 2010, Harris Corporation
X-Y Controlof GVG®
Horizon™
Routers:LXYTOHORIZ
NOTE: This submodule can also be set up to operate in LSERIAL mode. Seepage 42 for more information about LSERIAL mode.
Use the LXYTOHORIZ configuration in conjunction with a GVG Horizon1 routingswitcher to allow control of the switcher via Harris control panels or automationsystem software. In this application, the P12×1-SP will convert from X-Y to GVGprotocol.
The LXYTOHORIZ uses the same default settings as described in the GVG GeneralPurpose Interface T/CI manual: 9600 baud, 7 data bits, odd parity, 1 stop bit. Thebaud rate setting can be changed via DIP switches. The LXYTOHORIZ supports allfunctionality of the Grass Valley/Tektronix Horizon protocol. As the Harris Protocolincludes several features which are not supported by the Grass Valley Horizon, theLXYTOHORIZ serial protocol translator adds those features to the control operationof the Horizon. Standard features are listed in Table 4-2. Additional features arelisted in Table 4-3 on page 39.
1 The GVG Horizon routing switcher, and corresponding router interface and automation sys-tem software are products of Grass Valley Group, a subsidiary of Thomson Broadcast Sys-tems.
Table 4-2 Standard Protocol Features
Feature Description
Take Takes/switches the source to the destination on thelevels requested that are controlled by the GVG Horizonrouter.
Status Request Returns the status of the requested destination on thelevels that are controlled by the GVG Horizon router.
Protect/Unprotect Protects or unprotects the requested destination on alllevels that are controlled by the GVG Horizon router.This is actually implemented as a Lock and Unlock fromthe Harris control system.*
* The GVG Horizon treats all commands received from the serial port as if they came from one device.The Protect feature as implemented by GVG does not actually Protect one Harris device from switchinga destination protected by another. Therefore, the LXYTOHORIZ will assume that any destination beingreported by the Horizon as Protected is actually Locked from the Harris point of view and all switchrequests on that destination will be turned down until it is unprotected. In this fashion, the GVGHorizon Protect feature is being implemented as a Lock on the Harris control system. Therefore, bothLock and Protect requests coming from Harris devices end up operating as if the request was for a Lock.From a GVG control panel’s point of view (a control panel connected to the GVG Horizon), thedestination will be Protected by the serial port. Since a Protect placed by one device actually looks like aLock from another device’s point of view, the destination will look as if it is Locked from the GVGcontrol panels as well.
Table 4-3 Added Features
Feature Description
Lock / Unlock Locks or unlocks the requested destination on levelscontrolled by the GVG Horizon router.*
Chapter 4P12×1-SP Installation, Configuration, and Operation
40
Copyright © 2004-2007, 2008, 2010, Harris Corporation
References The following reference was used for implementing the protocol translation:
Grass Valley General Purpose Interface Terminal/Computer Interface (TC/I) Manual
RS-232/RS-422Jumper Orienta-
tion
Figure 4-9 shows the proper orientation for the RS-232 and RS-422 jumper. (SeeFigure 4-6 on page 34 for an illustration of the pin 1 reference point location.)
Preset Take Presets the Take of the source to the destination on thelevels selected that are controlled by the GVG Horizonrouter.
Preset Clear Clears all Presets previously entered but not yetexecuted.
Preset Execute Takes/executes all Presets previously entered.
Preset Status Request Looks through all previously entered Presets for thedestination and levels requested, and returns the statusof any Preset that affects that destination and level.
Frame Size Reports the highest valid destination number and sourcenumber for a level.
Frame Size Request Requests the highest valid destination number andsource number for a level.
* The GVG Horizon treats all commands received from the serial port as if they came from one device.The Protect feature as implemented by GVG does not actually Protect one Harris device from switchinga destination protected by another. Therefore, the LXYTOTSLUMD will assume that any destinationbeing reported by the Horizon as Protected is actually Locked from the Harris point of view and allswitch requests on that destination will be turned down until it is unprotected. In this fashion, the GVGHorizon Protect feature is being implemented as a Lock on the Harris control system. Therefore, bothLock and Protect requests coming from Harris devices end up operating as if the request was for a Lock.From a GVG control panel’s point of view (a control panel connected to the GVG Horizon), thedestination will be Protected by the serial port. Since a Protect placed by one device actually looks like aLock from another device’s point of view, the destination will look as if it is Locked from the GVGcontrol panels as well.
Table 4-3 Added Features
Feature Description
Panacea Lite Routing Switcher SeriesInstallation, Configuration, and Operation Manual
41
Copyright © 2004-2007, 2008, 2010, Harris Corporation
Figure 4-9 LXYTOHORIZ RS-232/RS-422 Jumper Orientation
DIP Switch Set-tings
Figure 4-10 on page 41 shows the proper DIP switch settings for thisconfiguration. Factory default items are marked with an asterisk (*).
Figure 4-10 LXYTOHORIZ DIP Switch Settings
Chapter 4P12×1-SP Installation, Configuration, and Operation
42
Copyright © 2004-2007, 2008, 2010, Harris Corporation
AdditionalSerial Ports
for HarrisRouters:LSERIAL
Use the LSERIAL configuration to activate the serial port on the Panacea Lite frame.In this application, the P12×1-SP will translate from RS-232/RS-422 to X-Y.
NOTE: See the Routing Switcher Serial Protocol Reference Operationand Reference Manual for more information about Harris ASCII andpass-through protocols.
The LSERIAL supports all functionality of Harris ASCII and pass-through protocols.The features supported are listed in Table 4-4 and Table 4-5 on page 43.
Table 4-4 Harris ASCII Protocol Commands
Feature Description
Destination Takes/switches the current source tothe requested destination on thecurrent level
Information Shows the current system status andsettings
Level Changes the current level (levels 0through 7 only)
Poll Returns a list of destinations currentlyswitched to the requested source onthe current level
Query Shows a list of available commands
Read Returns the status of all destinations onall levels
Source Changes the current source
Terminal [On|Off] Sets or clears Echo mode
Take Switches the requested source to therequested destination on the level(s)requested
Reset Resets the P12×1-SP module only (ifyou wish to reset the router, thecommand is @ z)
@ ? Allows you to enter pass-throughprotocol mode
@ ! Allows you to exit pass-throughprotocol mode
@ * Resets the current level and sourcevalues, and resends information to theterminal
Panacea Lite Routing Switcher SeriesInstallation, Configuration, and Operation Manual
43
Copyright © 2004-2007, 2008, 2010, Harris Corporation
References The following reference was used for implementing the protocol translation:
Routing Switcher Serial Protocol Reference Operation and Reference Manual,Edition D (May 2004), Leitch Technology, Chesapeake, Virginia
RS-232/RS-422Jumper Orienta-
tion
Figure 4-11 shows the proper orientation for the RS-232 and RS-422 jumper. (SeeFigure 4-6 on page 34 for an illustration of the pin 1 reference point location.)
Table 4-5 Pass-Through Protocol Commands
Feature Description
Direct Crosspoint Take Switches the source to the destinationon the level(s) requested
Request Crosspoint Status of an EntireLevel
Returns the status of destination on thelevel(s) requested
Protect / Unprotect Protects or unprotects the requesteddestination on the level(s) requestedusing the panel/device ID requested
Lock / Unlock Locks or unlocks the requesteddestination on the level(s) requestedusing the panel/device ID requested
Preset Crosspoint Presets the Take of the source to thedestination on the level(s) requested
Clear Presets Clears all presets previously entered butnot yet executed
Execute Preset Buffer Takes/executes all presets previouslyentered
Request Preset Crosspoint Status Looks through all previously enteredPresets for the destination and levelsrequested, and returns the status ofany preset that affects that destinationand level
Frame Size(occurs in response to a Frame SizeRequest command)
Reports the highest valid destinationnumber and source number for a level
Frame Size Request Requests the highest valid destinationnumber and source number for a level
Chapter 4P12×1-SP Installation, Configuration, and Operation
44
Copyright © 2004-2007, 2008, 2010, Harris Corporation
Figure 4-11 LSERIAL RS-232/RS-422 Jumper Orientation
DIP Switch Set-tings
Figure 4-12 on page 44 shows the proper DIP switch settings for thisconfiguration. Factory default items are marked with an asterisk (*).
Figure 4-12 LSERIAL DIP Switch Settings
Panacea Lite Routing Switcher SeriesInstallation, Configuration, and Operation Manual
45
Copyright © 2004-2007, 2008, 2010, Harris Corporation
X-Y to BARCOVIVALDI™:
LXYTOBARC
NOTE: This submodule can also be set up to operate in LSERIAL mode. Seepage 42 for more information about LSERIAL mode.
Use the LXYTOBARC configuration with the BARCO VIVALDI system1 so that eachof the four signals displayed in the VGA output of the VIVALDI will show the nameof the source being displayed. This adds an “under monitor display” capability tothe BARCO VIVALDI system when used with a Harris routing system.
The BARCO VIVALDI protocol is a simple, one-way communications protocol inwhich the P12×1-SP is the only device transmitting while the VIVALDI “listens.”The only message sent to the BARCO VIVALDI unit is a message specifying boththe “Address ID” for which the Source Identification (or text) should be set, andthe specific text to be displayed. The names of the sources are downloaded andstored in the P12×1-SP using RouterMapper™ software. The P12×1-SPautomatically centers the names in the VIVALDI display.
The VIVALDI unit requires a delay of at least 100ms between each message. Testingproved that with a delay of 300ms between each message, messages could becontinuously sent to the VIVALDI over an extended period of time without losingsynchronization in the communications between the LXYTOBARC and the VIVALDIunit.
To configure the router destinations which a VIVALDI display will follow, theLXYTOBARC simulates an RCP-ABA-XY panel. This allows RouterMapper to assignand download both the “Status” Source names to be displayed on the VIVALDI,and the destinations associated with each of the four VIVALDI VGA monitorwindows. To assign the Destinations, configure an RCP-ABA/XY so that the onlydestinations assigned are the four destinations to be displayed on the VIVALDIVGA monitor windows. Since the display text(s) are based on the “Status” Sourcenames, the “Logical Sources” are not required to be assigned (make sure not toassigned “Logical Sources” so the download can be processed faster).
Due to limited non-volatile memory storage, the LXYTOBARC can operate up to 32“Display IDs” (or logical Destinations) with one Level of up to 128 “Status” Sourcenames.
1 “VIVALDI” is a product of Scientific-Atlanta, headquartered in Atlanta, Georgia.
Chapter 4P12×1-SP Installation, Configuration, and Operation
46
Copyright © 2004-2007, 2008, 2010, Harris Corporation
Figure 4-13 Router Level Definitions Window
NOTE: The “Logical Destinations” are downloaded in logical order. After adownload from RouterMapper, the P12×1-SP requires at least 60 secondsof idle time for it to back up its data to the EEProm. To speed up thedownload process, do not assign the “Logical Sources.”
The Address ID must be in the order with the “Logical Destination” assigned fromRouterMapper (see Figure 4-14 on page 47). For example, “BARS 6” in the listwindow under the “This Panel” for “Logical Destination” is assigned to Address ID#1, “BARS 7” is assigned to Address ID #2, “BARS 8” is assigned to Address ID #3,etc.
Panacea Lite Routing Switcher SeriesInstallation, Configuration, and Operation Manual
47
Copyright © 2004-2007, 2008, 2010, Harris Corporation
Figure 4-14 BARCO VIVALDI Address ID Order
References The following reference was used for implementing the protocol translation:
BARCO Systems Instruction ManualPublication Number: TP3132-01Issue: A1Publication Date: October 1994
RS-232/RS-422Jumper Orienta-
tion
Figure 4-15 shows the proper orientation for the RS-232 and RS-422 jumper. (SeeFigure 4-6 on page 34 for an illustration of the pin 1 reference point location.)
Chapter 4P12×1-SP Installation, Configuration, and Operation
48
Copyright © 2004-2007, 2008, 2010, Harris Corporation
Figure 4-15 LXYTOBARC RS-232/RS-422 Jumper Orientation
DIP Switch Set-tings
Figure 4-16 on page 49 shows the proper DIP switch settings for thisconfiguration. Factory default items are marked with an asterisk (*).
Panacea Lite Routing Switcher SeriesInstallation, Configuration, and Operation Manual
49
Copyright © 2004-2007, 2008, 2010, Harris Corporation
Figure 4-16 LXYTOBARC DIP Switch Settings
Chapter 4P12×1-SP Installation, Configuration, and Operation
50
Copyright © 2004-2007, 2008, 2010, Harris Corporation
X-Y Controlof Datatek®
Routers:LXYTODATEK
NOTE: This submodule can also be set up to operate in LSERIAL mode. Seepage 42 for more information about LSERIAL mode.
To control a Datatek1 router via Harris control panels or automation software, usethe LXYTODATEK configuration in conjunction with the Datatek router. In thisapplication, the P12×1-SP will convert from X-Y to Datatek protocol.
The Datatek protocol is a bidirectional RS-232/RS-422 (default is RS-232) protocolwhere all communications are initiated by the controller (in this case the controlleris the LXYTODATEK). The LXYTODATEK comes up, sends a DEL character to resetthe Datatek communications and begins to search for frames by sending outExpanded Tally Requests to the Datatek port. When it receives a status responsefrom this request, the LXYTODATEK uses the information to determine the levelsand size of the Datatek router connected to it. From this point on, communicationswith the Datatek router are limited to an “as-needed” basis.
The LXYTODATEK will wait for each character (other than the DEL/reset character)to be echoed back to it. This wait will be at least 3-character times (changes basedon the baud-rate set). The LXYTODATEK will also guarantee at least 20 msbetween messages as recommended in the Datatek protocol documentation.
The LXYTODATEK will wait at least 1 second for a response to each message sentto the Datatek router. This is 1 second from the last character of a message to thefirst byte of a response. If a response is received earlier than the 1 second, theLXYTODATEK will begin transmitting the next message (if any are pending). Thistiming guarantees the Datatek router has enough time to process each message.
The LXYTODATEK supports the following functionality of the Datatek protocol:
1 “Datatek” is a trademark of Datatek Corp, Mountainside, New Jersey.
Table 4-6 Supported Functionality
Feature Description
Take Switches the source to the destinationon the requested levels controlled bythe Datatek router
Status Request Returns the status of the requesteddestination controlled by the Datatekrouter
Protect / Unprotect Protects or unprotects the requesteddestination on all levels (Datatek callsthis feature “LOCK”)
IMPORTANT: Datatek treats all communications from its serial port as if they werecoming from one device with an ADDR/ID of 253. This prevents the LXYTODATEK fromsending the actual ADDR/ID of the panel which requested a Protect to the Datatek routerTherefore, the Protect feature has been implemented as a Lock. In this implementation,any panel can apply or remove the Lock. This is done to prevent a panel at an addressother than the one applying a Protect from being able to switch the Protecteddestination.
Panacea Lite Routing Switcher SeriesInstallation, Configuration, and Operation Manual
51
Copyright © 2004-2007, 2008, 2010, Harris Corporation
The following features have been added to the operation of the Datatek tosupport features expected by the Harris protocol:
References The following reference was used for implementing the protocol translation:
Datatek D-2800 Series Routing Switcher SystemsVolume 1
RS-232/RS-422Jumper Orienta-
tion
Figure 4-17 shows the proper orientation for the RS-232 and RS-422 jumper. (SeeFigure 4-6 on page 34 for an illustration of the pin 1 reference point location.)
Lock Locks or unlocks the requesteddestination on all levels controlled bythe Datatek router
IMPORTANT: Read Protect/Unprotect above for more details.
Preset Take Presets the Take of the source to thedestination on the levels controlled bythe Datatek router
Preset Clear Clears all Presets previously entered butnot yet executed
Preset Execute Takes/executes all Presets previouslyentered
Preset Status Request Looks through all previously enteredPresets for the destination and levelrequested, and returns the status ofany Preset that affects that destinationand level
Table 4-7 Added Features
Feature Description
Frame size Reports the highest valid destinationnumber and source number for a level
Frame size request Requests the highest valid destinationnumber and source number for a level
Table 4-6 Supported Functionality (Continued)
Feature Description
Chapter 4P12×1-SP Installation, Configuration, and Operation
52
Copyright © 2004-2007, 2008, 2010, Harris Corporation
Figure 4-17 LXYTODATEK RS-232/RS-422 Jumper Orientation
DIP Switch Set-tings
Figure 4-18 on page 53 shows the proper DIP switch settings for thisconfiguration. Factory default items are marked with an asterisk (*).
Panacea Lite Routing Switcher SeriesInstallation, Configuration, and Operation Manual
53
Copyright © 2004-2007, 2008, 2010, Harris Corporation
Figure 4-18 LXYTODATEK DIP Switch Settings
Chapter 4P12×1-SP Installation, Configuration, and Operation
54
Copyright © 2004-2007, 2008, 2010, Harris Corporation
X-Y Controlof GVG®
20-TEN™
Routers:LXYTOGVG20
NOTE: This submodule can also be set up to operate in LSERIAL mode. Seepage 42 for more information about LSERIAL mode.
To control a GVG 20-TEN1 router via Harris control panels or automation software,use the LXYTOGVG20 in conjunction with the GVG router. In this application, theP12×1-SP will convert from X-Y to GVG protocol.
The LXYTOGVG20 supports all functionality of the Grass Valley/Tektronix 20-TENprotocol. As the Harris protocol includes several features which are not supportedby Grass Valley, the LXYTOGVG20 adds those features to the control operation ofthe 20-TEN. Standard protocol features are listed in Table 4-8. Additional protocolfeatures are listed in Table 4-9.
References The following reference was used for implementing the protocol translation:
Grass Valley 20-TEN Compact Routing Systems Instruction Manual, PublicationNumber TP3132-01, Issue A1 (October 1994)
1 The GVG 20-TEN routing switcher, and corresponding router interface and automation sys-tem software are products of Grass Valley Group, Nevada City, California.
Table 4-8 Standard Protocol Features
Feature Description
Take Takes/switches the source to the destination on thefour levels controlled by the GVG 20-TEN router
Status Request Returns the status of all four levels controlled by theGVG 20-TEN router
Protect / Unprotect Protects or un-protects the requested destination on allfour levels controlled by the GVG 20-TEN router
Table 4-9 Additional Protocol Features
Feature Description
Lock Locks or unlocks the requested destination of all fourlevels controlled by the GVG 20-TEN router
Preset Take Presets the Take of the source to the destination on allfour levels controlled by the GVG 20-TEN router
Preset Clear Clears all Presets previously entered but not yetexecuted
Preset Execute Takes/executes all Presets previously entered
Preset Status Request Looks through all previously entered Presets for thedestination and levels requested, and returns the statusof any Preset that affects that destination and level
Frame Size Reports the highest valid destination number andsource number for a level
Frame Size Request Requests the highest valid destination number andsource number for a level
Panacea Lite Routing Switcher SeriesInstallation, Configuration, and Operation Manual
55
Copyright © 2004-2007, 2008, 2010, Harris Corporation
RS-232/RS-422Jumper Orienta-
tion
Figure 4-19 shows the proper orientation for the RS-232 and RS-422 jumper. (SeeFigure 4-6 on page 34 for an illustration of the pin 1 reference point location.)
Figure 4-19 LXYTOGVG20 RS-232/RS-422 Jumper Orientation
DIP Switch Set-tings
Figure 4-20 on page 56 shows the proper DIP switch settings for thisconfiguration. Factory default items are marked with an asterisk (*).
Chapter 4P12×1-SP Installation, Configuration, and Operation
56
Copyright © 2004-2007, 2008, 2010, Harris Corporation
Figure 4-20 LXYTOGVG20 DIP Switch Settings
Panacea Lite Routing Switcher SeriesInstallation, Configuration, and Operation Manual
57
Copyright © 2004-2007, 2008, 2010, Harris Corporation
X-Y Controlof a Remote
Router viaModem:
LXYTOMO-DEM
Use the LXYTOMODEM configuration to allow remote control a of Harris routerusing Harris X-Y control panels. In this application, the P12×1-SP translates fromX-Y protocol to the RS-232 required by the modem. The P12×1-SP does notcommunicate with the modem; it expects the modem connection to look like a“wired” connection. Therefore, the LXYTOMODEM configuration should not beused when a dial-up connection is required, unless the modem pairs hide thisfunction from the P12×1-SP.
NOTE: See the Serial Protocol Reference for more information aboutpass-through protocol.
The LXYTOMODEM supports all functionality of pass-through protocol. Thefeatures supported are as follows:
References The following reference was used for implementing the protocol translation:
Routing Switcher Serial Protocol Reference Operation and Reference Manual,Edition D (May 2004), Leitch Technology, Chesapeake, Virginia
Table 4-10 Pass-Through Protocol Features
Feature Description
Take Switches the source to the destinationon the level(s) requested
Status request Returns the status of destination on thelevel(s) requested
Protect / Unprotect Protects or unprotects the requesteddestination on the level(s) requestedusing the panel/device ID requested
Lock / Unlock Locks or unlocks the requesteddestination on the level(s) requestedusing the panel/device ID requested
Preset Take Presets the Take of the source to thedestination on the level(s) requested
Preset Clear Clears all presets previously entered butnot yet executed
Preset Execute Takes/executes all presets previouslyentered
Preset Status Request Looks through all previously enteredPresets for the destination and levelsrequested, and returns the status ofany preset that affects that destinationand level
Frame Size Reports the highest valid destinationnumber and source number for a level
Frame Size Request Requests the highest valid destinationnumber and source number for a level
Chapter 4P12×1-SP Installation, Configuration, and Operation
58
Copyright © 2004-2007, 2008, 2010, Harris Corporation
RS-232/RS-422Jumper Orienta-
tion
Figure 4-21 shows the proper orientation for the RS-232 and RS-422 jumper. (SeeFigure 4-6 on page 34 for an illustration of the pin 1 reference point location.)
Figure 4-21 LXYTOMODEM RS-232/RS-422 Jumper Orientation
DIP Switch Set-tings
Figure 4-22 on page 59 shows the proper DIP switch settings for thisconfiguration. Factory default items are marked with an asterisk (*).
Panacea Lite Routing Switcher SeriesInstallation, Configuration, and Operation Manual
59
Copyright © 2004-2007, 2008, 2010, Harris Corporation
Figure 4-22 LXYTOMODEM DIP Switch Settings
Chapter 4P12×1-SP Installation, Configuration, and Operation
60
Copyright © 2004-2007, 2008, 2010, Harris Corporation
X-Y Controlof Mega-
hertz® UnderMonitor Dis-
plays:LXYTOMH-
zUMD
NOTE: This submodule can also be set up to operate in LSERIAL mode. Seepage 42 for more information about LSERIAL mode.
