Download Dynex DX-ESW8 - Switch Service manual

Trinix NXT
DIGITAL VIDEO ROUTER
Installation and Service Manual
Software Version 3.3.1
071827613
OCTOBER 2011
CERTIFICATE
Certificate Number: 510040.001
The Quality System of:
Grass Valley USA, LLC and its Grass Valley Affiliates
Headquarters:
400 Providence Mine Road
Nevada City, CA 95945
United States
15655 SW Greystone Ct.
Beaverton, OR 97006
United States
Kapittelweg 10
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The Nederlands
2300 So. Decker Lake Blvd.
Salt Lake City, UT 84119
United States
Brunnenweg 9
D-64331 Weiterstadt
Germany
Including its implementation, meets the requirements of the standard:
ISO 9001:2008
Scope:
The design, manufacture and support of video and audio hardware and software products and related
systems.
This Certificate is valid until:
This Certificate is valid as of:
Certified for the first time:
June 14, 2012
December 23, 2010
June 14, 2000
H. Pierre Sallé
President
KEMA-Registered Quality
The method of operation for quality certification is defined in the KEMA General Terms And Conditions For
Quality And Environmental Management Systems Certifications. Integral publication of this certificate is allowed.
KEMA-Registered Quality, Inc.
4377 County Line Road
Chalfont, PA 18914
Ph: (215)997-4519
Fax: (215)997-3809
CRT 001 042108
Accredited By:
ANAB
Trinix NXT
DIGITAL VIDEO ROUTER
Installation and Service Manual
Software Version 3.3.1
071827613
OCTOBER 2011
Contacting Grass Valley
International
France
United States/Canada
+800 8080 2020 or +33 1 48 25 20 20
24 x 7
Support Centers 24 x 7
Asia
+1 800 547 8949 or +1 530 478 4148
Hong Kong, Taiwan, Korea, Macau: +852 2531 3058 Indian Subcontinent: +91 22 24933476
Southeast Asia/Malaysia: +603 7805 3884 Southeast Asia/Singapore: +65 6379 1313
China: +861 0660 159 450 Japan: +81 3 5484 6868
Local Support
Australia and New Zealand: +61 1300 721 495
Central/South America: +55 11 5509 3443
Centers
(available
Middle East: +971 4 299 64 40 Near East and Africa: +800 8080 2020 or +33 1 48 25 20 20
during normal
Belarus, Russia, Tadzikistan, Ukraine, Uzbekistan: +7 095 2580924 225 Switzerland: +41 1 487 80 02
business hours)
S. Europe/Italy-Roma: +39 06 87 20 35 28 -Milan: +39 02 48 41 46 58 S. Europe/Spain: +34 91 512 03 50
Europe
Benelux/Belgium: +32 (0) 2 334 90 30 Benelux/Netherlands: +31 (0) 35 62 38 42 1 N. Europe: +45 45 96 88 70
Germany, Austria, Eastern Europe: +49 6150 104 444 UK, Ireland, Israel: +44 118 923 0499
Copyright © Grass Valley USA, LLC. All rights reserved.
This product may be covered by one or more U.S. and foreign patents.
Grass Valley Web Site
The www.grassvalley.com web site offers the following:
Online User Documentation — Current versions of product catalogs, brochures,
data sheets, ordering guides, planning guides, manuals, and release notes
in .pdf format can be downloaded.
FAQ Database — Solutions to problems and troubleshooting efforts can be
found by searching our Frequently Asked Questions (FAQ) database.
Software Downloads — Download software updates, drivers, and patches.
4
Trinix NXT — Installation and Service Manual
Contents
About This Manual . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . 9
Additional Documentation . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . 9
Safety Terms and Symbols. . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . 11
Terms in This Manual . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . 11
Terms on the Product . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . 11
Symbols on the Product . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . 12
Warnings . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . 12
Cautions . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . 13
Certifications and Compliances . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . 23
FCC Emission Control . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . 23
Canadian EMC Notice of Compliance . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . 23
EN 55103 Class A Warning . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . 23
Canadian Certified Power Cords . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . 24
Canadian Certified AC Adapter . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . 24
Laser Compliance . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . 24
Certification . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . 25
Recommended ESD Guidelines . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . 27
Sources of ESD and Risks. . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . 28
Grounding Requirements for Personnel . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . 29
Section 1 — Introduction . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . .
31
General . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . .
SD, HD, and 3GB/s in the Same Frame . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . .
Easy to Create Very Large Routers . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . .
Control Systems . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . .
The Symmetric Trinix Frame . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . .
The Asymmetric Frame . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . .
Trinix Architecture . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . .
Serviceability and Reliability . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . .
Broadlinx. . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . .
31
32
33
33
33
34
34
35
36
Section 2 — Planning Guide . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . .
39
Introduction . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . 39
Trinix Frames . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . 39
Sync Reference Options . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . 61
Duplication and Expansion . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . 69
Output Duplication - Dual . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . 69
Output Duplication - Quad . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . 74
Expanded Systems. . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . 76
Protected Paths . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . 95
Overview . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . 95
Planning . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . 98
Worksheet for Protected Path Implementation. . . . . . . . . . . . . . . . . . . . . . . . . . 105
Control Systems. . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . 106
Jupiter Facility Control System . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . 106
Trinix NXT — Installation and Service Manual
5
Contents
SMS 7000 / Encore Control . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . .
LAN and Com Bus Connections . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . .
System Monitoring Applications . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . .
Specifications. . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . .
Electrical . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . .
Environmental. . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . .
Air Flow . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . .
Physical . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . .
Configuration . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . .
Section 3 — Hardware Installation
. . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . 125
Summary of Installation Procedure. . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . .
Pre-Installation Steps . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . .
Customer-Supplied Rack Requirements . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . .
Connecting the Power Supplies . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . .
Connecting and Configuring the Reference Settings . . . . . . . . . . . . . . . . . . . .
Configuring Each Output Monitor on the TRX-OPM Boards . . . . . . . . . . . . .
Connecting the Cables . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . .
Control and Monitoring Systems . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . .
Optional Connections. . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . .
Powering Up the Routing Switcher . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . .
Setting the Rear Panel Dip Switch . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . .
Power Supply Notes . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . .
Sync Reference Connections . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . .
NR/SR-33000 / SR-33500/ TRX-SR V-Phasing . . . . . . . . . . . . . . . . . . . . . . . . . . .
Output Board Configuration . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . .
Duplication and Expansion . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . .
Output Reclocker Bypass Settings . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . .
Input Equalization Settings. . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . .
Output Monitoring. . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . .
Monitoring with Expanded Systems . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . .
Frame Number Settings. . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . .
Jupiter Control . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . .
SMS 7000 / Encore Control. . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . .
LAN and Com Bus Connections . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . .
Replacing Trinix Boards . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . .
Section 4 — Trinix Asymmetrical Power Supply Configurations
125
125
126
126
128
130
131
131
132
133
148
151
157
170
185
186
197
199
200
207
212
214
219
221
226
. . . 227
Introduction. . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . .
The External Power Supply Frame . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . .
The Power Supply Module . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . .
Basic Configuration for the Lineage Power Supply Frame . . . . . . . . . . . . . . .
Trinix Asymmetrical Frames . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . .
Trinix Status Concentrator Board (TRX-SC) . . . . . . . . . . . . . . . . . . . . . . . . . . . .
The 128X256 Trinix Asymmetrical Frame. . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . .
The 256X512 Trinix Asymmetrical Frame. . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . .
The 512X1024 Trinix Asymmetrical Frame. . . . . . . . . . . . . . . . . . . . . . . . . . . . . . .
512X1024 Default Power Supply Configuration . . . . . . . . . . . . . . . . . . . . . . . .
512X1024 Redundant Power Supply Configurations, Option A . . . . . . . . . . .
6
108
109
112
113
113
118
118
119
121
227
227
228
230
230
230
233
243
252
254
257
Trinix NXT — Installation and Service Manual
Contents
Section 5 — Broadlinx Installation . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . .
259
Software Installation . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . .
Introduction . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . .
Updating Compact Flash Cards . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . .
Updating New Broadlinx Boards . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . .
Updating Systems with a Single Broadlinx Board . . . . . . . . . . . . . . . . . . . . . . .
Updating Systems with Two Broadlinx Boards . . . . . . . . . . . . . . . . . . . . . . . . .
Licensing SNMP on Both Broadlinx Boards . . . . . . . . . . . . . . . . . . . . . . . . . . . .
Formatting the Compact Flash Card with the FAT16 Format . . . . . . . . . . . . .
Alternate methods for Updating a Compact Flash Cards . . . . . . . . . . . . . . . . .
Installation FAQ. . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . .
260
260
261
262
263
269
277
279
281
283
Section 6 — Broadlinx Software . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . .
285
Configuring the Network Settings . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . .
Configuration. . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . .
Opening the Configuration Page . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . .
SNMP/NetCentral Monitoring . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . .
Licensing SNMP on Both Broadlinx Boards . . . . . . . . . . . . . . . . . . . . . . . . . . . .
Broadlinx / Internet Explorer Monitoring. . . . . . . . . . . . . . . . . . . . . . . . . . . . . .
Firmware Update. . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . .
Trinix Matrix Identification from the NetConfig Software . . . . . . . . . . . . . . . .
Updating the FPGAs Firmware on Multiple Boards at the Same Time . . . . .
285
292
292
300
309
311
318
319
322
Section 7 — Broadlinx Console Commands . . . . . . . . . . . . . . . . . . . . . . . . . .
329
Section 8 — Broadlinx Version and Supported Trinix Boards . . . . . . .
337
Matrix Controller . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . .
Matrix . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . .
Reference. . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . .
Rear Panel . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . .
Input . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . .
Output . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . .
338
339
341
342
343
345
Section 9 — Protected Paths
. . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . 349
Protected Paths Overview . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . .
Verifying the Parameters on the Broadlinx Boards . . . . . . . . . . . . . . . . . . . . . . . .
Broadlinx Software with Protected Paths Installation. . . . . . . . . . . . . . . . . . . . . .
Accessing the Protected Path Page . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . .
Broadlinx Protective Paths Web Page . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . .
Assigning a Secondary Path. . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . .
System Alarm Overview . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . .
Protected Path Alarms . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . .
Encore Configuration . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . .
Jupiter Configuration . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . .
Operation Notes . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . .
349
352
355
358
360
365
366
366
367
371
373
Section 10 — Encore Control . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . .
375
Encore Control of Trinix . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . 375
Sync Reference . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . 377
Trinix NXT — Installation and Service Manual
7
Contents
Encore Configuration of Protected Paths . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . 377
Section 11 — Analog Input Processing . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . .
379
TRX-VI-33100 Module . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . 379
Analog Processing Control . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . 379
Customizing Analog Video Processing Settings . . . . . . . . . . . . . . . . . . . . . . . . 380
Section 12 — Troubleshooting . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . .
393
LEDs . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . 393
Signal flow . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . 410
Incompatible Switches . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . 414
Section 13 — Trinix Fiber Option . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . .
415
Trinix Fiber Boards Overview . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . .
Fiber Optic Cleaning Requirement . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . .
Specifications. . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . .
LED Displays. . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . .
Trinix Fiber Boards Installation . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . .
Installing the Trinix Fiber Option. . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . .
415
416
419
421
424
425
Section 14 — Front-Air Vent . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . .
429
Front-Air Vent (FAV) Overview . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . 429
Installation Procedure . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . 431
Installing the FAV. . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . 431
Section 15 — Trinix Frame Slot Maps . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . .
433
Trinix 512x512 Frame Slot Numbers . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . .
Trinix 256x256 Frame Slot Numbers . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . .
Trinix 128x128 Frame Slot Numbers . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . .
Trinix 256x512 Frame Slot Numbers . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . .
Trinix 128x256 Frame Slot Numbers . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . .
Trinix 512x1024 Frame Slot Numbers . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . .
434
435
436
437
438
439
Section 16 — Expanded System Sizes . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . .
441
Expanded Systems . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . 441
8
Glossary . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . .
445
Index . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . .
447
Trinix NXT — Installation and Service Manual
Preface
About This Manual
This manual provides system planning, installation and troubleshooting
information specific to the Trinix Digital Video Router.
The Trinix DV33XXX frames are no longer available to purchase. However,
this manual covers specifics about these DV33XXX frames. The DV33XXX
frames and the TRX-NXTXXX frames are similar except for minor differences, which are identified in this manual.
The Trinix Digital Video Router can be controlled by the Grass Valley
Jupiter or Encore Control System. Configuration information for the
control system itself is contained in the control system’s documentation set:
Jupiter Control System Release Notes.
Jupiter VM-3000 Installation and Operating Manual.
Jupiter CM-4000 Installation and Operating Manual.
Jupiter CM-4000 Installation and Service Manual.
Jupiter Getting Started Guide.
Encore Control System Release Notes series.
Encore Installation and Service Manual.
Encore Control System User Manual.
Encore Control Panels Manual
An electronic copy of the documentation set is normally provided with the
system on a CD-ROM. The CD Includes SMS7000 Series Control System,
Acappella, Concerto, Encore, Jupiter, JEP 100, Prelude, and Trinix documentation. The latest versions of these manuals are available on our web
site (see Grass Valley Web Site on page 4)
Individual printed manuals may be ordered by contacting Technical Support.
Additional Documentation
NetCentral IV TV Facility Monitoring System User Guide.
Trinix NXT — Installation and Service Manual
9
Preface
10
Trinix NXT — Installation and Service Manual
Safety Summary
Read and follow the important safety information below, noting especially
those instructions related to risk of fire, electric shock or injury to persons.
Additional specific warnings not listed here may be found throughout the
manual.
WARNING Any instructions in this manual that require opening the equipment cover
or enclosure are for use by qualified service personnel only. To reduce the
risk of electric shock, do not perform any servicing other than that contained in the operating instructions unless you are qualified to do so.
Safety Terms and Symbols
Terms in This Manual
Safety-related statements may appear in this manual in the following form:
WARNING Warning statements identify conditions or practices that may result in personal injury or loss of life.
CAUTION Caution statements identify conditions or practices that may result in damage
to equipment or other property, or which may cause equipment crucial to
your business environment to become temporarily non-operational.
Terms on the Product
The following terms may appear on the product:
DANGER — A personal injury hazard is immediately accessible as you read
the marking.
WARNING — A personal injury hazard exists but is not immediately acces-
sible as you read the marking.
CAUTION — A hazard to property, product, and other equipment is present.
Trinix NXT — Installation and Service Manual
11
Safety Summary
Symbols on the Product
The following symbols may appear on the product:
Indicates that dangerous high voltage is present within the
equipment enclosure that may be of sufficient magnitude to
constitute a risk of electric shock.
Indicates that user, operator or service technician should refer
to product manual(s) for important operating, maintenance,
or service instructions.
This is a prompt to note fuse rating when replacing fuse(s).
The fuse referenced in the text must be replaced with one
having the ratings indicated.
Identifies a protective grounding terminal which must be connected to earth ground prior to making any other equipment
connections.
Identifies an external protective grounding terminal which
may be connected to earth ground as a supplement to an
internal grounding terminal.
Indicates that static sensitive components are present which
may be damaged by electrostatic discharge. Use anti-static
procedures, equipment and surfaces during servicing.
Warnings
The following warning statements identify conditions or practices that can
result in personal injury or loss of life:
Dangerous voltage or current may be present — Disconnect power and remove
battery (if applicable) before removing protective panels, soldering, or
replacing components.
Do not service alone — Do not internally service this product unless another
person capable of rendering first aid and resuscitation is present.
Remove jewelry — Prior to servicing, remove jewelry such as rings, watches,
and other metallic objects.
Avoid exposed circuitry — Do not touch exposed connections, components or
circuitry when power is present.
12
Trinix NXT — Installation and Service Manual
Safety Summary
Use proper power cord — Use only the power cord supplied or specified for
this product.
Ground product — Connect the grounding conductor of the power cord to
earth ground.
Operate only with covers and enclosure panels in place — Do not operate this
product when covers or enclosure panels are removed.
Use correct fuse — Use only the fuse type and rating specified for this
product.
Use only in dry environment — Do not operate in wet or damp conditions.
Use only in non-explosive environment — Do not operate this product in an
explosive atmosphere.
High leakage current may be present — Earth connection of product is essential
before connecting power.
Dual power supplies may be present — Be certain to plug each power supply
cord into a separate branch circuit employing a separate service ground.
Disconnect both power supply cords prior to servicing.
Double pole neutral fusing — Disconnect mains power prior to servicing.
Use proper lift points — Do not use door latches to lift or move equipment.
Avoid mechanical hazards — Allow all rotating devices to come to a stop before
servicing.
Cautions
The following caution statements identify conditions or practices that can
result in damage to equipment or other property:
Use correct power source — Do not operate this product from a power source
that applies more than the voltage specified for the product.
Use correct voltage setting — If this product lacks auto-ranging power sup-
plies, before applying power ensure that the each power supply is set to
match the power source.
Provide proper ventilation — To prevent product overheating, provide equip-
ment ventilation in accordance with installation instructions.
Use anti-static procedures — Static sensitive components are present which
may be damaged by electrostatic discharge. Use anti-static procedures,
equipment and surfaces during servicing.
Do not operate with suspected equipment failure — If you suspect product damage
or equipment failure, have the equipment inspected by qualified service
personnel.
Trinix NXT — Installation and Service Manual
13
Safety Summary
Ensure mains disconnect — If mains switch is not provided, the power cord(s)
of this equipment provide the means of disconnection. The socket outlet
must be installed near the equipment and must be easily accessible. Verify
that all mains power is disconnected before installing or removing power
supplies and/or options.
Route cable properly — Route power cords and other cables so that they ar not
likely to be damaged. Properly support heavy cable bundles to avoid connector damage.
Use correct power supply cords — Power cords for this equipment, if provided,
meet all North American electrical codes. Operation of this equipment at
voltages exceeding 130 VAC requires power supply cords which comply
with NEMA configurations. International power cords, if provided, have
the approval of the country of use.
Use correct replacement battery — This product may contain batteries. To
reduce the risk of explosion, check polarity and replace only with the same
or equivalent type recommended by manufacturer. Dispose of used batteries according to the manufacturer’s instructions.
Troubleshoot only to board level — Circuit boards in this product are densely
populated with surface mount technology (SMT) components and application specific integrated circuits (ASICS). As a result, circuit board repair at
the component level is very difficult in the field, if not impossible. For warranty compliance, do not troubleshoot systems beyond the board level.
14
Trinix NXT — Installation and Service Manual
Safety Summary
Sicherheit – Überblick
Lesen und befolgen Sie die wichtigen Sicherheitsinformationen dieses
Abschnitts. Beachten Sie insbesondere die Anweisungen bezüglich
Brand-, Stromschlag- und Verletzungsgefahren. Weitere spezifische, hier
nicht aufgeführte Warnungen finden Sie im gesamten Handbuch.
WARNUNG Alle Anweisungen in diesem Handbuch, die das Abnehmen der
Geräteabdeckung oder des Gerätegehäuses erfordern, dürfen nur von
qualifiziertem Servicepersonal ausgeführt werden. Um die
Stromschlaggefahr zu verringern, führen Sie keine Wartungsarbeiten
außer den in den Bedienungsanleitungen genannten Arbeiten aus, es sei
denn, Sie besitzen die entsprechende Qualifikationen für diese Arbeiten.
Sicherheit – Begriffe und Symbole
In diesem Handbuch verwendete Begriffe
Sicherheitsrelevante Hinweise können in diesem Handbuch in der folgenden Form auftauchen:
WARNUNG Warnungen weisen auf Situationen oder Vorgehensweisen hin, die
Verletzungs- oder Lebensgefahr bergen.
VORSICHT Vorsichtshinweise weisen auf Situationen oder Vorgehensweisen hin, die zu
Schäden an Ausrüstungskomponenten oder anderen Gegenständen oder
zum zeitweisen Ausfall wichtiger Komponenten in der Arbeitsumgebung
führen können.
Hinweise am Produkt
Die folgenden Hinweise können sich am Produkt befinden:
GEFAHR — Wenn Sie diesen Begriff lesen, besteht ein unmittelbares Verlet-
zungsrisiko.
WARNUNG — Wenn Sie diesen Begriff lesen, besteht ein mittelbares Verlet-
zungsrisiko.
VORSICHT — Es besteht ein Risiko für Objekte in der Umgebung, den Mixer
selbst oder andere Ausrüstungskomponenten.
Trinix NXT — Installation and Service Manual
15
Safety Summary
Symbole am Produkt
Die folgenden Symbole können sich am Produkt befinden:
Weist auf eine gefährliche Hochspannung im Gerätegehäuse
hin, die stark genug sein kann, um eine Stromschlaggefahr
darzustellen.
Weist darauf hin, dass der Benutzer, Bediener oder Servicetechniker wichtige Bedienungs-, Wartungs- oder Serviceanweisungen in den Produkthandbüchern lesen sollte.
Dies ist eine Aufforderung, beim Wechsel von Sicherungen
auf deren Nennwert zu achten. Die im Text angegebene Sicherung muss durch eine Sicherung ersetzt werden, die die
angegebenen Nennwerte besitzt.
Weist auf eine Schutzerdungsklemme hin, die mit dem
Erdungskontakt verbunden werden muss, bevor weitere Ausrüstungskomponenten angeschlossen werden.
Weist auf eine externe Schutzerdungsklemme hin, die als
Ergänzung zu einem internen Erdungskontakt an die Erde
angeschlossen werden kann.
Weist darauf hin, dass es statisch empfindliche Komponenten
gibt, die durch eine elektrostatische Entladung beschädigt
werden können. Verwenden Sie antistatische Prozeduren,
Ausrüstung und Oberflächen während der Wartung.
Warnungen
Die folgenden Warnungen weisen auf Bedingungen oder Vorgehensweisen
hin, die Verletzungs- oder Lebensgefahr bergen:
Gefährliche Spannungen oder Ströme — Schalten Sie den Strom ab, und entfernen Sie ggf. die Batterie, bevor sie Schutzabdeckungen abnehmen, löten
oder Komponenten austauschen.
Servicearbeiten nicht alleine ausführen — Führen Sie interne Servicearbeiten nur
aus, wenn eine weitere Person anwesend ist, die erste Hilfe leisten und
Wiederbelebungsmaßnahmen einleiten kann.
Schmuck abnehmen — Legen Sie vor Servicearbeiten Schmuck wie Ringe,
Uhren und andere metallische Objekte ab.
16
Trinix NXT — Installation and Service Manual
Safety Summary
Keine offen liegenden Leiter berühren — Berühren Sie bei eingeschalteter Strom-
zufuhr keine offen liegenden Leitungen, Komponenten oder Schaltungen.
Richtiges Netzkabel verwenden — Verwenden Sie nur das mitgelieferte Netzk-
abel oder ein Netzkabel, das den Spezifikationen für dieses Produkt
entspricht.
Gerät erden — Schließen Sie den Erdleiter des Netzkabels an den Erdung-
skontakt an.
Gerät nur mit angebrachten Abdeckungen und Gehäuseseiten betreiben — Schalten Sie
dieses Gerät nicht ein, wenn die Abdeckungen oder Gehäuseseiten entfernt
wurden.
Richtige Sicherung verwenden — Verwenden Sie nur Sicherungen, deren Typ
und Nennwert den Spezifikationen für dieses Produkt entsprechen.
Gerät nur in trockener Umgebung verwenden — Betreiben Sie das Gerät nicht in
nassen oder feuchten Umgebungen.
Gerät nur verwenden, wenn keine Explosionsgefahr besteht — Verwenden Sie dieses
Produkt nur in Umgebungen, in denen keinerlei Explosionsgefahr besteht.
Hohe Kriechströme — Das Gerät muss vor dem Einschalten unbedingt geerdet
werden.
Doppelte Spannungsversorgung kann vorhanden sein — Schließen Sie die beiden
Anschlußkabel an getrennte Stromkreise an. Vor Servicearbeiten sind beide
Anschlußkabel vom Netz zu trennen.
Zweipolige, neutrale Sicherung — Schalten Sie den Netzstrom ab, bevor Sie mit
den Servicearbeiten beginnen.
Fassen Sie das Gerät beim Transport richtig an — Halten Sie das Gerät beim Trans-
port nicht an Türen oder anderen beweglichen Teilen fest.
Gefahr durch mechanische Teile — Warten Sie, bis der Lüfter vollständig zum
Halt gekommen ist, bevor Sie mit den Servicearbeiten beginnen.