Use the LXYTOMHzUMD configuration with the Megahertz Under Monitor Display(UMD)1. The Megahertz UMD is assigned a Destination to display the status nameof the Source that is currently switched to its Destination. In this case, theMegahertz UMD uses TSL protocol. The status of the Destinations and switching isin X-Y protocol. As a result, it is necessary to use this P12×1-SP to translate the X-Yprotocol to Megahertz UMD using TSL protocol. The P12×1-SP statuses the properDestinations for the UMD(s) to display. When the status is received for each of theUMD(s) on the P12×1-SP branch of the X-Y bus, the P12×1-SP translates thatstatus to TSL protocol and transmits this information over the RS-422 line to theUMD to display. Effectively, this adds the option to use Megahertz Under MonitorDisplays in the Harris routing and control system.
The Megahertz UMD protocol is a simple, one-way communications protocol inwhich the P12×1-SP is the only device transmitting and each Megahertz UMD“listens.” The only message sent to the UMD unit is a message specifying both the“Address ID” for which the Source identification (or text) should be set, and thespecific text to be displayed. The names of the sources are downloaded and storedin the P12×1-SP using RouterMapper configuration utility software.
LXYTOMHzUMDRouterMapperConfiguration
Procedures
NOTE: For a more detailed explanation of these procedures, see theRouterMapper Configuration Utility Reference Guide.
The following procedures and information are necessary to have each MegahertzUMD to display their destination's status correctly. You can make these changesthrough RouterMapper configuration utility software.
There are three main steps to completing this procedure:
1 Polling the system (see page 61)
2 Deleting the sources to the UMD (see page 61)
3 Assigning Destinations (see page 63)
1 The Megahertz Under Monitor Display is a product of Megahertz Broadcast Systems Ltd.,Cambridge, United Kingdom.
Panacea Lite Routing Switcher SeriesInstallation, Configuration, and Operation Manual
61
Copyright © 2004-2007, 2008, 2010, Harris Corporation
Step 1: Polling the System
NOTE: Each UMD represents or displays the status of one Destination.
In RouterMapper, a Poll of the system will show that each LXYTOMHzUMD isrecognized as an RCP ABA-XY control panel. This allows the RouterMappersoftware to assign and download both the “Status” Source names to be displayedon the Megahertz UMD, and the Destination associated with each display.
Figure 4-23 Poll Shows LXYTOMHzUMD as RCP ABA-XY
Step 2: Deleting the Megahertz UMD Sources
This step is performed because only Destinations are monitored by the MegahertzUMD. Source information is not necessary and, by deleting the Sources associatedwith the Megahertz UMD, the download time will be decreased.
To delete Sources, follow these steps:
1 At the RouterMapper main menu screen, highlight the name of the item thathas the Sources you want to delete.
2 Select Edit.
Chapter 4P12×1-SP Installation, Configuration, and Operation
62
Copyright © 2004-2007, 2008, 2010, Harris Corporation
Figure 4-24 Choosing the Item that Has the Sources to Delete
3 At the Assignments tab, select Delete All for Sources.
Figure 4-25 Deleting Sources
Panacea Lite Routing Switcher SeriesInstallation, Configuration, and Operation Manual
63
Copyright © 2004-2007, 2008, 2010, Harris Corporation
Step 3: Assigning the Destinations
Each Megahertz UMD must have its own Address ID. The Address ID is assigned toeach Megahertz UMD from the front panel. The Megahertz Under Monitor DisplayUser Manual contains instructions for assigning an Address ID.
Once each Megahertz UMD has its own Address ID, the Destinations must beassigned to these Address IDs so that the proper Megahertz UMD will monitor theproper Destination.
To assign Destinations, follow these steps:
1 At the Assignment tab, select Delete All for Destinations.
Figure 4-26 Deleting Destinations
2 Select the proper Destinations from the Global Database box (make sure theyare sorted in Logical sort order) to assign the Destinations.
Chapter 4P12×1-SP Installation, Configuration, and Operation
64
Copyright © 2004-2007, 2008, 2010, Harris Corporation
Figure 4-27 Assigning Destinations
Note that these destinations will list in numeric physical order and that theproper Megahertz UMD must be in this order from the P12×1-SP in itsphysical order.
NOTE: Destinations are downloaded in numerical order. After a downloadfrom RouterMapper, the P12×1-SP needs at least 60 seconds of idle timefor it to back up the data to the EEProm. To increase this download speed,do not assign Sources.
For example:
Dest 7 must be assigned the UMD Address 1. (This panel should bephysically located first, following the P12×1-SP in its branch, becauseits physical location is first in this two-destination monitoringexample.)
Dest 8 must be assigned the UMD Address 2, etc.
Due to limited non-volatile memory storage, the LXYTOMHzUMD canoperate up to 32 “Display IDs” with one level of up to 128 “Status”source names.
Editing Text Dis-played on the
Megahertz UMD
The status Source names are displayed when the Megahertz UMD displays thestatus of its Destination. The status Source name is the name of the Source that isswitched to that Destination.
To edit these Status Source Names, follow these steps:
1 At the RouterMapper main menu screen, highlight the name of the item thathas the status Source name text you want to edit.
Panacea Lite Routing Switcher SeriesInstallation, Configuration, and Operation Manual
65
Copyright © 2004-2007, 2008, 2010, Harris Corporation
2 Select Sources.
Figure 4-28 Editing Status Source Names
3 Select the Status Names tab.
4 Change the names of the Sources.
Figure 4-29 Renaming Status Sources
Chapter 4P12×1-SP Installation, Configuration, and Operation
66
Copyright © 2004-2007, 2008, 2010, Harris Corporation
LXYTOMHzUMDMonitoring Lev-
els
The LXYTOMHzUMD only statuses the Level of the Destination that is associatedwith the level of the source. That means that if there is a source on only Levels 2and 3 and the destination is on Level 1, the Source will not be switched to thatDestination; therefore, the UMD will not display the switched Status Source name.
The P12×1-SP will control the lowest Level of the first Destination. Therefore, if thefirst Destination is on Level 1, all status of Destinations for that P12×1-SP will showLevel 1 status. If the first Destination is on Level 2, all status of Destinations for thatP12×1-SP will show Level 2 status, and ignore what occurs other levels.
To monitor multiple levels, an P12×1-SP branch for each Level must be installed.
References The following reference was used for implementing the protocol translation:
Megahertz Under Monitor Display User Manual, Issue 2Issue A2-00, Version 0.10B (February 25, 1997)
RS-232/RS-422Jumper Orienta-
tion
Figure 4-30 shows the proper orientation for the RS-232 and RS-422 jumper. (SeeFigure 4-6 on page 34 for an illustration of the pin 1 reference point location.)
Figure 4-30 LXYTOMHzUMD RS-232/RS-422 Jumper Orientation
DIP Switch Set-tings
Figure 4-31 on page 67 shows the proper DIP switch settings for thisconfiguration. Factory default items are marked with an asterisk (*).
Panacea Lite Routing Switcher SeriesInstallation, Configuration, and Operation Manual
67
Copyright © 2004-2007, 2008, 2010, Harris Corporation
Figure 4-31 LXYTOMHzUMD DIP Switch Settings
Chapter 4P12×1-SP Installation, Configuration, and Operation
68
Copyright © 2004-2007, 2008, 2010, Harris Corporation
X-Y to UnderMonitor Dis-
play UsingTSL® Proto-
col:LXYTOT-
SLUMD
TNOTE: his submodule can also be set up to operate in LSERIAL mode. Seepage 42 for more information about LSERIAL mode.
Use the LXYTOTSLUMD configuration with any under monitor display (UMD) thatuses TSL protocol1, such as the Megahertz Under Monitor Display. The UMD isassigned a destination to display the status name of the source that is currentlyswitched to its destination. In this case the UMD uses TSL protocol. The status ofthe Destinations and switching is in X-Y protocol. So it is necessary to use thisP12×1-SP to translate the X-Y protocol to TSL protocol. The P12×1-SP statuses theproper destinations for the UMD(s) to display. When the status is received for eachof the UMD(s) on the P12×1-SP branch of the X-Y bus, the P12×1-SP translatesthat status to TSL protocol and transmits this information over the RS-422 line tothe UMD to display.
The TSL UMD protocol is a simple, one-way communications protocol in which theP12×1-SP is the only device transmitting and each TSL UMD “listens.” The onlymessage sent to the TSL unit is a message specifying both the “Address ID” forwhich the Source Identification (or Text) should be set, and the specific text to bedisplayed. The names of the sources are downloaded and stored in the P12×1-SPusing RouterMapper configuration utility software.
LXYTOTSLUMDRouterMapperConfiguration
Procedure
NOTE: The following information is for use with RouterMapperconfiguration utility software.
Follow these steps to have each TSL UMD display its Destination’s status correctly.
1 Polling the system (see page 69).
2 Deleting Sources to the UMD (see page 69).
3 Assigning the Destinations (see page 71).
1 TSL protocol and the Megahertz Under Monitor Display are products of Television SystemsLimited, Maidenhead, Berkshire, UK.
Panacea Lite Routing Switcher SeriesInstallation, Configuration, and Operation Manual
69
Copyright © 2004-2007, 2008, 2010, Harris Corporation
Step 1: Polling the System
Each UMD represents or displays the status of one Destination.
In RouterMapper, a Poll of the system will show that each LXYTOTSLUMD isrecognized as an RC-ABA/XY control panel. This allows RouterMapper to assignand download both the “Status” source names to be displayed on the TSL UMD,and the destinations associated with each of the display(s).
Figure 4-32 A Poll Showing LXYTOTSLUMD as RCP-ABA/XY
Step 2: Deleting the Sources to the UMD
Only Destinations are monitored by the LXYTOTSLUMD; therefore, by deleting thesources to the TSL UMD, the download time will be decreased.
1 Choose Edit from the main menu window.
Chapter 4P12×1-SP Installation, Configuration, and Operation
70
Copyright © 2004-2007, 2008, 2010, Harris Corporation
Figure 4-33 Edit the LXYTOTSLUMD
2 At the Assignments screen for Sources, choose Delete All.
Figure 4-34 Delete Sources to the LXYTOTSLUMD
Panacea Lite Routing Switcher SeriesInstallation, Configuration, and Operation Manual
71
Copyright © 2004-2007, 2008, 2010, Harris Corporation
Step 3: Assigning the Destinations
Each UMD must have its own Address ID. The Address ID is assigned on each UMDfrom the front panel. Directions for assigning an Address ID can be found in theMegahertz Under Monitor Display User Manual.
Once each UMD has its own Address ID, the Destinations must be assigned tothese UMD Address IDs so that the proper UMD will monitor the properDestination.
1 Edit the panel again and select the Assignment tab.
2 At the Destination, select Delete All.
Figure 4-35 Delete Destinations of the LXYTOTSLUMD
3 Assign the Destinations by selecting the proper destination in logical order.
Chapter 4P12×1-SP Installation, Configuration, and Operation
72
Copyright © 2004-2007, 2008, 2010, Harris Corporation
Figure 4-36 Assign Destinations of the LXYTOTSLUMD
These Destinations will list in numeric physical order; the proper UMD must be inthis order from the P12×1-SP in its physical order.
For example
Dest 7 must be assigned the UMD Address 1 (This UMD should be physicallylocated first following the P12×1-SP in its branch, because its physical locationis first in this two destination monitoring example.)
Dest 8 must be assigned the UMD Address 2, etc.
Because of limited memory storage, the LXYTOTSLUMD can operate up to 32Display IDs with one level of up to 128 Status Source names.
The LXYTOTSLUMD can operate only one level (the level is determined from thefirst download logical Destination’s control level).
The Destinations are downloaded in numerical order. After a download fromRouterMapper, the P12×1-SP requires at least 60 seconds of idle time for it to backup the data to the EEProm. To increase this download speed, do not assign Sourcesto the LXYTOTSLUMD.
Text Displayed onthe UMD
Status Source names are displayed when the UMD displays the status of itsDestination. The Status Source name is the name of the Source that is switched tothat Destination. Follow these steps to edit these Status Source names.
1 Select Source from the RouterMapper main window.
2 Select the Status Sources tab.
3 Edit the names of the Sources.
Panacea Lite Routing Switcher SeriesInstallation, Configuration, and Operation Manual
73
Copyright © 2004-2007, 2008, 2010, Harris Corporation
Figure 4-37 Editing Status Source Names
Monitoring Levels The LXYTOTSLUMD only statuses the Level of the Destination that is associatedwith the Level of the Source; that is, if there is a Source on Levels 2 and 3 only andthe destination is on Level 1, the source will not be switched to that Destinationand the UMD will not display the switched Status Source name.
The P12×1-SP will control the lowest level of the first destination. Therefore, if thefirst Destination is on Level 1, all status of destinations for that P12×1-SP will showLevel 1 status. If the first destination is on Level 2, all status of destinations for thisP12×1-SP will show Level 2 status, and ignore what occurs on other Levels.
Chapter 4P12×1-SP Installation, Configuration, and Operation
74
Copyright © 2004-2007, 2008, 2010, Harris Corporation
Figure 4-38 Renaming Status Source Names
To monitor multiple Levels, install an P12×1-SP branch for each Level.
References The following documentation used as a reference for implementing the protocoltranslation:
Megahertz Under Monitor Display User Manual, Issue 2Issue: A2-00, Version 0.10B (25/02/97)
RS-232/RS-422Jumper Orienta-
tion
Figure 4-39 shows the proper orientation for the RS-232 and RS-422 jumper. (SeeFigure 4-6 on page 34 for an illustration of the pin 1 reference point location.)
Panacea Lite Routing Switcher SeriesInstallation, Configuration, and Operation Manual
75
Copyright © 2004-2007, 2008, 2010, Harris Corporation
Figure 4-39 LXYTOTSLUMD RS-232/RS-422 Jumper Orientation
DIP Switch Set-tings
Figure 4-40 on page 76 shows the proper DIP switch settings for thisconfiguration. Factory default items are marked with an asterisk (*).
Chapter 4P12×1-SP Installation, Configuration, and Operation
76
Copyright © 2004-2007, 2008, 2010, Harris Corporation
Figure 4-40 LXYTOTSLUMD DIP Switch Settings
Panacea Lite Routing Switcher SeriesInstallation, Configuration, and Operation Manual
77
Copyright © 2004-2007, 2008, 2010, Harris Corporation
X-Y Controlof V-LAN™
Systems:LXYTOVLAN
NOTE: This submodule can also be set up to operate in LSERIAL mode. Seepage 42 for more information about LSERIAL mode.
The LXYTOVLAN configuration allows control of a VTR using Harris control panelsor software. In this application, the P12×1-SP translates from X-Y to V-LAN1
protocol. Only one LXYTOVLAN is required, regardless of the number of VTRs to becontrolled.
The LXYTOVLAN supports the following VTR/machine control functions:
The V-LAN protocol was written to support execution of a VTR/machine controlevent at a specific Timecode reference. However, the Harris control system will notrequest the Timecode reference. All actions, therefore, will occur on an ASAP basis.
References The following reference was used for implementing the protocol translation:
V-LAN Technical Reference Manual, Version 4.0 (May 1995)
RS-232/RS-422Jumper Orienta-
tion
Figure 4-41 shows the proper orientation for the RS-232 and RS-422 jumper. (SeeFigure 4-6 on page 34 for an illustration of the pin 1 reference point location.)
1 “V-LAN” is a trademark of Videomedia, Inc., Athol, Idaho.
Table 4-11 Supported VTR/Machine Control Functions
Function Description
Stop Stops the VTR operation
Play Starts the VTR operation
Fast-forward Fast-forwards the VTR
Rewind Rewinds the VTR
Ready Cues (sets the device to be ready for play) the VTR to thecurrent point on tape without moving the tape
Mark Bookmarks the current point; this becomes the marked pointfor subsequent CUE commands
Cue Searches for the marked point and cues the VTR at that point
Record Starts the VTR recording action
Chapter 4P12×1-SP Installation, Configuration, and Operation
78
Copyright © 2004-2007, 2008, 2010, Harris Corporation
Figure 4-41 LXYTOVLAN RS-232/RS-422 Jumper Orientation
DIP Switch Set-tings
Figure 4-42 on page 79 shows the proper DIP switch settings for thisconfiguration. Factory default items are marked with an asterisk (*).
Panacea Lite Routing Switcher SeriesInstallation, Configuration, and Operation Manual
79
Copyright © 2004-2007, 2008, 2010, Harris Corporation
Figure 4-42 LXYTOVLAN DIP Switch Settings
Chapter 4P12×1-SP Installation, Configuration, and Operation
80
Copyright © 2004-2007, 2008, 2010, Harris Corporation
X-Y Controlof XPRESS
Routers:LXYTOXPRS
Use the LXYTOXPRS to translate from X-Y to XPRESS protocol. In normaloperation, the XPRESS router can only be used with XPRESS control panels. Thecontrol cabling for these panels is limited to 100 ft (30 m). If a different controlpanel style or a longer cable run is desired, the LXYTOXPRS can be used inconjunction with the XPRESS router.
The LXYTOXPRS supports all functionality of the pass-through protocol (see Table4-12).
References The following reference was used for implementing the protocol translation:
Routing Switcher Serial Protocol Reference Operation and Reference Manual,Edition D (May 2004), Leitch Technology, Chesapeake, Virginia.
RS-232/RS-422Jumper Orienta-
tion
Figure 4-43 shows the proper orientation for the RS-232 and RS-422 jumper. (SeeFigure 4-6 on page 34 for an illustration of the pin 1 reference point location.)
Table 4-12 Pass-Through Protocol Commands
Protocol Command Feature Description
Direct Crosspoint Take Switches the source to the destinationon the level(s) requested
Request Crosspoint Status of anEntire Level
Returns the status of destination on thelevel(s) requested
Preset Crosspoint Presets the Take of the source to thedestination on the level(s) requested
Clear Presets Clears all presets previously entered butnot yet executed
Execute Preset Buffer Takes/executes all Presets previouslyentered
Request Preset Crosspoint Status Looks through all previously enteredPresets for the destination and levelrequested and returns the status of anyPreset that affects that destination andlevel
Frame Size(occurs in response to a Frame SizeRequest command)
Reports the highest valid destinationnumber and source number for a level
Frame Size Request Requests the highest valid destinationnumber and source number for a level
Panacea Lite Routing Switcher SeriesInstallation, Configuration, and Operation Manual
81
Copyright © 2004-2007, 2008, 2010, Harris Corporation
Figure 4-43 LXYTOXPRS RS-232/RS-422 Jumper Orientation
DIP Switch Set-tings
Figure 4-44 on page 82 shows the proper DIP switch settings for thisconfiguration. Factory default items are marked with an asterisk (*).
Chapter 4P12×1-SP Installation, Configuration, and Operation
82
Copyright © 2004-2007, 2008, 2010, Harris Corporation
Figure 4-44 LXYTOXPRS DIP Switch Settings
Panacea Lite Routing Switcher SeriesInstallation, Configuration, and Operation Manual
83
Copyright © 2004-2007, 2008, 2010, Harris Corporation
X-Y Controlof Another
X-YP12×1-SP:LXYTOXY
Use the LXYTOXY to allow remote control of a Harris router using Harris X-Ycontrol panels. In this application, the P12×1-SP translates from X-Y protocol tothe RS-232 required by the modem and then translates from RS-232 back to X-Yon the remote site. Using another LXYTOXY on the remote site allows the modemconnection to filter out the “random characters/noise.” The LXYTOXY does notcommunicate with the modem, it expects the modem connection to look like a“wired” connection. Therefore, the LXYTOXY should not be used when a dial-upconnection is required, unless the modem pairs hide this function from theLXYTOXY.
The LXYTOXY supports all functionality of pass-through protocol. Table 4-13 liststhe features supported.
References The following reference was used for implementing the protocol translation:
Routing Switcher Serial Protocol Reference Operation and Reference Manual,Edition D (May 2004), Leitch Technology, Chesapeake, Virginia
RS-232/RS-422Jumper Orienta-
tion
Figure 4-45 shows the proper orientation for the RS-232 and RS-422 jumper. (SeeFigure 4-6 on page 34 for an illustration of the pin 1 reference point location.)
Table 4-13 Pass-through Protocol
Protocol Description
Take Switches a Source to the Destination on the Level(s)requested
Status Request Returns the status of a Destination on the Level(s)requested
Protect / Unprotect Protects or unprotects the requested Destination on theLevel(s) requested using the Panel/Device ID requested
Lock / Unlock Locks or unlocks the requested Destination on theLevel(s) requested using the Panel/Device ID requested
Preset Take Presets the Take of the Source to the Destination on theLevel(s) requested
Preset Clear Clears all Presets previously entered but not yet executed
Preset Execute Takes/executes all Presets previously entered
Preset Status Request Looks through all previously entered Presets for theDestination and Levels requested, and returns the statusof any Preset that affects that Destination and Level
Frame Size Reports the highest valid Destination number and Sourcenumber for a Level
Frame Size Request Requests the highest valid Destination number andSource number for a Level
Chapter 4P12×1-SP Installation, Configuration, and Operation
84
Copyright © 2004-2007, 2008, 2010, Harris Corporation
Figure 4-45 LXYTOXY RS-232/RS-422 Jumper Orientation
DIP Switch Set-tings
Figure 4-46 on page 85 shows the proper DIP switch settings for thisconfiguration. Factory default items are marked with an asterisk (*).
Panacea Lite Routing Switcher SeriesInstallation, Configuration, and Operation Manual
85
Copyright © 2004-2007, 2008, 2010, Harris Corporation
Figure 4-46 LXYTOXY DIP Switch Settings
Chapter 4P12×1-SP Installation, Configuration, and Operation
86
Copyright © 2004-2007, 2008, 2010, Harris Corporation
X-Y Controlof RemoteRouter via
Modem:LXYTO4800
(Special 4800or 9600 Baud
Rate)
Use the LXYTO4800 to allow remote control of a Harris router using Harris X-Ycontrol panels. In this application, the P12×1-SP translates from X-Y protocol tothe RS-232 required by the modem. The LXYTO4800 does not communicate withthe modem; it expects the modem connection to look like a “wired” connection.The LXYTO4800 configuration should not be used when a dial-up connection isrequired, unless the modem pairs hide this function from the LXYTO4800.
The LXYTO4800 supports all functionality of pass-through protocol. The featuressupported are listed in Table 4-14.
References The following reference was used for implementing the protocol translation:
Routing Switcher Serial Protocol Reference Operation and Reference Manual,Edition D (May 2004), Leitch Technology, Chesapeake, Virginia
Table 4-14 Pass-through Protocol
Protocol Command Description
Direct Crosspoint Take Switches a Source to a Destination on theLevel(s) requested
Request Preset CrosspointStatus On Level
Returns the status of a Destination on theLevel(s) requested
Protect / Unprotect Protects or unprotects a requested Destinationon the Level(s) requested using the Panel/Device ID requested
Lock / Unlock Locks or unlocks a requested Destination onthe Level(s) requested using the Panel/DeviceID requested
Preset Crosspoint Presets the Take of a Source to a Destinationon the Level(s) requested
Clear Presets Clears all Presets previously entered but notyet executed
Execute Preset Buffer Takes/executes all Presets previously entered
Request Preset CrosspointStatus
Looks through all previously entered Presetsfor the Destination and Levels requested, andreturns the status of any Preset that affectsthat Destination and Level
Frame Size Reports the highest valid Destination numberand source number for a Level (appears inresponse to a Frame Size Request command)
Frame Size Request Requests the highest valid Destination numberand Source number for a Level
Panacea Lite Routing Switcher SeriesInstallation, Configuration, and Operation Manual
87
Copyright © 2004-2007, 2008, 2010, Harris Corporation
RS-232/RS-422Jumper Orienta-
tion
Figure 4-47 shows the proper orientation for the RS-232 and RS-422 jumper. (SeeFigure 4-6 on page 34 for an illustration of the pin 1 reference point location.)