Vorsicht
Die folgenden Vorsichtshinweise weisen auf Bedingungen oder Vorgehensweisen hin, die zu Schäden an Ausrüstungskomponenten oder
anderen Gegenständen führen können:
Gerät nicht öffnen — Durch das unbefugte Öffnen wird die Garantie ungültig.
Richtige Spannungsquelle verwenden — Betreiben Sie das Gerät nicht an einer
Spannungsquelle, die eine höhere Spannung liefert als in den Spezifikationen für dieses Produkt angegeben.
Gerät ausreichend belüften — Um eine Überhitzung des Geräts zu vermeiden,
müssen die Ausrüstungskomponenten entsprechend den Installationsan-
Trinix NXT — Installation and Service Manual
17
Safety Summary
weisungen belüftet werden. Legen Sie kein Papier unter das Gerät. Es
könnte die Belüftung behindern. Platzieren Sie das Gerät auf einer ebenen
Oberfläche.
Antistatische Vorkehrungen treffen — Es gibt statisch empfindliche Kompo-
nenten, die durch eine elektrostatische Entladung beschädigt werden können. Verwenden Sie antistatische Prozeduren, Ausrüstung und
Oberflächen während der Wartung.
CF-Karte nicht mit einem PC verwenden — Die CF-Karte ist speziell formatiert.
Die auf der CF-Karte gespeicherte Software könnte gelöscht werden.
Gerät nicht bei eventuellem Ausrüstungsfehler betreiben — Wenn Sie einen Produk-
tschaden oder Ausrüstungsfehler vermuten, lassen Sie die Komponente
von einem qualifizierten Servicetechniker untersuchen.
Kabel richtig verlegen — Verlegen Sie Netzkabel und andere Kabel so, dass Sie
nicht beschädigt werden. Stützen Sie schwere Kabelbündel ordnungsgemäß ab, damit die Anschlüsse nicht beschädigt werden.
Richtige Netzkabel verwenden — Wenn Netzkabel mitgeliefert wurden, erfüllen
diese alle nationalen elektrischen Normen. Der Betrieb dieses Geräts mit
Spannungen über 130 V AC erfordert Netzkabel, die NEMA-Konfigurationen entsprechen. Wenn internationale Netzkabel mitgeliefert wurden,
sind diese für das Verwendungsland zugelassen.
Richtige Ersatzbatterie verwenden — Dieses Gerät enthält eine Batterie. Um die
Explosionsgefahr zu verringern, prüfen Sie die Polarität und tauschen die
Batterie nur gegen eine Batterie desselben Typs oder eines gleichwertigen,
vom Hersteller empfohlenen Typs aus. Entsorgen Sie gebrauchte Batterien
entsprechend den Anweisungen des Batterieherstellers.
Das Gerät enthält keine Teile, die vom Benutzer gewartet werden können.
Wenden Sie sich bei Problemen bitte an den nächsten Händler.
18
Trinix NXT — Installation and Service Manual
Safety Summary
Consignes de sécurité
Il est recommandé de lire, de bien comprendre et surtout de respecter les
informations relatives à la sécurité qui sont exposées ci-après, notamment
les consignes destinées à prévenir les risques d’incendie, les décharges électriques et les blessures aux personnes. Les avertissements complémentaires, qui ne sont pas nécessairement repris ci-dessous, mais présents dans
toutes les sections du manuel, sont également à prendre en considération.
AVERTISSEMENT Toutes les instructions présentes dans ce manuel qui concernent
l’ouverture des capots ou des logements de cet équipement sont
destinées exclusivement à des membres qualifiés du personnel de
maintenance. Afin de diminuer les risques de décharges
électriques, ne procédez à aucune intervention d’entretien autre
que celles contenues dans le manuel de l’utilisateur, à moins que
vous ne soyez habilité pour le faire.
Consignes et symboles de sécurité
Termes utilisés dans ce manuel
Les consignes de sécurité présentées dans ce manuel peuvent apparaître
sous les formes suivantes:
AVERTISSEMENT Les avertissements signalent des conditions ou des pratiques
susceptibles d’occasionner des blessures graves, voire même
fatales.
ATTENTION
Les mises en garde signalent des conditions ou des pratiques
susceptibles d’occasionner un endommagement à l’équipement ou
aux installations, ou de rendre l’équipement temporairement non
opérationnel, ce qui peut porter préjudice à vos activités.
Signalétique apposée sur le produit
La signalétique suivante peut être apposée sur le produit:
DANGER — risque de danger imminent pour l’utilisateur.
AVERTISSEMENT — Risque de danger non imminent pour l’utilisateur.
MISE EN GARDE — Risque d’endommagement du produit, des installations
ou des autres équipements.
Trinix NXT — Installation and Service Manual
19
Safety Summary
Symboles apposés sur le produit
Les symboles suivants peut être apposés sur le produit:
Signale la présence d’une tension élevée et dangereuse dans le
boîtier de l’équipement ; cette tension peut être suffisante
pour constituer un risque de décharge électrique.
Signale que l’utilisateur, l’opérateur ou le technicien de maintenance doit faire référence au(x) manuel(s) pour prendre connaissance des instructions d’utilisation, de maintenance ou
d’entretien.
Il s’agit d’une invite à prendre note du calibre du fusible lors
du remplacement de ce dernier. Le fusible auquel il est fait
référence dans le texte doit être remplacé par un fusible du
même calibre.
Identifie une borne de protection de mise à la masse qui doit
être raccordée correctement avant de procéder au raccordement des autres équipements.
Identifie une borne de protection de mise à la masse qui peut
être connectée en tant que borne de mise à la masse supplémentaire.
Signale la présence de composants sensibles à l’électricité statique et qui sont susceptibles d’être endommagés par une
décharge électrostatique. Utilisez des procédures, des équipements et des surfaces antistatiques durant les interventions
d’entretien.
Avertissements
Les avertissements suivants signalent des conditions ou des pratiques susceptibles d’occasionner des blessures graves, voire même fatales:
Présence possible de tensions ou de courants dangereux — Mettez hors tension,
débranchez et retirez la pile (le cas échéant) avant de déposer les couvercles
de protection, de défaire une soudure ou de remplacer des composants.
Ne procédez pas seul à une intervention d’entretien — Ne réalisez pas une intervention d’entretien interne sur ce produit si une personne n’est pas présente
pour fournir les premiers soins en cas d’accident.
20
Trinix NXT — Installation and Service Manual
Safety Summary
Retirez tous vos bijoux — Avant de procéder à une intervention d’entretien,
retirez tous vos bijoux, notamment les bagues, la montre ou tout autre objet
métallique.
Évitez tout contact avec les circuits exposés — Évitez tout contact avec les connex-
ions, les composants ou les circuits exposés s’ils sont sous tension.
Utilisez le cordon d’alimentation approprié — Utilisez exclusivement le cordon
d’alimentation fourni avec ce produit ou spécifié pour ce produit.
Raccordez le produit à la masse — Raccordez le conducteur de masse du cordon
d’alimentation à la borne de masse de la prise secteur.
Utilisez le produit lorsque les couvercles et les capots sont en place — N’utilisez pas
ce produit si les couvercles et les capots sont déposés.
Utilisez le bon fusible — Utilisez exclusivement un fusible du type et du
calibre spécifiés pour ce produit.
Utilisez ce produit exclusivement dans un environnement sec — N’utilisez pas ce
produit dans un environnement humide.
Utilisez ce produit exclusivement dans un environnement non explosible — N’utilisez
pas ce produit dans un environnement dont l’atmosphère est explosible.
Présence possible de courants de fuite — Un raccordement à la masse est indis-
pensable avant la mise sous tension.
Deux alimentations peuvent être présentes dans l’équipement — Assurez vous que
chaque cordon d’alimentation est raccordé à des circuits de terre séparés.
Débranchez les deux cordons d’alimentation avant toute intervention.
Fusion neutre bipolaire — Débranchez l’alimentation principale avant de pro-
céder à une intervention d’entretien.
Utilisez les points de levage appropriés — Ne pas utiliser les verrous de la porte
pour lever ou déplacer l’équipement.
Évitez les dangers mécaniques — Laissez le ventilateur s’arrêter avant de pro-
céder à une intervention d’entretien.
Mises en garde
Les mises en garde suivantes signalent les conditions et les pratiques susceptibles d’occasionner des endommagements à l’équipement et aux installations:
N’ouvrez pas l’appareil — Toute ouverture prohibée de l’appareil aura pour
effet d’annuler la garantie.
Utilisez la source d’alimentation adéquate — Ne branchez pas ce produit à une
source d’alimentation qui utilise une tension supérieure à la tension nominale spécifiée pour ce produit.
Trinix NXT — Installation and Service Manual
21
Safety Summary
Assurez une ventilation adéquate — Pour éviter toute surchauffe du produit,
assurez une ventilation de l’équipement conformément aux instructions
d’installation. Ne déposez aucun document sous l’appareil — ils peuvent
gêner la ventilation. Placez l’appareil sur une surface plane.
Utilisez des procédures antistatiques - Les composants sensibles à l’électricité
statique présents dans l’équipement sont susceptibles d’être endommagés
par une décharge électrostatique. Utilisez des procédures, des équipements
et des surfaces antistatiques durant les interventions d’entretien.
N’utilisez pas la carte CF avec un PC — La carte CF a été spécialement formatée.
Le logiciel enregistré sur la carte CF risque d’être effacé.
N’utilisez pas l’équipement si un dysfonctionnement est suspecté — Si vous sus-
pectez un dysfonctionnement du produit, faites inspecter celui-ci par un
membre qualifié du personnel d’entretien.
Acheminez les câbles correctement — Acheminez les câbles d’alimentation et les
autres câbles de manière à ce qu’ils ne risquent pas d’être endommagés.
Supportez correctement les enroulements de câbles afin de ne pas endommager les connecteurs.
Utilisez les cordons d’alimentation adéquats — Les cordons d’alimentation de cet
équipement, s’ils sont fournis, satisfont aux exigences de toutes les réglementations régionales. L’utilisation de cet équipement à des tensions
dépassant les 130 V en c.a. requiert des cordons d’alimentation qui satisfont
aux exigences des configurations NEMA. Les cordons internationaux, s’ils
sont fournis, ont reçu l’approbation du pays dans lequel l’équipement est
utilisé.
Utilisez une pile de remplacement adéquate — Ce produit renferme une pile. Pour
réduire le risque d’explosion, vérifiez la polarité et ne remplacez la pile que
par une pile du même type, recommandée par le fabricant. Mettez les piles
usagées au rebut conformément aux instructions du fabricant des piles.
Cette unité ne contient aucune partie qui peut faire l’objet d’un entretien
par l’utilisateur. Si un problème survient, veuillez contacter votre distributeur local.
22
Trinix NXT — Installation and Service Manual
Regulatory Notices
Certifications and Compliances
FCC Emission Control
This equipment has been tested and found to comply with the limits for a
Class A digital device, pursuant to Part 15 of the FCC Rules. These limits
are designed to provide reasonable protection against harmful interference
when the equipment is operated in a commercial environment. This equipment generates, uses, and can radiate radio frequency energy and, if not
installed and used in accordance with the instruction manual, may cause
harmful interference to radio communications. Operation of this equipment in a residential area is likely to cause harmful interference in which
case the user will be required to correct the interference at his own expense.
Changes or modifications not expressly approved by Grass Valley Group
can affect emission compliance and could void the user’s authority to
operate this equipment.
Canadian EMC Notice of Compliance
This digital apparatus does not exceed the Class A limits for radio noise
emissions from digital apparatus set out in the Radio Interference Regulations of the Canadian Department of Communications.
Le présent appareil numérique n’emet pas de bruits radioélectriques
dépassant les limites applicables aux appareils numeriques de la classe A
préscrites dans le Règlement sur le brouillage radioélectrique édicte par le
ministère des Communications du Canada.
EN 55103 Class A Warning
For products that comply with Class A. In a domestic environment this
product may cause radio interference in which case the user may be
required to take adequate measures.
Trinix NXT — Installation and Service Manual
23
Regulatory Notices
Canadian Certified Power Cords
Canadian approval includes the products and power cords appropriate for
use in the North America power network. All other power cords supplied
are approved for the country of use.
Canadian Certified AC Adapter
Canadian approval includes the AC adapters appropriate for use in the
North America power network. All other AC adapters supplied are
approved for the country of use.
Laser Compliance
Laser Safety Requirements
The device used in this product is a Class 1 certified laser product. Operating this product outside specifications or altering from its original design
may result in hazardous radiation exposure, and may be considered an act
of modifying or new manufacturing of a laser product under U.S. regulations contained in 21CFR Chapter1, subchapter J or CENELEC regulations
in HD 482 S1. People performing such an act are required by law to recertify
and reidentify this product in accordance with provisions of 21CFR subchapter J for distribution within the U.S.A., and in accordance with
CENELEC HD 482 S1 for distribution within countries using the IEC 825
standard.
Laser Safety
Laser safety in the United States is regulated by the Center for Devices and
Radiological Health (CDRH). The laser safety regulations are published in
the “Laser Product Performance Standard,” Code of Federal Regulation
(CFR), Title 21, Subchapter J.
The international Electrotechnical Commission (IEC) Standard 825, “Radiation of Laser Products, Equipment Classification, Requirements and
User’s Guide,” governs laser products outside the United States. Europe
and member nations of the European Free trade Association fall under the
jurisdiction of the Comite European de Normalization Electrotechnique
(CENELEC).
For the CDRH: The radiant power is detected trough a 7 mm aperture at a
distance of 200 mm from the source focused through a lens with a focal
length of 100 mm.
24
Trinix NXT — Installation and Service Manual
Regulatory Notices
For IEC compliance: The radiant power is detected trough a 7 mm aperture
at a distance of 100 mm from the source focused through a lens with a focal
length of 100 mm.
FCC Emission Limits
This device complies with Part 15 of the FCC Rules. Operation is subject to
the following two conditions: (1) This device may no cause harmful interference, and (2) this device must accept any interference received,
including interference that may cause undesirable operation. This device
has been tested and found to comply with FCC Part 15 Class B limits for a
digital device when tested with a representative laser-based fiber optical
system that complies with ANSI X3T11 Fiber Channel Standard.
Certification
Category Standard
Designed/tested for compliance with:
Safety
Professional Video and Audio Equipment
ANSI/UL 1950-1997 3rd Ed.
CAN/CSA-C22.2 No. 950-95
EN 60950
Trinix NXT — Installation and Service Manual
25
Regulatory Notices
26
Trinix NXT — Installation and Service Manual
ESD Protection
Electronics today are more susceptible to electrostatic discharge (ESD)
damage than older equipment. Damage to equipment can occur by ESD
fields that are smaller than you can feel. Implementing the information in
this section will help you protect the investment that you have made in
purchasing Grass Valley equipment. This section contains Grass Valley’s
recommended ESD guidelines that should be followed when handling
electrostatic discharge sensitive (ESDS) items. These minimal recommendations are based on the information in the Sources of ESD and Risks area.
The information in Grounding Requirements for Personnel on page 29 is provided to assist you in selecting an appropriate grounding method.
Recommended ESD Guidelines
Follow these guidelines when handling Grass Valley equipment:
•
Only trained personnel that are connected to a grounding system
should handle ESDS items.
•
Do not open any protective bag, box, or special shipping packaging
until you have been grounded.
Note
When a Personal Grounding strap is unavailable, as an absolute minimum,
touch a metal object that is touching the floor (for example, a table, frame, or
rack) to discharge any static energy before touching an ESDS item.
•
Open the anti-static packaging by slitting any existing adhesive tapes.
Do not tear the tapes off.
•
Remove the ESDS item by holding it by its edges or by a metal panel.
•
Do not touch the components of an ESDS item unless it is absolutely
necessary to configure or repair the item.
•
Keep the ESDS work area clear of all nonessential items such as coffee
cups, pens, wrappers and personal items as these items can discharge
static. If you need to set an ESDS item down, place it on an anti-static
mat or on the anti-static packaging.
Trinix NXT — Installation and Service Manual
27
ESD Protection
Sources of ESD and Risks
The following information identifies possible sources of electrostatic discharge and can be used to help establish an ESD policy.
Personnel
One of the largest sources of static is personnel. The static can be released
from a person’s clothing and shoes.
Environment
The environment includes the humidity and floors in a work area. The
humidity level must be controlled and should not be allowed to fluctuate
over a broad range. Relative humidity (RH) is a major part in determining
the level of static that is being generated. For example, at 10% - 20% RH a
person walking across a carpeted floor can develop 35kV; yet when the relative humidity is increased to 70% - 80%, the person can only generate
1.5kV.
Static is generated as personnel move (or as equipment is moved) across a
floor’s surface. Carpeted and waxed vinyl floors contribute to static build
up.
Work Surfaces
Painted or vinyl-covered tables, chairs, conveyor belts, racks, carts, anodized surfaces, plexiglass covers, and shelving are all static generators.
Equipment
Any equipment commonly found in an ESD work area, such as solder
guns, heat guns, blowers, etc., should be grounded.
Materials
Plastic work holders, foam, plastic tote boxes, pens, packaging containers
and other items commonly found at workstations can generate static electricity.
28
Trinix NXT — Installation and Service Manual
ESD Protection
Grounding Requirements for Personnel
The information in this section is provided to assist you in selecting a
grounding method. This information is taken from ANSI/ESD S20.20-2007
(Revision of ANSI/ESD S20.20-1999).
Table 1. Product Qualification
Personnel Grounding Technical
Requirement
Test Method
Required Limits
Wrist Strap System*
ANSI/ESD S1.1 (Section 5.11)
< 3.5 x 107 ohm
Flooring / Footwear System – Method 1
ANSI/ESD STM97.1
< 3.5 x 107 ohm
Flooring / Footwear System – Method 2
(both required)
ANSI/ESD STM97.1
< 109 ohm
ANSI/ESD STM97.2
< 100 V
Product qualification is normally conducted during the initial selection of
ESD control products and materials. Any of the following methods can be
used: product specification review, independent laboratory evaluation, or
internal laboratory evaluation.
Table 2. Compliance Verification
Personnel Grounding Technical
Requirement
Test Method
Required Limits
Wrist Strap System*
ESD TR53 Wrist Strap Section
< 3.5 x 107 ohm
Flooring / Footwear System – Method 1
ESD TR53 Flooring Section and ESD
TR53 Footwear Section
< 3.5 x 107 ohm
Flooring / Footwear System – Method 2
(both required)
ESD TR53 Flooring Section and ESD
TR53 Footwear Section
< 1.0 x 109 ohm
* For situations where an ESD garment is used as part of the wrist strap
grounding path, the total system resistance, including the person, garment,
and grounding cord, must be less than 3.5 x 107 ohm.
Trinix NXT — Installation and Service Manual
29
ESD Protection
30
Trinix NXT — Installation and Service Manual
Section
1
Introduction
General
The Trinix family of routing switchers represents a revolutionary new
approach to digital signal distribution, which builds on the success of the
best selling routing switcher ever, Venus.
Trinix NXT is the next generation of the Trinix model routing switcher. This
new model offers industry-leading cooling, signal and switching performance, as well as field-proven reliability and scalability. Trinix offers more
options for redundancy, and more powerful options, than any other router.
Frame Sizes
Trinix is available in six fixed frame sizes:
•
128 x 128 router in eight Rack Units (RUs)
•
128 x 256 router in 11 RUs
•
256 x 256 router in 15 RUs
•
256 x 512 router in 22 RUs
•
512 x 512 router in 32 RUs
•
512x1024 router in 40 RUs.
These fixed frame designs offer optimal solutions for customers who have
minimum space requirements yet still need a large number of crosspoints.
Features
The reliability and functionality that you have come to expect from the
Trinix line of routing switches enhances the new features. The Trinix NXT
routing switcher’s features include:
•
Proven dependability
•
Exceptional signal performance
•
Standard Definition (SD), High Definition (HD), and 3Gb/s in the same
frame
•
3Gb/s Clean Flow signals
•
Easy to service and upgrade
Trinix NXT — Installation and Service Manual
31
Section 1 — Introduction
•
High density in minimal space
•
Each I/O board supports 32 signals
•
Same Crosspoint bus control as Venus, providing easy integration with
Jupiter Facility Control Systems.
•
Mission critical components are front loading and hot swappable
•
Extensive alarm notification/status
•
Load sharing power supplies
•
Redundant fans
•
Protected path operation
•
High-density crosspoints in compact frames.
•
Fixed matrix sizes can be combined to form larger routers.
•
Modular design allows for SD, HD, and 3Gb/s within the same frame.
•
Passive expanders for input/output expansion, dual/quad outputs
•
Frame design maximizes air flow
•
Broadlinx option combines network interface, sync input, and output
monitor circuitry; allows LAN-based control by Encore/SMS and
system monitoring via Microsoft Internet Explorer. SNMP/NetCentral
system monitoring also available
Note
The part numbers for the Trinix routers have changed from DV-##### to TRXNXT-###x###. The exceptions for this change are noted in this manual. The
DV-##### part number will be shown and described when a disparity occurs.
Additional Options
The Trinix Routing switcher has additional options that will help you to
meet your business needs:
•
Fiber Input and Output boards (See Trinix Fiber Option on page 415)
•
Trinix Multiviewer (See the Trinix Multiviewer Installation and Service
manual)
SD, HD, and 3GB/s in the Same Frame
Trinix NXT supports SD, HD, and 3Gb/s video in all configurations. The
matrix boards and high-speed backplane are designed for SD, HD, and
3Gb/s signals. The only difference between SD, HD, and 3Gb/s implementations is the 3G Matrix, Input and Output boards. This similarity makes
upgrading easy for both budgets and implementation; thus solving the
problem of deciding when to prepare for HD and 3Gb/s technology in a
facility.
32
Trinix NXT — Installation and Service Manual
Easy to Create Very Large Routers
Creating very large routers in the Trinix design is accomplished by using
special circuitry for simple and cost effective expansion. For example,
Using passive port expansion modules, a 1024 x 1024 router can be built
using Grass Valleys 512x512 or 512x1024 Routing switchers.
Using the 512x512 Routing Switcher
A 1024 x 1024 router can be built using four 512 x 512 frames coupled
together with the passive port expanders in four equipment racks. These
expanders can also be used to provide dual or quad, non-inverting outputs.
Using the 512x1024 Routing Switcher
A 1024 x 1024 router can be built using two 512 x 1024 frames coupled
together with the passive port expanders in two equipment racks.
Control Systems
The Trinix router can be controlled by a variety of control systems. The
Trinix router can be controlled by the Jupiter Facility Control System using
a Crosspoint bus connection (see Glossary) and either a VM-3000 System
Controller or a CM-4000 System Controller. The VM and CM controllers
can receive switching commands from a variety of serial sources, including
Jupiter control panels or an automation computer. Trinix can also be controlled using a direct Ethernet (“CPL”) integration with the Grass Valley
Encore or SMS 7000 control system.
The Symmetric Trinix Frame
Trinix was designed with reliability and serviceability in mind. Each frame
has redundant power supplies, redundant fans, and a physical topology
that is designed to maximize cooling. Mission critical modules are front
loading and hot swappable.
Power Supplies
All Trinix frames accommodate a minimum of two load-sharing power
supplies and have two AC inputs. This duplication allows for full redundant operations.
Each power supply is front loading, hot swappable, and has its own fans
for cooling. The 128 x 128 frame includes two fan modules, the 256 x 256
frame includes three, and a 512 x 512 frame includes six fan modules.
Trinix NXT — Installation and Service Manual
33
Section 1 — Introduction
The Trinix frame offers plenty of power to spare the:
•
Trinix DV-33128 runs on a 600W Power Supply Unit (PSU).
•
Trinix NXT-128x128 runs on a 1000W PSU.
•
Trinix DV-33256 and the DV-33512 both run on a 1250W PSU.
•
Trinix NXT-512x512 runs on a 1300W PSU.
Note
It is important that you refer to the Trinix rear panel’s frame markings for the
correct Fuse value and Power requirements.
The Asymmetric Frame
The Trinix Asymmetric frame offers the same features as the symmetric
frame but with a different input/output configuration. The same routing
circuit boards that are used in the Symmetric frame can be used in the
Asymmetric frame.
The Trinix Asymmetric frame can use up to two external 1 RU power
supply racks. Each power supply rack can accommodate up to four redundant, load sharing power supply modules. The power supply rack also provides four AC input connectors. The wattage for each of these modules is:
•
1200 W for AC low line.
•
1800 W for AC high line.
The 128 x 256 frame includes three fan modules, the 256 x512 frame
includes seven, and the 512x1024 frame uses eight, four in each power
supply tray (two PS trays are the minimum).
Trinix Architecture
The architecture of the Trinix signal flow is organized into three boards:
Input board, Matrix board, and Output board. These boards are connected
to a passive backplane circuit board. Each Input and Output board can
accommodate 32 signals, as well as a mixed population of SD, HD, and
3Gb/s boards in increments of 32. Trinix frames may be built in increments
of 32 due to this signal accommodation.
Trinix Routing switchers with the HO-3G, HO-33110 HD and HO-33120
SD/HD/3G output boards can have signal reclocking be set to “Auto On/
Off” or “Off” for each of the 32 outputs. In the “Auto On/Off” mode, properly-formed standard data rate signals will be reclocked but other signals
will be bypassed (not reclocked). For more information on “Standard” data
rates, see Performance Characteristics on page 114.
34
Trinix NXT — Installation and Service Manual
The VI-33100 “universal” input board uses inputs 0 - 15 are analog, SD, or
HD. Inputs 16 - 31 are SD or HD. The board auto-senses and accepts 16
composite analog SD, digital SD, or digital HD signals in any combination
and passes them in digital SD or digital HD form (as appropriate) to the
Trinix matrix board. When analog signals are received, an extensive set of
gain, phase, filtering, and other adjustments are available for each signal.
For a list of these adjustments, see the Analog Processing Control section on
page 66.
The BL-33000 Broadlinx option combines network interface, sync input,
and output monitor circuitry. Each board has two sync inputs and two
monitor outputs. Two boards can be installed which will provide four ports
for each. The sync reference supports generation of Vertical Interval Switch
Timing strobe from standard NTSC or PAL Black Burst or HDTV Tri-level
sync defined in the SMPTE 274M-1998 standard (see the Glossary). Sync
reference granularity is 32 outputs. An internal DIP switch is used to select
one of the available references for the respective 32-output blocks. Trinix
can also operate without a sync reference.
The Trinix fixed-frame routers all come standard as pre-wired singleoutput units. The dual output option is implemented by adding physical
expanders in increments of 16 up to 256. Both outputs are non-inverting
and fully meet DVB-ASI (see Glossary) specifications.
Serviceability and Reliability
Trinix routing switchers are engineered by the same team that developed
the Venus and Venus2001 family of routing switchers and use many of the
same proven circuit designs that made the Venus line the best selling
routers in the world. In addition, Trinix employs cutting-edge technology
to reduce the number of components, increase the reliability of individual
parts, enhance air movement throughout the frame, and identify potential
system problems in time to take preventive measures.
Trinix also offers Broadlinx technology, which aids serviceability by providing status displays and monitoring functions through a network connection.
All circuit boards contain some common circuitry for hot swapping, circuitry for DC-to-DC conversion, and a micro-controller as part of the
Broadlinx technology. Hot swap circuitry is used to simplify field servicing
and upgrades.
The DC-to-DC conversion is necessary because the frame design distributes one voltage, 48 volts, to all boards. This design requires each board to
convert the voltage level as needed.
Each board has a micro-controller that is part of an overall communications
bus, which is part of the hardware for the Broadlinx technology. This hardware is what gathers all of the particular board information (voltages,
Trinix NXT — Installation and Service Manual
35
Section 1 — Introduction
signal presence, reclocking settings, etc.) as well as enables the firmware
updates via network connection.
For Protected Path operations, the Broadlinx software can be configured to
monitor router outputs that are feeding critical downstream equipment
(such as a transmitter). If the “primary” output signal is interrupted, the
system will automatically select the “secondary” output that is carrying the
same signal and trigger a system alarm. Protected path operation is available for single-frame and redundant frame system configurations. Protected path operation requires the HO-33120 HD/SD Output Boards or the
HO-3G Output Boards in the paths to be protected. For more information
on, see the Protected Paths section.
Broadlinx
The Broadlinx option, which consists of Broadlinx software running on the
NR-33000 Sync/NIC/OPM board, allows SMS 7000 or Encore control
using Grass Valley CPL (Control Point Language) through an Ethernet connection.
Broadlinx will also support SNMP/NetCentral monitoring with the correct
license.
The monitoring network consists of a Windows PC, network interface connection (NIC) circuitry on the NR-33000 board, and microprocessors on
each circuit board in the system. All of the processors are interconnected via
a communications bus (Com Bus).
Broadlinx Web Page Monitoring
Broadlinx uses HTTP (Hypertext Transfer Protocol) Web pages to deliver
detailed system information through the network to a PC with Microsoft
Internet Explorer 5.0 or newer (Internet Explorer 6 or newer is recommended for best performance).
Broadlinx also provides Web pages for the following operations:
•
Network configuration of the NR-33000 boards
•
Downloading of software upgrades to the various boards in the system
•
System monitoring using Internet Explorer
Typical aspects that can be monitored are “warnings” or alarms for all the
voltages on each circuit board, input signal presence, and output reclocking
status. Information about the current version of firmware that is being used
is also available.
For more information, see Broadlinx / Internet Explorer Monitoring on
page 311.
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Trinix NXT — Installation and Service Manual
SNMP/NetCentral Monitoring
When enabled, the Trinix SNMP (Simple Network Management Protocol)
agent allows the Grass Valley NetCentral application to monitor the Trinix
router. The Trinix SNMP agent is supplied with the 2.2 version (and newer
versions) of the Broadlinx software. By default, the SNMP agent is disabled; a hardware address (MAC) based license key must be obtained for
the agent to become active. This license can be purchased as part of the original system or can be purchased later by contacting Grass Valley Technical
Support. The MAC address is shown in the SNMP section of the Configuration Broadlinx web access display. Clicking the Enter License Key button
will allow the entry of the Grass Valley-supplied license key.
Because the license is stored in the NR-33000 (Broadlinx) board’s flash
memory, a new key will have to be obtained if the board is ever replaced.
However, in the case of redundant NR-33000 installations, the Primary
Broadlinx board enables SNMP on the Secondary Broadlinx board. If either
the Primary or Secondary Broadlinx board is replaced, the remaining
Broadlinx board enables SNMP on the new Broadlinx board.
NetCentral
NetCentral is a suite of software modules that can reside on one or more
computers. These modules work together to monitor and report the operational status of SNMP-enabled devices. For example, Trinix, Encore,
7500NB/WB frames, Concerto Fast Controllers, and so forth.
When the Trinix SNMP Agent is activated, it will automatically send messages, or reports the device status to the NetCentral Monitoring Station.
(Up to five Monitoring Stations are supported.) These messages are given
a Status Level ranging from “Informational” to “Critical.” The NetCentral
Monitoring Station can be configured to listen to and, depending on Status
Level, respond to these messages in a variety of ways, including:
•
Play a sound file or a computer beep.
•
Send an E-mail message to one or more addresses.
•
Send an E-mail message to pager or cell phone.
•
Run a selected program.
•
Open web browser and go to specified URL.
For example, when a Critical message is received, NetCentral can be
configured to open an Internet Explorer window and then go to the
Broadlinx web page’s Home page.
This configuration step is described in the Broadlinx / Internet Explorer
Monitoring on page 311 section.
The Trinix SNMP Agent provides support for NetCentral, but does not
include the actual NetCentral product, which is available separately. Once
the Trinix SNMP Agent is installed and configured, it can be monitored by
Trinix NXT — Installation and Service Manual
37
Section 1 — Introduction
NetCentral, or by any other SNMP management application. For more
information, please refer to the NetCentral User Guide.
Non-NetCentral Managers
For information concerning registration of Monitoring Stations (SNMP
Managers) for use with non-NetCentral SMNP management applications,
please refer to Configuring an SNMP Manager’s IP Address on page 303.
38
Trinix NXT — Installation and Service Manual
Section
2
Planning Guide
Introduction
The information in this section is an overview of the Trinix Digital Video
router; as well as a guide to help understand the Trinix Routing switcher’s
configuration possibilities.
If you are installing the router at this time, please read this section before
reading the Hardware Installation section.
The details that are needed for the planning and designing of your facility
with the Trinix router in mind are included in this section.
The beginning of this section includes the conceptual descriptions and
drawings for those who need a basic understanding of the product and its
configuration options. Later subsections provide additional detail such as
connection diagrams and ordering information.
Grass Valley recommends that you terminate all unused outputs. Properly
shielded 75-ohm terminators or spare infrastructure coax cables should be
used. This step will ensure EMC compliance. Spare BNC panels that are not
connected to boards do not need to be terminated.
Grass Valley recommends that the cable lengths be no less than 10 Meters
(32.8 Feet) when re-entering the Trinix routing switcher through 3Gb/s
Input boards. This length does not apply to HD and SD operations.
Trinix Frames
The Symmetrical Trinix NXT and Trinix router switchers are available in
three fixed frame sizes each:
Note
The DV33XXX frames are no longer available to purchase. However, this
manual covers specifics about these DV33XXX frames. The DV33XXX frames
and the TRX-NXTXXX frames are similar except for minor differences, which
are identified in this manual.
Trinix NXT — Installation and Service Manual
39
Section 2 — Planning Guide
Legacy Frames
•
DV-33128: 128 x 128 in 8 rack units (RU). See Figure 1 and Figure 2.
•
DV-33256: 256 x 256 in 15 RUs. See Figure 4
•
DV-33512: 512 x 512 in 32 RUs. See Figure 7 and Figure 8.
Trinix NXT Frames
•
TRX-NXT-128x128: 128 x 128 in 8 rack units (RU). See Figure 3 on
page 42.
•
TRX-NXT-256x256: 256 x 256 in 15 RUs. See Figure 5 on page 44.
•
TRX-NXT-512x512: 512 x 512 in 32 RUs. See Figure 9 on page 48.
Trinix Asymmetrical Frames
The Asymmetric Trinix router is currently available in three frame sizes:
•
TRX-NXT-128x256: 128x256 in 11 RUs. See Figure 11 on page 49 and
Figure 12 on page 50
•
TRX-NXT-256x512: 256 x 512 in 22 RUs. See Figure 14 on page 51.
•
TRX-NXT-512x1024: 512 x 1024 in 40 RUs + 1 RU top fan + 1 RU
bottom fan. Two (2) 1RU power supplies are also required. See
Figure 16 on page 52.
Figure 1. TRX-NXT-128x128 Front View (Door Removed).
Power supplies
FAN ALARM
SR-33000 Sync
Reference / NR-33000
Broadlinx Board slots
Input/output boards
(configuration varies)
40
Fan modules
FAN ALARM
Matrix board
Trinix NXT — Installation and Service Manual
Trinix Frames
Figure 2. DV-33128 Rear Panel.
LEVEL
SUPER
0
0
96 112 16 32
14 15 1 2
80
13
48
3
64
4
64
12
80
5
48
11
7 6
32 16 112 96
10 9
8
ULTRA 0
INPUT EXPAND
OUTPUT EXPAND
SYNC REDUNDANT
INT XPT CNTL
60Hz ENABLE
A
B
C
MONITOR
MONITOR
256
512 768
1024
1024
1536
512
2048
DV-33256
128 x 256
DV-33512
FRAME
0
14 15 1 2
13
3
4
12
5
11
7 6
10 9
MONITOR
128
256 384
512
DV-33128
8
LEVEL
SUPER
0
9611216 32
14 15 1 2
13
80
48
3
64
4
12
64
80
5
11
48
10 9 7 6
32 16 11296
8
0
0
SECONDARY
PRIMARY
1
32
32
16
32
16
32
16
32
16
32
16
32
16
31
15
31
15
31
15
31
15
31
15
31
15
30
14
30
14
30
14
14
30
16
31
CROSSPOINT BUS
15
30
LAN A
14
29
29
13
29
13
29
13
29
13
29
13
29
13
12
28
12
28
12
28
12
28
12
28
12
28
13
28
2
COM BUS
12
27
11
27
11
27
11
27
11
27
11
27
11
27
11
26
26
10
26
10
26
10
26
10
26
10
26
REF IN
1
CONSOLE A
10
25
25
9
25
9
25
9
25
9
25
9
25
9
8
24
8
24
8
24
8
24
8
24
8
24
9
24
CONTROL
8
23
7
23
7
23
7
23
7
23
7
23
7
23
7
22
6
22
6
22
6
22
6
22
6
22
6
22
CROSSPOINT BUS
6
5
21
5
21
5
21
5
21
5
21
5
21
5
20
20
4
20
4
20
4
20
4
20
4
20
4
19
19
3
19
3
19
3
19
3
19
3
19
3
18
18
2
18
2
18
2
18
2
18
2
18
2
17
1
17
1
17
1
17
1
17
1
17
2
3
32
16
31
15
30
14
29
13
28
12
27
11
26
10
25
9
24
8
23
7
22
6
21
Trinix NXT — Installation and Service Manual
5
20
4
19
3
18
2
L
17
E
1
E
N
4
N
21
COM BUS LAN B
3
PS A
L
2
PS B
INPUTS
33-64
INPUTS
65-96
DC IN -
INPUTS
1-32
DC IN +
INPUTS
97-128
AUTO SELECT
100-130V/200-240V
6.0A/2.5A
47-63HZ
1
230: T2.5A 240V
17
WARNING: FOR CONTINUED PROTECTION
AGAINST RISK OF FIRE, REPLACE ONLY
WITH SAME TYPE AND RATING OF FUSE
115: 6.0A 250V
SLOW BLOW
OUTPUTS
1-32
OUTPUTS OUTPUTS
33-64
65-96
ALARM
1
OUTPUTS
97-128
IP EXPAND
OP EXPAND
VIT REDUNDANT
INT XPT
60Hz ENABLE
A
B
C
4
10
3
CONSOLE B
OUTPUT MONITOR
REF IN
OUTPUT MONITOR
4
30
GPIO/TC
FRAME
0
14 15 1 2
13
3
4
12
5
11
10 9 7 6
8
14
256
512
30
128384
14
MONITOR
41
Section 2 — Planning Guide
Figure 3. TRX-NXT-256x256 Rear Panel.
071827609_NXT-12xx128_rear
42
Trinix NXT — Installation and Service Manual
Trinix Frames
Figure 4. DV-33256 Rear Panel
SECONDARY
PRIMARY
NIC A
NIC B
3
1
OP
MON
OP
MON
4
2
COM BUS
COM BUS
3
1
CONSOLE
B
CONSOLE
A
REF
IN
REF
IN
PS B
See Figure 5 for detail
PS A
4
LEVEL
0
SUPER
14150 2
961121632
1
13
48
3
80
64 12
64
4
48
11
5
80
112
16
10 9 7 6
32
96
8
0
ULTRA
IN EXPAND
OP EXPAND
VIT REDUNDANT
INT XPT CNTL
60Hz ENABLE
A
B
C
CONTROL
2
CROSSPOINT BUS
GPIO/TC
MONITOR
FRAME
128
0
1415 1 2
256384
13
512
3
12
4
5
11
10 9 7 6
8
DC INPUT
42 - 54 VDC
30-24 AMPS
DC IN + DC IN -
PS B
N
L
E
E
AUTO SELECT
100-130V/200-240V
10.0A/5.0A
47-63HZ
L
N
INPUTS
INPUTS
1-32
INPUTS
33-64
17
1
18
2
18
19
20
4
22
22
23
7
24
25
25
26
10
26
10
27
11
28
12
28
29
30
14
30
31
30
31
32
16
30
31
31
15
32
16
32
16
30
31
30
31
31
15
32
16
32
16
Trinix NXT — Installation and Service Manual
30
31
30
31
31
15
32
16
32
16
30
31
30
14
31
15
32
16
29
13
14
15
32
16
29
30
31
28
12
13
14
15
28
29
30
27
11
12
13
14
27
28
29
26
10
11
12
13
14
15
32
16
29
26
27
28
25
9
10
11
12
13
14
15
32
16
29
30
31
28
25
26
27
24
8
9
10
11
12
13
14
15
28
29
30
27
24
25
26
23
7
8
9
10
11
12
13
14
27
28
29
26
23
24
25
22
6
7
8
9
10
11
12
13
14
15
32
16
29
26
27
28
25
22
23
24
21
5
6
7
8
9
10
11
12
13
14
15
32
16
29
30
31
28
25
26
27
24
21
22
23
20
4
5
6
7
8
9
10
11
12
13
14
15
28
29
30
27
24
25
26
23
20
21
22
19
3
4
5
6
7
8
9
10
11
12
13
14
27
28
29
26
23
24
25
22
19
20
21
18
2
3
4
5
6
7
8
9
10
11
12
13
14
15
32
16
29
26
27
28
25
22
23
24
21
18
19
20
17
1
2
3
4
5
6
7
8
9
10
11
12
13
14
15
28
29
26
27
24
25
22
23
20
21
18
19
INPUTS
225-256
17
1
2
3
4
5
6
7
8
9
10
11
12
13
14
15
28
29
26
27
24
25
22
23
20
21
18
19
INPUTS
193-224
17
1
2
3
4
5
6
7
8
9
10
11
12
13
26
27
24
25
22
23
20
21
18
19
INPUTS
161-192
17
1
2
3
4
5
6
7
8
9
10
11
12
13
26
27
24
25
22
23
20
21
18
19
INPUTS
129-160
17
1
2
3
4
5
6
7
8
9
10
11
24
25
22
23
20
21
18
19
OUTPUTS
225-256
17
1
2
3
4
5
6
7
8
9
22
23
24
21
18
19
20
17
1
2
3
4
5
6
7
8
9
22
23
20
21
18
19
OUTPUTS OUTPUTS
161-192
193-224
17
1
2
3
4
5
6
7
8
9
22
23
24
21
18
19
20
17
1
2
3
4
5
6
7
8
21
18
19
20
17
1
2
3
4
5
6
19
20
21
18
2
3
4
5
6
19
20
21
18
17
1
INPUTS
OUTPUTS OUTPUTS
97-128
129-160
OUTPUTS OUTPUTS
33-64
65-96
17
1
2
3
4
5
18
19
OUTPUTS
1-32
17
1
2
3
INPUTS
97-128
17
1
2
3
OUTPUTS
INPUTS
65-96
17
1
ALARM
WARNING: FOR CONTINUED PROTECTION
AGAINST RISK OF FIRE, REPLACE ONLY
WITH SAME TYPE AND RATING OF FUSE
115: 12.5A 250V
SLOW BLOW
230: T6.3A 240V
PS A
31
15
32
16
32
16
43
Section 2 — Planning Guide
Figure 5. The DIP, Level, and Monitoring Switch for the DV-33256 and TRX-NXT 256x256
INPUT EXPAND
OUTPUT EXPAND
SYNC REDUNDANT
INT XPT CNTL
60Hz ENABLE
A
B
C
44
LEVEL
0
SUPER
14150 2
961121632
1
13
48
3
80
64 12
4
64
48
11
5
80
10 9 7 6
3216 112
96
8
0
ULTRA
MONITOR
FRAME
128
141501 2
384
256
13
3
512
12
4
5
11
10 9 7 6
8
Trinix NXT — Installation and Service Manual
Trinix Frames
Figure 6. TRX-NXT 256x256 Rear panel
071827609_NXT-256x256_rear.
Trinix NXT — Installation and Service Manual
45
Section 2 — Planning Guide
Figure 7. DV-33512 Main frame and Associated Power Supply Unit.
AC DC
VADJ OKOK
AC DC
VADJOK OK
SR-33000 Sync
Reference /
NR-33000
Broadlinx Board
slots
FAN A
FAN ALARM
FAN ALARM
FAN ALARM
Fan modules
FAN B
FAN C
FAN D
FAN ALARM
PS D
FAN ALARM
PS C
FAN ALARM
PS A
PS B
AC DC
VADJ OK OK
AC DC
VADJ OK OK
PRIMARY
SECONDARY
Power supply unit may be
mounted above or below
main chassis
FAN F
FAN E
POWER ALARM IFC
Input/output
boards
(configuration
varies)
A
1
B
A
2
B
OP
MON
A
3
B
A
4
B
1
INPUTS
481 - 512
INPUTS
449 - 480
INPUTS
417 - 448
INPUTS
385 - 416
OUTPUTS OUTPUTS
225 - 256 193 - 224
OUTPUTS
161 - 192
INPUTS
OUTPUTS
129 - 160
OUTPUTS
97 - 128
OUTPUTS
65 - 96
OUTPUTS OUTPUTS
33 - 64
1 - 32
INPUTS
65 - 96
INPUTS
97 - 128
OUTPUTS
INPUTS
33 - 64
INPUTS
1 - 32
INPUTS
2
REF
IN
INPUTS 257 - 512 / OUTPUTS 257 - 512
INPUTS
INPUTS
353 - 384
INPUTS
321 - 352
INPUTS
289 - 320
4
INPUTS 1 - 256 / OUTPUTS 257 - 512
INPUTS 257 - 512 / OUTPUTS 1 - 256
Matrix boards
INPUTS 1 - 256 / OUTPUTS 1 - 256
3
OUTPUTS
INPUTS
257 - 288
OUTPUTS
353 - 384
OUTPUTS
321 - 352
OUTPUTS
289 - 320
OUTPUTS
257 - 288
OUTPUTS
481 -512
INPUTS
OUTPUTS
449 - 480
OUTPUTS
417 - 448
OUTPUTS
385 - 416
INPUTS
225 - 256
INPUTS
193 - 224
INPUTS
161 - 192
INPUTS
129 - 160
Rear view. See Figure 8
and Figure 10 for detail
Input/output
boards
(configuration
varies)
46
Trinix NXT — Installation and Service Manual
Trinix Frames
Figure 8. DV-33512 Main Frame and Power Supply Frame.