Figure 4-47 LXYTO4800 RS-232/RS-422 Jumper Orientation
DIP Switch Set-tings
Figure 4-48 on page 88 shows the proper DIP switch settings for thisconfiguration. Factory default items are marked with an asterisk (*).
Chapter 4P12×1-SP Installation, Configuration, and Operation
88
Copyright © 2004-2007, 2008, 2010, Harris Corporation
Figure 4-48 LXYTO4800 DIP Switch Settings
Panacea Lite Routing Switcher SeriesInstallation, Configuration, and Operation Manual
89
Copyright © 2004-2007, 2008, 2010, Harris Corporation
X-Y Controlof Light-
wave®
Matrix-HubSeries 1000™
Switcher:LXYTOLIGHT-
WAVE
NOTE: This submodule can also be set up to operate in LSERIAL mode. Seepage 42 for more information about LSERIAL mode.
Use the LXYTOLIGHTWAVE configuration with a Harris routing switcher to allowcontrol of the switcher via automation system software written for the LightwaveMatrix-Hub Series 1000 matrix switch1. The P12×1-SP translates X-Y commands toLightwave commands, and Lightwave responses to X-Y responses. The Lightwaveproduct interfaces to the P12×1-SP serial port, and X-Y interfaces to the P12×1-SPX-Y BNC port. In this application, the P12×1-SP will translate from Matrix-Hubprotocol to the protocol required by the Harris routing switcher.
The LXYTOLIGHTWAVE protocol is an RS-232 protocol. When theLXYTOLIGHTWAVE is powered-up, it requires approximately 4 seconds to updatethe internal status table.
System andMatrix-Hub Dis-
covery
System Discovery LXYTOLIGHTWAVE supports the discovery of a new Matrix-Hub router, and theloss of communication with the previously discovered Matrix-Hub.LXYTOLIGHTWAVE will also query and report alarms for the connectedMatrix-Hub.
Matrix-HubDiscovery
The LXYTOLIGHTWAVE will go into a discovery sequence on startup. During thediscovery sequence the unit will establish the frame size, and crosspoint connectsof the connected Matrix-Hub. Crosspoint information will then be relayed back toX-Y.
The default password (mh1) is case-sensitive. The system will not respond to thedefault password if it is entered in all-caps or caps-lowercase.
The LXYTOLIGHTWAVE will remain in discovery until the following eventscomplete:
1 The Lightwave unit accepts and responds to the default password “mh1.”
2 A Lightwave CL message is sent to the Matrix-Hub to query frame size.
3 A Lightwave CL response message is received to indicate the frame size arereceived.
4 The frame size is sent on X-Y.
5 A Lightwave CS message is sent for each level found during frame sizediscovery to query crosspoints at each level.
6 A Lightwave CS response is received for each level queried.
7 Data from each crosspoint disclosed in the CS response message is sent via anS: message to X-Y.
1 The Lightwave Matrix-Hub Series 1000 matrix switch is a product of Lightwave Communi-cations, Milford Connecticut.
Chapter 4P12×1-SP Installation, Configuration, and Operation
90
Copyright © 2004-2007, 2008, 2010, Harris Corporation
Loss ofCommunication
The LXYTOLIGHTWAVE will detect when the previously discovered Matrix-Hub hasbeen disconnected. Upon detection the P12×1-SP will transmit a series of framesize messages indicating the change (typically, “frame size 0”).
Detecting andReporting Alarm
Conditions
Unlike Harris products, the Lightwave Matrix-Hub will not send the bus unsolicitedalarm messages when an alarm occurs. To simulate operation as a Harris router,the LXYTOLIGHTWAVE will periodically send the Lightwave CP <Level> commandto query for alarms.
1 After receiving the solicited CP response the message is parsed. If an alarmcondition exists:
The alarm value is stored in the event that X-Y solicits for alarms later withthe Q? message.
An unsolicited Q: alarm with the new alarm information is sent back onX-Y.
2 Matrix-Hub CP response messages will be in the following formats:
2PP1,Power Supply A +5V: OK
2PP1,Power Supply A -5V: OK
2PP0,Power Supply B +5V: Failed
2PP0,Power Supply B -5V: Failed
2PT 95ßF
2PT 97ßF
2PT 91ßF
3 The P12×1-SP will convert Matrix-Hub status messages to Harris alarmmessages as follows:
If Power Supply A fails, the value “4” will be bit-masked into the alarmmessage. Within Harris router control applications, this alarm value willcorrespond to the alarm “Power Supply 1 Failure.”
If Power Supply B fails, the value “8” will be bit-masked into the alarmmessage. Within Harris router control applications, this alarm value willcorrespond to the alarm “Power Supply 2 Failure.”
If a temperature value exceeds 100° (either Centigrade or Fahrenheit), thevalue “1” will be bit-masked into the alarm message. Within Harris routercontrol applications, this alarm value will correspond to the alarm “Fan 1Failure.”
IMPORTANT: Lightwave Communications has indicated that temperaturesabove 100°F may be a concern, since at this temperature VGA output maystart to become distorted. However, in trial runs at Harris, standard operatingtemperatures often exceed this value.
The elevated temperature may have little to do with an actual “Fan”malfunction in the Matrix-Hub. Currently, Harris has no alarm value to indicateelevated temperature. The temperature has been arbitrarily mapped to the Fanalarm, as a closest match solution.
The temperature alarm condition is not dependent on the style ofmeasurement (i.e., Centigrade, Fahrenheit), only that the units meet or exceed100. You can disable this alarm by running the Lightwave with “DisplayTemperature in °C” mode. This mode is enabled by adjusting the DIP switchesin the Matrix-Hub control card (see “Other Information” [page 93]).
Panacea Lite Routing Switcher SeriesInstallation, Configuration, and Operation Manual
91
Copyright © 2004-2007, 2008, 2010, Harris Corporation
For more information on the contents of the CP response message see theMatrix-Hub Series 1000 User Manual.
Communication toController During
Power Up
Communications with the LXYTOLIGHTWAVE will not begin until the discoverysequence completes. The discovery sequence cannot complete if there is noMatrix-Hub detected.
Protocol Com-mands Handled
Between X-Y andLXYTOLIGHT-
WAVE
The LXYTOLIGHTWAVE protocol supports the following X-Y commands1:
1 You must be in Pass-Through Protocol mode to execute these X-Y commands. See the SerialProtocol Reference Guide for more information about Pass-Through Protocol commands.
Chapter 4P12×1-SP Installation, Configuration, and Operation
92
Copyright © 2004-2007, 2008, 2010, Harris Corporation
Table 4-15 X-Y Commands
Command Syntax(command begins with “@” signfollowed by a space)
Command Name Result
@ Q? Alarms Request Requests status of all alarms insystem
@ B:C Clear Preset Buffer Clears all presets
@ I?A Device Description Request Device information description
@ I?T Device Type Request Device type information
@ I?V Device Version Request Device version information
@ X:<Lvls>/<Dest>,<Src>[:I<ID>] Direct Crosspoint Take Takes specified crosspoint(specifies source, destination, andlevel) without buffer executecommand
@ B:E Execute Preset Buffer Executes all presets
@ F?<Lvl> Frame Size Request Requests router size on a specificlevel
@ P:<Lvl>/<Dest>,<Src>[:I<ID>] Preset Crosspoint Presets or preloads crosspointrequests for execution at a latertime
@ S?<Lvls> Request Crosspoint Status– EntireLevel
Requests crosspoint status of alldestinations on a specified level
@ X?<Lvl><Dest> Request Crosspoint Status – SingleDestination
Requests crosspoint status of aspecific destination on a specificlevel
@ P?<Lvl><Dest> Request Preset Crosspoint Status Verifies source that has beenpreset to a given destination on aspecific level
@ V?<Lvl> Request Preset Crosspoint StatusOn Level
Verifies source that has beenpreset to any destination on agiven level
@ Z:<Lvls> Reset Levels Simulates a reboot of theP12×1-SP
@ B:R Reset Preset Buffer Resets or clears all presets(replaced in most products with@ B:C Clear Preset)
Panacea Lite Routing Switcher SeriesInstallation, Configuration, and Operation Manual
93
Copyright © 2004-2007, 2008, 2010, Harris Corporation
Protocol Com-mands Issued
Between LXYTO-LIGHTWAVE and
Matrix-Hub
The following commands are supported internally in transactions between theLXYTOLIGHTWAVE and the Matrix-Hub. The user does not call these commandsdirectly over X-Y.
Other Informa-tion
The P12×1-SP will support a matrix of up to 128 sources by 128 destinationson 4 levels.
Currently, the only point of entry for control of the Matrix-Hub Series 1000switcher is the Matrix-Hub serial “in” port. The LXYTOLIGHTWAVE assumessole control of the Matrix-Hub system. Future enhancements in controlschemes that may be developed to use more than one controller will haveadverse effects on the performance of the LXYTOLIGHTWAVE, and are notrecommended.
The LXYTOLIGHTWAVE assumes control of a maximum of four switchinglevels. When used in conjunction with a Harris router system the Harris systemcannot use more than four levels.
In the native mode of operation Matrix-Hub has default user privilege levels.When used with the LXYTOLIGHTWAVE the Matrix-Hub password user levelswill be inherently determined by your ability to log onto the workstationrunning the RouterWorks® application.
The Matrix-Hub allows a source to be taken to multiple destinations on themonitor level, but not on other levels. As a result if a keyboard, mouse, orserial port is taken to multiple destinations, only the last destination specifiedin the command (or in the preset buffer) will be taken on these levels. Otherconflicting destination levels will be left disconnected.
Successful use of the Matrix-Hub with the LXYTOLIGHTWAVE requires thatyou configure the Matrix-Hub DIP switch settings as per the Matrix-Hub Series1000 User Manual. Additionally, you must configure the optional userpreference settings as shown in Table 4-17.
Table 4-16 Lightwave Matrix-Hub Commands
Command Syntax Result
CL Lists all chassis cards in inventory
CP List of power supply and temperature status
CS List of active connections
C Connects input port to output port
D Disconnects input port from output port
Chapter 4P12×1-SP Installation, Configuration, and Operation
94
Copyright © 2004-2007, 2008, 2010, Harris Corporation
References The following documentation used the following references for implementing theprotocol translation:
Matrix-Hub Series 1000 User Manual, 13 July 2001, Lightwave Communications(© 1999-2000, Lightwave Communications, Inc., 100 Washington Street, MilfordCT 06460).
Routing Switcher Serial Protocol Reference Operation and Reference Manual,Edition D (May 2004), Leitch Technology, Chesapeake, Virginia
RS-232/RS-422Jumper Orienta-
tion
Figure 4-49 shows the proper orientation for the RS-232 and RS-422 jumper. (SeeFigure 4-6 on page 34 for an illustration of the pin 1 reference point location.)
Figure 4-49 LXYTOLIGHTWAVE RS-232/RS-422 Jumper Orientation
Table 4-17 Optional User Preference Setting
Matrix-Hub DIPSwitch Position DIP Switch Settings Feature Result
SW2, Poles 1-8 00000000 = 19200 baudOR00000010 = 9600 baudOR11000001 = 4800 baud
Baud rate must matchP12×1-SP baud
SW3, Pole 1* 0*
* To disable temperature alarm, set to “1.”
Display temperature in F*
SW3, Pole 2 1 Echo characters ON
SW3, Pole 3 1 Send error messages
SW3, Pole 4 0 Do not add line feed tooutputs
Panacea Lite Routing Switcher SeriesInstallation, Configuration, and Operation Manual
95
Copyright © 2004-2007, 2008, 2010, Harris Corporation
DIP Switch Set-tings
Figure 4-50 on page 95 shows the proper DIP switch settings for thisconfiguration. Factory default items are marked with an asterisk (*).
Figure 4-50 LXYTOLIGHTWAVE DIP Switch Settings
Chapter 4P12×1-SP Installation, Configuration, and Operation
96
Copyright © 2004-2007, 2008, 2010, Harris Corporation
X-Y Controlof Sierra®
RoutingSwitchers :
LXYTOSIERRA
NOTE: This submodule can also be set up to operate in LSERIAL mode. Seepage 42 for more information about LSERIAL mode.
Use the LXYTOSIERRA configuration to translate the commands coming from X-Yto allow the control of Sierra routing switchers1. The P12×1-SP translates X-Ycommands to Sierra commands, and Sierra responses to X-Y responses. In thisapplication, the P12×1-SP will allow the Sierra routing switcher to be seen by theX-Y in the same way that it would be seen if it was a Harris routing switcher.
The LXYTOSIERRA protocol is an RS-232 protocol. When the LXYTOSIERRA ispowered up, it requires approximately 4 seconds to update the internal statustable.
System andMatrix Discovery
System Discovery LXYTOSIERRA supports the discovery of a new Sierra router, and the loss ofcommunication with the previously discovered Sierra router.
Sierra Discovery The LXYTOSIERRA will go into a discovery sequence on startup. During thediscovery sequence the unit will establish the frame size and crosspoint connects ofthe connected switcher. Crosspoint information will then be relayed back to X-Y.
The LXYTOSIERRA will remain in discovery until the following events complete:
1 A Sierra “L” message is sent to Sierra switcher to query frame size.
2 A Sierra “L” response message is received to indicate the frame size isreceived.
3 The frame size is sent on X-Y.
4 A Sierra “S” message is sent for each level found during frame size discoveryto query crosspoints at each level.
5 A Sierra “X,” “Y,” or “V” response is received for each level queried.
6 Data from each crosspoint disclosed in the “S” response message is sent via anS: message to X-Y.
7 A Sierra “B” command is sent for each destination to require the lock status.
8 A Sierra “B” command response for each destination indicating the lockstatus.
Loss ofCommunication
The LXYTOSIERRA will detect when the previously discovered Sierra has beendisconnected. Upon detection the P12×1-SP will reset and start the discoverymechanism over.
Detecting andReporting Alarm
Conditions
No alarm condition is reported by the Sierra routing switcher; therefore, theP12×1-SP will reply with an Alarm Free message to any alarm status request fromthe X-Y side.
1 The Sierra routing switcher is a product of Sierra Video Systems, Grass Valley, California.
Panacea Lite Routing Switcher SeriesInstallation, Configuration, and Operation Manual
97
Copyright © 2004-2007, 2008, 2010, Harris Corporation
Communication toController During
Power Up
Communications with the LXYTOSIERRA will not begin until the discoverysequence completes. The discovery sequence cannot complete if there is no Sierrarouting switcher detected.
Protocol Com-mands
Commands HandledBetween X-Y and
LXYTOSIERRA
The LXYTOSIERRA protocol supports the following X-Y commands1:
1 You must be in Pass-Through Protocol mode to execute these X-Y commands. See the SerialProtocol Reference Guide for more information about Pass-Through Protocol commands.
Chapter 4P12×1-SP Installation, Configuration, and Operation
98
Copyright © 2004-2007, 2008, 2010, Harris Corporation
Table 4-18 X-Y Commands
Command Syntax(command begins with “@”sign followed by a space)
Command Name Result
@ Q? Alarms Request Requests status of all alarms in system
@ B:C Clear Preset Buffer Clears all presets
@ I?A Device DescriptionRequest
Device information description
@ I?T Device Type Request Device type information
@ I?V Device Version Request Device version information
@ X:<Lvls>/<Dest>,<Src>[:I<ID>] Direct Crosspoint Take Takes specified crosspoint (specifies source,destination, and level) without buffer executecommand
@ B:E Execute Preset Buffer Executes all presets
@ F?<Lvl> Frame Size Request Requests router size on a specific level
@ P:<Lvl>/<Dest>,<Src>[:I<ID>] Preset Crosspoint Presets or preloads crosspoint requests forexecution at a later time
@ S?<Lvls> Request CrosspointStatus– Entire Level
Requests crosspoint status of all destinations ona specified level
@ X?<Lvl><Dest> Request Crosspoint Status– Single Destination
Requests crosspoint status of a specificdestination on a specific level
@ P?<Lvl><Dest> Request Preset CrosspointStatus
Verifies source that has been preset to a givendestination on a specific level
@ V?<Lvl> Request Preset CrosspointStatus On Level
Verifies source that has been preset to anydestination on a given level
@ Z:<Lvls> Reset Levels Simulates a reboot of the P12×1-SP
@ B:R Reset Preset Buffer Resets or clears all presets (replaced in mostproducts with @ B:C Clear Preset)
Panacea Lite Routing Switcher SeriesInstallation, Configuration, and Operation Manual
99
Copyright © 2004-2007, 2008, 2010, Harris Corporation
Commands IssuedBetween
LXYTOSIERRA andthe Sierra Routing
Switcher
The following commands are supported internally in transactions between theLXYTOSIERRA and the switcher. The user does not call these commands directlyover X-Y.
Other Informa-tion
The P12×1-SP will support a matrix of up to 128 sources by 128 destinationson 8 levels.
Currently, the only point of entry for control of the Sierra routing switcher isthe serial “in” port. The LXYTOSIERRA assumes sole control of the Sierrasystem. Future enhancements in control schemes that may be developed touse more than one controller will have adverse effects on the performance ofthe LXYTOSIERRA, and are not recommended.
The LXYTOSIERRA assumes control of a maximum of height switching levels.When used in conjunction with a Harris router system, the Harris systemcannot use all eight levels.
Successful use of the Sierra routing switcher with the LXYTOSIERRA requiresthat you configure the switcher in order to match the LXYTOSIERRArequirements.
References The following documentation used the following references for implementing theprotocol translation:
Generic Serial Port Protocol (© September 13, 2000, Sierra Video Systems,Grass Valley, California 95945)
Table 4-19 Sierra Routing Switcher Commands
Command Syntax Example Response What It Does
L L **L!! L Matrix size and levelnames
S S **S!! V, Y, or Xcommands
Matrix status
CLEAR CLEAR **CLEAR!! V, Y, or Xcommands
Set all outputs toinput 1
V V out,in,in... **V3,1,2,2!! V, Y, or Xcommands
Connect specifiedinputs on each level
X X out,in,lvl **X12,9,2!! V, Y, or Xcommands
Connect specifiedinput to output onlevel
Y Y out,in **Y1,7!! V, Y, or Xcommands
Connect specifiedinput to output onall levels
B B out,password,lock **B17,8245,1!! V, Y, or Xcommands
Lock or unlock anoutput
Chapter 4P12×1-SP Installation, Configuration, and Operation
100
Copyright © 2004-2007, 2008, 2010, Harris Corporation
Routing Switcher Serial Protocol Reference Operation and Reference Manual,Edition D (May 2004), Leitch Technology, Chesapeake, Virginia
RS-232/RS-422Jumper Orienta-
tion
Figure 4-51 shows the proper orientation for the RS-232 and RS-422 jumper. (SeeFigure 4-6 on page 34 for an illustration of the pin 1 reference point location.)
Figure 4-51 LXYTOSIERRA RS-232/RS-422 Jumper Orientation
DIP Switch Set-tings
Figure 4-52 on page 101 shows the proper DIP switch settings for thisconfiguration. Factory default items are marked with an asterisk (*).
Panacea Lite Routing Switcher SeriesInstallation, Configuration, and Operation Manual
101
Copyright © 2004-2007, 2008, 2010, Harris Corporation
Figure 4-52 LXYTOSIERRA DIP Switch Settings
Chapter 4P12×1-SP Installation, Configuration, and Operation
102
Copyright © 2004-2007, 2008, 2010, Harris Corporation
X-Y Controlof Sony®
Control Sys-tem :
LXYTOSONY
NOTE: This submodule can also be set up to operate in LSERIAL mode. Seepage 42 for more information about LSERIAL mode.
Use the LXYTOSONY configuration to allow control of a VTR using Harris controlpanels or software. In this application, the P12×1-SP translates from X-Y to Sony1
protocol. Only one P12×1-SP is necessary, regardless of the number of VTRs to becontrolled.
Machine ControlCommands
The LXYTOSONY protocol allows the P12×1-SP to covert the X-Y command toSony command so that any Harris product can talk to any Sony machine. Thisversion is specifically for the machine control of Opus Master Control Panel tocontrol Sony VTR through this P12×1-SP device. The currently implementedfunctions are
Stop
Play
Fast forward
Rewind
Pause
Cue
Mark
Status Update
Mark Reset
Standby Off
Standby On
The P12×1-SP accepts the machine control X-Y commands and converts them tothe appropriate Sony commands. The machine control X-Y commands and Sonycommands are in the following forms:
1 “Sony” is a registered trademark of Sony Electronics Inc., its parent, and/or its affiliates.
Table 4-20 Machine Control X-Y and Sony Commands
Command X-Y Command Sony Command
Stop K:<Device ID>,S1 20 00
Play K:<Device ID>,S2 20 01
Fast Forward K:<Device ID>,S3 20 10
Rewind K:<Device ID>,S4 20 20
Pause K:<Device ID>,S5 21 21 00
Mark K:<Device ID>,S6 Sent Request to Device for currenttime, store it in the P12×1-SP
Cue K:<Device ID>,S7 24.31.<Stored Time>
Panacea Lite Routing Switcher SeriesInstallation, Configuration, and Operation Manual
103
Copyright © 2004-2007, 2008, 2010, Harris Corporation
Status Updates P12×1-SP sends a status update report to the X-Y port in the following format:
K!<Device ID>,Z:<Func 1>,<Func 2>,.....Status off
K!<Device ID>,O:<Func 1>,<Func 2>,.....Status on
Where <Func 1>,<Func 2> are numbers that represent these functions:
Status Update K:<Device ID>,S9 61 20
Mark Reset K:<Device ID>,SA Reset the Mark Flag
Standby Off K:<Device ID>,SB 20 04
Standby On K:<Device ID>,SC 20 05
Table 4-20 Machine Control X-Y and Sony Commands (Continued)
Command X-Y Command Sony Command
Table 4-21 Status Update Report Functions
Function Description Function Description
01..... Local 1F..... Full EE
02..... Servo Reference Missing 20..... Select EE
03..... Tape out 21..... A1
04..... Play 22..... A2
05..... Record 23..... A3
06..... Fast Forward 24..... A4
07..... Rewind 25..... Video
08..... Eject 26..... Assemble
09..... Stop 27..... Insert
0A..... Standby 28..... Srch LED 1
0B..... Cue Up 29..... Srch LED 2
0C..... Still 2A..... Srch LED 4
0D..... Tape Dir 2B..... Srch LED 8
0E..... Var 2C..... Lamp Rev
0F..... Jog 2D..... Lamp Fwd
10..... Shuttle 2E..... Lamp Still
11..... TSO Mode 2F..... In/Out
12..... Servo Lock 30..... Spot Erase
13..... In 31..... Sync Act
14..... Out 32..... Aud Split
15..... A_IN 33..... Rec Inhib
16..... A_OUT 34..... Sys Alarm
Chapter 4P12×1-SP Installation, Configuration, and Operation
104
Copyright © 2004-2007, 2008, 2010, Harris Corporation
The P12×1-SP sends status command to the X-Y in these conditions:
1 Power Up
When the P12×1-SP is first powered up, it will send the complete status of alldevice functions to the X-Y port.
2 Status Change
The P12×1-SP is updating the device’s status every 1/10 second. When afunction changes its status, it sends the status change command only with theID for functions which have been changed.
For example, if PLAY has been changed from one to zero and STOP changedfrom zero to one, the following commands are sent:
K!<Device ID>,Z:04
K!<Device ID>,O:09
3 A Request of Status Update is Received
When the X-Y port receives the Status Update command, a complete status ofthe device is sent to the X-Y port.
The Status Update command is as follows:
K:<Device ID>,S9
17..... CF Mode 35..... Svo Alarm
18..... Freeze On 36..... CF Lock
19..... Auto Mode 37..... EOT
1A..... Preroll 38..... Near EOT
1B..... Preview 39..... Lost Lock
1C..... Auto Edit 3A..... Buzzer
1D..... Review 3B..... Fnc Abort
1E..... Edit 3C..... Mark On
Table 4-21 Status Update Report Functions (Continued)
Function Description Function Description
Panacea Lite Routing Switcher SeriesInstallation, Configuration, and Operation Manual
105
Copyright © 2004-2007, 2008, 2010, Harris Corporation
Error Messages There are certain situations in which the device will not operate properly. TheP12×1-SP generates an error message to the X-Y port as follows:
K!<Device ID>,E:<Error Code>
Table 4-22 shows descriptions of the error codes.
An error message is sent to X-Y port when
The error is first detected.
There is a machine control request from the X- port.
When the error condition is gone, or fixed, the P12×1-SP will sent the completestatus to the X-Y port.
RS-232/RS-422Jumper Orienta-
tion
Figure 4-43 shows the proper orientation for the RS-232 and RS-422 jumper. (SeeFigure 4-6 on page 34 for an illustration of the pin 1 reference point location.)
Figure 4-53 LXYTOXPRS RS-232/RS-422 Jumper Orientation
DIP Switch Set-tings
Figure 4-54 on page 106 shows the proper DIP switch settings for thisconfiguration. Factory default items are marked with an asterisk (*).
Table 4-22 Error Codes and Descriptions
Error Code Description
00..... Device power off or no response fromthe device
Other numbers representation These are the error data bits beingreceived from the device and willdirectly put into the <Error Code> fieldfor the technician to debug.
Chapter 4P12×1-SP Installation, Configuration, and Operation
106
Copyright © 2004-2007, 2008, 2010, Harris Corporation
Figure 4-54 LXYTOSONY DIP Switch Settings
Panacea Lite Routing Switcher SeriesInstallation, Configuration, and Operation Manual
107
Copyright © 2004-2007, 2008, 2010, Harris Corporation
X-Y toMcCurdy®
Under Moni-tor Displays:
LXYTOM-CUMD
NOTE: This submodule can also be set up to operate in LSERIAL mode. Seepage 42 for more information about LSERIAL mode.
Use the LXYTOMCUMD configuration with McCurdy Under Monitor Display(UMD)1 to show the name of the source being displayed. The P12×1-SP canoperate up to 32 McCurdy UMDs. The McCurdy UMD protocol is a simple one-waycommunications protocol in which the P12×1-SP is the only device transmittingwhile the McCurdy UMD “listens.” The only message sent to the McCurdy unit is amessage specifying both the “Address ID” for which the Source Identification (orText) should be set, and the specific text to be displayed. The names of the sourcesare downloaded and stored in the P12×1-SP using RouterMapper configurationutility software. The P12×1-SP automatically centers the names in the McCurdydisplay.
To configure the router destinations that a McCurdy display will follow, theLXYTOMCUMD simulates an RCP-ABA/XY panel. This allows RouterMapper toassign and download both the “Status” source names to be displayed on theMcCurdy UMD, and the destinations associated with each of the display(s).
To assign the destinations, configure an RCP-ABA/XY so that the only destinationsassigned are the destinations that are matched with the address ID on theMcCurdy UMD. Since the display text(s) are based on the “Status” source names,the “Logical Sources” are not required to be assigned (make sure not to assigned“Logical Sources” so the download can process faster).
Due to limited non-volatile memory storage, the LXYTOMCUMD can operate up to32 “Display IDs” with one level of up to 128 “Status” source names.
The LXYTOMCUMD can operate only one level (the level is determined from thefirst download Logical Destination’s control level).
Figure 4-55 Setting Levels
1 The McCurdy UMD is a product of McCurdy Radio Industries Limited, Toronto, Ontario,Canada.
Chapter 4P12×1-SP Installation, Configuration, and Operation
108
Copyright © 2004-2007, 2008, 2010, Harris Corporation
IMPORTANT: The Address ID (which is set at the rear panel of the McCurdy) mustbe in the order with the “Logical Destination” assigned from RouterMapper. Forexample, “BARS 6” in the list window under the “This Panel” for “LogicalDestination” is assigned to Address ID #1, “BARS 7” is assigned to Address ID #2,“BARS 8” is assigned to Address ID #3, etc.
Figure 4-56 Logical Destinations
The “Logical Destinations” are downloaded in logical order. After a downloadfrom the RouterMapper, the P12×1-SP requires at least 60 seconds of idle time forit to back up its data to the EEPROM. To speed up the download process, do notassign the “Logical Sources.”
McCurdy Setup The McCurdy UMD will display the “source status name” of the specifieddestination based on the two DIP switch settings (SW2 and SW3) in the back ofthe unit. (Refer to the McCurdy UMD-32 Under Monitor Display ProtocolInformation manual for DIP switch setting information for the McCurdy UMD.) Ifboth DIP switches are set to the same destination or Address ID, the UMD unit willhave a single 32-character display. If the DIP switches are set with different AddressIds, the UMD unit will have dual 16-character displays.
References The McCurdy UMD documentation used as a reference for implementing theprotocol translation was
Panacea Lite Routing Switcher SeriesInstallation, Configuration, and Operation Manual
109
Copyright © 2004-2007, 2008, 2010, Harris Corporation
McCurdy UMD-32 Under Monitor Display Protocol InformationMcCurdy Radio Industries, Ltd.Date: June 13, 1995
RS-232/RS-422Jumper Orienta-
tion
Figure 4-57 shows the proper orientation for the RS-232 and RS-422 jumper. (SeeFigure 4-6 on page 34 for an illustration of the pin 1 reference point location.)
Figure 4-57 LXYTOMCUMD RS-232/RS-422 Jumper Orientation
DIP Switch Set-tings
Figure 4-58 on page 110 shows the proper DIP switch settings for thisconfiguration. Factory default items are marked with an asterisk (*).
Chapter 4P12×1-SP Installation, Configuration, and Operation
110
Copyright © 2004-2007, 2008, 2010, Harris Corporation
Figure 4-58 LXYTOMCUMD DIP Switch Settings
Panacea Lite Routing Switcher SeriesInstallation, Configuration, and Operation Manual
111
Copyright © 2004-2007, 2008, 2010, Harris Corporation
X-Y Controlof NVISION®
Routers:LXYTONVIS
NOTE: This submodule can also be set up to operate in LSERIAL mode. Seepage 42 for more information about LSERIAL mode.
To control an NVISION routing system1 via Harris control panels or automationsoftware, use the LXYTONVIS configuration in conjunction with an NVISION router.In this application, the P12×1-SP will convert from X-Y to NVISION protocol.
The NVISION protocol is a bidirectional RS-232/RS-422 (default is RS-422) protocolin which all communications are initiated by the controller (in this case, thecontroller is the LXYTONVIS). The LXYTONVIS comes up and begins to search forframes by sending out Device Presence Requests to the NVISION port. When theLXYTONVIS receives a response to this request, it uses the information todetermine the type and size of the NVISION router connected to it. The LXYTONVISwill automatically change its operation according to the type of router connected(422/data port router vs. AES or other traditional router). For that reason, twodifferent types of NVISION routers should never be connected to the sameLXYTONVIS.
The LXYTONVIS will wait at least 50 ms between the last character of any messageor from the last character received from the router before initiating anycommunications. This means that if the router does not respond, the LXYTONVISwill wait at least 50 ms before sending the next request. If the NVISION router doesrespond to a message/request sent to it (within 50ms), the LXYTONVIS will wait50ms from receipt of the last character before sending another request. Thistiming guarantees the router has enough time to process each message.
The LXYTONVIS supports most of the functionality of the NVISION protocol. Thestandard features supported by the NVISION protocol are listed in Table 4-23.
1 NVISION routing systems are products of NVISION Inc., Grass Valley, California.
Table 4-23 Features Supported by NVISION Protocol
Feature Description
Take Switches the source to the destination on the level(s)requested
Status Request Returns the status of destination on the level(s)requested
Protect / Unprotect Protects or unprotects the requested destination on thelevel(s) requested using the Panel/Device ID requested
Lock / Unlock Locks or unlocks the requested destination on thelevel(s) requested using the Panel/Device ID requested
Preset Take Presets the Take of the source to the destination on thelevel(s) requested
Preset Clear Clears all Presets previously entered but not yetexecuted
Preset Execute Takes/executes all Presets previously entered
Chapter 4P12×1-SP Installation, Configuration, and Operation
112
Copyright © 2004-2007, 2008, 2010, Harris Corporation
References The following reference was used for implementing the protocol translation:
NVISION Device Control Protocol (October 23, 1994)
RS-232/RS-422Jumper Orienta-
tion
Figure 4-59 shows the proper orientation for the RS-232 and RS-422 jumper. (SeeFigure 4-6 on page 34 for an illustration of the pin 1 reference point location.)
Figure 4-59 LXYTONVIS RS-232/RS-422 Jumper Orientation
DIP Switch Set-tings
Figure 4-60 on page 113 shows the proper DIP switch settings for thisconfiguration. Factory default items are marked with an asterisk (*).
Preset Status Request Looks through all previously entered Presets for thedestination and levels requested, and returns the statusof any Preset that affects that destination and level
Frame Size Reports the highest valid destination number andsource number for a level
Frame Size Request Requests the highest valid destination number andsource number for a level
Table 4-23 Features Supported by NVISION Protocol (Continued)
Feature Description
Panacea Lite Routing Switcher SeriesInstallation, Configuration, and Operation Manual
113
Copyright © 2004-2007, 2008, 2010, Harris Corporation
Figure 4-60 LXYTONVIS DIP Switch Settings
Chapter 4P12×1-SP Installation, Configuration, and Operation
114
Copyright © 2004-2007, 2008, 2010, Harris Corporation
Panasonic®
MARC TYPEII™ SQC Con-trol of Harris
Routers:PANMII-
TOLXY
NOTE: This submodule can also be set up to operate in LSERIAL mode. Seepage 42 for more information about LSERIAL mode.
Use the PANMIITOLXY configuration in conjunction with a Harris routing switcherto allow control of the switcher via automation system software written for thePanasonic MARC Type II1 equipment. In this application, the P12×1-SP willtranslate from AV SW’er protocol to the protocol required by the Harris routingswitcher.
The MARC Type II SQC protocol is a half duplex RS-422 protocol in which allcommunications are initiated by the controller (in this case, the controller is theequipment designed to interface with the Panasonic switcher.) The PANMIITOLXYinitializes and sends out a Status Request to determine the status of thedestinations of the Harris router.
The PANMIITOLXY will responds to any request in less than 14 nS, as guaranteedby the MARC Type II SQC protocol. If a response is sent faster, the PANMIITOLXYwill be ready for further communications. This timing allows any equipment orsoftware designed for use with the Panasonic MARC Type II AV SW’er to also workwith a Harris router (via the PANMIITOLXY.)
Only remote control is allowed to do SET commands.
The PANMIITOLXY supports all functionality of the MARC Type II AV SW’erprotocol. The features supported are as follows:
Local Enable/Disable — PANMIITOLXY is in local or remote control.
Set Crosspoint — Set the crosspoint data expected to be controlled by theHarris router.
Read Crosspoint — Returns the crosspoint data expected to be controlled bythe Harris router.
Read All Crosspoints — Returns the all crosspoint data and its status expectedto be controlled by the Harris router.
Set All Crosspoints — Sets multiple crosspoints expected to be controlled bythe Harris router.
References The documentation used as a reference for implementing the protocol translationincluded the following:
MARC Type II AV SW’er ProtocolIssue v 1.0Publication Date: July 31, 1991Printed Date: September 10, 1997Video Systems Division of Matsushita Electric Industrial Co., Ltd.
1 The MARC Type II is a trademark of Matsushita Electric Corporation of America, its parent,and/or its affiliates.
Panacea Lite Routing Switcher SeriesInstallation, Configuration, and Operation Manual
115
Copyright © 2004-2007, 2008, 2010, Harris Corporation
RS-232/RS-422Jumper Orienta-
tion
Figure 4-61 shows the proper orientation for the RS-232 and RS-422 jumper. (SeeFigure 4-6 on page 34 for an illustration of the pin 1 reference point location.)
Figure 4-61 PANMIITOLXY RS-232/RS-422 Jumper Orientation
DIP Switch Set-tings
Figure 4-62 on page 116 shows the proper DIP switch settings for thisconfiguration. Factory default items are marked with an asterisk (*).
Chapter 4P12×1-SP Installation, Configuration, and Operation
116
Copyright © 2004-2007, 2008, 2010, Harris Corporation
Figure 4-62 PANMIITOLXY DIP Switch Settings
DIP Switch Set-tings Notes
Remote Mode — If the PANMIITOLXY is set as Remote, it will be in remote modeand ignore the Local Disable command. If the PANMIITOLXY is set as Local, it willstay in local mode until it receives a valid Local Disable command.
MARC Type II SQC has destinations in base-1 (1 to 9 or 1 to 16) and sources inbase-0 (0–15).
5 to 0 Destination Offset — If the offset option is On, the PANMIITOLXY will treatdestination 6 the same way as destination 1 (both destinations will be set to thesame source), and destination 7 will be the same as destination 2, and so on. Thisoffset can be set for destinations up to 16. If the offset option is Off, destinations 1to 16 act in regular consecutive order.
MARC II SW’er Size — The PANMIITOLXY can control a router matrix size of 16x9(16 sources by 9 destinations) or 16x16.
Panacea Lite Routing Switcher SeriesInstallation, Configuration, and Operation Manual
117
Copyright © 2004-2007, 2008, 2010, Harris Corporation
Pro-Bel™Controller for
Harris Rout-ers: PROBEL-
TOLXY
NOTE: This submodule can also be set up to operate in LSERIAL mode. Seepage 42 for more information about LSERIAL mode.
Use the PROBELTOLXY configuration in conjunction with a Harris routing switcherto allow control of the switcher via automation system software written for thePro-Bel1 routing equipment. In this application, the P12×1-SP will translate fromPro-Bel protocol to the protocol required by the Harris routing switcher.
The PROBELTOLXY protocol is an RS-422 protocol (in this case, the controller is theequipment designed to interface with the Prosan router). When the PROBELTOLXYis powered-up, it requires approximately 150 seconds to update the internal statustable. It is important that the Prosan’s router mapping configuration must beprogrammed into the PROBELTOLXY via the configuration application beforeoperating the PROBELTOLXY with the Prosan’s system.
ConfigurationControl
The SW1 Pole 4 sets a “safety catch” bit for programming the PROBELTOLXY viathe configuration application. When bit 4 is ON, the PROBELTOLXY assumes thePro-Bel Router is a 16x1 matrix if the configuration application fails to program thePROBELTOLXY. When bit 4 is OFF, PROBELTOLXY will not be operational until thePro-Bel router mapping configuration has been programmed into thePROBELTOLXY.
ConfigurationApplication Notes
The following files are required to edit and download the Pro-Bel’s matrix partitiontable into the PROBELTOLXY:
NOTE: You can edit the SPTCFG.PAN and SPTCFG.INI files with theMicrosoft® Notepad application.
SPTCFG.PAN: A text formatted file containing the partition table of the Prosanrouter; The SPTCFG.PAN file has notes explaining how to configure the matrixpartition table
SPTCFG.INI: A text formatted file containing comm port and baud rate settingsfor the configuration application
SPTCFG.EXE: An executable file for downloading the matrix partition file(SPTCFG.PAN) to the PROBELTOLXY
Protocol Com-mands
NOTE: The PROBELTOLXY will guarantee at least 2.25 seconds or faster inresponse to an Interrogate message as recommended in the Pro-Belprotocol documentation.
The PROBELTOLXY protocol supports the following Pro-Bel’s messages:
Interrogate: Requests for Tally information.
Connect: Requests a route to be made through the router.
1 Pro-Bel routing switchers are products of Chyron Pro-Bel Ltd., Reading, Berkshire, UK. Chy-ron Pro-Bel Ltd. is a division of the Chyron Corporation.
Chapter 4P12×1-SP Installation, Configuration, and Operation
118
Copyright © 2004-2007, 2008, 2010, Harris Corporation
Tally: Returns Tally information in response to an interrogating device or anInterrogate message.
Connected: Issues by a device after it has made a route through a router, inresponse to a Connect request.
References This documentation used the following reference for implementing the protocoltranslation:
Pro-Bel's General Switcher Communication ProtocolIssue No. 9 (December 18, 1996), Pro-Bel Software Ltd.
RS-232/RS-422Jumper Orienta-
tion
Figure 4-63 shows the proper orientation for the RS-232 and RS-422 jumper. (SeeFigure 4-6 on page 34 for an illustration of the pin 1 reference point location.)
Figure 4-63 PROBELTOLXY RS-232/RS-422 Jumper Orientation
DIP Switch Set-tings
Figure 4-64 on page 119 shows the proper DIP switch settings for thisconfiguration. Factory default items are marked with an asterisk (*).
Panacea Lite Routing Switcher SeriesInstallation, Configuration, and Operation Manual
119
Copyright © 2004-2007, 2008, 2010, Harris Corporation
Figure 4-64 PROBELTOLXY DIP Switch Settings
Chapter 4P12×1-SP Installation, Configuration, and Operation
120
Copyright © 2004-2007, 2008, 2010, Harris Corporation
X-Y Controlof Sandar®
Routers:SANDAR-
TOLXY
This submodule can also be set up to operate in LSERIAL mode. See page 42 formore information about LSERIAL mode.
Use the SANDARTOLXY configuration in conjunction with a Harris routing switcherto allow control of the switcher via Prosan automation system software written forthe Sandar routing equipment1. In this application, the P12×1-SP will translatefrom Prosan protocol to the protocol required by the Harris routing switcher.
The SANDARTOLXY uses RS-232 protocol to translate Sandar controller messagesinto X-Y messages, to command devices on the X-Y bus. Similarly, theSANDARTOLXY translates X-Y status and response messages into Sandar messagesto alert Sandar controller devices of command responses and changes in status.When the SANDARTOLXY powers up, it requires approximately 45 seconds toupdate the internal status table. During this time the SANDARTOLXY cannotrespond to the Sandar controller device. Once the internal status table is built, theSandar controller device will be alerted with a reset message and a series ofcrosspoint status messages advising the current crosspoint information. Followingthese messages the Sandar controlling device can transmit messages to theSANDARTOLXY.
The Sandar protocol is an ACK/NAK protocol; that is, each message sent willreceive an immediate response indicating that the message is either acknowledged(ACK) or not acknowledged (NAK).
The SANDARTOLXY will “acknowledge” any message with the correctchecksum without regard to the command or message content.
The SANDARTOLXY will “not acknowledge” messages with the incorrectchecksum.
Likewise, if messages sent from the SANDARTOLXY to the host are neitheracknowledged or not acknowledged within a 2-second timeframe, the messagewill be retransmitted. The message will be transmitted up to 3 times beforeattempts to send the message are abandoned.
ConfigurationControl
Source 1 forDisconnect (SW1
Pole 5)
The SW1 Pole 5 bit provides a selectable parameter “native” to Sandar protocol,which allows you to inhibit disconnecting a destination from sources altogether.The factory default is to set this bit to the ON position.
When bit 5 is ON, the SANDARTOLXY will internally substitute the disconnectcode 000 (or 00) with the value for Source 1. In this mode, a disconnectrequest will always result in a connection to Source 1.
When bit 5 is OFF, the SANDARTOLXY will make no internal substitutions forthe disconnect code; the destination will be disconnected from all sources.
1 Prosan protocol and Sandar routing switchers are products of FTG Sandar TeleCast AS,Stokke, Norway.
Panacea Lite Routing Switcher SeriesInstallation, Configuration, and Operation Manual
121
Copyright © 2004-2007, 2008, 2010, Harris Corporation
Three-DigitFormatting (SW1
Pole 6)
The SW1 Pole 6 bit provides a selectable parameter “native” to Sandar, whichallows you to specify how many digits (2 or 3) with which values for Matrix andStatus Response messages are formatted. The factory default is to set this bit tothe ON position.
When bit 6 is ON, source and destination values will be formatted with 3 digits(for example: 001).
Here is an example of a Status response message formatted in 3-digitmode: SA:001,002,003,004,005,006,007,008.
Here is an example of a Matrix message formatted in 3-digit mode:M001:001,002,003,004,005,006,007,008.
When bit 6 is OFF, source and destination values will be formatted with 2 digits(for example: 01).
Here is an example of a Status response message formatted in 3-digitmode: SA:01,02,03,04,05,06,07,08.
Here is an example of a Matrix message formatted in 3-digit mode:M01:01,02,03,04,05,06,07,08.
Device IDs (SW1Poles 7 and 8)
The SW1 Poles 7 and 8 provides a selectable address range. Sandar protocolsrequire a device to have two addresses starting at the value 8200. The addressesare referred to as the Poll Address (which is always odd) and the Data Address(which is always even).
The Harris Device ID (which is seen by Harris products on the X-Y bus) is theDIP switch value (see Table 4-24 on page 121).
The Poll Address of the P12×1-SP is the constant value 8200 added to the DIPswitch value selected (see Table 4-24 on page 121).
The Data Address is equal to the Poll Address plus 1 (see Table 4-24 onpage 121).
Table 4-24 on page 121 shows SW1 poles 7 and 8 DIP switch settings withcorresponding Harris device IDs, Poll Addresses, and Data Addresses.
Protocol Com-mands
The SANDARTOLXY protocol supports the following Prosan message types. Thesemessage types are explained in detail in subsequent sections.