PS IFC
FAN IFC
A
1
XPT BUS
B
A
2
B
DC INPUT 2 NOT FUSED
42 - 54 VDC
30 - 24 AMPS
DC IN +
OP
MON
A
DC IN -
3
B
RP-33500
board. See
Figure 10
for detail
A
4
B
DC INPUT 1 NOT FUSED
42 - 54 VDC
30 - 24 AMPS
DC IN +
1
DC IN -
COM BUS
COM BUS
ALARM
2
LEVEL
0 SUPER
0
961121632
1415 1 2
13
80
48
3
4
64 12
64
80
5
11
48
10 9 7 6
321611296
8
ULTRA 0
REF
IN
MONITOR
3
INPUT EXPAND
OUTPUT EXPAND
SYNC REDUNDANT
INT XPT CNTL
60Hz ENABLE
A
B
C
FRAME
1024
0
512 1536 1415 1 2
13
3
2048
4
12
5
11
10 9 7 6
8
4
INPUTS
INPUTS
129 - 160
INPUTS
161 - 192
OUTPUTS
INPUTS
193 - 224
INPUTS
225 - 256
OUTPUTS
385 - 416
OUTPUTS
417 - 448
OUTPUTS
449 - 480
OUTPUTS
481 - 512
DC OUTPUT 2
42 - 54 VDC
30 - 24 AMPS
DC OUT +
INPUTS
OUTPUTS
257 - 288
OUTPUTS
289 - 320
OUTPUTS
321 - 352
OUTPUTS
353 - 384
INPUTS
257 - 288
INPUTS
289 - 320
INPUTS
321- 352
INPUTS
353 - 384
DC OUTPUT 1
42 - 54 VDC
30 - 24 AMPS
DC OUT -
PRIMARY
DC OUT + DC OUT 2
REF IN
1
COM BUS
NIC A
CONSOLE A
SECONDARY
DC INPUT 2
42 - 54 VDC
30 - 24 AMPS
DC IN +
DC INPUT 1
42 - 54 VDC
30 - 24 AMPS
DC IN -
DC IN +
4
REF IN
3
COM BUS
NIC B
DC IN -
CONSOLE B
AC INPUT: 100-240 V ~, 10.0-5.0A, 50-60Hz
100-120V: 12.5A, 250V, SLO BLO
200-240V: T6.3A, 250V
PS C
PS D
L
AC INPUT: 100-240 V ~, 10.0-5.0A, 50-60Hz
100-120V: 12.5A, 250V, SLO BLO
200-240V: T6.3A, 250V
PS A
PS B
N
E
E
N
L
L
N
N
L
E
WARNING: FOR CONTINUED PROTECTION
AGAINST RISK OF FIRE, REPLACE ONLY
WITH SAME TYPE AND RATING OF FUSE
Trinix NXT — Installation and Service Manual
GPIO/TC
XPT BUS
FRAME IFC
CONTROL
E
47
Section 2 — Planning Guide
Figure 9. TRX-NXT-512x512 Rear Panel
071827609_trx-512x512_connections
48
Trinix NXT — Installation and Service Manual
Trinix Frames
Figure 10. DIP, Switch, and Monitor settings DV- 33512 and TRX NXT512x512
MONITOR
FRAME
1024
0
512 1536 1415 1 2
13
3
2048
4
12
5
11
10 9 7 6
8
INPUT EXPAND
OUTPUT EXPAND
SYNC REDUNDANT
INT XPT CNTL
60Hz ENABLE
A
B
C
071827609_DIP, Switch, and Monitor settings- 512
LEVEL
0 SUPER
0
961121632
1415 1 2
80
13
48
3
4
64 12
64
80
5
48
11
112
9
7
16
96
10
6
32
8
ULTRA 0
Figure 11. TRX-NXT-128x256 Asymmetric Frame-Front
Fan modules
Matrix
boards
Broadlinx
Boards
071827610_128x256_Front
Input Boards
Output Boards
Trinix NXT — Installation and Service Manual
49
Section 2 — Planning Guide
Figure 12. TRX-NXT-128x256 Asymmetric Frame-Back
Fan modules and Exhaust
vents
Input and Output boards
The outer four slots are
Output boards
See
Figure 13
for detail
The inner eight slots are
Input boards
DC Power inputs
OPM
Board
Matrix boards
SR module
071827610_128x256_rear
27612_LEVEL_MONITOR_128x256
Figure 13. The Level, Monitor, and Frame Switch For the 128x256 Routing Switcher
50
Trinix NXT — Installation and Service Manual
Trinix Frames
Figure 14. TRX-NXT-256x512 Asymmetric Frame, Front and Back
Fan modules and Exhaust
vents
Input and Output
boards
The outer four slots are
Output boards
The inner eight slots are
Input boards
DC Power inputs
Matrix boards
071827609_256X512-Frame_Back-view
071827609_256X512-Frame_Front-view
SR module
Broadlinx boards
See Figure 15
for detail
Output boards
Figure 15. The Level, Monitor, and Frame Switch For the 256x512 Routing Switcher
071827612_LEVEL_MONITOR_256x512
Trinix NXT — Installation and Service Manual
51
Section 2 — Planning Guide
Figure 16. TRX-NXT-512x1024 Asymmetric Frame, Front and Back
Fan modules
Output Boards
DC Power inputs
Matrix and Primary
Broadlinx boards
See Figure 17 on
page 53 for detail
Input Boards
Matrix and Secondary Broadlinx
boards
DC Power inputs
Output Boards
Fan modules
52
Trinix NXT — Installation and Service Manual
Trinix Frames
Figure 17. The Level, Monitor, and Frame Switch For the 512x1024 Routing Switcher
Trinix NXT — Installation and Service Manual
53
Section 2 — Planning Guide
Figure 18. Protected Paths, Signal Flow, and Power Supply System for TRX-NXT-512x512 Router.
54
Trinix NXT — Installation and Service Manual
Trinix Frames
Power Supplies
The symmetrical Trinix routing family uses an internal power supply. The
128 and 256 frames can use two power supplies. The optional (and recommended) second power supply provides redundancy and increased reliability due to load sharing; both supplies work less, creating less strain and
decreasing the likelihood of failure of either unit.
All power supplies are front loading, can be hot-swapped, and has its own
fan for cooling. The supply uses automatic line sensing technology to adapt
the supply to all major power standards throughout the world.
Note
Grass Valley strongly recommends, whenever possible, using the AC high
line to reduce line currents and heat within the power supplies.
In AC power applications, the 512x512 frames are equipped with two
power supplies mounted in a separate frame. Space for two additional supplies for redundancy is provided. Redundant power supplies are highly
recommended for On-Air or Business-critical routers. The 512x512 router’s
power supply frame may be mounted above or below the router’s main
frame, depending on video cable routing requirements (or weight distribution requirements).
The back panel of the frame provides a separate AC connector for each
power supply. Each power supply has its own separate IEC AC power
cord. Each power cord should be plugged into a separate dedicated (20A
AC low line, 10A AC high line) power circuit. This action prevents the
router from having one failed supply being able to trip the breaker on a
heavily loaded circuit, and then temporarily shutting off other functioning
power supplies or equipment. The back panel of the frame also provides an
optional 48VDC input connector. The 48VDC input connector is an option
for additional power redundancy. DC power can be supplied by an
external “Tertiary” supply (a Trinix option), or by a customer provided
48VDC power source. (See DC Power Input section for the Trinix power
requirements.)
CAUTION External 48 VDC Inputs are not fused. Customers must ensure that the 48
VDC power sources, which they must provide, are properly fused.
Each power supplies deliver 48 volts to all components and the individual
components convert down the voltages for their particular need.
It is possible to operate the router with a combination of internal power
supplies and an external DC power source for additional redundancy.
Asymmetrical Router
Note
For information about optional Power Supply configurations for the Asymmetrical routers, see Trinix Asymmetrical Power Supply Configurations on
page 227.
Trinix NXT — Installation and Service Manual
55
Section 2 — Planning Guide
The Asymmetrical Trinix router provides two isolated DC input power
connectors only. An external AC to DC power supply provides power for
these connectors or a customer may provide a 48 VDC power source.
CAUTION External 48 VDC Inputs are not fused. Customers must ensure that the 48
VDC power sources, which they must provide, are properly fused.
An external power supply rack is available that will accommodate up to
four redundant, load sharing power supply modules for each power connector on the frame. The 128x256 and 256x512 frames each have two power
connectors. The back panel of the power supply rack provides a separate
AC connector for each power supply. Each power supply cord should be
plugged into a separate dedicated (20A AC low line and 10A AC high line)
power circuit.
Note
Grass Valley strongly recommends, whenever possible, using the AC high
line to reduce line currents and heat within the power supplies.
The Trinix 512x1024 frames have a minimum of two PS trays with four
power modules in each tray. Every power supply module that is used in an
Asymmetrical frame has its own separate IEC AC power cord. The Primary
power supply trays connect to the frame in the rear of the chassis on the A1
and A2 correctors. Secondary power supplies may be added to the B1 and
B2 connectors using an additional pair of power supply trays (See Trinix
Asymmetrical Power Supply Configurations on page 227, for more information).
(See the DC Power Input section of the Electrical Specifications, for the Asymmetrical Trinix power requirements.)
Cooling System
The Trinix router uses fan modules (FM-33000) for cooling the main
chamber of the frame. A fan module consists of two blower-type fans that
are housed in a mechanical assembly. The 128 x 128 frame uses two modules, the 256 x 256 frame uses three, and the 512 uses six. The 128x256 frame
uses three fan modules, and the 256x512 frame uses seven fan modules. The
fan modules are front-loading and can be hot-swapped.
Note
The door on the front of all Trinix frames should be closed when the router is
in use.
Airflow openings for the 128 frame are shown in Figure 19. Air is taken in
from the sides of the frame (primarily the left side), where the air is drawn
across the Input and Output boards, past the matrix board, and up to the
top rear of the frame where it is expelled from the router. A small amount
of air is drawn from the right side of the frame as well to help cool the
matrix boards. A Front-Air Vent is provided as an additional router-cooling
option. This option is described on page 429.
56
Trinix NXT — Installation and Service Manual
Trinix Frames
Figure 19. Airflow Openings for TRX-NXT-128x128 Frame.
OUT
OUT
IN
IN
IN
Right side
Rear
Left side
Airflow openings for the 256 and 512 frames are shown in Figure 20 and
Figure 21. Air is taken in from the bottom of the frame (cut-outs are located
on the very bottom of the sides), and from the central area of the left and
right sides. The air is drawn to the top rear of the frame, across all of the
Input and Output boards as well as the Matrix boards, and then expelled
out the back of the router.
Figure 20. Airflow Openings for TRX-NXT-256x256 Frame.
OUT
Right side
Rear
Left side
IN
IN
IN
IN
Trinix NXT — Installation and Service Manual
IN
IN
57
Section 2 — Planning Guide
Figure 21. Airflow Openings for TRX-NXT-512x512 Power Supply and Main Frame.
Right side
IN
Rear
OUT
IN
IN
IN
Left side
IN
OUT
IN
IN
IN
Using a set of central fan modules to cool the main chamber eliminates the
possibility of cooling loss in one area due to failure of a single fan.The
system will continue to operate if a fan does fail. Grass Valley recommends
that you replace the fan and return the system to normal redundant operation as soon as possible.
Cooling Asymmetric Frames
Air is taken in from the bottom of the frame (cut-outs are located on the
very bottom of the sides). This air is then drawn up through all of the Input
and Output boards as well as the matrix boards to the top rear of the frame.
The air is then expelled out the back of the router. The airflow openings for
the 128x256 frame are shown in Figure 22 on page 59. The airflow openings
for the 256x512 frame are shown in Figure 23.
The 512x1024 frame is the result of years of researching how to cool a
routing switcher. The routing switcher has two fans, one on the top and one
on the bottom. Air is drawn in from the bottom of the fans and is exhausted
through the top of the frame. A two (2) RU space should be kept free on the
bottom of the frame and fan to ensure enough airflow. Do NOT place anything on the top of the 512x1024 frame to prevent over heating.
A two (2) RU vent option is also available to draw intake air in from the
front of the frame (Figure 24 on page 60).
58
Trinix NXT — Installation and Service Manual
Trinix Frames
Figure 22. Airflow Openings for the TRX-NXT-128x256 Main Frame
OUT
071827609_128x256-Cooling
IN
Figure 23. Airflow Openings for the TRX-NXT-256x512 Main Frame.
Rear
Side
OUT
071827609_256X512-Frame_Cooling
IN
A two (2) RU space should be kept free on the bottom of the frame and fan
to ensure enough airflow to prevent the routing switcher from overheating.
Trinix NXT — Installation and Service Manual
59
Section 2 — Planning Guide
A two (2) RU vent option is also available to draw intake air in from the
front of the frame.
Figure 24. TRX-NXT-512x1024
OUT
1 RU Fans located at
the top and bottom
of the frame
071827612-512x1024-w-fans_r1.ai
071827612-512x1024-w-fans_r1.ai
2 RU Air Vent
located at the
bottom of the frame
IN
60
Trinix NXT — Installation and Service Manual
Trinix Frames
Sync Reference Options
For synchronous vertical interval switching the same sync reference signal
must be sent to the control system (for example, Jupiter CM-4000 or CM4400) and to the Trinix. (The Trinix will operate without a sync connection
but switching will be non-synchronous.) Each sync input uses looping 75ohm BNC connectors.
The sync signal can be NTSC or PAL black burst, or tri-level (HD) sync, and
up to four sync signals can be mixed within the same frame on an outputboard basis. For example, NTSC sync could be used for one set of 32
outputs and HD sync for another set of 32 outputs.
In the TRX-NXT-128x128, TRX-NXT-256x256, and theTRX-NXT-512x1024
Routing switchers, one or two independent sync signals can be connected
to a NR-33000 Broadlinx board and either of these can then be selected for
use on each output board. Adding a second Broadlinx board provides four
independent sync sources.
In TRX-NXT-512x512 Routing switchers, which are normally supplied
with an SR-33500 Sync/OPM board, up to four independent sync sources
can be connected and any of the four can be selected for each output board.
If desired, an NR-33000 board can be installed in the associated power
supply frame to provide Broadlinx capability. It is also possible to divide
the sync sources between the SR-33500 and the Broadlinx board but the
maximum number of sync sources is always four.
In TRX-NXT-256x512 Routing switchers, which are normally supplied
with a TRX-SR Sync/OPM board, up to four independent sync sources can
be connected and any of the four can be selected for each output board. It
is also possible to divide the sync sources between the TRX-SR and the
Broadlinx board but the maximum number of sync sources is always four.
In the TRX-NXT-128x256 and TRX-NXT-512x1024 Routing switchers, the
TRX-OPM board does not process sync references. Sync is supplied exclusively from the NR-33000 boards.
Sync Redundant mode
For all Trinix routers Two Broadlinx boards can be operated in the Sync
Redundant mode. That is, the sync signals are looped through each board.
If the primary Broadlinx board fails, the system will switch automatically
to the secondary board. The number of sync signals is limited to two for
redundant operation.
For Sync reference details, see Sync Reference Connections on page 157.
Output Monitoring
The TRX-NXT-128x128, and the TRX-NXT-256x256 frames, uses two pairs
of output monitor ports, which are provided by the NR-33000 board (one
side of each pair is inverted). Two additional dual ports are optionally
Trinix NXT — Installation and Service Manual
61
Section 2 — Planning Guide
available when a second NR-33000 is added; this would provide four
monitor ports.
•
The SR-33500 Sync/OPM board, on the TRX-NXT-512x512 frames, provides four monitoring ports.
•
The TRX-SR Sync/OPM board, on the TRX-NXT-256x512 frames, provides four monitoring ports.
•
The TRX-OPM board, on the TRX-NXT-128x256 and TRX-NXT512x1024 frames, provides four monitoring ports.
Symmetric Frames
For configurations that require multiple frames, the monitor signals are
brought through a Port expander used as a combiner (see Monitoring with
Expanded Systems).
Asymmetric Frames
The TRX-SR Sync/OPM and TRX-OPM boards provide four monitor
inputs to accommodate cascading multiple frames into a single output
monitor stream. These boards are specific to the asymmetrical routers, for
more information see Asymmetrical Frames on page 200 in the Monitoring
section.
3Gp/s Output Monitoring
The TRX-GPMEZ-3G mezzanine module on the TRX-HO-3G base Output
Module in the Trinix Symmetrical frame, receives a stream that is
1080p59.95, it is the down-converted to 1080i59.95.
The TRX-SR Sync/OPM and TRX-OPM boards support 3Gp/s Output
Monitoring in the asymmetrical frames.
Signal Flow
Trinix is a three-board routing system, where the input board, output
board, and matrix board are the basic modules.
The signal flow through a 128 x 128 routing system is shown in Figure 25
on page 63 as an example. Inputs are received and outputs are delivered to
the rear of the frame directly with a connection to the rear panels (no
cabling).
62
Trinix NXT — Installation and Service Manual
Trinix Frames
Figure 25. Input and Output Routing Through Matrix Board For 128 x 128 Routing Switcher.
32 Output
32 Input
Card
Card
32 Input
Card
32 Output
Matrix Card
Card
(128 x 128)
32 Input
Card
32 Input
Card
Trinix NXT — Installation and Service Manual
32 Output
Card
32 Output
Card
63
Inputs 416-447
Inputs 384-415
Inputs 352-383
Inputs 320-351
Inputs 288-319
Inputs 256-287
0D
0C
0B
0A
09
08
JI_15
JI_14
JI_13
JI_12
JI_11
JI_10
JI_09
JI_08
0
31
0-31
JMx_40
31
0
0
14
(base)
CONTROL
128-159
JMx_41
31
0
0
10
(mez)
CONTROL
256-287
JMx_42
31
0
0
384-415
0
17
(base)
CONTROL
JMx_43
13
(mez)
CONTROL
96-127
JMx_44
31
0
0
15
(base)
CONTROL
224-255
JMx_45
31
0
0
11
(mez)
CONTROL
352-383
JMx_46
31
0
0
16
(base)
CONTROL
480-511
JMx_47
31
0
0
1
63
63
63
1
63
63
1
63
1
63
63
95
2
95
2
95
95
64-95
2
192-223
2
95
320-351
INPUTS
64
1
32-63
32
95
448-479
INPUTS
64
160-191
32
2
INPUTS
64
288-319
32
2
INPUTS
64
1
416-447
32
95
32-63
INPUTS
64
64-95
32
2
160-191
INPUTS
64
1
192-223
32
95
288-319
INPUTS
64
1
320-351
32
2
416-447
INPUTS
64
448-479
32
127
3
127
3
127
3
127
3
127
3
127
3
127
3
96-127
96
224-255
96
352-383
96
480-511
96
0-31
96
128-159
96
256-287
96
0
31
0
31
0
31
0
31
31
0
31
31-0
0
0
31
96-127
0
255-224
0
0
128-159
0
352-383
0
511-480
0
287-256
0
384-415
384-415
0
31
3
0
127
96
1
63
63
63
1
63
63
1
63
63
63
95
32-63
2
OUTPUTS
64
1
64-95
32
95
191-160
2
OUTPUTS
64
1
223-192
32
95
95-64
2
OUTPUTS
64
63-32
32
95
192-223
2
OUTPUTS
64
1
160-191
32
95
288-319
2
OUTPUTS
64
320-351
32
95
447-416
2
OUTPUTS
64
1
479-448
32
95
351-320
2
OUTPUTS
64
1
319-288
32
95
448-479
2
OUTPUTS
64
416-447
32
127
3
127
3
127
3
127
3
127
3
127
3
127
3
127
3
0-31
96
159-128
96
127-96
96
224-255
96
256-287
96
415-384
96
383-352
96
480-511
96
13h
12h
11h
10h
(0x33) (0x32) (0x31) (0x30)
A
B
03
02
01
00
(0x23) (0x22) (0x21) (0x20)
071827612_Trinix 512x1024 top Layout.
Inputs 0-31
Inputs 32-63
Inputs 64-95
07
06
05
04
(0x27) (0x26) (0x25) (0x24)
Inputs 96-127
Inputs 128-159
Inputs 160-191
Inputs 192-223
JI_00
JI_01
JI_02
JI_03
JI_04
JI_05
JI_06
JI_07
Inputs 448-479
0E
Inputs 224-255
Inputs 480-511
0F
B
Outputs 0-31
A
JO_60
B
Outputs 32-63
A
JO_61
B
Outputs 64-95
A
JO_62
A
Outputs 96-127
B
17h
16h
15h
14h
(0x37) (0x36) (0x35) (0x34)
JO_63
12
(mez)
18h
Outputs 128-159
19h
JO_64
1A
Outputs 160-191
Outputs 256-287
1B
JO_65
Outputs 288-319
1C
Outputs 192-223
Outputs 320-351
1D
JO_66
Outputs 352-383
1E
Outputs 224-255
Outputs 384-415
1F
JO_67
Outputs 416-447
B
JO_68
Outputs 448-479
B
JO_69
JO_70
JO_71
JO_72
JO_73
Outputs 480-511
64
JO_74
JO_75
CONTROL
Section 2 — Planning Guide
Figure 26. Signal Flow for the 512x1024 Routing Switcher - Top
Physical
(Logical)
B
A
A
A
Physical
(Logical)
Trinix NXT — Installation and Service Manual
Trinix Frames
Figure 27. Signal Flow for the 512x1024 Routing Switcher - Bottom
JII_22
JII_21
JII_20
Inputs 64-95
Inputs 32-63
Inputs 0-31
0
0
31
0-31
32
2
95
95
95
192-223
2
64-95
INPUTS
64
1
63
63
INPUTS
64
32-63
32
1
160-191
2
95
320-351
INPUTS
64
63
2
448-479
2
96
3
127
96-127
96
127
3
224-255
96
127
3
352-383
96
127
3
3
480-511
96
127
0-31
96
127
3
128-159
96
127
3
256-287
96
127
3
384-415
0
0
31
31
608-639
0
0
31
736-767
0
0
31
512-543
0
0
0
640-671
0
31
31
864-895
0
0
31
992-1023
0
0
31
768-799
0
0
896-927
32
2
2
2
2
2
2
2
95
960-991
95
832-863
95
928-959
95
800-831
95
704-735
95
576-607
95
672-735
95
544-575
2
OUTPUTS
64
1
63
63
OUTPUTS
64
576-607
32
1
63
OUTPUTS
64
704-735
32
1
63
OUTPUTS
64
544-575
32
1
1
OUTPUTS
64
672-735
32
63
63
OUTPUTS
64
832-863
32
1
63
OUTPUTS
64
960-991
32
1
63
OUTPUTS
64
800-831
32
1
928-959
96
3
127
512-543
96
127
3
640-671
96
127
3
608-639
96
127
3
3
736-767
96
127
768-799
96
127
3
896-927
96
127
3
864-895
96
127
3
992-1023
1D
1C
1B
1A
19
18
Outputs 992-1023
Outputs 960-991
Outputs 928-959
Outputs 896-927
Outputs 864-895
Outputs 832-863
Outputs 800-831
Outputs 768-799
Outputs 736-767
Outputs 704-735
Outputs 672-703
Outputs 640-671
Outputs 608-639
Outputs 576-607
Outputs 544-575
Outputs 512-543
JO_95
JO_94
JO_93
JO_92
JO_91
JO_90
JO_89
JO_88
JO_87
JO_86
JO_85
JO_84
JO_83
JO_82
JO_81
JO_80
071827612_Trinix 512x1024 Bottom Layout.
1E
CONTROL
JMx_50
14
(mez)
0
0
CONTROL
128-159
31
JMx_51
10
(base)
32
1
63
INPUTS
64
288-319
32
1
1
95
95
95
95
416-447
2
288-319
2
160-191
2
32-63
INPUTS
64
416-447
32
63
63
INPUTS
64
64-95
32
1
63
INPUTS
64
192-223
32
1
63
INPUTS
64
320-351
32
1
448-479
Physical
(Logical)
13
12
11
10
(0x33) (0x32) (0x31) (0x30)
1F
17
16
15
14
(0x37) (0x36) (0x35) (0x34)
Inputs 96-127
0
0
CONTROL
256-287
31
JMx_52
0
17
(mez)
CONTROL
0
31
384-415
0
JMx_53
0
96-127
31
13
(base)
CONTROL
JMx_54
15
(mez)
0
0
CONTROL
224-255
31
JMx_55
11
(base)
0
0
CONTROL
352-383
31
JMx_56
16
(mez)
0
0
CONTROL
480-511
31
JMx_57
12
(base)
B
B
JII_23
Inputs 128-159
Inputs 256-287
JII_24
Inputs 288-319
Inputs 160-191
Inputs 320-351
JII_25
Inputs 352-383
08
Inputs 192-223
Inputs 384-415
09
JII_26
Inputs 416-447
0A
Inputs 224-255
Inputs 448-479
0B
JII_27
JII_28
JII_29
JII_30
JII_31
Inputs 480-511
0C
65
Trinix NXT — Installation and Service Manual
A
A
B
B
JII_32
JII_33
JII_34
JII_35
0D
B
A
A
A
B
B
B
Physical
(Logical)
03
02
01
00
(0x23) (0x22) (0x21) (0x20)
0E
07
06
05
04
(0x27) (0x26) (0x25) (0x24)
0F
A
A
A
Section 2 — Planning Guide
For a description of the various Input, Output, and Matrix boards available
for Trinix, contact your Grass Valley account representative.
Analog Processing Control
The VI-33100 universal input module accepts analog as well as digital signals. Adjustments for analog signals include the following:
•
Save/recall settings •
•
Mono mode
•
Setup on/off
•
Chroma kill
•
Comb/trap filter
•
AGC on/off
•
Manual gain control
•
ACC on/off
•
Manual chroma
control
Insert Error Detection and Handling
(EDH) data
•
Blank video (per
VBI line)
•
Add setup (per VBI
line)
•
Contrast / Y gain
•
Saturation /
chroma gain
•
Reserve VBI line for
data
•
Brightness / Y
offset
•
Horizontal timing
•
Detail enhancement
•
Display channel
status
•
Hue / chroma
phase
•
Notch decode on/
off (VBI)
•
Chroma kill (VBI)
For more information about the VI-33100 module, please refer to Chapter
6: Analog Input Processing on page 379.
Pre-wiring
All Trinix Routing switchers are pre-wired to the size of the frame. For
example, a 128-frame is pre-wired to 128 x 128 with all rear panels and
BNCs in place; the 256-frame is pre-wired to 256 x 256.
By convention, Routing switcher sizes are shown as:
M x N (P x Q)
This indicates that the functional router size is M x N and is pre-wired to (P
x Q). Symmetrical Trinix pre-wiring is only possible in multiples of 128 x
128, as that is the smallest frame size increment.
Connector Numbering
Late-model Trinix routers have video input/output connectors that begin
with “1” instead of “0.” An adhesive overlay set, which indicates connector
groups using a 0-based numbering scheme (for example, Inputs “0-31,”
Inputs “32-63,” etc.) is provided for customers who are using a 0-based
control system such as Jupiter.