Alarm
Text Name
Matrix Status
Table 4-24 SANDARTOLXY Device IDs
SW1 Poles 7 / 8DIP Switchsettings
Harris Device ID(DIP Switchvalue)
Poll Address Data Address
00 01 8201 8202
01 03 8203 8204
10 05 8205 8206
11 07 8207 8208
Chapter 4P12×1-SP Installation, Configuration, and Operation
122
Copyright © 2004-2007, 2008, 2010, Harris Corporation
Change Matrix Status
Polling
Reset
Matrix Size
Linked Level Offset
Host Controller Release Number
Tributary Information
Alarm Messages (A) The SANDARTOLXY supports these alarm status messages:
00 — No alarm
02 — Frame communication failure
03 — Hardware problem (fan, power supply etc.)
Text Name Messages(DO and DI)
Text names furnished in the response have the following forms:
For inputs:
I<3 digit decimal, 1-based number of input>IN<space><3 digit decimal,1-based number of input><space><space>
Example: I010IN 010
For outputs:
O<3 digit decimal, 1-based number of input>OUT<space><3 digit decimal,1-based number of input><space>
Example: O010OUT 010
Matrix StatusMessages (S or M)
Refer to the Sandar Proscan Protocol User Manual for an explanation of MatrixStatus Messages.
Change MatrixStatus Messages (M)
Only one Matrix Status Response message will be issued for each level specified inthe command message. Other levels in the message will be expressed with the“don’t care/no change” (---) parameter.
For example:
Polling Messages (Q) Resulting responses will be Q00.
Reset Messages (R) Following a reset, a delay of approximately 45 seconds will follow. During the delayperiod, the unit restatuses and rebuilds internal crosspoint information based onthe current Harris router system status. After the delay status, information (Mmessages) will be sent to the Sandar controlling device.
Request: M001:001,002, 003
Responses: M001:001
M001:---,002
M001:---,---,003
Panacea Lite Routing Switcher SeriesInstallation, Configuration, and Operation Manual
123
Copyright © 2004-2007, 2008, 2010, Harris Corporation
Matrix Size (XD001,XD002, XD003,
XD004)
Refer to the Sandar Proscan Protocol User Manual for an explanation of Matrix Sizemessages.
Linked Level Offset(XD005)
The Linked Level Offset feature is supported by neither the SANDARTOLXY norHarris router equipment. As such, the following static response indicates that thereare no linked level offsets: XD005:000,000,000,000,000,000,000,000.
Host ControllerRelease Number
Messages (XR)
The response message will contain a string similar to P12×1-SP-Sandar v2.09.
TributaryInformation (XTA)
The SANDARTOLXY nor Harris router equipment support Tributary Information,the response message will always be XTA:NONE.
References This documentation used the following reference for implementing the protocoltranslation:
User ManualSandar Prosan ProtocolSC2000 Matrix Controller from Release 2.9 991001TeleCast Norge ASSandefjord Norway
RS-232/RS-422Jumper Orienta-
tion
Figure 4-65 shows the proper orientation for the RS-232 and RS-422 jumper. (SeeFigure 4-6 on page 34 for an illustration of the pin 1 reference point location.)
Figure 4-65 SANDARTOLXY RS-232/RS-422 Jumper Orientation
DIP Switch Set-tings
Figure 4-66 on page 124 shows the proper DIP switch settings for thisconfiguration. Factory default items are marked with an asterisk (*).
Chapter 4P12×1-SP Installation, Configuration, and Operation
124
Copyright © 2004-2007, 2008, 2010, Harris Corporation
Figure 4-66 SANDARTOLXY DIP Switch Settings
Panacea Lite Routing Switcher SeriesInstallation, Configuration, and Operation Manual
125
Copyright © 2004-2007, 2008, 2010, Harris Corporation
Tandberg™Controller for
HarrisRouters:
TANDBERGTOLXY
NOTE: This submodule can also be set up to operate in LSERIAL mode. Seepage 42 for more information about LSERIAL mode.
Use the TANDBERGTOLXY configuration in conjunction with a Harris routingswitcher to allow control of the switcher via Tandberg control console1 with Prosanprotocol support. In this application, the P12×1-SP will translate from Prosanprotocol to the protocol required by the Harris routing switcher.
The TANDBERGTOLXY uses RS-232 protocol to translate Tandberg controllermessages into X-Y messages, to command devices on the X-Y bus. Similarly, theTANDBERGTOLXY translates X-Y status and response messages into Tandbergmessages to alert the Tandberg controller of command responses and changes instatus. When the TANDBERGTOLXY powers up, it requires approximately 45seconds to update the internal status table. During this time the TANDBERGTOLXYcannot respond to the Tandberg controller. Once the internal status table is built,the Tandberg controller will be alerted with a reset message and a series ofcrosspoint status messages advising the current crosspoint information. Followingthese messages the Tandberg controller can transmit messages to theTANDBERGTOLXY.
The Sandar Prosan protocol is an ACK/NAK protocol; that is, each message sentwill receive an immediate response indicating that the message is eitheracknowledged (ACK) or not acknowledged (NAK).
The TANDBERGTOLXY will “acknowledge” any message with the correctchecksum without regard to the command or message content.
The TANDBERGTOLXY will “not acknowledge” messages with the incorrectchecksum.
Likewise, if messages sent from the TANDBERGTOLXY to the host are neitheracknowledged or not acknowledged within a 2-second timeframe, the messagewill be retransmitted. The message will be transmitted up to 3 times beforeattempts to send the message are abandoned.
The TANDBERGTOLXY will stop all communication to and from the Tandbergcontroller if it detects a loss of communication with the Harris router. Once theTANDBERGTOLXY reestablishes communication with the router, it will reopencommunication to the Tandberg controller. Allow the TANDBERGTOLXYapproximately 30 to 40 seconds to determine loss of or to reestablishcommunication.
ConfigurationControl
Source 1 forDisconnect (SW1
Pole 5)
The SW1 Pole 5 bit provides a selectable parameter “native” to Sandar Prosanprotocol, which allows you to inhibit disconnecting a destination from sourcesaltogether. The factory default is to set this bit to the ON position.
1 Prosan protocol and Tandberg control consoles are products of FTG Sandar TeleCast AS,Stokke, Norway.
Chapter 4P12×1-SP Installation, Configuration, and Operation
126
Copyright © 2004-2007, 2008, 2010, Harris Corporation
When bit 5 is ON, the TANDBERGTOLXY will internally substitute thedisconnect code 000 (or 00) with the value for Source 1. In this mode, adisconnect request will always result in a connection to Source 1.
When bit 5 is OFF, the TANDBERGTOLXY will make no internal substitutionsfor the disconnect code; the destination will be disconnected from all sources.
Three-DigitFormatting (SW1
Pole 6)
The SW1 Pole 6 bit provides a selectable parameter “native” to Sandar Prosanprotocol, which allows you to specify how many digits (2 or 3) with which valuesfor Matrix and Status Response messages are formatted. The factory default is toset this bit to the ON position.
When bit 6 is ON, source and destination values will be formatted with 3 digits(for example: 001).
Here is an example of a Status response message formatted in 3-digitmode: SA:001,002,003,004,005,006,007,008.
Here is an example of a Matrix message formatted in 3-digit mode:M001:001,002,003,004,005,006,007,008.
When bit 6 is OFF, source and destination values will be formatted with 2 digits(for example: 01).
Here is an example of a Status response message formatted in 3-digitmode: SA:01,02,03,04,05,06,07,08.
Here is an example of a Matrix message formatted in 3-digit mode:M01:01,02,03,04,05,06,07,08.
Device IDs (SW1Poles 7 and 8)
The SW1 Poles 7 and 8 provides a selectable address range. Sandar Prosanprotocols require a device to have two addresses starting at the value 8200. Theaddresses are referred to as the Poll Address (which is always odd) and the DataAddress (which is always even).
The Harris Device ID (which is seen by Harris products on the X-Y bus) is theDIP switch value (see Table 4-25 on page 126).
The Poll Address of the P12×1-SP is the constant value 8200 added to the DIPswitch value selected (see Table 4-25 on page 126).
The Data Address is equal to the Poll Address plus 1 (see Table 4-25 onpage 126).
Table 4-25 shows SW1 poles 7 and 8 DIP switch settings with correspondingHarris device IDs, Poll Addresses, and Data Addresses.
Table 4-25 TANDBERGTOLXY Device IDs
SW1 Poles 7 / 8DIP Switchsettings
Harris Device ID(DIP Switchvalue)
Poll Address Data Address
00 01 8201 8202
01 03 8203 8204
10 05 8205 8206
11 07 8207 8208
Panacea Lite Routing Switcher SeriesInstallation, Configuration, and Operation Manual
127
Copyright © 2004-2007, 2008, 2010, Harris Corporation
Protocol Com-mands
The TANDBERGTOLXY protocol supports the following Prosan message types.These message types are explained in detail in subsequent sections.
Alarm
Text Name
Matrix Status
Change Matrix Status
Polling
Reset
Matrix Size
Linked Level Offset
Host Controller Release Number
Tributary Information
Alarm Messages (A) The TANDBERGTOLXY supports these alarm status messages:
00 — No alarm
02 — Frame communication failure
03 — Hardware problem (fan, power supply etc.)
Text Name Messages(DO and DI)
Text names furnished in the response have the following forms:
For inputs:
I<3 digit decimal, 1-based number of input>IN<space><3 digit decimal,1-based number of input><space><space>
Example: I010IN 010
For outputs:
O<3 digit decimal, 1-based number of input>OUT<space><3 digit decimal,1-based number of input><space>
Example: O010OUT 010
Matrix StatusMessages (S or M)
Refer to the Sandar Prosan Protocol User Manual for an explanation of MatrixStatus Messages.
Change MatrixStatus Messages (M)
Only one Matrix Status Response message will be issued for each level specified inthe command message. Other levels in the message will be expressed with the“don’t care/no change” (---) parameter.
For example:
Polling Messages (Q) Resulting responses will be Q00.
Request: M001:001,002, 003
Responses: M001:001
M001:---,002
M001:---,---,003
Chapter 4P12×1-SP Installation, Configuration, and Operation
128
Copyright © 2004-2007, 2008, 2010, Harris Corporation
Reset Messages (R) Following a reset, a delay of approximately 45 seconds will follow. During the delayperiod, the unit restatuses and rebuilds internal crosspoint information based onthe current Harris router system status. After the delay status, information (Mmessages) will be sent to the Tandberg controlling device.
Matrix Size (XD001,XD002, XD003,
XD004)
Refer to the Sandar Proscan Protocol User Manual for an explanation of Matrix Sizemessages.
Linked Level Offset(XD005)
The Linked Level Offset feature is supported by neither the TANDBERGTOLXY norHarris router equipment. As such, the following static response indicates that thereare no linked level offsets: XD005:000,000,000,000,000,000,000,000.
Host ControllerRelease Number
Messages (XR)
The response message will contain a string similar to P12×1-SP-Sandar v2.11.
TributaryInformation (XTA)
Neither the TANDBERGTOLXY nor Harris router equipment support TributaryInformation. The response message will always be XTA:NONE.
References This documentation used the following reference for implementing the protocoltranslation:
User ManualSandar Prosan ProtocolSC2000 Matrix Controller from Release 2.9 991001TeleCast Norge ASSandefjord Norway
RS-232/RS-422Jumper Orienta-
tion
Figure 4-67 shows the proper orientation for the RS-232 and RS-422 jumper. (SeeFigure 4-6 on page 34 for an illustration of the pin 1 reference point location.)
Figure 4-67 TANDBERGTOLXY RS-232/RS-422 Jumper Orientation
Panacea Lite Routing Switcher SeriesInstallation, Configuration, and Operation Manual
129
Copyright © 2004-2007, 2008, 2010, Harris Corporation
DIP Switch Set-tings
Figure 4-68 on page 129 shows the proper DIP switch settings for thisconfiguration. Factory default items are marked with an asterisk (*).
Figure 4-68 TANDBERGTOLXY DIP Switch Settings
Chapter 4P12×1-SP Installation, Configuration, and Operation
130
Copyright © 2004-2007, 2008, 2010, Harris Corporation
GVGTEN-XL™
Control ofHarris
Routers:GVG TEN-XL
NOTE: This submodule can also be set up to operate in LSERIAL mode. Seepage 42 for more information about LSERIAL mode.
Use the GVG TEN-XL1 configuration in conjunction with a Harris routing switcherto allow control of the switcher via automation system software written for GVGTEN-XL equipment. In this application, the P12×1-SP translates from Grass Valleyprotocol to the protocol required by the Harris routing switcher.
GVG TEN-XL requires an address in order to perform switches. Since the GVGTEN-XL SPT is designed for the Panacea Lite routing switcher series, the addressmust reflect the Panel ID scheme used in the Panacea Lite routing switcher. Theaddress must be synchronized between the GVG TEN-XL controller and thePanacea Lite routing switcher. The SPT merely decodes incoming addresses. Validaddresses are 6 bits in length. Figure 4-69 and Figure 4-70 show the location ofthe DIP switch on the Panacea Lite back panel.
Figure 4-69 DIP Switch Location (-A2, -V, -VA2, -S, -SAEB, -HS, -HSAEB)
Figure 4-70 DIP Switch Location (-HSAEC, -SAEC)
Figure 4-75 on page 137 shows the DIP switch settings for the GVG TEN-XLsubmodule. Figure 4-71 shows an example of the panel ID DIP switch settings onthe Panacea Lite router. You will need to set the DIP switches on both thesubmodule and the router for this SPT to operate properly.
Figure 4-71 shows an example of the DIP switch settings for a panel ID thatrepresents the following elements: Video Level = 4; Audio Level = 5; andDestination Offset = 8.
1 The GVG TEN-XL routing switcher, and corresponding router interface and automation sys-tem software, are products of Grass Valley Group, a subsidiary of Thomson Broadcast Sys-tems.
Panacea Lite Routing Switcher SeriesInstallation, Configuration, and Operation Manual
131
Copyright © 2004-2007, 2008, 2010, Harris Corporation
Video Level = 4Audio Level = 5
Level Control determines which levels will be affected by this submodule.
The first, or lowest, consecutive level set on the DIP switch is assigned tothe video level.
The next consecutive level set on the DIP switch, plus all other levels set inconsecutive order, are assigned and follow the audio level.
In this example, poles 1 and 4 are ON; so the first, or video, level is assigned toLevel 4. The next, or audio, level is assigned to Level 5.
Destination Offset = 8
Destination Offset offset the destinations from 0 to 64 using binary code.
Figure 4-71 Panacea Lite DIP Switch Settings Example
GVG TEN-XLASCII Protocol
This module processes two GVG TEN-XL ASCII protocol controller commands:Crosspoint Write and Status Read. (See Table 4-26 for command definitions.) TheASCII interface mode is enabled by setting the submodule DIP switches as shownin Figure 4-75 on page 137.
Crosspoint Write1
Status Read1 (request)
From controller [STX][AH][AL][VXPT][AXPT]
From switcher [VXPT][AXPT][PS]
1 All codes are adjacent to each other, and no spaces are allowed.
From controller [STX][AH][AL][ENQ]
From switcher [VXPT][AXPT][PS]
Chapter 4P12×1-SP Installation, Configuration, and Operation
132
Copyright © 2004-2007, 2008, 2010, Harris Corporation
GVG TEN-XLSMPTE Protocol
This module processes four GVG TEN-XL SMPTE controller commands: SwitcherPoll, Crosspoint Write, Status Read, and Quick Status Read. (See Table 4-28 onpage 134 for command definitions.) The SMPTE interface mode is enabled bysetting submodule DIP switches as shown in Figure 4-75 on page 137.
Switcher Poll1
Crosspoint Write1
Status Read1
Table 4-26 GVG TEN-XL ASCII Command Definitions
Command Definition
[STX] - (0x02) Standard ASCII hex code for Start ofTransmission
[ENQ] - (0x05) Standard ASCII code for Enquiry
[VXPT] Video crosspoint coded as (0..9, A, B)[corresponding ASCII hex codes (0x30,..0x39, 0x41, 0x42)] 0 corresponds tocrosspoint 1
[AXPT] Audio crosspoint coded as (0..9, A, B)[corresponding ASCII hex codes (0x30,...0x39, 0x41, 0x42)] 0 corresponds tocrosspoint 1
[PS] Power Supply - fixed at 1 [correspondingASCII hex code 0x31]; meaning that powersupply one (the only one present) is active
[AH]* High order address - range of (0..9, A..F)[corresponding ASCII hex codes (30..39,41..46)]
[AL]* Low order address - range of (0..9, A..F)[corresponding ASCII hex codes (30..39,41..46)]
* [AH] combined with [AL] gives an address range of 0..FF.
From controller [BREAK][AH][AL]
From switcher [Response]
From controller [BREAK][AH][AL][ESC][BC][CMD][DATA][CS]
From switcher [ACK]
1 All codes are adjacent to each other, and no spaces are allowed.
From controller [BREAK][AH][AL][ESC][BC][CMD][DATA][CS]
From switcher [ACK]
Panacea Lite Routing Switcher SeriesInstallation, Configuration, and Operation Manual
133
Copyright © 2004-2007, 2008, 2010, Harris Corporation
Quick Status Read1
GVG TEN-XL SMPTE protocol uses hex-coded packets for the transmission ofcommands. Every command issued by the controlling software [controller] causes areply from the Panacea Lite switcher. Programmers building command packetsmust adhere to the following packet structures.
From controller [BREAK][AH][AL][TRANS_ENA]
From switcher [ESC][BC][CMD][XPT][PS][CS]
Table 4-27 SMPTE Command Definitions
Command Hex Definition
[BREAK] Hardware A special attention character; seeFigure 4-73 on page 135 for format
[ADDR] 0x8**0 SMPTE Address
[ESC] 0x03 Escape is a Reserved Word
[BC] 0x02 Byte Count is fixed at 0x02
[CMD] 0x41 or 0xC1 Command: Read fixed at 0x41 and Writefixed at 0xC1
[DATA] Audio: uppernibbleVideo: lowernibble.
Data: Indicates the crosspoints to beselected, where audio is in the upper nibbleand video in the lower nibble
[CS] Any number Checksum: Calculated as the 2’scomplement of the addition of [BC], [CMD],[DATA], or [XPT; in the case of a ReplySequence pack, [PS] is also added beforecalculating the 2’s complement
[XPT] Audio: uppernibbleVideo: lower nibble
Crosspoint: Contains the current crosspointstatus for all existing levels (up to 2) in theframe
[PS] 0x00 Power Supply; set to 0 since power supplyreporting is not supported
[RESPONSE]
RST 0x07 The switcher has been powered up or areset has occurred since the last poll
NAK 0x05 A protocol error (time-out), parity (invalidcommand) has occurred since the last poll
SVC 0x08 A change in crosspoint or power supplystatus has occurred since the last poll
ACK 0x04 There has been no change in status sincethe last poll
Chapter 4P12×1-SP Installation, Configuration, and Operation
134
Copyright © 2004-2007, 2008, 2010, Harris Corporation
Definition of theTEN-XL SMPTE
Protocol
Figure 4-72 on page 134 shows the State Diagram used to define the SMPTEprotocol. The following subsections explain this protocol.
Figure 4-72 SMPTE Protocol State Diagram
GVG TEN-XL SMPTE protocol is a binary protocol. Table 4-27 provides a listing ofseveral of the commands used in this protocol.
A Note on StandardReserved Words
The TEN-XL SMPTE protocol uses a number of standard reserved words such asESC, ACK and NAK. Be careful not to confuse these words with the standard ASCIIdefinition of the reserved words.
In TEN-XL SMPTE protocol, the following definitions are used:
The BREAK character is a special attention character with the following format:
Table 4-28 SMPTE Reserved Words
Reserved Word TEN-XL SMPTE Definition
ESC 0x03
ACK 0x04
NAK 0x05
Panacea Lite Routing Switcher SeriesInstallation, Configuration, and Operation Manual
135
Copyright © 2004-2007, 2008, 2010, Harris Corporation
Figure 4-73 Definition of a BREAK Character
Exceptions toTEN-XL SMPTE
Protocol
Due to hardware differences between Panacea Lite routers and TEN-XL routers,there are differences in the Panacea Lite implementation.
1 Source Numbers for READ and WRITE commands: The Panacea Lite seriessupports more inputs (up to 12) than the TEN-XL (up to 10 inputs) routers. Toprovide access to sources beyond 10, the use of the data byte has beenexpanded.
2 Since the Panacea Lite does not support power supply status reporting, thePOWER SUPPLY STATUS byte of the READ sequence [PS] will always return0x00.
NOTE: [ADDR] is transmitted as two bytes. If [ADDR] is 0x80A0, then itwould be sent as 0x80, 0xA0, where 0x80 is [ADDRHI] and 0xA0 is[ADDRLO].
Table 4-29 SMPTE Data Byte to Source Comparison
Data ByteNibble
CorrespondingSource
0x01 1
0x02 2
0x03 3
0x04 4
0x05 5
0x06 6
0x07 7
0x08 8
0x09 9
Chapter 4P12×1-SP Installation, Configuration, and Operation
136
Copyright © 2004-2007, 2008, 2010, Harris Corporation
* Varies from standard TEN-XL implementation** Determined by the SMPTE Address set on DIP Switch SW1. See Figure 4-74 onpage 136
References The following reference was used for implementing the protocol translation:
Grass Valley Group Performer 10x1 Routing Switcher Installation and OperationManual, Publication Number TP3282-00, Issue A1 (September 1990)
Grass Valley General Purpose Interface Terminal/Computer Interface (TC/I) Manual
RS-232/RS-422Jumper Orienta-
tion
Figure 4-74 shows the proper orientation for the RS-232 and RS-422 jumper. (SeeFigure 4-6 on page 34 for an illustration of the pin 1 reference point location.)
Figure 4-74 GVG TEN-XL RS-232/RS-422 Jumper Orientation
DIP Switch Set-tings
Figure 4-75 on page 137 shows the proper DIP switch settings for thisconfiguration. Factory default items are marked with an asterisk (*).
0x0A 10
0x0B 11 *
0x0C 12 *
Table 4-29 SMPTE Data Byte to Source Comparison (Continued)
Data ByteNibble
CorrespondingSource
Panacea Lite Routing Switcher SeriesInstallation, Configuration, and Operation Manual
137
Copyright © 2004-2007, 2008, 2010, Harris Corporation
Figure 4-75 GVG TEN-XL DIP Switch Settings
Chapter 4P12×1-SP Installation, Configuration, and Operation
138
Copyright © 2004-2007, 2008, 2010, Harris Corporation
139
Copyright © 2004-2007, 2008, 2010, Harris Corporation
5 Specifications
NOTE: All specifications and designs are subject to change without notice.
This chapter contains selected specifications for the Panacea Lite routing switcherseries.
Frame Specifications
Electrical Specifications on page 140
Mechanical Specifications on page 140
Input/Output Signal Specifications on page 140
Module Specifications
Analog Audio (P-12×1A2) on page 141
600 Analog Audio (P-12×1A2L) on page 142
AES Audio, Balanced (P-12×1AEB) on page 143
AES Audio, Coaxial (P-12×1AEC) on page 144
Analog Video (P-12×1V) on page 145
Analog Video/600 Stereo Analog Audio (P-12×1VA2L) on page 147
Analog Video/Stereo Analog Audio (P-12×1VA2) on page 146
Standard Definition Video (P-12×1S) on page 149
Standard Definition Video/Balanced AES Audio (P-12×1SAEB) onpage 150
Standard Definition Video/Coaxial AES Audio (P-12×1SAEC) on page151
High Definition /Standard Definition Video (P-12×1HS) on page 153
HS Video/Balanced AES Audio (P-12×1HSAEB) on page 154
HS Video/Coaxial AES Audio (P-12×1HSAEC) on page 155
Chapter 5Specifications
140
Copyright © 2004-2007, 2008, 2010, Harris Corporation
Frame SpecificationsTable 5-1 Electrical Specifications
Item Specification
Input Internal AC power supply module
Power supply Universal input
47-440 Hz, 45 W85-265 VAC
Total power, maximum 45 W
Performance temperature 41° – 104°F (5° – 40° C)
Operating temperature 32° – 122°F (0° – 50°C)
Table 5-2 Mechanical Specifications
Item Specification
Size 19 in.×5.25 in.×1.75 in.(48.3 cm×13.3 cm×44 cm)
Weight (fully loaded) 5 lb (2.3 kg)
Indicators Power LED
Cooling Convection
Table 5-3 Input/Output Signal Specifications
Item Specification
RS-232/RS-422 serial communication DB-9 pin connector
X-Y (coaxial communication) 75 BNC, looping
Sync (coaxial reference) 75 BNC, looping
Panacea Lite Routing Switcher SeriesInstallation, Configuration, and Operation Manual
141
Copyright © 2004-2007, 2008, 2010, Harris Corporation
Module Specifications
Analog Audio(P-12×1A2)
Table 5-4 Analog Audio Input Specifications
Item Specification
Number of inputs 12 stereo channels
Signal type Balanced analog audio
Connector DB-62 (terminal strip adaptersavailable)
Impedance High Z (20 k)
CMRR > 60 dB rejection @ 60 Hz
Maximum level +26 dBu
Table 5-5 Analog Audio Output Specifications
Item Specification
Number of outputs 2 stereo channels (identical signals)
Signal type Balanced analog audio
Connector DB-62 (terminal strip adaptersavailable)
Impedance 66
Maximum level +26 dBu
DC offset < ± 50 mV
Table 5-6 Analog Audio Performance Specifications
Item Specification
Gain Unity, ±0.1 dB
THD+N <0.01%, 20 Hz to 20 kHz, +24 dBu
IMD (SMPTE 4:1) <0.01%, +24 dBu
Crosstalk >90 dB isolation, 20 Hz to 20 kHz, allhostile
Frequency response <±0.1 dB, 20 Hz to 20 kHz–3 dB point: >200 kHz
Signal to noise ratio >110 dB ref. to +24 dBu, 20 Hz to 20kHz
Chapter 5Specifications
142
Copyright © 2004-2007, 2008, 2010, Harris Corporation
600 AnalogAudio
(P-12×1A2L)
Table 5-7 600 Analog Audio Input Specifications
Item Specification
Number of inputs 12 stereo channels
Signal type Balanced analog audio
Connector DB-62 (terminal strip adaptersavailable)
Impedance 600
CMRR > 55 dB rejection @ 60 Hz
Maximum level +20 dBm
Table 5-8 600 Analog Audio Output Specifications
Item Specification
Number of outputs 2 stereo channels (identical signals)
Signal type Balanced analog audio
Connector DB-62 (terminal strip adaptersavailable)
Impedance 600
Maximum level +20 dBm
DC offset < ± 50 mV
Table 5-9 600 Analog Audio Performance Specifications
Item Specification
Gain Unity, ±0.1 dB
THD+N <0.01%, 20 Hz to 20 kHz, +18 dBm
IMD (SMPTE 4:1) <0.01%, +18 dBm
Crosstalk >90 dB isolation, 20 Hz to 20 kHz, allhostile
Frequency response <±0.1 dB, 20 Hz to 20 kHz–3 dB point: >200 kHz
Signal to noise ratio >110 dB ref. to +18 dBm, 20 Hz to 20kHz
Panacea Lite Routing Switcher SeriesInstallation, Configuration, and Operation Manual
143
Copyright © 2004-2007, 2008, 2010, Harris Corporation
AES Audio,Balanced
(P-12×1AEB)
Table 5-10 Balanced AES Audio Input Specifications
Item Specification
Number of inputs 12, dual channels
Signal type Balanced, transformer coupled (AES3)
Connector DB-62 (terminal strip adaptersavailable)
Impedance 110
Normal input level 5 Vp-p
Maximum input level 7 Vp-p
Signal amplitude 0.2 Vp-p to 7 Vp-p
Table 5-11 Balanced AES Audio Output Specifications
Item Specification
Number of outputs 2, dual channels (identical signals)
Signal type Balanced, transformer coupled (AES3)
Connector DB-62 (terminal strip adaptersavailable)
Impedance 110
Output amplitude 5 Vp-p 1V into 110 load
Rise / fall time 5 ns to 30 ns
Jitter < 5 ns
Table 5-12 Balanced AES Audio Performance Specifications
Item Specification
DC offset < 50mV
Propagation delay <100 ns
Intrinsic jitter < 5 ns
Switching type Asynchronous
AES frame rates 30 kHz – 192 kHz
Data rates Up to 30 Mb/s, 50% duty cycle
Chapter 5Specifications
144
Copyright © 2004-2007, 2008, 2010, Harris Corporation
AES Audio,Coaxial
(P-12×1AEC)
Table 5-13 Coaxial AES Audio Input Specifications
Item Specification
Number of inputs 12, dual channels
Signal type Unbalanced, AC coupled (AES3id,SMPTE 276M)
Connector 75 BNC per IEC 169-8
Impedance 75
Return loss >30 dB, 0.1 MHz to 6 MHz>25 dB, 6 MHz to 12 MHz
Signal amplitude 0.1 Vp-p to 2 Vp-p
Table 5-14 Coaxial AES Audio Output Specifications
Item Specification
Number of outputs 2 dual channels (identical signals)
Signal type Unbalanced (AES3id, SMPTE 276M)
Connector 75 BNC per IEC 169-8
Impedance 75
Return loss >40 dB, 0.1 MHz to 6 MHz>30 dB, 6 MHz to 12 MHz
Output amplitude 1.0 Vp-p 10% into 75 load
Rise / fall time 30 ns to 44 ns
Table 5-15 Coaxial AES Audio Performance Specifications
Item Specification
DC offset < 50 mV
Propagation delay <100 ns
Intrinsic jitter < 5 ns
Switching type Asynchronous
AES frame rates 30 kHz – 192 kHz
Data rates Up to 30 Mb/s, 50% duty cycle
Panacea Lite Routing Switcher SeriesInstallation, Configuration, and Operation Manual
145
Copyright © 2004-2007, 2008, 2010, Harris Corporation
Analog Video(P-12×1V)
Table 5-16 Analog Video Input Specifications
Item Specification
Number of inputs 12
Signal type Composite (or component when usedin a multiframe system) analog video,or any video or RF signal within thevoltage and frequency limits
Connector 75 BNC per IEC 169-8
Impedance 75
Signal coupling DC
Return loss > 40 dB at 5 MHz
Normal input level 1 Vp-p
Maximum level 2 Vp-p centered at 0 V
Table 5-17 Analog Video Output Specifications
Item Specification
Number of outputs 2 (identical signals)
Connector 75 BNC per IEC 169-8
Impedance 75
Return loss > 40 dB at 5 MHz
Normal level 1 Vp-p
Maximum level 2 Vp-p centered at 0 V
Table 5-18 Analog Video Performance Specifications
Item Specification
Gain Unity ± 0.1 dB
Differential gain < 0.15% at 3.58 MHz and 4.43 MHz
Differential phase < 0.15° at 3.58 MHz and 4.43 MHz
Frequency response ± 0.05 dB from DC to 10 MHz± 0.25 dB from 10 MHz to 35 MHz+2 dB to –3 dB from 35 MHz to 50MHz
Tilt < 0.1%
Crosstalk > 62 dB isolation from DC to 5 MHz
Phase scatter < ± 1.5°
Gain scatter < ± 0.1 dB
DC offset < ± 50 mV
Signal to noise ratio > 65 dB, 5 MHz bandwidth
Chapter 5Specifications
146
Copyright © 2004-2007, 2008, 2010, Harris Corporation
Analog Video/Stereo Analog
Audio(P-12×1VA2)
Table 5-19 Analog Video/Stereo Analog Audio Input Specifications
ItemSpecification
Analog Video Stereo Analog Audio
Number of inputs 12 12 stereo channels
Signal type Composite or (orcomponent when used in amultiframe system) analogvideo, or any video or RFsignal within the voltageand frequency limits
Balanced analog audio
Connector 75 BNC per IEC 169-8 DB-62 (terminal stripadapters available)
Impedance 75 High Z (20 k)
Signal coupling DC —
Return loss > 40 dB at 5 MHz —
Normal input level 1.0 Vp-p —
Maximum level 2.0 Vp-p centered at 0 V +26 dBu
CMRR — > 60 dB rejection @ 60 Hz
Table 5-20 Analog Video/Stereo Analog Audio Output Specifications
ItemSpecification
Analog Video Stereo Analog Audio
Number of outputs 2 (identical signals) 2 stereo channels (identicalsignals)
Signal type Composite or (orcomponent when used in amultiframe system) analogvideo, or any video or RFsignal within the voltageand frequency limits
Balanced analog audio
Connector 75 BNC per IEC 169-8 DB-62 (terminal stripadapters available)
Impedance 75 66
Return loss > 40 dB at 5 MHz —
Normal level 1 Vp-p —
Maximum level 2 Vp-p centered at 0 V +26 dBu
Panacea Lite Routing Switcher SeriesInstallation, Configuration, and Operation Manual
147
Copyright © 2004-2007, 2008, 2010, Harris Corporation
Analog Video/600 Stereo
Analog Audio(P-12×1VA2L)
Table 5-21 Analog Video/Stereo Analog Audio Performance Specifications
ItemSpecification
Analog Video Stereo Analog Audio
Gain Unity ± 0.1 dB Unity, ± 0.1 dB
Differential gain < 0.15% at 3.58 MHz and4.43 MHz
—
Differential phase < 0.15° at 3.58 MHz and4.43 MHz
—
THD+N — <0.01%, 20 Hz to 20 kHz,+24 dBu
IMD (SMPTE 4:1) — <0.01%, +24 dBu
Tilt < 0.1% —
Crosstalk 62 dB isolation from DC to5 MHz
>90 dB isolation, 20 Hz to20 kHz, all hostile
Frequency response ± 0.05 dB from DC to 10MHz± 0.25 dB from 10 MHz to35 MHz+2 dB to –3 dB from 35MHz to 50 MHz
<±0.1 dB, 20 Hz to 20 kHz–3 dB point: >200 kHz
Phase scatter < ± 1.5° —
Gain scatter < ± 0.1 dB —
DC offset < ± 50 mV < ± 50 mV
Signal to noise ratio > 65 dB, 5 MHz bandwidth >110 dB ref. to +24 dBu,20 Hz to 20 kHz
Table 5-22 Analog Video/600 Stereo Analog Audio Input Specifications
ItemSpecification
Analog Video Stereo Analog Audio
Number of inputs 12 12 stereo channels
Signal type Composite or (orcomponent when used in amultiframe system) analogvideo, or any video or RFsignal within the voltageand frequency limits
Balanced analog audio
Connector 75 BNC per IEC 169-8 DB-62 (terminal stripadapters available)
Impedance 75 600
Signal coupling DC —
Chapter 5Specifications
148
Copyright © 2004-2007, 2008, 2010, Harris Corporation
Return loss > 40 dB at 5 MHz —
Normal input level 1.0 Vp-p —
Maximum level 2.0 Vp-p centered at 0 V +20 dBm
CMRR — > 55 dB rejection @ 60 Hz
Table 5-23 Analog Video/600 Stereo Analog Audio Output Specifications
ItemSpecification
Analog Video Stereo Analog Audio
Number of outputs 2 (identical signals) 2 stereo channels (identicalsignals)
Signal type Composite or (orcomponent when used in amultiframe system) analogvideo, or any video or RFsignal within the voltageand frequency limits
Balanced analog audio
Connector 75 BNC per IEC 169-8 DB-62 (terminal stripadapters available)
Impedance 75 600
Return loss > 40 dB at 5 MHz —
Normal level 1 Vp-p —
Maximum level 2 Vp-p centered at 0 V +20 dBu
Table 5-24 Analog Video/600Ù Stereo Analog Audio Performance Specifications
ItemSpecification
Analog Video Stereo Analog Audio
Gain Unity ± 0.1 dB Unity, ± 0.1 dB
Differential gain < 0.15% at 3.58 MHz and4.43 MHz
—
Differential phase < 0.15° at 3.58 MHz and4.43 MHz
—
THD+N — <0.01%, 20 Hz to 20 kHz,+18 dBm
IMD (SMPTE 4:1) — <0.01%, +18 dBm
Tilt < 0.1% —
Crosstalk 62 dB isolation from DC to5 MHz
>90 dB isolation, 20 Hz to20 kHz, all hostile
Table 5-22 Analog Video/600 Stereo Analog Audio Input Specifications
ItemSpecification
Analog Video Stereo Analog Audio
Panacea Lite Routing Switcher SeriesInstallation, Configuration, and Operation Manual
149
Copyright © 2004-2007, 2008, 2010, Harris Corporation
StandardDefinition Video
(P-12×1S)
Frequency response ± 0.05 dB from DC to 10MHz± 0.25 dB from 10 MHz to35 MHz+2 dB to –3 dB from 35MHz to 50 MHz
<±0.1 dB, 20 Hz to 20 kHz–3 dB point: >200 kHz
Phase scatter < ± 1.5° —
Gain scatter < ± 0.1 dB —
DC offset < ± 50 mV < ± 50 mV
Signal to noise ratio > 65 dB, 5 MHz bandwidth >110 dB ref. to +18 dBm,20 Hz to 20 kHz
Table 5-24 Analog Video/600Ù Stereo Analog Audio Performance Specifications
ItemSpecification
Analog Video Stereo Analog Audio
Table 5-25 Standard Definition Video Input Specifications
Item Specification
Number of inputs 12
Signal type SMPTE 259M, SMPTE 344M, and DVB-ASI
Connector 75 BNC per IEC 169-8
Impedance 75
Normal input level 800 mVp-p ±10%
Maximum input level 1200 mVp-p
Return loss >18 dB 5 MHz to 540 MHz
Equalization Automatic, up to 984 ft (300 m) Belden1694A
Table 5-26 Standard Definition Video Output Specifications
Item Specification
Number of outputs 2 (identical signals)*
* Output 2 is inverted, so it is not compliant with DVB-ASI signals.
Signal type SMPTE 259M, SMPTE 344MDVB-ASI (Output 1 only)*
Connector 75 BNC per IEC 169-8
Impedance 75
Return loss >18 dB 5 MHz to 540 MHz
Output amplitude 800 mVp-p ± 10%
Chapter 5Specifications
150
Copyright © 2004-2007, 2008, 2010, Harris Corporation
StandardDefinition Video/
Balanced AESAudio
(P-12×1SAEB)
Table 5-27 Standard Definition Video Performance Specifications
Item Specification
DC offset 0 ± 0.5 V
Rise / fall time 400 ps — 1500 ps
Overshoot < 10% of amplitude
Jitter < 0.2UI @ frequency tested
Table 5-28 Standard Definition Video/Balanced AES Audio Input Specifications
ItemSpecification
Standard DefinitionVideo Balanced AES
Number of inputs 12 12, dual channels
Signal type SMPTE 259M, SMPTE344M, and DVB-ASI
Balanced, transformercoupled (AES3)
Connector 75 BNC per IEC 169-8 DB-62 (terminal stripadapters available)
Impedance 75 110
Normal input level 800 mVp-p ±10% 5 Vp-p
Maximum input level 1200 mVp-p 7 Vp-p
Return loss >18 dB 5 MHz to 540 MHz —
Signal amplitude — 0.2 Vp-p to 7 Vp-p
Equalization Automatic, up to 984 ft(300 m) Belden 1694A
—
Table 5-29 Standard Definition Video/Balanced AES Audio Output Specifications
ItemSpecification
Standard DefinitionVideo Balanced AES
Number of outputs 2 (identical signals)* 2 (dual channels, identicalsignals)
Signal type SMPTE 259M, SMPTE344MDVB-ASI (Output 1 only)*
Balanced, transformercoupled (AES3)
Connector 75 BNC per IEC 169-8 DB-62 (terminal stripadapters available)
Impedance 75 110
Return loss >18 dB 5 MHz to 540 MHz N/A
Output amplitude 800 mVp-p ± 10% 5 Vp-p 1V into 110 load
Rise / fall time 400 ps — 1500 ps 5 ns to 30 ns
Panacea Lite Routing Switcher SeriesInstallation, Configuration, and Operation Manual
151
Copyright © 2004-2007, 2008, 2010, Harris Corporation
StandardDefinition Video/
Coaxial AESAudio
(P-12×1SAEC)
Overshoot < 10% of amplitude —
Jitter < 0.2UI @ frequency tested < 5 ns
* Output 2 is inverted, so it is not compliant with DVB-ASI signals.
Table 5-30 Standard Definition Video/Balanced AES Audio PerformanceSpecifications
ItemSpecification
Standard DefinitionVideo Balanced AES
DC offset 0 V ± 0.5 V < 50mV
Propagation delay — < 100 ns
Intrinsic jitter — < 5 ns
Switching type — Asynchronous
AES frame rates — 30 kHz – 192 kHz
Data rates — Up to 30 Mb/s, 50% dutycycle
Table 5-29 Standard Definition Video/Balanced AES Audio Output Specifications
ItemSpecification
Standard DefinitionVideo Balanced AES
Table 5-31 Standard Definition Video/Coaxial AES Audio Input Specifications
ItemSpecification
Standard DefinitionVideo Coaxial AES
Number of inputs 12 12, dual channels
Signal type SMPTE 259M, SMPTE344M, and DVB-ASI
Unbalanced, AC coupled(AES3id, SMPTE 276M)
Connector 75 BNC per IEC 169-8 75 BNC per IEC 169-8
Impedance 75 75
Normal input level 800 mVp-p ±10% 1 Vp-p
Maximum input level 1200 mVp-p 2 Vp-p
Return loss >18 dB 5 MHz to 540 MHz >30 dB, 0.1 MHz to 6 MHz>25 dB, 6 MHz to 12 MHz
Signal amplitude — 0.1 Vp-p to 2 Vp-p
Equalization Automatic, up to 984 ft(300 m) Belden 1694A
—
Chapter 5Specifications
152
Copyright © 2004-2007, 2008, 2010, Harris Corporation
Table 5-32 Standard Definition Video/Coaxial AES Audio Output Specifications
ItemSpecification
Standard DefinitionVideo Coaxial AES
Number of outputs 2 (identical signals)*
* Output 2 is inverted, so it is not compliant with DVB-ASI signals.
2 dual channels (identicalsignals)
Signal type SMPTE 259M, SMPTE344MDVB-ASI (Output 1 only)*
Unbalanced (AES3id,SMPTE 276M)
Connector 75 BNC per IEC 169-8 75 BNC per IEC 169-8
Impedance 75 75
Return loss >18 dB 5 MHz to 540 MHz >40 dB, 0.1 MHz to 6 MHz>30 dB, 6 MHz to 12 MHz
Output amplitude 800 mVp-p ± 10% 1.0 Vp-p 10% into 75load
Rise / fall time 400 ps — 1500 ps 30 ns to 44 ns
Overshoot < 10% of amplitude —
Jitter < 0.2UI @ frequency tested < 5 ns
Table 5-33 Standard Definition Video/Coaxial AES Audio PerformanceSpecifications
ItemSpecification
Standard DefinitionVideo Coaxial AES
DC offset 0 V ± 0.5 V < 50 mV
Propagation delay — <100 ns
Intrinsic jitter — < 5 ns
Switching type — Asynchronous
AES frame rates — 30 kHz – 192 kHz
Data rates — Up to 30 Mb/s, 50% dutycycle
Panacea Lite Routing Switcher SeriesInstallation, Configuration, and Operation Manual
153
Copyright © 2004-2007, 2008, 2010, Harris Corporation
High Definition /Standard
Definition Video(P-12×1HS)
Table 5-34 HS Video Input Specifications
Item Specification
Number of inputs 12
Signal type SMPTE 292M SMPTE 259M SMPTE 344M DVB-ASI
Connector 75 BNC per IEC 169-8
Impedance 75
Normal input level 800 mVp-p ±10%
Maximum input level 1200 mVp-p
Equalization Automatic, up to 984 ft (300 m) Belden1694A
Table 5-35 HS Video Output Specifications
Item Specification
Number of outputs 2 (identical signals)*
* Output 2 is inverted, so it is not compliant with DVB-ASI signals.
Signal type SMPTE 292M SMPTE 259M SMPTE 344M
DVB-ASI (Output 1 only)*
Connector 75 BNC per IEC 169-8
Impedance 75
Output amplitude 800 mVp-p ± 10%
Table 5-36 HS Performance Specifications
Item Specification
DC offset 0 ± 0.5 V
Rise / fall time < 270 ps
Overshoot < 10% of amplitude
Jitter < 0.2UI @ frequency tested
Chapter 5Specifications
154
Copyright © 2004-2007, 2008, 2010, Harris Corporation
HS Video/Balanced AES
Audio(P-12×1HSAEB)
Table 5-37 HS Video/Balanced AES Audio Input Specifications
ItemSpecification
Standard DefinitionVideo Balanced AES
Number of inputs 12 12, dual channels
Signal type SMPTE 292M SMPTE 259M SMPTE 344M DVB-ASI
Balanced, transformercoupled (AES3)
Connector 75 BNC per IEC 169-8 DB-62 (terminal stripadapters available)
Impedance 75 110
Normal input level 800 mVp-p ±10% 5 Vp-p
Maximum input level 1200 mVp-p 7 Vp-p
Return loss Better than -18 dB 5 MHzto 1.485 GHz
—
Signal amplitude — 0.2 Vp-p to 7 Vp-p
Equalization Automatic, up to 984 ft(300 m) Belden 1694A
—
Table 5-38 HS Video/Balanced AES Audio Output Specifications
ItemSpecification
Standard DefinitionVideo Balanced AES
Number of outputs 2 (identical signals)*
* Output 2 is inverted, so it is not compliant with DVB-ASI signals.