66
Trinix NXT — Installation and Service Manual
Trinix Frames
Alarm System
The operation of cooling fans, frame power supplies, on-board power supplies, and primary vs. secondary Broadlinx boards are all monitored. Any
alarm for these critical items is treated as a Primary alarm. With the release
of Broadlinx 3.1, the router’s system alarm has two modes, “No alarms”
and “Primary alarm.” All alarms (multiple fan failure, power supply
failure, etc.) are considered Primary alarms. All major components include
a local alarm LED.
The master alarm indicator is on the front panel (Power/Alarm) where
green indicates normal operation and red indicates a Primary alarm.
Symmetrical Frame
The rear panel Alarm BNC is configured to report primary alarms only. The
TRX-NXT-128x128 and TRX-NXT-256x256 is configured via jumper on the
NR/SR-33000 board. The location of the board is shown in Figure 63 on
page 136 and Figure 65 on page 138. The TRX-NXT-512x512 is configured
via a jumper on the RP-33500 512 x 512 Rear Panel board as shown on
Figure 68 on page 141.
The Alarm BNC for the TRX-NXT-256x512 version is configured the same
as the TRX-NXT-128x128 or TRX-NXT-256x256. In other words, through
the jumper on the NR-33000 board. See Figure 28.
Note
Secondary alarms are no longer supported.
Fan and Power Supply alarm status is concentrated on the SC board and is
reported through the OPM board for the Asymmetrical frames. The Power
Supply alarms are configured with the dual in-line package (DIP) switches
on the SC boards. (See Configuration DIP Switches on page 231)
Figure 28. Rear Panel Master Alarm Circuit (left) and Example Of Customer-supplied Indicator
Circuit (right).
REAR PANEL BNC
EXTERNAL CIRCUIT
(EXAMPLE)
NOT TO EXCEED
24 VDC @ 20 mA
Trinix NXT — Installation and Service Manual
67
Section 2 — Planning Guide
All of the alarm and status information is gathered by the Broadlinx technology to make it available to the user via Web pages. For more information, see Section 6-Broadlinx Software on page 285.
68
Trinix NXT — Installation and Service Manual
Duplication and Expansion
Duplication and Expansion
Trinix router’s inputs and outputs are designed to duplicated or expanded
using passive splitter/combiner expansion panels. Unused connectors
should be terminated for optimum performance.
Note
For Jupiter-controlled (0-based) systems, the input/output numbers in the
following discussion should be decreased by one (1). For example, block 1256 should be understood as block 0-255, etc.
Frame numbers are determined by the input/output blocks served by the
particular frame. For example, for a TRX-NXT-256x256 router, inputs 1-256
and outputs 1-256 must be connected to frame zero. For more information
about frame numbering, see Frame Number Settings on page 212.
Output Duplication - Dual
The PE-33016 and PE2X2-3G Port expanders are passive, transformerbased modules that can be used to provide two copies of the same signal.
The PE-33016 should be used for SD and HD signals. The PE2x2-3G provides the necessary bandwidth for 3Gp/s operations. The PE2x2-3G can
also be used for SD and HD operation. Functionality of the expander is bidirectional and depends on connections only; no configuration is required.
Figure 29 and Figure 30 show a splitting application. In the figures below,
the PE33016 Port expander is used for an example only. Use the PE33016
Port expander for HD operations and the PE2x2-3G Port expander for
3Gp/s operations. Unused connectors should be terminated for optimum
performance.
Figure 29.
0 - 255
Trinix NXT — Installation and Service Manual
Trinix
256x256
0 -255
16
PE 33016
used as
splitters
0 -255
Dual outputs
69
Section 2 — Planning Guide
Figure 30. PE-33016 Used to Provide 16 Dual Outputs.
1A
1B
(Terminated)
Interior side
1A
1B
Exterior side
In the splitting application, a port expander can be used to provide dual
outputs in groups of 16 outputs. Use the PE33016 Port expander for HD
operations and the PE2x2-3G Port expander for 3Gp/s operations. All
outputs are non-inverting. For example, a 256 x 256 router could be
arranged as follows:
•
256 inputs x 240 single outputs and 16 dual outputs - uses 1 Port
expander, or
•
256 inputs x 224 single outputs and 32 dual outputs - uses 2 Port
expander, or
•
256 inputs x 208 single outputs and 48 dual outputs - uses 3 Port
expander... etc.
Figure 31 shows a router with 240 single outputs and 16 dual outputs. In
the figure below, the PE33016 Port expander is used as an example.
Figure 31. 240 Single Outputs and 16 Dual Outputs Example
1 - 16
Frame 0
1
PE 33016
used as
splitter
1 - 16
Dual outputs
1 - 256
Trinix
256 x 256
17 - 256
Single outputs
70
Trinix NXT — Installation and Service Manual
Duplication and Expansion
In this application, 16 of the PE-33016 or PE2x2-3G rear BNCs can be used
for inputs (outputs from the router) and all 32 of the front BNCs can be used
for outputs.1
The MK-33000 Mounting kit can have a maximum of 16 PE-33016 or PE2x23G modules mounted. The mounting kit is eight rack units high and is
approximately four inches deep. Figure 32 on page 72 shows a 128 input
router with a single port expander mounted in an MK-33000. The port
expander can be either the PE33016 or the PE2x2-3G Port expanders. Using
a single port expander provides 112 single outputs and 16 dual outputs.
Figure 33 on page 73 shows a 256 input router with 256 dual outputs; this
arrangement requires 16 PE-33016 Port expanders.
1.
All unused connectors must be terminated. 16 terminators are supplied with each PE-33016.
Trinix NXT — Installation and Service Manual
71
Section 2 — Planning Guide
Figure 32. Use of Single PE-33016 to Provide Dual Outputs for 16 Switcher Outputs
1
2 3
16
PE-33016-1
Exterior
390-1796-00
Dual outputs
1A
1B
PE-33016-1
Interior
390-1797-00
These 16
cables connect
to rear of PE
2A
2B
3A
3B
16B
72
Terminate
Unused BNCs
16A
Trinix NXT — Installation and Service Manual
Duplication and Expansion
Figure 33. PE-33016 Port Expanders Provides 256 Dual outputs for 256 Input Switcher.
A
B
C
EXTERIOR
16 PE-30016 Expander
Modules in MK-33000
Mounting Kit
INTERIOR
3.25 in.
(82 mm)
Trinix NXT — Installation and Service Manual
73
Section 2 — Planning Guide
Output Duplication - Quad
The PE-33008 Port expander can provide quad outputs in groups of 16
outputs for SD or HD options. The PE-33008 Port expander functions for
data rates from 270Mb to 1.5 Gb. All outputs are non-inverting. A 128 x 128
Routing switcher could be arranged in the following manner:
•
128 inputs x 112 single outputs and 16 quad outputs - uses 2 port
expanders
or
•
128 inputs x 96 single outputs and 32 quad outputs - uses 4 port
expanders
or
•
128 inputs x 80 single outputs and 48 dual outputs - uses 6 port
expander... etc.
In this application, the eight (8) PE-33008 rear BNCs are used for inputs
(outputs from the router) and all 32 of the front BNCs are used for outputs.1
Up to 16 PE-33008 modules can be mounted in an MK-33000 Mounting Kit,
which is 8 RU high and approximately 4 inches (100 mm) deep.
Figure 34 shows a 128 input router with two PE-33008s mounted in an MK33000; this provides 112 single outputs and 16 quad outputs. A 256 input
router with 128 single outputs and 128 quad outputs would appear similar
1.
All unused connectors must be terminated with 75-ohm terminators; for PE-33008 applications terminators must be supplied
by end-user.
74
Trinix NXT — Installation and Service Manual
Duplication and Expansion
to the system shown in Figure 33; this arrangement would require 16 PE33008 Port expanders.
Figure 34. Use of 2
PE 33008s to Provide
Quad Outputs for 16
Switcher Outputs
Connections
to 2nd
PE-33008
are similar
1
2 3
PE-33008-1
Exterior
390-1795-00
8
PE-33008-1
Interior
390-1794-00
Quad outputs
1A
1B
1C
1D
2A
2B
2C
These cables
connect to
rear of PE
2D
3A
3B
3C
3D
8A
8B
Trinix NXT — Installation and Service Manual
Terminate
Unused BNCs
8D
Terminate
Unused BNCs
8C
75
Section 2 — Planning Guide
Expanded Systems
The PE-33016, PE-2X2 3G, and PE-33008 Port expanders can be used to
combine outputs (SD and HD options) for an input expansion application.
The PE-2X2 3G is required for 2X2 expansion in 3G systems, but will also
work for SD and HD systems. The PE-33016 and PE-33008 will not work
with 3G systems. In Figure 35 and Figure 36, a PE-33016 or PE-2X2 3G is
downstream of the router. The router will present only one of the two possible signals to each combiner, which will then produce two copies of that
signal. Only one of the input signals will be present at a time and this signal
is then duplicated. Any unused connectors should be terminated for
optimum performance.
The port expanders are mounted in an MK-33000 Mounting Kit as
described previously (Figure 33 on page 73).
Figure 35. PE-33016 Used as a Combiner.
Interior side
76
1A
1A
1B
1B
Exterior side
Trinix NXT — Installation and Service Manual
Duplication and Expansion
Possible expanded configurations include:
•
1024 inputs x 512 dual outputs
•
1024 inputs x 1024 dual outputs
•
512 inputs x 1024 outputs
•
2048 inputs x 2048 outputs (SD and HD only)
•
1024 inputs x 1024 outputs
Some of these configurations are shown on the following pages. Notice that
the same port expander type is used for both downstream combining (for
input expansion) and upstream splitting (for output expansion). All
outputs are non-inverting. In the figures below the PE33016 Port expander
is used as an example. Use the PE33016 Port expander for HD operations
and the PE2x2-3G Port expander for 3Gp/s operations.
Trinix NXT — Installation and Service Manual
77
Section 2 — Planning Guide
Figure 36. Examples of Input and Output Expansion.
Frame 0
1 - 512
Trinix
Inputs expanded
to 1024
1 - 512
512 x 512
32
PE 33016
used as
combiners
1 - 512
Dual outputs
Frame 1
512 - 1024
513 - 1024
Trinix
512 x 512
1 - 16
Frame 0
1 - 512
Trinix
17 - 512
512 x 512
Inputs expanded
to 1024 (restricted)
32
PE 33016
used as
combiners
17 - 512
Dual outputs
Frame 1
513 - 1024
1 - 512
Trinix
512 x 512
Frame 0
1 - 512
1 - 512
Trinix
512 x 512
1 - 512
Outputs
expanded
to 1024
32
PE 33016
used as
splitters
Frame 2
1 - 16
Frame 0
513 - 1024
1 - 512
1 - 512
17 - 512
Trinix
Trinix
512 x 512
512 x 512
17 - 512
Outputs
expanded
to 1024
(restricted)
32
PE 33016
used as
splitters
Frame 2
513 - 1024
17 - 512
Trinix
512 x 512
The term “restricted” refers to a wiring scheme where some signal paths are
not available. For example, the second system shown in the above figure
will not allow outputs 1-16 to receive inputs 513-1024.
78
Trinix NXT — Installation and Service Manual
Duplication and Expansion
Figure 37. 1024 x 1024 Systems.
Frame 0
1 - 512
Trinix
512 x 512
1 - 512
32
PE-33016
used as
splitters
1 - 512
513 - 1024
32
PE-33016
used as
combiners
1 - 512
Dual outputs
Frame 2
1 - 512
Trinix
512 x 512
Inputs and outputs
expanded to 1024
Frame 1
513 - 1024
Trinix
513 - 1024
1 - 512
512 x 512
32
PE-33016
used as
splitters
513 - 1024
32
PE-33016
used as
combiners
513 - 1024
Dual outputs
Frame 3
513 - 1024
Trinix
512 x 512
Trinix NXT — Installation and Service Manual
79
Section 2 — Planning Guide
Figure 38. 1024 x 2048 Systems
Frame 0
1 - 512
Trinix
32
PE-33016 1 - 512
used as Dual outputs
combiners
512 x 512
Frame 2
1 - 512
Trinix
512 x 512
Inputs
1 - 512
Outputs expanded to 2048
64
PE-33008
used as
1x4
splitters
Frame 8
1 - 512
Trinix
512 x 512
32
PE-33016 513 - 1024
used as Dual outputs
combiners
Frame 10
1 - 512
Trinix
512 x 512
Inputs expanded to 1024
Frame 1
513 - 1024
Trinix
512 x 512
32
PE-33016 1025 - 1536
used as
combiners Dual outputs
Frame 3
513 - 1024
Trinix
512 x 512
Inputs
513 - 1024
64
PE-33008
used as
1x4
splitters
Frame 9
513 - 1024
Trinix
512 x 512
Frame 11
32
PE-33016 1537 - 2048
used as Dual outputs
combiners
513 - 1024
Trinix
512 x 512
80
Trinix NXT — Installation and Service Manual
Duplication and Expansion
Figure 39. 2048 x 1024 System
Frame 0
1 - 512
Trinix
512 x 512
Inputs
1 - 512
32
PE-33016
used as
splitters
Frame 2
Outputs expanded to 1024
1 - 512
Trinix
512 x 512
Inputs expanded to 2048
64
PE-33008
used as
4x1
combiners
1 - 512
Dual outputs
Frame 1
513 - 1024
Trinix
512 x 512
Inputs
513 - 1024
32
PE-33016
used as
splitters
Frame 3
513 - 1024
Trinix
512 x 512
Frame 4
1025 - 1536
Trinix
512 x 512
Inputs
1025 - 1536
32
PE-33016
used as
splitters
Frame 6
1025 - 1536
Trinix
512 x 512
64
PE-33008
used as
4x1
combiners
513 - 1024
Dual outputs
Frame 5
1537 - 2048
Trinix
512 x 512
Inputs
1537 - 2048
32
PE-33016
used as
splitters
Frame 7
1537 - 2048
Trinix
512 x 512
Trinix NXT — Installation and Service Manual
81
Section 2 — Planning Guide
Figure 40. 2048 x 2048 System
Frame 0
1 - 512
Trinix
512 x 512
64
PE-33008
used as
4x1
combiners
1 - 512
Dual outputs
Inputs and outputs expanded to 2048
Frame 2
1 - 512
Trinix
Inputs
1 - 512
512 x 512
64
PE-33008
used as
1x4
splitters
Frame 8
1 - 512
Trinix
512 x 512
Frame 10
513 - 1024
Frame 1
1 - 512
Trinix
Trinix
512 x 512
512 x 512
Frame 3
64
PE-33008
used as
4x1
combiners
513 - 1024
Trinix
Inputs
513 - 1024
512 x 512
64
PE-33008
used as
1x4
splitters
513 - 1024
Dual outputs
Frame 9
513 - 1024
Trinix
512 x 512
Frame 11
Frame 4
513 - 1024
Trinix
1025 - 1536
Trinix
512 x 512
512 x 512
Frame 6
1025 - 1536
Trinix
Inputs
1025 - 1536
512 x 512
64
PE-33008
used as
1x4
splitters
1025 - 1536
64
PE-33008
used as
4x1
combiners
Frame 12
Trinix
1025 - 1536
Dual outputs
512 x 512
Frame 14
1537 - 2048
Frame 5
1025 - 1536
Trinix
Trinix
512 x 512
512 x 512
Frame 7
1537 - 2048
Trinix
Inputs
1537 - 2048
512 x 512
64
PE-33008
used as
1x4
splitters
Frame 13
1537 - 2048
Trinix
512 x 512
Frame 15
1537 - 2048
64
PE-33008
used as
4x1
combiners
1537 - 2048
Dual outputs
Trinix
512 x 512
82
Trinix NXT — Installation and Service Manual
Duplication and Expansion
The 512x1024 Routing Switcher
The 512x1024 Routing switcher can be duplicated to form the following
frames:
•
1024x1024
•
512x2048
•
1024x2048
•
2048x2048
Note
The 2048x2048 frame can only process SD or HD signals do to the port
expander that must be used (TRX-PE-33008).
Examples of each of these frames can be found on the pages that follow.
The 1024x1024 Frame
This configuration can process SD,HD and 3Gb/s signals.
Figure 41. Example of the 1024x1024 Frame
071827612_1024x1024 System_512x1024
Frame 0
1-512
Trinix
512 x1024
64
TRX-PE-2x2-3G
used as
Combiners
1-1024
Frame 2
513-1024
Trinix
512 x1024
Trinix NXT — Installation and Service Manual
83
Section 2 — Planning Guide
The 512x2048 Frame
This configuration can process SD,HD and 3Gb/s signals.
Figure 42. Example of the 512x2048 Frame
Frame 0
1-1024
Trinix
512 x1024
1-512
32
TRX-PE-2x2-3G
used as
Splitters
1025-2048
Trinix
512 x1024
84
071827612_512x2048 System_512x1024
Frame 8
Trinix NXT — Installation and Service Manual
Duplication and Expansion
The 1024x2048 Frame
This configuration can process SD,HD and 3Gb/s signals.
Figure 43. Example of the 1048x2048 Frame
Frame 0
Trinix
512 x1024
1-512
64
TRX-PE-2x2-3G
used as
Combiners
1-1024
64
TRX-PE-2x2-3G
used as
Combiners
1025-2048
32
TRX-PE-2x2-3G
used as
Splitters
Frame 8
Trinix
512 x1024
Frame 1
Trinix
512 x1024
513-1024
Frame 9
Trinix
512 x1024
Trinix NXT — Installation and Service Manual
071827612_1024x2048 System_512x1024
32
TRX-PE-2x2-3G
used as
Splitters
85
Section 2 — Planning Guide
The 2048x2048 Frame
This configuration can only process SD and HD signals.
Figure 44. Example of the 2048x2048 Frame
Frame 0
1-512
32
TRX-PE-2x2-3G
used as
Splitters
Trinix
512 x1024
128
TRX-PE-33008
used as
Combiners
1-1024
128
TRX-PE-33008
used as
Combiners
1025-2048
Frame 8
Trinix
512 x1024
Frame 1
513-1024
32
TRX-PE-2x2-3G
used as
Splitters
Trinix
512 x1024
Frame 9
Trinix
512 x1024
Frame 4
1025-1536
32
TRX-PE-2x2-3G
used as
Splitters
Trinix
512 x1024
Frame 12
Frame 5
1537-2048
32
TRX-PE-2x2-3G
used as
Splitters
Trinix
512 x1024
Frame 13
071827612_2048x2048 System_512x1024
Trinix
512 x1024
Trinix
512 x1024
86
Trinix NXT — Installation and Service Manual
Duplication and Expansion
Termination for Pre-wired Expansion Frames
The unused BNC connectors on the port expanders should be terminated
for best performance. However, it may be desirable to install an empty or
partially filled frame with associated cabling to simplify future expansion.
When such cabling connects to a Port expander that is carrying active signals, special termination hardware is required. Since the presence of prewired cabling will not permit standard BNC terminators to be installed on
the expander, an LD-33100 Loader board must be installed in the associated frame in place of an input or output board to provide correct termination.
Grass Valley recommends that you terminate all unused outputs that may
be driven with an active signal. Properly shielded 75-ohm terminators or
spare infrastructure coax cables should be used. This step will ensure EMC
compliance. Spare output BNC panels that are not populated with output
boards and spare input BNCs do not need to be terminated.
Figure 45. LD-33100 Loader Board
Input Expansion
For example, the figure below (Figure 46) shows a 512 x 512 system that has
been expanded to 1024 x 512:
Trinix NXT — Installation and Service Manual
87
Section 2 — Planning Guide
Figure 46. 512 x 512 System Expanded to 1024 x 512
Frame 0
1 - 512
Trinix
1 - 512
512 x 512
32
PE 33016
used as
combiners
Future input
wiring
Frame 1
(unused)
Trinix
512 x 512
outputs
1 - 512
Installed pre-wiring
Output slots should be terminated
using LD-33100 Loader boards
Frame 1 contains no input or output boards, but the wiring has already
been installed between Frame 1 and the PE-331016 Port expanders.
Now consider Output 1 of Frame 0. This signal is connected to Input 1A of
the first PE-33016 Port expander. See Figure 47 below.
Figure 47. Detail of One PE-33016
Input 1A - from Frame 0 Output 1
Output 1A - to downstream equipment
Input 1B - from Frame 1 Output 1.
Termination provided by LD-33000
in upstream Trinix frame.
Output 1B - not used. Termination provided by
75-ohm BNC terminator
In this example:
88
•
Only Input 1A and Output 1A are presently functional.
•
Output 1B is fitted with a 75-ohm BNC terminator, which is following
the rule that unused connectors should be terminated.
•
Input 1B is pre-wired to Frame 1, so there is no place for a terminator.
In this case, termination will be provided by an LD-33100 Loader board,
which has been installed in output board slot 1-32 of Frame 0. Furthermore, in this example all 16 output slots of Frame 0 should have an LD33000 installed.
•
When the system is upgraded to 1024 x 512, the LD-33000 boards will
be removed and replaced by output boards. The cabling to the port
expanders is already in place.
Trinix NXT — Installation and Service Manual
Duplication and Expansion
The concepts in this example can be applied equally to both HD and SD
systems with PE-33008 Port expanders. For example, they would apply to
a 1024 x 1024 system that is pre-wired for expansion to 2048 x 1024 (similar
to the system shown in Figure 37 on page 79, where LD-33100 Loader
boards would be installed in place of output boards in Frames 4 through 7).
Output Expansion
The LD-33100 Loader boards may also be used for output-expandable systems. For example, Figure 48 on page 89, below shows a 512 x 512 system
expandable to 512 x 1024:
Figure 48. A 512 X 512 System Expanded to 512 x 1024
Frame 0
1 - 512
1 - 512
Trinix
512 x 512
1 - 512
32
PE 33016
used as
splitters
Frame 1
(unused)
Future output
wiring
Installed pre-wiring
Trinix
512 x 512
Input slots should be terminated
using LD-33100 Loader boards
Again, considering one signal path (below in Figure 49), pre-wired cable
connections do not allow for installation of individual terminators. Instead,
the LD-33100 Loader boards are installed in the unused frame. However, in
this case they are installed in the input slots.
Figure 49. Detail of one PE-33016 shown above in Figure 48
Input 1A - from upstream equipment
Input 1B - not used. Termination
provided by 75-ohm BNC terminator
Output 1A - to Frame 0 Input 1
Output 1B - to Frame 1 Input 1.
Termination provided by LD-33100
in Frame 1.
Input and Output Expansion
The rules just described for use of LD-33100 Loader boards will also apply
to systems designed for expansion of both inputs and outputs. An example
Trinix NXT — Installation and Service Manual
89
Section 2 — Planning Guide
would be a 512 x 512 pre-wired for expansion to 1024 x 1024 (similar to the
system that is shown in Figure 37 on page 79). Only frame 0 would be
active in the 512 x 512 router, so only the port expanders connected to
Frame 0 would be in use. Frame 1’s inputs are connected to the top left PE;
while Frame 2’s outputs are connected to the top right PE. Therefore Frame
1’s input slots would require LD-33100s and Frame 2’s output slots would
require LD-33100s. No LD boards would be needed for Frame 3.
Monitoring with Expanded Systems
Symmetric Frame
Output monitor signals must be sent through a combiner in expanded systems. An example of an output-expanded system in shown in Figure 50 on
page 91; an input-expanded system is shown in (Figure 119 on page 209).
Note
90
Output monitoring is not available for input-expanded systems controlled by
an SR-33000 Sync/OPM board.
Trinix NXT — Installation and Service Manual
Duplication and Expansion
Figure 50. Monitoring With Output-expanded System.
Frame 0
1 - 256
1 - 256
Trinix
256 x 256
1 - 256
PE-33016s
used as
splitters
Output monitor video
Frame 2
257 - 512
1 - 256
Trinix
256 x 256
PE-33016
used as
combiner
QC station
Output monitor video
Frame 0
1 - 256
1 - 256
Trinix
256 x 256
32
PE-33016s
used as
combiners
1 - 256
Dual outputs
Frame 1
257-512
257 - 512
Trinix
256 x 256
Output monitor video
PE-33016
used as
combiner
QC station
Asymmetrical Frames
Output monitor signals are cascaded from the expansion frame to the main
frame (frame 0) via the TRX-SR Sync/OPM board.