2, dual channels (identicalsignals)
Signal type SMPTE 292M SMPTE 259M SMPTE 344M
DVB-ASI (Output 1 only)*
Balanced, transformercoupled (AES3)
Connector 75 BNC per IEC 169-8 DB-62 (terminal stripadapters available)
Impedance 75 110
Return loss Better than -18 dB 5 MHzto 1.485 GHz
N/A
Output amplitude 800 mVp-p ± 10% 5 Vp-p 1V into 110 load
Rise / fall time < 270 ps 5 ns to 30 ns
Overshoot < 10% of amplitude —
Jitter < 0.2UI @ frequency tested < 5 ns
Panacea Lite Routing Switcher SeriesInstallation, Configuration, and Operation Manual
155
Copyright © 2004-2007, 2008, 2010, Harris Corporation
HS Video/CoaxialAES Audio
(P-12×1HSAEC)
Table 5-39 HS Video/Balanced AES Audio Performance Specifications
ItemSpecification
Standard DefinitionVideo Balanced AES
DC offset 0 V ± 0.5 V < 50mV
Propagation delay — <100 ns
Intrinsic jitter — < 5 ns
Switching type — Asynchronous
AES frame rates — 30 kHz – 192 kHz
Data rates — Up to 30 Mb/s, 50% dutycycle
Table 5-40 HS Video/Coaxial AES Audio Input Specifications
ItemSpecification
Standard DefinitionVideo Coaxial AES
Number of inputs 12 12, dual channels
Signal type SMPTE 292M SMPTE 259M SMPTE 344M DVB-ASI
Unbalanced, AC coupled(AES3id, SMPTE 276M)
Connector 75 BNC per IEC 169-8 75 BNC per IEC 169-8
Impedance 75 75
Normal input level 800 mVp-p ±10% —
Maximum input level 1200 mVp-p —
Return loss Better than -18 dB 5 MHzto 1.485 GHz
>30 dB, 0.1 MHz to 6 MHz>25 dB, 6 MHz to 12 MHz
Signal amplitude — 0.1 Vp-p to 2 Vp-p
Equalization Automatic, up to 984 ft(300 m) Belden 1694A
—
Chapter 5Specifications
156
Copyright © 2004-2007, 2008, 2010, Harris Corporation
Table 5-41 HS Video/Coaxial AES Audio Output Specifications
ItemSpecification
Standard DefinitionVideo Coaxial AES
Number of outputs 2 (identical signals)*
* Output 2 is inverted, so it is not compliant with DVB-ASI signals.
2 dual channels (identicalsignals)
Signal type SMPTE 292M SMPTE 259M SMPTE 344M DVB-ASI (Output 1
only)*
Unbalanced (AES3id,SMPTE 276M)
Connector 75 BNC per IEC 169-8 75 BNC per IEC 169-8
Impedance 75 75
Return loss Better than -18 dB 5 MHzto 1.485 GHz
>40 dB, 0.1 MHz to 6 MHz>30 dB, 6 MHz to 12 MHz
Output amplitude 800 mVp-p ± 10% 1.0 Vp-p 10% into 75load
Rise / fall time < 270 ps 30 ns to 44 ns
Overshoot < 10% of amplitude —
Jitter < 0.2UI @ frequency tested —
Table 5-42 HS Video/Coaxial AES Audio Performance Specifications
ItemSpecification
Standard DefinitionVideo Coaxial AES
DC offset 0 V ± 0.5 V < 50 mV
Propagation delay — <100 ns
Intrinsic jitter — < 5 ns
Switching type — Asynchronous
AES frame rates — 30 kHz – 192 kHz
Data rates — Up to 30 Mb/s, 50% dutycycle
157
Copyright © 2004-2007, 2008, 2010, Harris Corporation
A Safety Precautions,Certifications, andCompliances
Carefully observe the safety alert symbols below for dangers, warnings, andcautions. They alert installers and operators of possible dangers or importantinformation contained in this manual.
Keep in mind, though, that warnings alone do not eliminate hazards, nor are theya substitute for safe operating techniques and proper accident preventionmeasures.
Any user-serviceable components (such as fuses or batteries) are only replaceableby those components listed in the manual.
IMPORTANT! Only qualified personnel should perform service procedures.
SafetyTerms andSymbols in
this Manual
WARNING: Statements identifying conditions or practices that mayresult in personal injury or loss of life. High voltage is present.
CAUTION: Statements identifying conditions or practices that canresult in damage to the equipment or other property.
Appendix ASafety Precautions, Certifications, and Compliances
158
Copyright © 2004-2007, 2008, 2010, Harris Corporation
Safety Termsand Symbols
on theProduct
PreventingElectrostatic
Discharge
DANGER: High voltage and indicates a personal injury hazardimmediately accessible as one reads the marking.
WARNING: Indicates a personal injury hazard not immediatelyaccessible as one reads the marking.
CAUTION: Indicates a hazard to property, including the product, or topay attention and refer to the manual.
Protective ground (earth) terminal.
Fuse. Replace with same type and rating of fuse.Zur Vermeidung von Feuer verwenden Sie nur Sicherungen mit der fürdieses Produkt geforderten Typ und Stromstärke.
Observe precautions for handling electrostatic sensitive devices.
CAUTION: Electrostatic discharge (ESD) can damage components inthe product. To prevent ESD, observe these precautions when directedto do so:
1 Use a Ground Strap. Wear a grounded antistatic wrist strap to dischargethe static voltage from your body while installing or removing sensitivecomponents.
2 Use a Safe Work Area. Do not use any devices capable of generating orholding a static charge in the work area where you install or removesensitive components. Avoid handling sensitive components in areas thathave a floor or benchtop surface capable of generating a static charge.
3 Handle Components Carefully. Do not slide sensitive components overany surface. Do not touch exposed connector pins. Handle sensitivecomponents as little as possible.
4 Transport and Store Carefully. Transport and store sensitive componentsin a static-protected bag or container.
Panacea Lite Routing Switcher SeriesInstallation, Configuration, and Operation Manual
159
Copyright © 2004-2007, 2008, 2010, Harris Corporation
InjuryPrecautions
WARNINGPotentially lethal voltages are present within the frame during normaloperation. The AC power cord must be disconnected from the framebefore the top panel is removed. (In frames with multiple powersupplies, remove ALL power cords.) Power should not be applied to theframe while the top is open unless properly trained personnel areservicing the unit.Pull out the plug from the main socket before the removal of a cover.Przod zdjeciem pokrywy wyciagnac wtyczke z gniazda sieciowego.
WARNING: SHOCK HAZARD - DO NOT OPEN.AVIS: RISQUE DE CHOC ÉLECTRIQUE - NE PAS OUVRIR.MOUNT IN RACK ONLYINSTALLER SUR SUPPORT DE MONTAGE SEULEMENT.
Use proper power cord
To avoid fire hazard, use only the power cord specified for this product.
Ground the product
This is a Safety Class 1 product and is grounded through the groundingconductor of the power cord. To avoid electrical shock, the groundingconductor must be connected to earth ground. Before makingconnections to the product’s input or output terminals, ensure theproduct is properly grounded.WARNING: THIS APPLIANCE MUST BE GROUNDED.WARNING: THIS APPLIANCE MUST BE EARTHED.VARNING: APPARATEN SKALL ANSLUTAS TILL JORDAT UTTAG NÄRDEN ANSLUTS TILL ETT NÄTVERK.
Do Not Operate Without Covers
To avoid electrical shock or fire hazard, do not operate this productwith covers or panels removed.
Use Proper Fuse
To avoid fire hazard, use only the fuse type and rating specified for thisproduct.
Do Not Operate in Wet/Damp Conditions
To avoid injury or fire hazard, do not operate this product in wet ordamp conditions.
Do Not Operate in an Explosive Atmosphere
To avoid injury or fire hazard, do not operate this product in anexplosive atmosphere.
Avoid Exposed Circuitry
To avoid injury, remove jewelry such as rings, watches, and othermetallic objects. Do not touch exposed connections and componentswhen power is present.
Appendix ASafety Precautions, Certifications, and Compliances
160
Copyright © 2004-2007, 2008, 2010, Harris Corporation
ProductDamage
Precautions
CAUTION:Disconnect power from the frame before removing or installing input/output modules. Removing or installing modules with power appliedcould cause serious damage to system components.
Use Proper Power Source
Do not operate this product from a power source that supplies morethan the specified voltage.
Use Proper Voltage Settings
Before applying power, ensure that the line selector is in the properposition for the power source being used.
Provide Proper Ventilation
To prevent product overheating, provide proper ventilation.
Do Not Operate With Suspected Failures
If you suspect there is damage to this product, have it inspected byqualified service personnel.CAUTION: This unit can have more than one power supply cord. Tode-energize the internal circuitry, you have to disconnect all powercords.ADVARSEL: Utstyret kan ha mere ennn en tilførselsledning. For å gjoreinterne deler spennigsløse må alle tilførselsledningene trekkes ut.VARNING: Denna apparat har mer än en nätanslutning. Samtliganätkablar måste bortkopplas för att göra de interna kretsarnaspänningsfria.
FUSE: REPLACE WITH SAME TYPE AND RATING OF FUSE.CAUTION: REPLACE WITH SAME TYPE FUSE.ATTENTION: UTILISER UN FUSIBLE DE RECHANGE DE MÊME TYPE.CAUTION: DISCONNECT SUPPLY CORD BEFORE CHANGING FUSE.ATTENTION: DÉBRANCHER AVANT DE REMPLACER LE FUSIBLE.ACHTUNG: VOR AUSWECHSELN DER SICHERUNG IST DAS GERÄTVOM NETZ ZU TRENNEN.
CAUTION
Disconnect power from the frame before removing or installing input/output modules. Removing or installing modules with power appliedcould cause serious damage to system components.
Use Proper Power Source
Do not operate this product from a power source that supplies morethan the specified voltage.
Panacea Lite Routing Switcher SeriesInstallation, Configuration, and Operation Manual
161
Copyright © 2004-2007, 2008, 2010, Harris Corporation
EMC andSafety
Standards
This product has been tested and found to comply with the following IEC, FCC,UL, ICES, and CSA standards, per the provision of the ElectromagneticCompatibility Directive 89/336/EEC of 3 May 1989 as amended by 92/31EEC of 28April 1992 and 93/68/EEC, Article 5 of 22 July 1993, and the Low Voltage Directive73/23/EEC of 19 February 1973.
EMC Standards Table A-1 EMC Standards
EMC Standard Description
EN55014 Limits and Methods of Measurement of RadioDisturbance Characteristics of ElectricMotor-Operated and Thermal Appliances forHousehold and Similar Purposes, Electric Tools,and Similar Electric Apparatus
EN55022 Limits and Methods of Measurement of RadioDisturbance Characteristics of InformationTechnology Equipment-Class A
EN55103-1 Electromagnetic Compatibility — Product FamilyStandard for Audio, Video, Audio-Visual, andEntertainment Lighting Control Apparatus forProfessional Use —Part 1: Emission, Environment E4
EN55103-2 Electromagnetic Compatibility — Product FamilyStandard for Audio, Video, Audio-Visual, andEntertainment Lighting Control Apparatus forProfessional Use —Part 2: Immunity, Environment E4
EN61000-3-2 Limits for Harmonic Current Emissions(Equipment Input Current Less Than or Equal to16 A Per Phase)
EN61000-3-3 Limitations of Voltage Fluctuations and Flicker inLow Voltage Supply Systems for Equipment withRated Current Less Than 16 A
EN61000-4-2 Electrostatic Discharge Requirements “ESD” 2 kVCD, 4 kV AD
EN61000-4-3 Radiated Radio-Frequency Electromagnetic FieldImmunity Test 1 V/m {1 kHz 80% AM, 80-1000MHz}
EN61000-4-4 Electrical Fast Transient Requirements “Burst,”0.5 kV Sig. & Ctrl. Lines 0.5 kV a.c. & d.c. PowerLine, 0.5 kV Functional Earth
Appendix ASafety Precautions, Certifications, and Compliances
162
Copyright © 2004-2007, 2008, 2010, Harris Corporation
These devices are for professional use only and comply with Part 15 of FCC rules.Operation is subject to the following two conditions:
1 These devices may cause interference to radio and TV receivers in residentialareas.
2 These devices will accept any interference received, including interference thatmay cause undesired operations.
Changes or modifications not expressly approved by Leitch Technology,™ the partyresponsible for compliance to the FCC Part 15 Rule, could void the user’s authorityto operate this equipment legally in the United States.
These devices do not exceed the Class A limits for radio noise emissions fromdigital apparatus as set out in the interference standard entitled “Digitalapparatus,” ICES-003 of the Canadian Department of Communications.
Additional EMCInformation
This device is for professional use in a controlled EMC environment, such aspurpose-built broadcast studios.
EMC regulations require that the radiation emitted from this unit does not exceedcertain limits. These limits are only met when the front panel is closed and the twothumb screws are secured.
Compliance to the EMC regulations is also dependent on the use of suitablyshielded (screened) cables. Coax cables should be of the double-shielded(screened) variety. Unused BNCs should be fitted with 75 terminations.
All audio cables should be screened with the shield (screen) making good contactwith the metallic parts of the cable connectors.
D-type connectors used with this unit should always have metallic shells with theshield (screen) of the cable mechanically bonded to the metal shell. It is furtherrecommended that the D-type cable connectors be of the “dimple” variety. Theseconnectors make a better contact and consequently improve EMC performance.
EN61000-4-5 Surge Immunity Test 0.5 kV a.c. Power Line
EN61000-4-6 Immunity to Conducted Disturbances Induced byRadio Frequency Fields 1 V rms 0.15-80 MHz Sig.& Ctrl. Lines, 3 V rms 0.15-80 MHz d.c. PowerLine, 1 V rms 0.15-80 MHz a.c. Power Line, 1 Vrms 0.15-80 MHz Functional Earth
EN61000-4-11 Voltage Dips, Short Interruptions, and VoltageVariations- Immunity Tests
Table A-1 EMC Standards (Continued)
EMC Standard Description
Panacea Lite Routing Switcher SeriesInstallation, Configuration, and Operation Manual
163
Copyright © 2004-2007, 2008, 2010, Harris Corporation
Safety Standards Table A-2 Harmonized and Reference IEC Safety Standards
HarmonizedStandard Reference IEC Standard Description
EN 60950:1992 withAm1, Am 2, Am 3,Am4, A11amendments
IEC 60950:1991 (Modified) Safety of InformationTechnology Equipment
EN 60950 IEC 60950:1999 (Modified) Safety of InformationTechnology Equipment
IEC 60950-1 (2001-10) Information TechnologyEquipment Safety—Part 1: GeneralRequirements
EN 60065 IEC 60065: 1998 (Modified)6th Edition
Audio, Video, and SimilarElectronic ApparatusSafety Requirements
IEC 60065 (2001)7th Edition
Audio, Video, and SimilarElectronic ApparatusSafety Requirements
Amendment 1 to IEC 600657th Edition
Audio, Video, and SimilarElectronic ApparatusSafety Requirements
EN 60825-1:1999 IEC 60825-1:1993 Safety of Laser Products—Part 1: EquipmentClassification,Requirements, and User'sGuide
EN 60825-2:2000 IEC 60825-2:2000 Safety of Laser Products—Part 2: Safety of OpticalFibre CommunicationSystems
IEC 60825-1 (2001-08)Edition 1.2
Safety of Laser Products—Part 1: EquipmentClassification,Requirements, and User'sGuide
UL 1419(March 28, 1997
2nd Edition Standard for ProfessionalVideo and AudioEquipment
UL 6500 (September30, 1999)
2nd Edition Standard for Audio/Videoand Musical InstrumentApparatus for Household,Commercial, and SimilarGeneral Use
UL 60950 (December1, 2000)
3rd Edition Safety of InformationTechnology Equipment
Appendix ASafety Precautions, Certifications, and Compliances
164
Copyright © 2004-2007, 2008, 2010, Harris Corporation
CAN/CSA-C22.2No. 60950-00
Safety of InformationTechnology Equipment(Bi-National Standard,with UL 60950)
CAN/CSA-E60065-00
Audio, Video and SimilarElectronic ApparatusSafety Requirements(Adopted IEC60065:1998,6th Edition, with CanadianDeviations)
CAN/CSA-C22.2No. 1-98
Audio, Video, and SimilarElectronic Equipment
CSA C22.2No. 1-98 includingAm1 (June, 2003)
Audio, Video, and SimilarElectronic Equipment
Table A-2 Harmonized and Reference IEC Safety Standards (Continued)
HarmonizedStandard Reference IEC Standard Description
165
Copyright © 2004-2007, 2008, 2010, Harris Corporation
B Control PanelInstallation andOperation
Figure B-1 P12×1-CP: Panacea Lite Local Control Panel
Figure B-2 P12×1-RCP: Panacea Lite Remote Control Panel
The optional Panacea Lite control panels have 12 source buttons to 1 destinationwith breakaway button. It is available in a local control version (see Figure B-1)and a remote control version (see Figure B-2). Both panels add a simplebreakaway capability. “Operation in Follow” consists of pressing the buttoncorresponding to the appropriate system input. The selected signal is then routedto the system output for the panel. Breakaway is performed by pressing theappropriate level button and the input button. This sends the selected input signalon the selected level to the output. The panel remains in the breakaway mode untilboth breakaway mode buttons are depressed simultaneously (see Figure B-6 onpage 170 descriptions of control panel button functions). The destination and thefirst level controlled by each control panel is set on the DIP switches on the back ofthe Panacea Lite frame. For DIP switch settings, see Figure B-7 on page 171(P12×1-CP) and Figure B-8 on page 172 (P12×1-RCP).
Appendix BControl Panel Installation and Operation
166
Copyright © 2004-2007, 2008, 2010, Harris Corporation
Installing aP12×1-CP
Control Panel
CAUTION: The P12×1-CP control panel will not communicateproperly unless at least one end of the X-Y bus is terminated.
1 Unscrew the screws on the top of the Panacea Lite frame, and then removethe frame top from the frame body. Set these screws aside, as you will needthem later.
2 Unscrew the two screws attaching the front blank assembly to the frame. (Thescrews in the front panel are captive. Do not separate them from the frontpanel.)
3 Gently pull the blank front panel away from the frame.
4 Plug the ribbon cable on the P12×1-CP control panel to the connector on thecore routing module. Make sure that the colored wire on the ribboncable faces up (see Figure B-3).
Figure B-3 Plugging in the P12×1-CP Ribbon Cable
NOTE: You may need to loosen the front panel screws so that the frametop will fall flush with the panel front.
5 Align the P12×1-CP control panel with the frame body.
6 Tighten the screws on the front of the panel. As you tighten the screws, thefront module will be pulled tight to the frame body.
7 Reattach the Panacea Lite frame top to the frame body. Use the original screwsto reattach the top to body.
8 Connect the power input receptacle on the frame to its power sources.
9 Between the control panel’s top and bottom function keys you will find thekey brightness adjustment (see Figure B-6 on page 170). This adjustmentcontrols the light intensity of all of the control panel keys. To adjust the keylight intensity, use a small flat-head screwdriver to turn the brightness screwclockwise (brighter) or counter-clockwise (dimmer).
Panacea Lite Routing Switcher SeriesInstallation, Configuration, and Operation Manual
167
Copyright © 2004-2007, 2008, 2010, Harris Corporation
Installing aP12×1-RCP
Control Panel
The P12×1-RCP control panel has the same pre-installation requirements as aPanacea Lite routing switcher. Follow the steps outlined in the following sections tocomplete the pre-installation procedures:
Ensuring Adequate Rack Space on page 18
Ensuring Proper Temperature and Ventilation on page 18
Meeting Electrical Requirements on page 19
To connect a P12×1-RCP unit to a Panacea routing switcher, you will need aregular cable with BNC connectors at both ends.
1 Complete all pre-installation procedures.
2 Make any DIP switch configuration changes you desire (see Choosing theAppropriate Configuration Mode on page 170 and P12×1-RCP DIPSwitch Configuration on page 172).
3 Connect one BNC connector to the X-Y port on the Panacea Lite routingswitcher back module.
4 Connect the other BNC connector to the BNC port on the P12×1-RCP.
5 Terminate any unused X-Y ports. The P12×1-RCP control panel will notcommunicate properly unless at least one end of the X-Y bus isterminated.
6 Mount the control panel in the proper rack (the procedure is the same as theone described in Installing a Panacea Lite Router on page 20)
7 Connect the power input receptacles on both frame and control panel to theirpower sources.
8 Between the control panel’s top and bottom function keys you will find thekey brightness adjustment (see Figure B-6 on page 170). This adjustmentcontrols the light intensity of all of the control panel keys. To adjust the keylight intensity, use a small flat-head screwdriver to turn the brightness screwclockwise (brighter) or counter-clockwise (dimmer).
Appendix BControl Panel Installation and Operation
168
Copyright © 2004-2007, 2008, 2010, Harris Corporation
Installing KeyCap Labels
Panacea Lite control panels are shipped without labels on the front panel key caps.A key cap disassembly tool and a sheet of label inserts are included for yourconvenience. These label inserts, or any customer artwork printed on translucentmaterial, can be installed in the front panel lamps.
Follow these steps to disassemble and reassemble key cap labels.
Disassembly
Figure B-4 Disassembly
1 Pull the key cap off the front of the control panel.
2 Hook the disassembly tool under the opposite corners of the key cap body.
3 Hold the clear outer lens in one hand while you use the disassembly tool topull the white key cap body from the outer lens.
Reassembly Two notches on the back of the lens cap assembly fit into two notches on theinside of the switch body on the front panel board. Make sure the artwork’s topfaces one of these two notches.
Panacea Lite Routing Switcher SeriesInstallation, Configuration, and Operation Manual
169
Copyright © 2004-2007, 2008, 2010, Harris Corporation
Figure B-5 Reassembly
1 Remove the fresnel lens from inside the key cap outer lens.
2 Remove desired label artwork from the sheet provided, or use your ownartwork (reproduced on transparent material).
3 Fit the artwork into the outer lens.
4 Snap the fresnel lens into the fitted side of the key cap body (the curved sideof the lens should face the inside of the key cap body). Make sure the face ofthis new assembly is flat.
5 Fit the key cap body assembly into the outer lens.
6 Reinstall the lens cap assembly onto the front panel.
7 If you have not already done so, adjust the panel key light intensity. (See thefinal step in Installing a P12×1-CP Control Panel on page 166 or inInstalling a P12×1-RCP Control Panel on page 167 for instructions.)
Appendix BControl Panel Installation and Operation
170
Copyright © 2004-2007, 2008, 2010, Harris Corporation
Choosing theAppropriate
Configura-tion Mode
Choosing which configuration mode to use will depend on which features aredesired from the control panel.
DIP switch configuration mode is ideal in situations where complex mapping ofsources and destinations is not required. Configuration is achieved by setting asmall number of DIP switches located on the rear of the Panacea Lite frame.
See Figure B-7 on page 171 for the P12×1-CP DIP switch configuration.
See Figure B-8 on page 172 for the P12×1-RCP DIP switch configuration.
Figure B-6 summarizes the features of the P12×1-CP router control panel.Configuration capabilities of the Panacea Lite local and remote control panels areas follows:
Assign Sources — Assigns Sources consecutively from Source 1
Breakaway Operation — Allows you to change a source on a selected Levelwithout affecting sources already connected on other Levels (see page 175)
Figure B-6 Control Panel Operational Summary
Panacea Lite Routing Switcher SeriesInstallation, Configuration, and Operation Manual
171
Copyright © 2004-2007, 2008, 2010, Harris Corporation
P12×1-CP DIPSwitch Con-
figuration
DIP switch configuration mode provides limited configuration capability, whichallows you to set the panel’s Destination offset, signal type, and Levels controlled.These selections are shown in Figure B-7.
Destination Offset offset the destinations from 0 to 64 using binary code.
Level Control determines which levels will be affected by this control panel.The first or lowest consecutive level set on the DIP switch is assigned to thevideo level and the next consecutive level is set on the DIP switch (plus all otherlevels set in consecutive order) are assigned and follow the audio level, ifapplicable.
Figure B-7 P12×1-CP DIP Switch Summary
Appendix BControl Panel Installation and Operation
172
Copyright © 2004-2007, 2008, 2010, Harris Corporation
P12×1-RCPDIP SwitchConfigura-
tion
DIP switch configuration mode provides limited configuration capability, whichallows you to set the panel’s Destination offset, signal type, and Levels controlled.These selections are shown in Figure B-8 on page 172.
Destination Offset offset the destinations from 0 to 64 using binary code.
Panel ID is the panel’s physical address.
Level 0...7 determine which levels will be affected by this control panel. Thefirst or lowest consecutive level set on the DIP switch is assigned to the videolevel. The next consecutive level set on the DIP switch plus all other levels set inconsecutive order are assigned and follow the audio level. For example, ifpoles 2, 4, 6 and 7 are on (i.e., enabled), then the first, or video, level wouldbe assigned to Level 2. The next, or audio, level would be assigned to Level 3;plus, Levels 5 and 6 would follow Level 3, the audio level.
Figure B-8 P12×1-RCP DIP Switch Summary
Panacea Lite Routing Switcher SeriesInstallation, Configuration, and Operation Manual
173
Copyright © 2004-2007, 2008, 2010, Harris Corporation
Operation NOTE: Read the section titled P12×1-CP DIP Switch Configuration(page 171) to verify that your P12×1-CP panel is properly configured. Readthe section titled “P12×1-RCP DIP Switch Configuration” (page 172) toverify that your P12×1-RCP panel is properly configured.
Operation for the Panacea Lite control panels is summarized in Figure B-9.
Figure B-9 P12×1-CP DIP Switch Mode Operational Summary
Source Select NOTE: In a multi-level routing system, only the levels defined by thecontrol panel’s Level DIP switch will be affected by pressing a Source Selectkey.
Each Source Select key (numbered 1 to 12) represents a source which can beswitched (connected) to the destination. The panel will indicate which source isconnected to the destination by turning on the light on the Source Select key forthe source that is currently connected.
NOTE: This procedure is the same for both local and remote controlpanels.
Figure B-10 Selecting Sources
Appendix BControl Panel Installation and Operation
174
Copyright © 2004-2007, 2008, 2010, Harris Corporation
Destination Lock NOTE: This procedure is the same for both local and remote controlpanels.
The Destination Lock key is used to lock and unlock the destination. When adestination is locked, sources cannot be selected from this or any other controlpanel on the control network. The actual status of a destination lock is stored inthe router frame rather than in the control panel, thus ensuring that once locked, adestination cannot be changed by any panel.
The Destination Lock key is lit if the currently selected destination is locked;therefore, the control panel’s destination is locked.
Pressing the Destination Lock key when it is not lit will lock the destination.
Pressing a Destination Lock key when it is lit will attempt to unlock thedestination. (Whether or not it succeeds in unlocking the destination dependson which panel originally locked the destination.)
Figure B-11 summarizes the conditions under which a destination can beunlocked.
Figure B-11 Operational Summary: Destination Locks
Panel Enable NOTE: This procedure is the same for both local and remote controlpanels..
The Panel Enable key enables and disables the panel. The Panel Enable key disablesall other keys on the panel until it is pressed again to enable the panel to function.
Previous State ofDestination Lock Effect of Pressing Lock Key
NOT LOCKED (not lit) Destination becomes locked, Lock key lights up
LOCKED (lit up) Destination becomes unlocked, Lock key turns off
Panacea Lite Routing Switcher SeriesInstallation, Configuration, and Operation Manual
175
Copyright © 2004-2007, 2008, 2010, Harris Corporation
Figure B-12 Panel Enable Key
If the Panel Enable key is lit, the panel is enabled.
The panel will operate normally.
Source Select and Destination Lock keys function as described above.
You can make changes from this particular panel.
If the Panel Enable key is not lit, the panel is disabled. It locks all the keys on thepanel so that they cannot be reset.
The panel will not allow changing crosspoints or locking/unlockingdestinations.
Pressing the Lock key will have no effect.
Pressing a Source Selection key will not cause a crosspoint switch.
BreakawayOperation
NOTE: This procedure is the same for both local and remote controlpanels.
Unlike most other control panels, the Panacea Lite control panels performbreakaway operations. The default starting level is level 0, which is typicallyassigned to Video. The next level by default is level 1, which is typically assigned toAudio. These examples will use the reference to the first starting level as Video andthe next level as Audio. However, the DIP switches on the back panel of thePanacea Lite frame may be configured to assign a Level.
Figure B-13 on page 176 shows how to operate the P12×1-CP or the P12×1-RCPin one of these modes:
AFV (Audio Follow Video) switching
Breaking away Audio
Changing the source on the Video Level
Appendix BControl Panel Installation and Operation
176
Copyright © 2004-2007, 2008, 2010, Harris Corporation
Figure B-13 Control Panel Breakaway Operations
There are two additional sets of operating circumstances for the P12×1-RCP only:AFV mode and Audio Only mode.
In AFV mode, the buttons for the video level and its corresponding source will be litsteadily. The buttons for audio and all sources that differ from the source on thevideo level will flash.
Panacea Lite Routing Switcher SeriesInstallation, Configuration, and Operation Manual
177
Copyright © 2004-2007, 2008, 2010, Harris Corporation
The example shown in Figure B-14 shows how the RCP buttons would light up inthe following circumstances:
The P12×1-RCP controls levels 0, 2, 3, and 5.
Level 0 is set to source 3.
Level 2 is set to source 6.
Level 3 is set to source 7.
Level 5 is set to source 8.
Figure B-14 Example of AFV Mode only for P12×1-RCP
In Audio Select mode, the button for the source corresponding to the first audiolevel will be lit steadily. The buttons for all sources that differ from the source onthe first level will flash.
The example shown in Figure B-15 shows how the RCP buttons would light up inthe following circumstances:
The P12×1-RCP controls levels 0, 2, 3, and 5.
Level 0 is set to source 3.
Level 2 is set to source 6.
Level 3 is set to source 7.
Level 5 is set to source 8.
Figure B-15 Example of Audio Select Mode only for P12×1-RCP
Appendix BControl Panel Installation and Operation
178
Copyright © 2004-2007, 2008, 2010, Harris Corporation
179
Copyright © 2004-2007, 2008, 2010, Harris Corporation
Index
Keywords
A“A” messages 122, 127Accessories 8AES audio, balanced
back panel I/O connectors 15AES audio, coaxial
back panel I/O connectors 15specifications
output 144performance 144
AFV switching 175Analog audio
back panel I/O connectors 15specifications
input 141output 141performance 141
Analog audio 600specifications
input 142output 142performance 142
Analog videoback panel I/O connectors 15specifications
input 145output 145performance 145
Analog video looping input submoduledescription 7installation 21
Analog video/600 stereo analogaudio
back panel I/O connectors 16Analog video/stereo analog audio
back panel I/O connectors 16Architecture. See Frame architectureAudio connector pin assignment 6Audio follow video. See AFV switching
Audio signal adapterdescription 5–6installation 21
BBack panel connections
back panel I⁄O modules 15–17serial port 14X-Y port 15
Back panel I/O modulesAES audio, balanced 15AES audio, coaxial 15analog audio 15analog audio 600 15analog video 15analog video/600 stereo analog
audio 16analog video/stereo analog audio
16high definition/standard definition
video 17high definition-standard definition
video/coax AES audio 17HS video/balanced AES audio 17standard definition video 16standard definition video/balanced
AES audio 16standard definition video/coaxial
AES audio 16Breakaway operation 175
CCCS Navigator 27Compliance standards xivConfiguration mode 167Configuring P12×1-SP submodules 33–
Index180
Copyright © 2004-2007, 2008, 2010, Harris Corporation
34, ??–137Control features
firmware. See Control Systemsfront panel configurations 8front panel options 26operating mode 9software. See Control Systems
Control functionality 27Control panels
See also Local control panels,Remote control panels
configuration 170–172installation ??–167key cap label installation 168–169operation 173–177
Control systemsfirmware-based control system 26software-based control systems
26–27Cooling 18
DDatatek routers. See LXYTODATEKDestination lock 174Device IDs for SANDARTOLXY 121“DI” messages 122DIP switch configuration 13DIP switch settings
GVG TEN-XL 137GVG20TOLXY 38LSERIAL 44LXYTO4800 88LXYTOBARC 49LXYTODATEK 53LXYTOGVG20 56LXYTOHORIZ 41LXYTOLIGHTWAVE 95LXYTOMCUMD 110LXYTOMHzUMD 67LXYTOMODEM 59LXYTONVIS 113LXYTOSIERRA 101LXYTOSONY 106LXYTOTSLUMD 76LXYTOVLAN 79LXYTOXPRS 82LXYTOXY 85Panacea Lite example 131PANMIITOLXY 116PROBELTOLXY 119SANDARTOLXY 124
TANDBERGTOLXY 129DIP switch summary 12–13“DO” messages 122, 127
EEarth (protective). See Ground(protective)Electrical requirements
load limitations 19power dissipation 19protective ground 19voltage selection 19
Electrical specifications, frame 140EMC standards 161–162
FFeatures 3, 26Field upgrading 23Firmware-based control system. SeeControl SystemsFrame architecture 2Frame configuration and installation
back panel connections 13–17DIP switch configuration 13DIP switch summary 12–13ensuring proper temperature and
ventilation 18installing frames 18–20installing other equipment 21–22meeting electrical requirements
19siting requirements 18
Frame size 3Frame specifications
electrical 140input⁄output 140mechanical 140
Front panel configurations 8
GGround (protective) 19GVG 20-TEN control of Harris routers.See GVG20TOLXYGVG 20-TEN routers. SeeLXYTOGVG20GVG Horizon routers. SeeLXYTOHORIZGVG TEN-XL
Panacea Series Frame and ModulesInstallation, Configuration, and Operation Manual
181
Copyright © 2004-2007, 2008, 2010, Harris Corporation
ASCII protocol 131DIP switch settings 136jumper orientation 136references 136reserved words 134SMPTE
data byte to sourcecomparison 135
protocol 132protocol definition 134protocol exceptions 135
GVG TEN-XL control of Harris routers.See GVG TEN-XLGVG20TOLXY
DIP switch settings 37jumper orientation 37protocol notes 36references 36
HHigh definition/standard definitionvideo
back panel I/O connectors 17specifications
input 153output 153performance 153
HS video/balanced AES audioback panel I/O connectors 17
HS video/coaxial AES audioback panel I/O connectors 17
I-JInjury precautions 159Input specifications
analog audio 141analog audio 600 142analog video 145high definition/standard
definition video 153standard definition video 149
Input⁄output specifications, frame 140Installation
control panels ??–167frames
control functionality 20field upgrading 23in-frame architecture 19mounting requirements 19
power supply 20key cap labels 168–169P12×1-SP submodules
connecting ribbon cable 31mounting submodule 30preparing frame 30reassembling frame 32
routers 20Introduction
frame architecture 2product description 1product features
frame size 3mechanical dimensions 3module capacity 3module types 4signal capacity 3signal formats 4standard equipment 3
Jumper configuration reference point34Jumper orientation
GVG TEN-XL 136GVG20TOLXY 37jumper configuration reference
point 34LSERIAL 44LXYTO4800 87LXYTOBARC 48LXYTODATEK 52LXYTOGVG20 55LXYTOHORIZ 41LXYTOLIGHTWAVE 94LXYTOMCUMD 109LXYTOMHzUMD 66LXYTOMODEM 58LXYTONVIS 112LXYTOSIERRA 100LXYTOTSLUMD 75LXYTOVLAN 78LXYTOXPRS 81LXYTOXY 84PANMIITOLXY 115PROBELTOLXY 118SANDARTOLXY 123TANDBERGTOLXY 128
KKey cap label installation 168–169
Index182
Copyright © 2004-2007, 2008, 2010, Harris Corporation
LLightwave Matrix-Hub series 1000switcher. See LXYTOLIGHTWAVELoad limitations (electrical) 19Local control panel
See also Control panelsdescription 8, 165DIP switch configuration 171installation 166
Looping input submodule. See Analogvideo looping input submoduleLSERIAL
DIP switch settings 44jumper orientation 43references 43
LXYTO4800DIP switch settings 88jumper orientation 87references 86
LXYTOBARCDIP switch settings 48jumper orientation 47references 47
LXYTODATEKDIP switch settings 52jumper orientation 51references 51
LXYTOGVG20DIP switch settings 55jumper orientation 55protocol features 54references 54
LXYTOHORIZDIP switch settings 41jumper orientation 40references 40
LXYTOLIGHTWAVEcommunication to controller 91DIP switch settings 95jumper orientation 94Matrix-Hub commands 93Matrix-Hub discovery 89references 94
LXYTOMCUMDDIP switch settings 109jumper orientation 109McCurdy setup 108references 108
LXYTOMHzUMDDIP switch settings 66editing text displayed 64jumper orientation 66
monitoring levels 66references 66
LXYTOMODEMDIP switch settings 59jumper orientation 58references 57
LXYTONVISDIP switch settings 112features supported by NVISION
protocol 111jumper orientation 112references 112
LXYTOSIERRAalarm conditions, detecting and
reporting 96communication to controller 97DIP switch settings 100jumper orientation 100loss of communication 96protocol commands 97references 99Sierra commands 99Sierra discovery 96system discovery 96
LXYTOSONYDIP switch settings 105error codes and messages 105jumper orientation 105machine control commands 102status update report functions
103status updates 103
LXYTOTSLUMDDIP switch settings 75jumper orientation 74monitoring levels 73references 74RouterMapper configuration
procedure 68text displayed 72
LXYTOVLANDIP switch settings 78jumper orientation 77references 77
LXYTOXPRSDIP switch settings 81jumper orientation 80references 80
LXYTOXYDIP switch settings 84jumper orientation 83references 83
Panacea Series Frame and ModulesInstallation, Configuration, and Operation Manual
183
Copyright © 2004-2007, 2008, 2010, Harris Corporation
M“M” messages 122, 127Manual information x–xiMatrix-Hub commands 93McCurdy Under Monitor display. SeeLXYTOMCUMDMechanical dimensions 3Mechanical specifications, frame 140Megahertz Under Monitor Display.See LXYTOMHzUMDModule capacity 3Module types
accessories 8core routing module 5options 7–8power supply 6
Mounting modules 30Mounting requirements 19
NNaming conventions xviNavigator 27NVISION routers. See LXYTONVIS
OOperation
control panelsAFV switching 175breakaway operation 175destination lock 174panel enable 174source select 173
framescontrol features 26control functionality 27
operating mode 9P12×1-SP submodules 35–137
Optionsanalog video looping input
submodule 7, 21audio signal adapter 5–6, 21front panel 26
Other equipment installation 21–22Output specifications
AES audiocoaxial 144
analog audio 141analog audio 600 142analog video 145
high definition/standarddefinition video 153
standard definition video 149
PP-12×1A2. See Analog audioP-12×1A2L. See Analog audio 600P-12×1AEB. See AES audio, balancedP-12×1AEC. See AES audio, coaxialP12×1-CP. See Local control panelP12×1-DTB. See Stereo audio adapterP-12×1HS. See High definition/standard definition videoP-12×1HSAEB. See HS video/balancedAES audioP-12×1HSAEC. See HS video/coaxialAES audioP12×1-RCP. See Remote control panelP-12×1SAEB. See Standard definitionvideo/balanced AES audioP-12×1SAEC. See Standard definitionvideo/coaxial AES audioP12×1-SP. See Serial communicationsand control submoduleP-12×1V. See Analog videoP-12×1VA2. See Analog video/stereoanalog audioP-12×1VA2L. See Analog video/600stereo analog audioP12×1-VL. See Analog video loopinginput submoduleP-12×1VS. See Standard definitionvideoPanasonic MARC TYPE II SQC controlof Harris routers. See PANMIITOLXYPanel enable 174PANMIITOLXY
DIP switch settings 116jumper orientation 115references 114
Performance specificationsAES audio
coaxial 144analog audio 141analog audio 600 142analog video 145high definition/standard
definition video 153standard definition video 150
Power dissipation (electrical) 19Power supply 6, 20
Index184
Copyright © 2004-2007, 2008, 2010, Harris Corporation
Precautionsinjury 159product damage 160safety xvii
Preventing electrostatic discharge 158Pro-Bel controller for Harris routers.See PROBELTOLXYPROBELTOLXY
configuration application notes117
configuration control 117DIP switch settings 118jumper orientation 118protocol commands 117
Product damage precautions 160Product description 1Product identifiers
GVG TEN-XL. GVG Ten XL controlof Harris routers 130–137
GVG20TOLXY. GVG 20-TENcontrol of Harris routers36–38
LSERIAL. Additional serial ports forHarris routers 42–44
LXYTO4800. X-Y control ofremote router via modem(special 4800 or 9600baud rate) 86–88
LXYTOBARC. X-Y to BARCOVIVALDI 45–49
LXYTODATEK. X-Y control ofDatatek routers 50–53
LXYTOGVG20. X-Y control ofGVG 20-TEN routers 54–56
LXYTOHMzUMD. X-Y control ofMegahertz undermonitor displays 60–67
LXYTOHORIZ. X-Y control of GVGHorizon routers 39–41
LXYTOLIGHTWAVE. X-Y controlof Lightwave Matrix-Hubseries 1000 switcher 89–95
LXYTOMCUMD. X-Y to McCurdyunder monitor displays107–110
LXYTOMODEM. X-Y control of aremote router via modem57–59
LXYTONVIS. X-Y control ofNVISION routers 111–113
LXYTOSIERRA. X-Y control ofSierra routing switchers96–101
LXYTOSONY. X-Y control of Sonycontrol system 102–106
LXYTOTSLUMD. X-Y to undermonitor display using TSLprotocol 68–76
LXYTOVLAN. X-Y control ofV-LAN systems 77–79
LXYTOXPRS. X-Y control ofXPRESS routers 80–82
LXYTOXY. X-Y control of anotherP-12×1-SP 83–85
P-12×1-SP. Panacea Lite serialport submodule 29
PANMIITOLXY. Panasonic MARCtype II SQC control ofHarris routers 114–116
PROBELTOLXY. Pro-Bel controllerfor Harris routers 117–119
SANDARTOLXY. X-Y control ofSandar routers 120–124
TANDBERGTOLXY. Tandbergcontroller for Harrisrouters 125–129
Product naming conventions xviProduct standards xiii–xivProtocol notes
PANMIITOLXY 114
Q“Q” messages 122, 127
R“R” messages 122, 128Reference point, jumper configuration34Remote control panel
See also Control panelsdescription 8, 165DIP switch configuration 172DIP switch summary 172installation 167
Returning a product xiiRouter installation 20RouterMapper 26, 68RouterWorks 27Routing module (core) 5
Panacea Series Frame and ModulesInstallation, Configuration, and Operation Manual
185
Copyright © 2004-2007, 2008, 2010, Harris Corporation
S“S” messages 122, 127Safety precautions xvii, 157–164
injury precautions 159preventing electrostatic discharge
158product damage precautions 160safety terms and symbols in this
manual 157safety terms and symbols on the
product 158Safety standards xivSandar routers. See SANDARTOLXYSANDARTOLXY
“A” messages 122“DI” messages 122“DO” messages 122“M” messages 122“Q” messages 122“R” messages 122“S” messages 122“XD001” messages 123“XD002” messages 123“XD003” messages 123“XD004” messages 123“XD005” messages 123“XR” messages 123“XTA” messages 123alarm messages 122configuration control 120device IDs 121DIP switch settings 123formatting, 3-digit 121host controller release number
messages 123jumper orientation 123linked level offset messages 123matrix size messages 123matrix status messages 122polling messages 122protocol commands 121references 123reset messages 122text name messages 122tributary information messages
123Serial communications and controlsubmodule 7Serial port 14Sierra routing switchers. SeeLXYTOSIERRA
Signal capacity 3Signal formats 4Siting requirements 18Software-based control systems 26–27Software-based control systems. SeeControl SystemsSource select 173Specifications
600 analog audio 142AES audio
balanced 143coaxial 144
analog audio 141analog video 145analog video/stereo analog audio
146–147, 147–149frame specifications 140high definition/standard
definition video 153HS video/balanced AES audio
154–155HS video/coaxial AES audio 155–
156standard definition video 149–
150standard definition video/
balanced AES audio 150–151
standard definition video/coaxialAES audio 151–152
Standard definition videoback panel I/O connectors 16specifications
input 149output 149performance 150
Standard definition video/balancedAES audio
back panel I/O connectors 16Standard definition video/coaxial AESaudio
back panel I/O connectors 16Standard product equipment 3Standards
compliance standards xivEMC standards 161–162product standards xiii–xivRoHS compliance xivsafety standards xiv, 163WEEE compliance xiv
Stereo audio adapter 5, 21
Index186
Copyright © 2004-2007, 2008, 2010, Harris Corporation
TTandberg controller for Harris routers.See TANDBERGTOLXYTANDBERGTOLXY
“A” messages 127“DI” messages 127“DO” messages 127“M” messages 127“Q” messages 127“R” messages 128“S” messages 127“XD001” messages 128“XD002” messages 128“XD003” messages 128“XD004” messages 128“XD005” messages 128“XR” messages 128“XTA” messages 128alarm messages 127configuration control 125device IDs 126DIP switch settings 129host controller release number
messages 128jumper orientation 128linked level offset messages 128matrix size messages 128matrix status messages 127polling messages 127references 128reset messages 128text name messages 127tributary information messages
128Temperature 18
UUnpacking information xii
VVentilation 18Voltage selection (electrical) 19
X-Y-Z“XD001” messages 123, 128“XD0015” messages 123“XD002” messages 123, 128“XD003” messages 123, 128“XD004” messages 123, 128“XD005” messages 128“XR” messages 123, 128“XTA” messages 123, 128X-Y control of
another X-Y P12×1-SP 83–85Datatek routers 50–53GVG 20-TEN routers 54–56GVG Horizon routers 39–41Lightwave Matrix-Hub series 1000
switcher 89–95Megahertz Under Monitor
displays 60–67NVISION routers 111–113remote router via modem 57–59,
86–88Sandar routers 120–124Sierra routing switchers 96–101Sony control system 102–106V-LAN systems 77–79XPRESS routers 80–82
X-Y port 15X-Y to
BARCO VIVALDI 45–49McCurdy Under Monitor displays
107–110Under Monitor display using TSL
protocol 68–76