Trinix NXT — Installation and Service Manual
91
Section 2 — Planning Guide
Figure 51. Expansion of two 128X256 Frames to form a 256x256 with Output Monitoring.
Legend:
MON outs (4)
MON outs (4)
(Outputs 257-260)
CAS = Cascade
Trinix
NXT
128x256
Switcher
MON =
Monitor
Inputs 1-128
Ins = Inputs
Outputs 1-256
Frame 0
Outs = Outputs
CAS ins (4)
4 75 ohm coaxial cables
16 ea.
16x2:2
COMBINERS
Note: The order of the
frames for the monitor
cascade does not matter.
Inputs 129-257
Trinix
NXT
128x256
Switcher
Frame 1
No Connect
Or Test Signal
92
CAS ins (4)
Outputs 1-256
System Outs
071827611_expansion_2_frame-256^2_woutput-mon
MON outs (4)
Outputs 1-256
Trinix NXT — Installation and Service Manual
Duplication and Expansion
Figure 52. Expansion of two 512x1024 Frames with Output Monitoring.
Legend:
MON outs (4)
MON outs (4)
(Outputs 513-516)
CAS = Cascade
Trinix
NXT
512x1024
Switcher
MON =
Monitor
Inputs 1-512
Ins = Inputs
Outputs 1-1024
Frame 0
Outs = Outputs
CAS ins (4) X 2
4 75 ohm coaxial cables
16 ea.
16x2:2
COMBINERS
Note: The order of the
frames for the monitor
cascade does not matter.
Inputs 513-1024
Trinix
NXT
512x1024
Switcher
Frame 1
No Connect
Or Test Signal
CAS ins (4) X 2
Trinix NXT — Installation and Service Manual
Outputs 1-1024
System Outs
071827609_expansion_2_frame-512x1024^2_woutput-mon
MON outs (4)
Outputs 1-1024
93
Section 2 — Planning Guide
Figure 53. Expansion of two 256x512xFrames with Output Monitoring.
Legend:
MON outs (4)
MON outs (4)
CAS = Cascade
(Outputs 513-516)
Trinix
NXT
256x512
Switcher
MON =
Monitor
Inputs 1-256
Ins = Inputs
Outputs 1-512
Frame 0
Outs = Outputs
CAS ins (4)
4 75 ohm coaxial cables
32 ea.
16x2:2
COMBINERS
Note: The order of the
frames for the monitor
cascade does not matter.
Inputs 513-768
Trinix
NXT
256x512
Switcher
Frame 1
No Connect
Or Test Signal
94
CAS ins (4)
Outputs 1-512
System Outs
071827609_expansion_2_frame-512^2_woutput-mon
MON outs (4)
Outputs 1-512
Trinix NXT — Installation and Service Manual
Protected Paths
Protected Paths
Overview
The Protected path function is designed to monitor router outputs that are
feeding critical downstream equipment and, in the event of signal loss, will
automatically select the output that is carrying the same signal and trigger
the system alarm.
The Protected path function assumes the following:
•
Supported Output Boards provide the output signals that will be monitored. These boards allow individual outputs to be enabled or disabled
using software controls.
•
Protection is provided for paths, that is, input/output pairs. The installer
must identify critical outputs and an associated critical input for each.
For redundancy, two paths must be defined: a Primary path and a
failover Secondary path.
•
Protected pairs should be hard wired to back-panel connectors that will
provide the most independent possible paths through the router. For
example, the two paths should use different input boards and different
output boards. Depending on router size, the two paths may also be
able to use different matrix boards and different power sources.
•
Two copies of each protected input must be wired to the router for full
redundancy. For example, the Master Control switcher output could be
sent through a passive splitter upstream of the router. One copy is used
for the primary path, and the other for the secondary path. If an
upstream splitter is used, steps must be taken to boost the gain for the
appropriate block of inputs.
•
The primary output and the secondary output must be wired to a
passive combiner; the output of the passive combiner is then connected
to the downstream equipment. The Protected path software will automatically boost individual outputs as needed for proper gain level
through the splitter. Outputs not configured for Protected path operation should be set for gain levels as described in the manual. (The Protected path software will override the manual settings as needed.)
•
The control system (for example, Encore or Jupiter) must be operated
so that the secondary path is always ready to provide a copy of the protected signal. For example, the operator would switch the Master
Control output to the transmitter on the primary path; the control
system would then switch the secondary path automatically. For more
information, see Jupiter Facility Control System on page 106.
Figure 54 on page 96 shows an example of a TRX-NXT-512x512 router with
a pair of Protected paths (Depending on system requirements, the
upstream splitter may or may not be needed). The signal detector monitors
Trinix NXT — Installation and Service Manual
95
Section 2 — Planning Guide
the primary path and if necessary will disable the primary path output
driver and enable the secondary path output driver. Notice that the two
paths use independent sets of hardware.
Figure 54. Example of Protected Paths for TRX-NXT-512x512 Router
Output Status
Signal OK, driver ON
Output assigned to
protected path, driver OFF
Primary path
Powered by
PS A and PS B
Outputs
1-128
Outputs
129-256
Inputs
385-512
Output 1
Input 1
Inputs
1-128
Powered by
PS C and PS D
Input/Output
boards
DM-33501/2
Matrix boards
Input 257
Inputs
129-256
Outputs
385-512
Outputs
257-384
Inputs
257-384
Splitter
Combiner
Input/Output
boards
Output 257
Secondary path
96
Trinix NXT — Installation and Service Manual
Protected Paths
Figure 55. Example of Protected Paths for TRX-NXT-512x1024 Router
Primary Path
071827612_512x1024_PP
Out
1-256
Primary Path
In
Primary
Path
1-256
Splitter
Combiler
Secondary
Path
Secondary
Path
Out
513-769
In
257-512
Secondary
Path
Trinix NXT — Installation and Service Manual
97
Section 2 — Planning Guide
Planning
The following section describes the Protected path planning process.
Note
The following discussion is based on a 1-based numbering scheme (Encore
Control system). If you are using a zero-based numbering system (Jupiter
AccuSwitch Control system), subtract 1 from all instances of input/output
numbers.
TRX-NXT-512x512
The recommended Protected path ranges for TRX-NXT-512x512 routers are
as follows:
Table 3. Recommended Protected path Ranges
Primary Path
Secondary Path
Output
Input
Output
Input
1-256
1-256
257-512
257-512
For example, to protect an output in the range 1-128, choose a corresponding input in the range 1-128; this will be the primary path. For the secondary (failover) path, choose an output in the range 257-384 and a
corresponding input in the range 257-384.
Alternatively, the high-range of connectors can be used for the primary
path and the low range for the secondary path, as shown in Table 4:
Table 4. Alternative Protected Path Ranges
Primary Path
Secondary Path
Output
Input
Output
Input
257-384
257-384
1-128
1-128
Using either of these schemes will provide the most independent possible
paths through a TRX-NXT-512x512. In other words, the primary path will
use one set of input, matrix, and output boards connected to one power
source while the secondary path will use a different set of boards connected
to a different power source.
The maximum number of Protected paths for a TRX-NXT-512x512 router is
256.
A more detailed example is shown in Table 5. This table shows a sequential
wiring scheme for a system yet to be installed or a system where cables will
98
Trinix NXT — Installation and Service Manual
Protected Paths
be re-arranged in a symmetrical pattern in order to simplify Protected path
configuration.
Table 5. TRX-NXT-512x512Protected Paths (Example of Sequential Numbering)
Primary Path
Out
Secondary Path
In
Out
In
Name
No.
Name
No.
Name
No.
Name
No.
AirPP
1
MCPP
1
AirSP
257
MCSP
257
Sat1PP
2
StuAPP
2
Sat1SP
258
StuASP
258
Sat2PP
3
StuBPP
3
Sat2SP
259
StuBSP
259
NetPP
.
.
.
.
.
.
.
.
.
.
.
.
256
MainPP
256
NetSP
512
MainSP
512
The numbers shown here correspond to the connector numbers used
during router configuration (but not, in most cases, to the actual silk screen
number on the rear panel itself since the silk screen numbers only run from
“1” to “32.”)
In Jupiter-controlled systems, the Name column in these tables corresponds to the “logical input/output name.” The entries in the number
column correspond to the “physical” input/output number.
The next example applies to existing systems where re-arrangement of
cables in a sequential pattern is not practical or desirable:
Table 6. TRX-NXT-512x512 Protected Paths (Example of Non-sequential Numbering)
Primary Path
Out
Secondary Path
In
Out
In
Name
No.
Name
No.
Name
No.
Name
No.
AirPP
21
MCPP
12
AirSP
390
MCSP
265
Sat1PP
253
StuAPP
254
Sat1SP
413
StuASP
348
Sat2PP
109
StuBPP
98
Sat2SP
289
StuBSP
409
NetPP
.
.
.
.
.
.
.
.
.
.
.
.
4
MainPP
256
NetSP
440
MainSP
454
Notice that in all cases the primary path I/O numbers are always in the 1256 range while the secondary path I/O numbers are always in the 257-512
range.
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Section 2 — Planning Guide
TRX-NXT-256x256
Recommended Protected path ranges for TRX-NXT-256x256 routers are as
follows:
Table 7. Recommended Protected Path Ranges
Primary Path
Secondary Path
Out
In
Out
In
1-128
1-128
129-256
129-256
For example, to protect an output in the range 1-128, choose a corresponding input in the range 1-128; this will be the primary path. For the secondary (failover) path, choose an output in the range 129-256 and a
corresponding input in the range 129-256.
This will provide the most independent possible paths through a TRXNXT-256x256. That is, the primary path will use one set of input, matrix,
and output boards while the secondary path will use a different set of
boards.
CAUTION With a TRX-NXT-256x256, it is not possible to arrange completely independent paths, that is, paths that use different power supplies. Protected path
configuration for TRX-NXT-256x256 routers provides redundancy for matrix
boards and input and output boards only.
The maximum number of Protected paths for a TRX-NXT-256x256 router is
128.
A more detailed example is shown in Table 8. This table shows a sequential
wiring scheme for a system yet to be installed or a system where cables will
be re-arranged in a symmetrical pattern in order to simplify Protected path
operation.
Table 8. TRX-NXT-256x256 Protected Paths (Example Of Sequential Numbering)
Primary Path
Out
Secondary Path
In
Name
No.
Out
Name
No.
In
Name
No.
Name
No.
AirPP
1
MCPP
1
AirSP
129
MCSP
129
Sat1PP
2
StuAPP
2
Sat1SP
130
StuASP
130
Sat2PP
3
StuBPP
3
Sat2SP
131
StuBSP
131
NetPP
.
.
.
.
.
.
.
.
.
.
.
.
128
MainPP
128
NetSP
256
MainSP
256
The numbers shown here correspond to the connector numbers used
during router configuration (but not, in most cases, to the actual silk screen
100
Trinix NXT — Installation and Service Manual
Protected Paths
number on the rear panel itself since the silk screen numbers only run from
“1” to “32.”)
In Jupiter-controlled systems, the Name column in these tables corresponds to the “logical input/output name.” The entries in the Number
column will correspond to the physical input/output number.
Figure 56. Example of Protected Paths for TRX-NXT-256x256 Router
Inputs
1-128
Outputs
1-128
Outputs
129-256
Inputs
129-256
DM-33100
Matrix boards
Input/Output
boards
Output Status
Signal OK, driver ON
Output assigned to
protected path, driver OFF
Input 128
Output 128
Output 1
Input 1
Primary path
Combiner
Splitter
Secondary path
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Section 2 — Planning Guide
The next example applies to existing systems where re-arrangement of
cables in a sequential pattern is not practical or desirable:
Table 9. TRX-NXT-256x256 Protected Paths (Example of Non-Sequential Numbering)
Primary Path
Out
Secondary Path
In
Out
In
Name
No.
Name
No.
Name
No.
Name
No.
AirPP
21
MCPP
12
AirSP
190
MCSP
165
Sat1PP
53
StuAPP
54
Sat1SP
133
StuASP
248
Sat2PP
109
StuBPP
98
Sat2SP
189
StuBSP
129
NetPP
.
.
.
.
.
.
.
.
.
.
.
.
4
MainPP
56
NetSP
144
MainSP
145
Notice that in all cases the primary path I/O numbers are always in the 1128 range while the secondary path I/O numbers are always in the 129-256
range.
TRX-NXT-128x128
Recommended Protected path ranges for TRX-NXT-128x128 routers are as
follows:
Table 10. Recommended Protected Path Ranges
Primary Path
Secondary Path
Out
In
Out
In
1-32
1-32
33-128
33-128
33-64
33-64
1-32,
65-128
1-32,
65-128
65-96
65-96
1-64,
97-128
1-64,
97-128
97-128
97-128
1-96
1-96
For example, to protect an output in the range 1-32, choose a corresponding
input in the range 1-32; this selection will be the Primary path. For the Secondary (failover) path, choose an output in the range 33-128 and a corresponding input in the range 33-128.
This will provide the most independent possible paths through a TRXNXT-128x128, that is, the primary path will use one pair of input and
output boards while the secondary path will use a different pair of boards.
CAUTION With a TRX-NXT-128x128, it is not possible to arrange completely independent paths, that is, paths that use different matrix boards and power supplies.
Protected path configuration for TRX-NXT-128x128 routers provides redundancy for input and output boards only.
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Protected Paths
The maximum number of Protected paths for a TRX-NXT-128x128 router is
64.
A more detailed example is shown in Table 11. This table shows a sequential wiring scheme for a system yet to be installed or a system where cables
will be re-arranged in a symmetrical pattern in order to simplify Protected
path operation.
Table 11. TRX-NXT-128x128 Protected Paths (Example Of Sequential Numbering)
Primary Path
Out
Secondary Path
In
Out
In
Name
No.
Name
No.
Name
No.
Name
No.
AirPP
1
MCPP
1
AirSP
33
MCSP
33
Sat1PP
2
StuAPP
2
Sat1SP
34
StuASP
34
Sat2PP
3
StuBPP
3
Sat2SP
35
StuBSP
35
NetPP
.
.
.
.
.
.
.
.
.
.
.
.
64
MainPP
64
NetSP
128
MainSP
128
The numbers shown here correspond to the connector numbers used
during router configuration (but not, in most cases, to the actual silk screen
number on the rear panel itself since the silk screen numbers only run from
1” to 32.”)
In Jupiter-controlled systems, the Name column in these tables corresponds to the logical input/output name”; the entries in the number
column will correspond to the physical” input/output number.
The next example applies to existing systems where re-arrangement of
cables in a sequential pattern is not practical or desirable:
Table 12. TRX-NXT-128x128 Protected Paths (Example Of Non-sequential Numbering)
Primary Path
Out
Secondary Path
In
Out
In
Name
No.
Name
No.
Name
No.
Name
No.
AirPP
21
MCPP
12
AirSP
33
MCSP
33
Sat1PP
53
StuAPP
54
Sat1SP
1
StuASP
1
Sat2PP
109
StuBPP
95
Sat2SP
96
StuBSP
64
Notice that I/O numbers conform to the ranges that are shown in Table 10
Recommended Protected Path Ranges on page 102.
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Section 2 — Planning Guide
Asymmetrical Frames
When Using the Protected Paths feature with the Asymmetrical frames,
you will be able to protect half the outputs but those protected outputs
cannot be greater than half the number of inputs. For example, the 128x256
router:
•
Outputs 0 – 127 (1-128) could protect outputs 128 - 255 (129-256) but
only 64 of these outputs.
That means:
•
Outputs 0 – 63 (1-64) could protect outputs 128 – 191 (129 – 192)
•
or Outputs 64 – 127 (65 – 128) could protect outputs 192 – 255 (193 –
256).
TRX-NXT-128x256
Recommended Protected path ranges for TRX-NXT-128x256 routers are as
follows:
Table 13. Recommended Protected Path Ranges
Primary Path
Secondary Path
Out
In
Out
In
1-64
1-64
65-128
65-128
TRX-NXT-256x512
Recommended Protected path ranges for TRX-NXT-256x512 routers are as
follows:
Table 14. Recommended Protected Path Ranges
Primary Path
Secondary Path
Out
In
Out
In
1-128
1-128
129-256
129-256
TRX-NXT-512x1024
Recommended Protected path ranges for TRX-NXT-512x1024 routers are as
follows:
Table 15. Recommended Protected Path Ranges
Primary Path
104
Secondary Path
Out
In
Out
In
1-256
1-256
513-769
257-512
Trinix NXT — Installation and Service Manual
Protected Paths
Worksheet for Protected Path Implementation
Based on the preceding examples, specific primary and secondary paths
should be identified and noted. The following worksheet is provided for
this purpose.
Table 16. Protected Paths Worksheet
Primary Path
Output
Name
Secondary Path
Input
No.
Trinix NXT — Installation and Service Manual
Name
Output
No.
Name
Input
No.
Name
No.
105
Section 2 — Planning Guide
Control Systems
Jupiter Facility Control System
The Jupiter control system can be used to operate the Trinix router using a
VM-3000, CM-4000 or CM-4400 System Controller (Figure 57). The VM/
CM can receive switching commands from a variety of serial sources,
including Jupiter control panels or an automation computer.
Figure 57. Control Connections to Jupiter Facility Control System (example).
Trinix routing
switcher(s)
Jupiter file
server
T
Crosspoint bus
terminator
Ethernet switch
10/100BaseT
LAN
Crosspoint bus
Jupiter control panels
CM-4000
System
Controller
MPK bus
In this application, the Trinix is operated in the External Crosspoint Bus
Control mode, during which the Broadlinx board releases control of the
Crosspoint bus. Switch commands arriving at the Crosspoint bus connector
on the rear of the frame will be executed.
CC-2010 Matrix (Crosspoint Bus) Cable
Connection from a Jupiter VM-3000 or CM-4000 System Controller is via a
Crosspoint bus cable, which can be supplied in 3, 10, 25, or 50 foot lengths.
The Crosspoint bus connector is looped out in order to connect the bus to
the next item under Crosspoint control.
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Trinix NXT — Installation and Service Manual
Control Systems
Depending on the size of the Routing switcher, this bus may require intermediate buffering through a CB-3000 Control Buffer. A CB 3000 is required
in the following cases:
•
TRX-NXT-128x128 - eight or more frames
•
TRX-NXT-256x256 - four or more frames
•
TRX-NXT-512x512 - two or more frames
•
TRX-NXT-128x256 - four or more frames
•
TRX-NXT-256x512 -two or more frames
•
TRX-NXT-256x512 -more than one frame
The CB-3000 is described in detail in the Jupiter Installation and Operating
manual.
In Trinix applications, the Crosspoint bus must be terminated at the point
farthest from the control processor using a Crosspoint Bus Terminator.
The CC-2010 is a 10-conductor (plus ground) cable. Ready-made cables,
with installed 15-pin D male connectors, are available from Grass Valley.
All rear-panel Crosspoint bus connectors are 15-pin D, female.
For those who wish to prepare their own cables, pin-outs are shown in
Figure 125 on page 216. The cable itself should be Belden 9505 or equivalent. User-supplied matrix cables for VDE installations require a ferrite core
over each end of the cable, adjacent to the connector. Details concerning
ferrite cores are given on page 216.
Jupiter Control System Installation
Refer to the Jupiter VM-3000 System Controller Installation and Operation
Manual or the Jupiter CM-4000 System Controller Installation and Operation Manual for the Installation instructions.
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107
Section 2 — Planning Guide
SMS 7000 / Encore Control
These control systems use an Ethernet connection to the Broadlinx application, which runs on the NR-33000 Sync/NIC/OPM board.
The system is operated in the Internal Crosspoint Bus Control mode,
during which the Broadlinx board sends commands to the Crosspoint bus.
Refer to the SMS 7000 or Encore documentation for control system planning information.
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Trinix NXT — Installation and Service Manual
LAN and Com Bus Connections
LAN and Com Bus Connections
The LAN (NIC) connections use a standard 10/100BaseT twisted pair cable
with RJ-45 connectors (Cat 5E Enhanced is recommended). Shielded cable
is also recommended, maximum length 60 meters.1 The maximum length
for a non-shielded cable is 100 meters.
LAN Monitoring Only (Jupiter Control)
In this arrangement, the router is under Jupiter control. The only purpose
of the connection is LAN monitoring using Broadlinx web pages or SNMP.
See Figure 58.
Figure 58. LAN Connections for LAN Monitoring Only (Jupiter Control)
NIC A
connector
Trinix
NIC B
connector
Ethernet switch
Monitoring PC
Another Ethernet cable must be connected from the NIC B jack to the
network switch if you plan to use a secondary Broadlinx board.
If the Trinix LAN is connected to the Internet, the connection should be
made through a firewall.
Note
1.
Do not use Broadlinx with either the Dynex DX-ESW8, 10/100M Fast Ethernet
Switch or the Zonet Model ZFS3124.
Compliance with EEC, EMC, EN series, UL- 1950, and CSA C22.2 No. 950-M89 standards requires use of a shielded cable.
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Section 2 — Planning Guide
SMS Control
In this arrangement, the router is under SMS control via a LAN connection.
The PC is used to configure the SMS and is available for Broadlinx or SNMP
monitoring. See Figure 59.
Figure 59. SMS Connections to Trinix.
NIC A
connector
7000 SMS
MCPU frame
Trinix
Ethernet
connector
NIC B
connector
Ethernet switch
PC
Another Ethernet cable must be connected from the NIC B jack to the
network switch if you plan to usea secondary NR-33000 board.
If the Trinix LAN is connected to the Internet, the connection should be
made through a firewall.
Note
110
Do not use Broadlinx with either the Dynex DX-ESW8, 10/100M Fast Ethernet
Switch or the Zonet Model ZFS3124.
Trinix NXT — Installation and Service Manual
LAN and Com Bus Connections
Encore Control
For information about the Encore control system working with Trinix, see
Encore Control on page 375.
Com Bus
In multi-frame systems, a Com Bus” is used to loop through each frame, up
to a maximum of four. The Com Bus is intended to provide Routing
switcher monitoring of multiple frames using Broadlinx web pages or
SNMP. The Com Bus uses a 10/100BaseT (Cat 5 twisted pair) cable with RJ45 connectors. Shielded cable is recommended, maximum length 60
meters.1 Maximum length for a non-shielded cable is 100 meters.
Figure 60. Com Bus Example
Trinix frames
with SR-33000
Sync/OPM
or SR-33500
Sync/OPM
boards
Trinix frame
with NR-33000
Sync/NIC/
OPM board
(Broadlinx
board)
Com Bus cable
(see discussion
for specifications)
In TRX-NXT-512x512 systems, if the power supply frame is equipped with
an NR-33000 Broadlinx board, a Cat 5 twisted pair cable must be installed
between the power supply frame Com Bus connector associated with the
NR board and one of the main frame Com Bus connectors.
The Com Bus should be daisy-chained to any additional TRX-NXT-512x512
main frames in the systems that do not have Broadlinx boards. For an illustration, see Figure 67 on page 140.
1.
Compliance with EEC, EMC, EN series, UL- 1950, and CSA C22.2 No. 950-M89 standards requires use of a shielded cable.
Trinix NXT — Installation and Service Manual
111
Section 2 — Planning Guide
System Monitoring Applications
For a detailed description of Broadlinx web page monitoring using Internet
Explorer, see Broadlinx / Internet Explorer Monitoring on page 311.
For a brief description of system monitoring using SNMP/NetCentral, see
SNMP/NetCentral Monitoring on page 37.
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Trinix NXT — Installation and Service Manual
Specifications
Specifications
Electrical
General
Connectors:
75-ohm BNC
Input boards:
32 inputs each.
Output boards:
32 outputs each.
Matrix boards:
DM-256-3G: 256 inputs x 256 outputs
DM-128-3G: 128 inputs x 128 outputs
DM-128R-3G: 128 inputs x 128 outputs
DM-33512: 256 inputs x 256 outputs
DM-33100: 128 inputs x 128 outputs.
Serial Digital Inputs
Level:
800 mV p-p (+/-10%) 75-ohm terminating
Return Loss:
3G: >/= 15 dB from 5 MHz to 3 GHz (20 dB typical).
HD: >/=15 dB from 5 MHz to 1.5 GHz
SD: >/=15 dB from 5 MHz to 540 MHz
Sync Inputs
Level:
Nominal 1 Vp-p (+/-6 dB) video or black burst
Tri-level sync also accepted
Video Standard:
NTSC/PAL/HDTV, auto-detected
Return Loss:
>/=40 dB from 100 kHz to 20 MHz
>/=30 dB from 20 MHz to 30 MHz
512x1024 Asymmetric Sync Inputs
Level:
Nominal 1 Vp-p (+/-6 dB) video or black burst
Tri-level sync also accepted
Video Standard:
NTSC/PAL/HDTV, auto-detected
Return Loss:
>/= 40dB from 100 KHz to 5 MHz
>/= 35dB from 5 MHz to 10 MHz
>/= 25dB from 10 MHz to 30 MHz
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Section 2 — Planning Guide
256X512 Asymmetric Sync Inputs
Level:
Nominal 1 Vp-p (+/-6 dB) video or black burst
Tri-level sync also accepted
Video Standard:
NTSC/PAL/HDTV, auto-detected
Return Loss:
>/= 36dB from 100 KHz to 5 MHz
>/= 30dB from 5 MHz to 10 MHz
>/= 20dB from 10 MHz to 30 MHz
128x256 Asymmetric Sync Inputs
Level:
Nominal 1 Vp-p (+/-6 dB) video or black burstTri-level sync
also accepted
Video Standard:
NTSC/PAL/HDTV, auto-detected
Return Loss:
>/= 40dB from 100 KHz to 20 MHz
>/= 30dB from 20 MHz to 30 MHz
Serial Digital Outputs
Level:
800 mV p-p +/-10% 75-ohm
Return Loss:
3G: >/= 15 dB from 5 MHz to 3 GHz (Typical).
HD: >/=15 dB from 5 MHz to 1.5 GHz
Performance Characteristics
Maximum data rate: 3.0 Gb/s for 3G, 1.5 Gb/s for HD, and 540 Mbps for SD
Minimum Data Rate: 270Mbps for 3G/s circuit boards and 3.072 Mbps for HD and
SD circuit boards.
Signal Standards:
SMPTE 292M-1998,1 SMPTE 259M-19971 (Output rise and fall
times correspond to SMPTE 292M).
The HO-3G conforms to SMPTE 259M (270 Mb/S), 292M
(1.5Gb/S) and 424M (3Gb/S). The output rise and fall times
adjust according to the detected data-rate.
Equalization:
HI-3G Input board: For SD operation, equalization is automatic
up to 380 meters using Belden 8281 (or an equivalent coax
cable) and 500 meters using Belden 1694A. For HD operation,
equalization is automatic up to 160 meters of Belden 1694A or
an equivalent coax cable. For 3Gp/s operation, equalization is
automatic up to 140 meters of Belden 1694A, when installed in
a Trinix NXT frames.
1. See
114
Glossary
Trinix NXT — Installation and Service Manual
Specifications
HI-33200 Input board (SD/HD): For SD operation, equalization
is automatic up to 300 meters using Belden 1694A or an equivalent coax cable. For HD operation, automatic up to 100 meters
of Belden 1694A or an equivalent coax cable.
SI-33110 Input board (SD): equalization is automatic up to 300
meters of Belden 1694A, 250 meters using 8281 or an equivalent
coax cable for SD equalizer at 270 Mbps. Reducing to 150
meters at 540 Mbps.
HI-33110 Input board (SD/HD): equalization is automatic up
to 100 meters using Belden 1694A or an equivalent coax cable.
VI-33100 Input board (SD/HD): For digital SD operation,
equalization is automatic up to 300 meters using Belden 1694A
or an equivalent coax cable. For HD operation, automatic up to
100 meters of Belden 1694A or an equivalent coax cable.
Data Reclocking:
Switch selectable on an output-by-output basis.
The HO-3G Output Board provides reclocking for 270Mbps
1.485, and 3Gp/s or non-reclocking for other data rates.
The HO-33120 Output Board provides individual selection of
reclocking On or Off for the supported data rates. The data rate
for reclocking is automatically selected by the circuitry on the
board for 1.485 Gb/s, 540 Mbps, 360 Mbps, 270 Mbps, 177
Mbps, and 143 Mbps. Other data rates will not be reclocked.
The SO-33110 Output Board is non-reclocking.
The HO-33110 Output Board provides individual selection of
reclocking for 1.485 Gb/s or non-reclocking for all data rates.
Output Jitter:
3G: </= 0.3 unit interval (excluding incoming jitter)
HDSD: </= 0.2 unit interval
AC Power Input
Main Connection:
Note
IEC Connector, AC separate mains input for each power supply module.
Each power supply must be connected to a separate AC mains branch circuit
with an over-current protector rated at no more than 20A.
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115
Section 2 — Planning Guide
Voltage Range:
100-240 VAC 50-60 Hz, universal, auto-ranging (fuses must be
selected and installed as appropriate for mains voltage) For
fuses F101, F105, F110- F113, F201, F205, and F210-F213 replace
with fuse rated “5A 125V Fast Acting” (GV PN: 59-5053-00,
LITTELFUSE PN: 39515000440) These fuses are accessible from
the rear panel (underneath the two fuse covers on the rear of
chassis).
Operating Current:
The Operating current will vary depending on the specific configuration of the router. The two cases below will serve as a reference.
CASE A: Fully configured system
DV-33128 and NXT-128
5.7 A @ 120 VAC and 2.9 A @ 240 VAC
DV-33256 and NXT-256
10 A @ 120 VAC and 5 A @ 240 VAC
DV-33512 and NXT-512
20 A @ 120 VAC and 10 A @ 240 VAC
TRX-NXT-128x256
10 A @ 120 VAC and 5 A @ 240 VAC
TRX-NXT-256x512
19 A @ 120 VAC and 10 A @ 240 VAC
CASE B: Fully configured system that is operating in boosted
mode.
DV-33128 and NXT-128
6 A @ 120 VAC and 3 A @ 240 VAC
DV-33256 and NXT-256
12.5 A @ 120 VAC and 6.3 A @ 240 VAC
DV-33512 and NXT- 512
25 A @ 120 VAC and 12.6 A @ 240 VAC
TRX-NXT-128x256
12 A @ 120 VAC and 6.3 A @ 240 VAC
TRX-NXT-256x512
20 A @ 120 VAC and 10 A @ 240 VAC
TRX-NXT-512x1024
20 A @ 120 VAC and 10 A @ 240 VAC
Inrush Current
116
128 x 128 frame: 49.05 A
256 x 256 frame: 55.0 A
512 x 512 frame: 45 A
Trinix NXT — Installation and Service Manual
Specifications
128 x 256 frame: 25.0 A
256 x 512 frame: 25.0 A
512 x1024 frame: 25.0 A
Hold-up Time:
Minimum 15 ms at full load
Conducted Emissions: per FCC Class B, EN55022 Class B
Power Supply DC Output
Voltage:
+48 (+/-0.5) VDC
Current:
128 x 128 frame: 20 A/supply (full redundancy)
256 x 256 frame: 26 A/supply (full redundancy)
512 x 512 frame: approximately. 26 A/supply (full redundancy)
128x256 frame: 25 A/ supply (full redundancy)
256x512 frame: 25 A/ supply (full redundancy)
512x1024 frame: 25 A/ supply (full redundancy)
Note
The 256 x 256 and the 512 x 512 routing frames use the same power supply.
All Asymmetrical frames use the same power supply
Current Sharing:
Yes, maximum 20% differential unbalance
Ripple/Noise:
<500 mVp-p
DC Power Input
Input voltage Range 42-54 VDC +/- 0%
Operating Current
The Operating current will vary depending on the specific configuration of the router. The two cases below will serve as a reference.
CASE A: A fully configured system
DV-33128 and NXT-128
12 A @ 48 VDC
DV-33256 and NXT-256
23 A @ 48 VDC
DV-33512 and NXT-512
46 A @ 48 VDC
TRX-NXT-128x256
21 A @ 48 VDC
TRX-NXT-256x512
42 A @ 48 VDC
TRX-NXT-512x1024
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117
Section 2 — Planning Guide
42 A @ 48 VDC
CASE B: A fully configured system that is operating in boosted
mode.
DV-33128 and NXT-128
13.2 A @ 48 VDC
DV-33256 and NXT-256
26.3 A @ 48 VDC
DV-33512 and NXT- 512
52.5 A @ 48 VDC
TRX-NXT-256x512
23 A @ 48 VDC
TRX-NXT-256x512
44 A @ 48 VDC
TRX-NXT-512x1024
44 A @ 48 VDC
Inrush Current
128 x 128 frame: 15 A
256 x 256 frame: 21 A
512 x 512 frame: Approximately 25 A
128 x 256 frame: 25 A
256 x 512 frame: 25 A
512x1024 frame: 25 A
Alarm
The alarm connector is a BNC type and meets SMPTE 269M-1999.
Environmental
0 to +35 degrees C (+32 to +95 F)
10 to 90%, Non-condensing
Air Flow
The Door should remain closed during operation for all Trinix models.
Requirements for the Trinix 512x1024’s airflow and clearance:
118
Trinix NXT — Installation and Service Manual
Specifications
Intake: Minimum of 2RU below the Trinix 512x1024 chassis for cool intake air.
Exhaust: Minimum of 3RU above for warm exhaust air. The 3RU area requires a total
exhaust area (top, sides, back or front) of 516 sq. CM (80 sq. in.).
Airflow requirements for chassis: 31 cubic meters/minute (1085 cubic feet /minute).
Physical
Frames
128 x 128 Frames
Main frame: 8 RU: 14 in. high x 19 in. wide x 17.50 in. deep (356 x 483 x 445 mm)
256 x 256 Frames
Main frame: 15 RU: 26.25 in. high x 19 in. wide x 17.5 in. deep (667 x 483 x 445 mm)
512 x 512 Frames
Main frame: 28 RU: 49 in. high x 19 in. wide x 17.5 in. deep (1245 x 483 x 445 mm)
Power supply frame: 4 RU: 7 in. high x 19 in. wide x 21 in. deep (178 x 483 x 533 mm)
128 x 256 Frames
Main frame: 11 RU: 19.25 in. high x 19 in. wide x 17.5 in. deep (489 x 483 x 445 mm)
256 x 512 Frames
Main frame: 22 RU: 38.5 in. high x 19 in. wide x 17.5 in. deep (978 x 483 x 445 mm)
Power Supply frame: 1.71 inches (1 RU) high x 19 in. wide x 17.25 in. deep (43.4 x 483
x 413 mm)
512 x 1024 Frames
Main frame: 40 RU: 70 in. high x 19 in. wide x 17.5 in. deep (1778 x 483 x 445 mm)
Power Supply frame (Two power supplys per frame.): 1.71 inches (1 RU) high x 19 in.
wide x 17.25 in. deep (43.4 x 483 x 413 mm)
Optional TRX-FAV-512x1024 (Front air vent unit) 3.5" (2 RU) high x 19 in. wide x 16.4
in. deep (88 x 483 x 417 mm)
Fans units (one on top, one on bottom): 2 x 1 RU: 1.75 in. high x 19 in. wide x 17.5 in.
deep (44.45 x 483 x 444 mm)
MK-33000 Mounting Kit (for port expansion)
14 inches (8 RU) high x 19 in. 4 in. deep (356 x 483 x 100 mm)
Trinix NXT — Installation and Service Manual
119
Section 2 — Planning Guide
120
Trinix NXT — Installation and Service Manual
Configuration
Configuration
Quick Look
Building Block Size: 32 Inputs or 32 Outputs
3G, HD, or SD rate I/O modules
Options:
Dual outputs (3G, HD, and SD), quad outputs (HD and SD
only)
Additional monitor outputs (2)
Redundant sync inputs (2)
Redundant monitor/status/control
Redundant power supplies
Standards Supported: SMPTE 259M-1997, SMPTE 292M-1998, SMPTE 424M
Standard Connectors:75-Ohm BNC
Output Monitor:
Yes, 2 standard
Sync Reference Input:Yes, 2. Granularity: per 32 outputs
Control Options:
Jupiter, SMS 7000, Encore
Frame, Board, Weight, and Power Summary for Select Matrix Sizes
The following tables provide a summary of the information for all of the
Trinix frames. All weights are approximations.
Table 17. 128x128 Matrix Specifications
32
x
32
64
x
64
96
x
96
128
x
128
# of Frame
1
1
1
1
# Input Boards
1
2
3
4
# Output Boards
1
2
3
4
# of Matrix Boards
1
1
1
1
Weight in pounds
(kilograms)
75
(34)
81
(37)
88
(40)
94
(43)
Power Consumption* (W)
~350
~400
~440
~480
Matrix Size
*Approximate
Trinix NXT — Installation and Service Manual
121
Section 2 — Planning Guide
Table 18. 256x256 Matrix Specifications
160
x
160
192
x
192
224
x
224
256
x
256
# of Frame
1
1
1
1
# Input Boards
5
6
7
8
# Output Boards
5
6
7
8
# of Matrix Boards
4
4
4
4
Weight in pounds
(kilograms)
163
(74)
169
(77)
176
(80)
182
(83)
Power Consumption* (W)
~850
~900
~950
~1000
Matrix Size
Table 19. 128x256 Matrix Size Specifications
128
x
256
Matrix Size
# of Frame
1
# Input Boards
4
# Output Boards
8
# of Matrix Boards
4
Weight in pounds
(kilograms)
With two power supplies
141
(64)
Power Consumption* (W)
~480
Table 20. 256x512 Matrix Size Specifications
160
x
160
192
x
192
224
x
224
256
x
256
256
x
256
256
x
512
# of Frame
1
1
1
1
8
8
# Input Boards
5
6
7
8
8
16
# Output Boards
5
6
7
8
1
2
# of Matrix Boards
4
4
4
4
~300
(~140)
~350
(~160)
Matrix Size
122
Trinix NXT — Installation and Service Manual
Configuration
Matrix Size
160
x
160
192
x
192
224
x
224
256
x
256
Weight in pounds
(kilograms)
With two power supplies
163
(74)
169
(77)
176
(80)
182
(83)
Power Consumption* (W)
~850
~900
~950
~1000
256
x
256
256
x
512
32
32
~1000
~1400
Table 21. 512x512 Matrix Size Specifications (cont.)
512
x
256
512
x
512
512
x
768
512
x
1024
# of Frames
1
1
2
2
# Input Boards
16
16
32
32
# Output Boards
8
16
24
32
# of Matrix Boards
2
4
6
8
~350
(~160)
~400
(~180)
~750
(~340)
~800
(~360)
32
32
64
64
~1600
~2000
~3500
~4000
Matrix Size
Weight* in pounds
(kilograms)
# of RUs
Power Consumption* (W)
Table 22. 512x512 Matrix Size Specifications (cont.)
Matrix Size
768
x
512
768
x
768
1024
x
512
1024
x
1024
2048
x
2048
512 Frame
# of Frames
2
4
2
4
16
# Input Boards
24
48
32
64
256
# Output Boards
32
48
32
64
256
# of Matrix Boards
6
9
8
16
64
~750
(~340)
~1400
(~640)
~800
(~360)
~1600
(~730)
~6400
(~2900)
64
192
64
192
512
~4000
~6000
~4000
~8000
~32000
Weight* in pounds
(kilograms)
# of RUs
Power Consumption* (W)
Trinix NXT — Installation and Service Manual
123
Section 2 — Planning Guide
Table 23. 512x1024 Matrix Size Specifications
1024
x
512
1024
x
1024
2048
x
2048
# of Frames
1
4
16
# Input Boards
32
64
256
# Output Boards
32
64
256
# of Matrix Boards
8
16
64
~800
(~360)
~1600
(~730)
~6400
(~2900)
64
192
512
~4000
~8000
~32000
Matrix Size
Weight* in pounds
(kilograms)
# of RUs
Power Consumption* (W)
124
Trinix NXT — Installation and Service Manual
Section
3
Hardware Installation
Summary of Installation Procedure
The following list is a summary of the steps that are needed for the
installation of the Trinix Routing Switcher System.
1. Pre-installation steps
2. Rack requirements
3. Connecting the Power supplies
4. Connecting and Configuring the Reference signals
5. Connecting the cables
6. Control and Monitoring Systems
7. Optional steps
8. Power up the Routing switcher
Additional details may be found elsewhere in this manual as indicated.
Pre-Installation Steps
Prior to starting the Installation process and unpacking the equipment,
inspect the shipping carton for evidence of freight damage.
After unpacking, carefully inspect all equipment for freight damage. If
there has been damage to the contents:
•
Notify the carrier and Grass Valley of the damage.
•
Retain all shipping cartons and padding material for inspection by
the carrier.
•
Do NOT return damaged merchandise to Grass Valley until an
appropriate claim has been filed with the carrier and a material
return authorization number has been received from Grass Valley.
Installation and Service Manual125
Section 3 — Hardware Installation
Customer-Supplied Rack Requirements
The Routing switcher is shipped without a rack; the router should be
mounted into a 19-inch wide frame or other suitable enclosure that provides power and cooling facilities for the equipment.
A two (2) RU space should be kept free beneath the fan on each 512x1024
frame to ensure enough airflow to prevent the routing switcher from overheating. A two (2) RU vent option is also available to help draw air in from
the front of the frame.
The following items should be considered when choosing a rack:
a. It may be necessary to install special rack spacers so that the router's
access door can be opened far enough to permit removal of
components on the right side of the frame (such as power supply
modules).
•
The spacers, which are available on request, should only be
installed when the rack's mounting holes are recessed more than
0.6 inch (15.2 mm) from the front surface of the rack. For more
information, see Figure 61 on page 134.
b. Some Routing switchers are supplied with port expanders, which
depending on the configuration can be used to provide dual
outputs, quad outputs, input expansion, output expansion, and
multi-frame output monitoring.
•
For illustrations of port expander applications, see Duplication
and Expansion on page 69.
c. Power requirements are shown in the AC Power Input on page 115
section.
Note
Grass Valley recommends each power supply have its own dedicated 20A
circuit breaker. The possibility of having a failed supply shut down a breaker
is a possibility if circuit breakers are shared. This failure will remove a functioning Power supply from operation.
Where possible, we recommend running different supplies on different
phases of the AC mains. This configuration will provide additional protection
from power interruption if there is an unrelated phase problem with the
power distribution.
d. Environmental limits are shown in the Environmental section on
page 118.
Connecting the Power Supplies
The Power supplies for the Trinix are factory-installed and auto-sensing.
NO field-adjustments to the actual power supply should be necessary.
126
Trinix NXT — Installation and Service Manual
Note
For more information about Power Supply connections with Asymmetric
frames, see Trinix Asymmetrical Power Supply Configurations on
page 227. Grass Valley strongly recommends, whenever possible, using
the AC high line to reduce line currents and heat within the power supplies.
The following items should be considered during the installation process.
Fuse Differences
Make sure that you use the correct fuse when you change from 120Vac
to 220Vac. There is a fuse difference on the rear panel of the 128 x 128,
the 256 x 256, and the 512 x 512 frames.
Note
See the markings on the router’s rear panel frame for the correct Fuse
value requirements.
For additional power supply information, see Power Supply Notes on
page 151.
Asymmetric Frames
For fuse information in the Asymmetrical frames, see Trinix Asymmetrical Power Supply Configurations on page 227.
Power Supplies for TRX-NXT-512x512
Power supplies for TRX-NXT-512x512 Routing switchers are mounted
in a separate frame.
•
You will need to attach the supplied cable from the DC
Output connector on the power supply frame to the DC
Input connector on the Routing switcher’s frame.
•
The power supply for the TRX-NXT-512x512 frames may be
mounted above or below the main frame, depending on the
video cable routing and weight distribution requirements.
Using IFC cables with the TRX-NXT-512x512
CAUTION In order to avoid damaging the Routing switcher, the power must be
turned OFF before installing the “IFC” cables as described in the following step.
Installation and Service Manual127
Section 3 — Hardware Installation
Install the supplied “IFC” cables:
1. Connect the long cable from the FRAME IFC connection on the power
supply frame to the PS IFC connection on the main frame.
•
The FRAME IFC connection is located in the lower right side of the
power supply frame (Figure 68 on page 141).
2. Connect the short cable from the FAN IFC connection on the center
right side of the main frame to the FAN IFC connection in the fan
module section, which is above the Input and Output connectors.
•
Note
For an illustration of the location of the IFC connections, see
Figure 68.
The IFC cables cannot be swapped. To prevent this, the cable for the Fan IFC
cable has a different connection than the Power IFC cable
Power Supplies for Asymmetrical Frames
Power supplies for TRX-NXT-128x256, TRX-NXT-256x512, and TRX-NXT512x1024 Routing switches are mounted in a separate chassis that requires
attaching the power supply cable to the DC Input connector on the Routing
switcher frame.
•
The power supply frame can be mounted above or below the TRXNXT-128x256, TRX-NXT-256x512 Routing switcher frames.
•
Do not obstruct air flow to the top or bottom of the TRX-NXT512x1024 frame. A 2 RU space should be kept free under the fan.
Note
For more information about Power Supply connections with Asymmetric
frames, see Trinix Asymmetrical Power Supply Configurations on page 227.
Connecting and Configuring the Reference Settings
Follow these steps to connect and configure reference signals:
1. Connect the appropriate house reference signals.
Depending on the system, up to four independent sync references can
be used.
The SR-33000 Sync Reference / OPM board, the NR-33000 NIC/Sync/
OPM board, or (in TRX-NXT-512x512 units) the SR-33500 Sync Reference board can be used to lock the system to a Reference sync.
128
Trinix NXT — Installation and Service Manual
Summary of Installation Procedure
Note
The 512x1024 uses the NR-33000 NIC/Sync/OPM boards exclusively for
sync reference.
Video standard operation (that is, NTSC, PAL, or HDTV) is detected
automatically by the system. The sync signal can be video, black burst,
2 V composite sync, 4 V composite, or tri-level.
Tri-level reference should be used with HD.
Note
Each sync input uses looping-75-ohm BNC connectors; if a loop
through is not used, the loop BNC should have a 75-ohm terminator.
2. Re-configure the switch point if desired.
The switch point is factory-set to the recommended video line for the
standard that is detected.
A V-phasing feature is available with the following boards:
•
NR-33000
•
SR-33000 with Rev B FPGA Software Update
•
SR-33500
•
TRX-SR
The V-phasing feature allows you to adjust the switch point from the-1
line to +2.5 lines if necessary. For more information, see NR/SR-33000 /
SR-33500/ TRX-SR V-Phasing on page 170.
Note
If you make adjustments on the SR-33500 as part of this step, you may want
to wait until all remaining steps in this list have been followed and any additional adjustments made before reinstalling the board.
3. Select the desired sync reference line on each Output board.
This step applies to systems with more than one sync reference. Each
output board provides a block of 32 outputs and each block is assigned
to Sync line 1 by factory default.
•
Sync line 1 corresponds to the Primary Ref IN 1 connector on
the rear panel. If additional references are used, the DIP
switches can be set to assign each board to one of four possible
sync lines. See Output Board Configuration on page 185.
Trinix NXT — Installation and Service Manual
129
Section 3 — Hardware Installation
4. On High Definition and 3G Routing switchers:
a. The Signal reclocking mode can be set for each output on an output
board. Auto is the factory default setting.
•
This setting means that properly-formed standard data-rate
signals will be reclocked. Other signals will be bypassed or not
reclocked. See Output Reclocker Bypass Settings on page 197 for
details.
This reclocking feature is not included with SD Routing switchers
do not include the reclocking feature.
Configuring Each Output Monitor on the TRX-OPM Boards
The Sync selection setting of each output monitor on the TRX-OPM
boards is provided in Table 24. The TRX-OPM boards are in the
128x256 and 512x1024 frame only. The DIP Switch that is to be configured is located on the rear side, near the bottom, of the TRX-OPM
board.
The settings are the same as a standard Trinix Output VIT selection
switch. Code 00 (off, off) thru code 11 (on, on) selects the first thru
the fourth reference input, respectively, for the preferred output.
Table 24. OPM DIP- Switch Settings
Switch
130
Description
S1-1
Least Significant Bit (LSB) of reference source used for Monitor Output 1
S1-2
Most Significant Bit (MSB) of reference source used for Monitor Output 1
S1-3
LSB of reference source used for Monitor Output 2
S1-4
MSB of reference source used for Monitor Output 2
S1-5
LSB of reference source used for Monitor Output 3
S1-6
MSB of reference source used for Monitor Output 3
S1-7
LSB of reference source used for Monitor Output 4
S1-8
MSB of reference source used for Monitor Output 4
Trinix NXT — Installation and Service Manual
Summary of Installation Procedure
Connecting the Cables
1. Make sure all boards and cards are seated in their backplane sockets.
This step is generally not a problem since the boards and cards are held
in place with locking extractors.
As previously described in Duplication and Expansion on page 69, either
the PE-33016 or PE-2X2-3G Port expanders can be used to provide dual
outputs in blocks of 16. The PE-33008 Port expander can be used to
provide quad outputs in blocks of 16.
2. Ensure that the input/output expansion DIP switches and jumpers are
in the correct position if the system is supplied with port expanders.
These switches and jumpers are normally set at the factory and are
based on the configuration that is specified in the sales order. For more
information, see Duplication and Expansion on page 69.
3. Connect the desired input and output video cables.
Note
Grass Valley recommends using 75-ohm BNC connectors (rather than 50
ohm) for HDTV applications.
The following items should be considered when connecting the input
and output video cables:
•
All unused BNC connectors must be terminated with 75-ohm terminators when the system includes port expanders.
•
The labels on the rear-panel of the TRX-NXT-512x512 units are correct. The output connectors are NOT arranged in a left-to-right
sequence.
Note
Labels for Jupiter control systems are available. Jupiter uses“0-based” numbering schemes are.
Control and Monitoring Systems
There are numerous ways to control and monitor the Trinix router. You will
need to connect your preferred Control and Monitoring method.
1. Connect the Routing switcher to the Grass Valley control system of
your choice:
•
For Jupiter control system connections and settings, see Jupiter
Control on page 214.
•
For SMS 7000 or Encore control system connections and settings,
see SMS 7000 / Encore Control on page 219.
Trinix NXT — Installation and Service Manual
131
Section 3 — Hardware Installation
2. Connect and configure the LAN and Com Bus for the Broadlinx board
(NR-33000 NIC/Sync/OPM board).
•
These Configuration steps are covered in the specific control systems.
The Broadlinx software can be configured to monitor router outputs
that are feeding critical downstream equipment (such as a transmitter)
for Protected path operations. If the Primary output signal is interrupted, the system will automatically select the Secondary output that
is carrying the same signal and then trigger a system alarm. For wiring
information, see Figure 54 on page 96. For Protected path configuration
instructions, see Protected Paths on page 349.
The Broadlinx board is equipped with a plug-in, rechargeable lithiumion battery that is used to back up the Routing switcher status for
Encore-controlled systems. This battery is rated for approximately 500
power cycles. If there is a power failure and the battery fails to provide
power, the Broadlinx board will need to obtain the router status from
the Encore System Control Module (this data will be sent automatically). For the location of this battery, see Figure 88 on page 174.
•
An extensive set of gain, phase, filtering, and other adjustments are
available for each signal if the router is equipped with the VI-33100
“universal” input boards, and analog signals are received. For more
information about the VI-33100 input board, please refer to Section 6Analog Input Processing on page 379.
3. If output monitoring is required, refer to Output Monitoring on page 200.
4. Check the Frame number switches on multi-frame systems. See Frame
Number Settings on page 212.
Optional Connections
1. Connect the rear panel ALARM BNC to the facility alarm system (This
step is optional). The alarm port operates according to the SMPTE
standard 269M-1999.
For an overview of the alarm system, see the Alarm System section on
page 67.
The rear panel Alarm BNC can be configured to report primary alarms.
TRX-NXT-256x256/33256 configuration is via a jumper on the NR/SR33000 board, as shown on Figure 88 on page 174 and Figure 89 on
page 175. TRX-NXT-512x512 configuration is via a jumper on the RP33500 512 x 512 Rear Panel board as shown on Figure 94 on page 179.
TRX-NXT-256x512 configuration.
For the TRX-NXT-128x256, the configuration is through a jumper on the
NR/SR-33000 board, which is shown in Figure 88 on page 174 and
Figure 89 on page 175.
132
Trinix NXT — Installation and Service Manual
Summary of Installation Procedure
Note
All alarms are now reported as primary alarms. For example, a single fan
failure, which would be a secondary alarm in the past, will now be reported
as a primary alarm.
Powering Up the Routing Switcher
Connect the AC power cords to power up the system.
•
If the LED on the front panel turns to green after the first few seconds
of operation, the system is operating properly.
•
If the LED continues to glow red, power down the system and diagnose
the problem before powering up the system again. For an explanation
of LED alarm lights, see Troubleshooting on page 393.
CAUTION For TRX-NXT-512x512 Routing switchers: In order to avoid damage, the
power MUST be turned Off before removing/installing the “IFC” cables.
Keep the front door closed as much as possible when the system is running
to maximize the airflow and cooling system. Leave a 2 RU space beneath
the 512x1024 routing switcher to ensure proper air flow.
Note
The front door should be closed during normal operation. Although the Trinix
Routing switcher will function properly with the door open, leaving the frame
open on a continuous basis will result in shortened product life.
Trinix NXT — Installation and Service Manual
133
Section 3 — Hardware Installation
Figure 61. Installation of Rack Spacers
INSTALL RACK SPACERS ONLY
WHEN MOUNTING HOLES ARE
RECESSED MORE THAN 0.6 INCH
(15.2 MM) FROM FRONT SURFACE
OF RACK (DIMENSION ). SPACERS
WILL POSITION SWITCHER CHASSIS
SO THAT ACCESS DOOR CAN BE
OPENED FAR ENOUGH TO PERMIT
REMOVAL OF RIGHT-HAND
COMPONENTS. EACH SPACER IS
SECURED WITH 2 RACK SCREWS
(SUPPLIED).
RACK SPACERS FOR
DV-33128 CHASSIS
(KIT NO. 44-052989-001)
RACK SPACERS FOR
DV-33256 CHASSIS
(KIT NO. 44-052990-001)
134
RACK SPACERS FOR
DV-33512 CHASSIS/
POWER SUPPLY NOT
SHOWN. (KIT NO.
650-4352-00)
Trinix NXT — Installation and Service Manual
Summary of Installation Procedure
Figure 62. TRX-NXT-128x128 and 256x512 Front View (door removed).
Power supplies
Power supplies
FAN ALARM
FAN ALARM
SR-33000 Sync
Reference / NR-33000
Broadlinx Board slots
Fan modules
FAN ALARM
Fan modules
FAN ALARM
SR-33000 Sync
Reference / NR-33000
Broadlinx Board slots
Input/output boards
(configuration varies)
Input/output boards
(configuration varies)
Trinix NXT — Installation and Service Manual
Matrix board
Matrix board
135
Section 3 — Hardware Installation
Figure 63. TRX-NXT-128x128 Rear Panel
LEVEL
SUPER
0
0
96 112 16 32
14 15 1 2
80
13
3
48
4
64
64
12
5
80
48
11
7 6
32 16 112 96
10 9
8
ULTRA 0
INPUT EXPAND
OUTPUT EXPAND
SYNC REDUNDANT
INT XPT CNTL
60Hz ENABLE
A
B
C
MONITOR
MONITOR
256
512 768
1024
1024
1536
512
2048
DV-33256
128 x 256
DV-33512
FRAME
0
14 15 1 2
13
3
4
12
5
11
7
9
10
6
MONITOR
128
256 384
512
DV-33128
8
LEVEL
0 SUPER 0
9611216 32
14 15 1
13
80
48
64
64
12
80
48
11
32 16 11296
10 9 7
8
0
SECONDARY
PRIMARY
136
1
32
32
16
32
16
32
16
32
16
32
16
32
16
31
15
31
15
31
15
31
15
31
15
31
15
30
14
30
14
30
14
14
30
16
31
CROSSPOINT BUS
15
30
LAN A
14
29
29
13
29
13
29
13
29
13
29
13
29
13
12
28
12
28
12
28
12
28
12
28
12
28
13
28
2
COM BUS
12
27
27
11
27
11
27
11
27
11
27
11
27
11
26
26
10
26
10
26
10
26
10
26
10
26
10
REF IN
1
CONSOLE A
10
25
25
9
25
9
25
9
25
9
25
9
25
9
8
24
8
24
8
24
8
24
8
24
8
24
9
24
2
CONTROL
8
23
23
7
23
7
23
7
23
7
23
7
23
7
6
22
6
22
6
22
6
22
6
22
6
22
7
22
CROSSPOINT BUS
6
21
5
21
5
21
5
21
5
21
5
21
5
21
5
20
20
4
20
4
20
4
20
4
20
4
20
4
19
19
3
19
3
19
3
19
3
19
3
19
3
18
18
2
18
2
18
2
18
2
18
2
18
2
17
1
17
1
17
1
17
1
17
1
17
1
3
32
16
31
15
30
14
29
13
28
12
27
11
26
10
25
9
24
8
23
7
22
6
21
5
20
4
19
3
18
2
L
17
E
1
E
N
4
N
3
PS A
L
2
PS B
INPUTS
33-64
INPUTS
65-96
DC IN -
INPUTS
1-32
DC IN +
INPUTS
97-128
AUTO SELECT
100-130V/200-240V
6.0A/2.5A
47-63HZ
17
230: T2.5A 240V
1
OUTPUTS
97-128
WARNING: FOR CONTINUED PROTECTION
AGAINST RISK OF FIRE, REPLACE ONLY
WITH SAME TYPE AND RATING OF FUSE
115: 6.0A 250V
SLOW BLOW
OUTPUTS
1-32
OUTPUTS OUTPUTS
33-64
65-96
ALARM
OUTPUT MONITOR
4
COM BUS LAN B
CONSOLE B
IP EXPAND
OP EXPAND
VIT REDUNDANT
INT XPT
60Hz ENABLE
A
B
C
REF IN
3
11
OUTPUT MONITOR
4
30
GPIO/TC
FRAME
0
14 15 1 2
13
3
4
12
5
11
10 9 7 6
8
14
256
512
30
128384
14
MONITOR
2
3
4
5
6
Trinix NXT — Installation and Service Manual
Summary of Installation Procedure
Figure 64. TRX-NXT-256 X 256 Front View (door removed).
SR-33000 Sync Reference /
NR-33000 Broadlinx Board
slots
Fan modules
Power supplies
AC DC
VADJOKOK
FAN ALARM
FAN ALARM
FAN ALARM
AC DC
VADJOKOK
Matrix boards
Input/output
boards
(configuration
varies)
Trinix NXT — Installation and Service Manual
137
Section 3 — Hardware Installation
Figure 65. DV-33256 Rear Panel
SECONDARY
PRIMARY
NIC B
NIC A
3
1
OP
MON
OP
MON
4
2
COM BUS
COM BUS
3
1
CONSOLE
B
CONSOLE
A
REF
IN
REF
IN
See Figure 63 on page 136
for details
PS A
PS B
4
LEVEL
0
SUPER
14150 2
961121632
1
13
48
3
80
64 12
4
64
48
11
5
80
10 9 7 6
3216 112
96
8
0
ULTRA
IN EXPAND
OP EXPAND
VIT REDUNDANT
INT XPT CNTL
60Hz ENABLE
A
B
C
2
CROSSPOINT BUS
GPIO/TC
CONTROL
MONITOR
FRAME
128
141501 2
256384
13
512
3
12
4
5
11
10 9 7 6
8
DC INPUT
42 - 54 VDC
30-24 AMPS
DC IN + DC IN -
N
L
E
E
AUTO SELECT
100-130V/200-240V
10.0A/5.0A
47-63HZ
L
N
17
1
17
1
18
2
18
19
20
4
20
21
21
22
6
22
6
23
7
24
25
25
26
10
26
10
27
11
28
12
28
29
30
14
30
31
138
30
31
32
16
30
31
31
15
32
16
32
16
30
31
30
31
31
15
32
16
32
16
30
31
30
31
31
15
32
16
32
16
30
31
30
14
31
15
32
16
29
13
14
15
32
16
29
30
31
28
12
13
14
15
28
29
30
27
11
12
13
14
27
28
29
26
10
11
12
13
14
15
32
16
29
26
27
28
25
9
10
11
12
13
14
15
32
16
29
30
31
28
25
26
27
24
8
9
10
11
12
13
14
15
28
29
30
27
24
25
26
23
7
8
9
10
11
12
13
14
27
28
29
26
23
24
25
22
6
7
8
9
10
11
12
13
14
15
32
16
29
26
27
28
25
22
23
24
21
5
6
7
8
9
10
11
12
13
14
15
32
16
29
30
31
28
25
26
27
24
21
22
23
20
4
5
6
7
8
9
10
11
12
13
14
15
28
29
30
27
24
25
26
23
20
21
22
19
3
4
5
6
7
8
9
10
11
12
13
14
27
28
29
26
23
24
25
22
19
20
21
18
2
3
4
5
6
7
8
9
10
11
12
13
14
15
32
16
29
26
27
28
25
22
23
24
21
18
19
20
17
1
2
3
4
5
6
7
8
9
10
11
12
13
14
15
28
29
26
27
24
25
22
23
20
21
18
19
INPUTS
225-256
17
1
2
3
4
5
6
7
8
9
10
11
12
13
14
15
28
29
26
27
24
25
22
23
20
21
18
19
INPUTS
193-224
17
1
2
3
4
5
6
7
8
9
10
11
12
13
26
27
24
25
22
23
20
21
18
19
INPUTS
161-192
17
1
2
3
4
5
6
7
8
9
10
11
12
13
26
27
24
25
22
23
20
21
18
19
INPUTS
129-160
17
1
2
3
4
5
6
7
8
9
10
11
24
25
22
23
20
21
18
19
OUTPUTS
225-256
17
1
2
3
4
5
6
7
8
9
22
23
24
21
18
19
20
17
1
2
3
4
5
6
7
8
9
22
23
20
21
18
19
OUTPUTS OUTPUTS
161-192
193-224
17
1
2
3
4
5
6
7
8
9
22
23
24
8
21
18
19
20
17
1
2
3
4
5
6
7
20
21
18
19
OUTPUTS OUTPUTS
97-128
129-160
17
1
2
3
4
5
18
19
20
17
1
2
3
4
5
18
19
OUTPUTS OUTPUTS
33-64
65-96
17
1
2
3
4
5
18
19
OUTPUTS
1-32
17
1
2
3
INPUTS
97-128
17
1
2
3
INPUTS
65-96
INPUTS
33-64
INPUTS
OUTPUTS
INPUTS
INPUTS
1-32
ALARM
WARNING: FOR CONTINUED PROTECTION
AGAINST RISK OF FIRE, REPLACE ONLY
WITH SAME TYPE AND RATING OF FUSE
115: 12.5A 250V
SLOW BLOW
230: T6.3A 240V
PS A
PS B
31
15
32
16
32
16
Trinix NXT — Installation and Service Manual
Summary of Installation Procedure
Figure 66. TRX-NXT-256x256 Rear Panel.
071827609_NXT-12xx128_rear
Trinix NXT — Installation and Service Manual
139
Section 3 — Hardware Installation
FAN A
FAN B
FAN C
FAN D
FAN ALARM
FAN ALARM
FAN ALARM
FAN ALARM
Fan modules
FAN ALARM
FAN ALARM
Figure 67. DV-33512 (512 x 512) Front and Rear View
FAN E
FAN F
POWER ALARM IFC
Input/output
boards
(configuration
varies)
A
1
B
A
2
OP
MON
A
3
B
A
4
B
1
INPUTS
416 - 447
INPUTS
384 - 415
OUTPUTS
224 - 255
OUTPUTS
192 - 223
OUTPUTS
160 - 191
OUTPUTS
128 - 159
INPUTS
INPUTS 256 - 511 / OUTPUTS 0 - 255
Matrix boards
INPUTS
320 - 351
INPUTS
288 - 319
INPUTS
256 - 287
OUTPUTS
352 - 383
OUTPUTS
320 - 351
OUTPUTS
288 - 319
INPUTS 256 - 511 / OUTPUTS 256 - 511
INPUTS
INPUTS
352 - 383
OUTPUTS
96 - 127
OUTPUTS
64 - 95
OUTPUTS
32 - 63
OUTPUTS
0 - 31
INPUTS
96 - 127
INPUTS
64 - 95
OUTPUTS
INPUTS
32 - 63
INPUTS
0 - 31
INPUTS
3
4
OUTPUTS
OUTPUTS
256 - 287
OUTPUTS
480 -511
INPUTS
OUTPUTS
448 - 479
OUTPUTS
416 - 441
OUTPUTS
384 - 415
INPUTS
224 - 255
INPUTS
192 - 223
INPUTS
160 - 191
INPUTS
128 - 159
Rear view. See Figure 68
for detail.
Input/output
boards
(configuration
varies)
ACDC
VADJOKOK
AC DC
VADJOK OK
SR-33000 Sync
Reference /
NR-33000
Broadlinx Board
slots
PS A
PS C
PS B
PS D
Power supply unit may be
mounted above or below
main chassis
AC DC
VADJOK OK
AC DC
VADJOK OK
PRIMARY
SECONDARY
140
REF
IN
INPUTS 0 - 255 / OUTPUTS 256 - 511
INPUTS
448 - 479
INPUTS 0 - 255 / OUTPUTS 0 - 255
2
INPUTS
480 - 511
Power and control cables
B
Trinix NXT — Installation and Service Manual
Summary of Installation Procedure
Figure 68. DV-512 main frame and power supply frame connections.
To Fan IFC connector
To additional frames
(or terminate)
RP-33500 board is
accessed by removing
this panel
PS IFC
FAN IFC
A
1
XPT BUS
B
A
SR-33500
2
B
DC INPUT 2 NOT FUSED
42 - 54 VDC
30 - 24 AMPS
DC IN +
OP
MON
A
DC IN -
3
B
Fan IFC cables
A
4
B
COM BUS
DC INPUT 1 NOT FUSED
42 - 54 VDC
30 - 24 AMPS
DC IN +
COM BUS
ALARM
1
DC IN -
2
LEVEL
0 SUPER
0
961121632
1415 1 2
13
80
48
3
4
64 12
64
5
80
11
48
321611296
10 9 7 6
8
ULTRA 0
REF
IN
MONITOR
3
See Power Supply Notes
for power cable details
INPUT EXPAND
OUTPUT EXPAND
SYNC REDUNDANT
INT XPT CNTL
60Hz ENABLE
A
B
C
FRAME
1024
0
512 1536 1415 1 2
13
3
2048
4
12
5
11
10 9 7 6
8
4
RP-33500.
See Figure 94
for details
INPUTS
INPUTS
161 - 192
INPUTS
129 - 160
To additional frames
OUTPUTS
INPUTS
193 - 224
INPUTS
225 - 256
OUTPUTS
385 - 416
OUTPUTS
417 - 448
OUTPUTS
449 - 480
OUTPUTS
481 - 512
INPUTS
OUTPUTS
257 - 288
OUTPUTS
289 - 320
OUTPUTS
321 - 352
OUTPUTS
353 - 384
INPUTS
289 - 320
INPUTS
257 - 288
INPUTS
321 - 352
INPUTS
353 - 384
Com Bus
DC OUTPUT 2
42 - 54 VDC
30 - 24 AMPS
DC OUTPUT 1
42 - 54 VDC
30 - 24 AMPS
DC OUT + DC OUT -
DC OUT + DC OUT -
PRIMARY
2
1
REF IN
COM BUS
NIC A
CONSOLE A
SECONDARY
DC INPUT 2
42 - 54 VDC
30 - 24 AMPS
DC IN +
DC INPUT 1
42 - 54 VDC
30 - 24 AMPS
DC IN -
DC IN +
4
3
REF IN
COM BUS
NIC B
DC IN -
CONSOLE B
AC INPUT: 100-240 V ~, 10.0-5.0A, 50-60Hz
100-120V: 12.5A, 250V, SLO BLO
200-240V: T6.3A, 250V
PS C
PS D
N
L
E
N
AC INPUT: 100-240 V ~, 10.0-5.0A, 50-60Hz
100-120V: 12.5A, 250V, SLO BLO
200-240V: T6.3A, 250V
PS A
PS B
L
E
WARNING: FOR CONTINUED PROTECTION
AGAINST RISK OF FIRE, REPLACE ONLY
WITH SAME TYPE AND RATING OF FUSE
XPT BUS
FRAME IFC
N
L
E
GPIO/TC
CONTROL
N
E
L
This XPT cable required only
for SMS/Encore control
Trinix NXT — Installation and Service Manual
141
Section 3 — Hardware Installation
Figure 69. TRX-NXT-512x512 Rear Panel
071827609_trx-512x512_connections
142
Trinix NXT — Installation and Service Manual
Summary of Installation Procedure
Figure 70. TRX-NXT-128x256 Asymmetric Frame, Front
Fan
modules
Matrix
boards
Broadlinx
Boards
071827610_128x256_Front
Input Boards
Output Boards
Trinix NXT — Installation and Service Manual
143
Section 3 — Hardware Installation
Figure 71. TRX-NXT-128x256 Asymmetric Frame-Back
Fan modules and Exhaust
vents
Input and Output boards
OPM
Board
The outer four slots are
Output boards
The inner eight slots are
Input boards
See Figure 2
for detail
DC Power inputs
Matrix boards
SR module
071827610_128x256_rear
144
Trinix NXT — Installation and Service Manual
Summary of Installation Procedure
Figure 72. TRX-NXT-256x512 Asymmetric Frame, Front and Back
Fan modules and Exhaust
vents
Input and Output
boards
The outer four slots are
Output boards
The inner eight slots are
Input boards
DC Power inputs
Matrix boards
071827609_256X512-Frame_Back-view
071827609_256X512-Frame_Front-view
SR module
Broadlinx boards
See Figure 73
for detail
Output boards
Figure 73. The Level, Monitor, and Frame Switch For the 256x512 Routing Switcher
071827612_LEVEL_MONITOR_256x512
Trinix NXT — Installation and Service Manual
145
Section 3 — Hardware Installation
Figure 74. TRX-NXT-512x1024 Asymmetric Frame, Front and Back
Fan modules
Output Boards
DC Power inputs
Matrix and Primary
Broadlinx boards
See Figure 75 on
page 147 for detail
Input Boards
Matrix and Secondary Broadlinx
boards
DC Power inputs
Output Boards
Fan modules
146
Trinix NXT — Installation and Service Manual
Summary of Installation Procedure
Figure 75. The Level, Monitor, and Frame Switch For the 512x1024 Routing Switcher
Trinix NXT — Installation and Service Manual
147
Section 3 — Hardware Installation
Setting the Rear Panel Dip Switch
OPEN
CLOSED
INPUT EXPAND
OUTPUT EXPAND
SYNC REDUNDANT
INT XPT CNTL
60Hz ENABLE
A
B
C
The above figure is an example of a DIP switch that is located on the rear
panel of the routing switcher. The different settings on this switch are
explained in the sections below
Input/Output Expand
See Duplication and Expansion on page 186.
Sync Redundant
Note
This switch may be labeled “VIT Redundant” on some units.
If the system is equipped with a secondary NR-33000 board, closing this
switch will provide continued operation in case of a single NR failure.
However, operating in the redundant mode will limit the number of possible sync sources to two. In TRX-NXT-512x512 systems, if Sync Redundant
mode is selected the “C” switch must also be closed. For more information,
see Figure 79 on page 158 and Figure 80 on page 159.
Internal XPT (Crosspoint) Control
Open = Trinix Crosspoint bus is controlled by an external Crosspoint bus
controller (for example, a Jupiter VM-3000 or CM-4000; or, an NR board in
another frame).
Closed = Trinix Crosspoint bus is controlled by an internal Crosspoint controller (for example, an NR-33000 Sync/NIC/OPM board). This setting is
used when the NR is in turn being controlled through a LAN connection to
a control system such as a Grass Valley Series 7000 Signal Management
System or Encore.
For more information, see SMS 7000 / Encore Control on page 219 and Jupiter
Control on page 214.
60 Hz Enable Switch
This switch is reserved for future use.
A B C Switches
The “A” switch is closed to disable a frames active NR33000 board from
driving the Com Bus. The switch is only read on startup. If the switch posi-
148
Trinix NXT — Installation and Service Manual
Setting the Rear Panel Dip Switch
tion is changed, the board must be rebooted. This switch is used in multiple
frame systems when there are multiple active NR boards that are connected
to the Com Bus. For example, if two 128 or 256 size frames are used in a
fully redundant protected path system.
Note
If the “A” switch is closed when the NR33000 board is installed in the frame,
it will not drive the Com Bus.
The “B” switch is closed in output-monitor-expanded systems where
output monito