das6801+_op+das_ed_b_175-000519-00
TRANSCRIPT
DAS6801+/OP+DAS
Decoder, Synchronizer, Multiplexer, and Processing Amplifier/with Optical Transmitter
Installation and Operation Manual
Edition B175-000519-00
Edition BJune 2009
DAS6801+Decoder, Synchronizer, Multiplexer, and Processing Amplifier
OP+DASDecoder, Synchronizer, Multiplexer, and Processing Amplifier with Optical Transmitter
Installation and Operation Manual
Copyright InformationCopyright 2009 Harris Corporation, 1025 West NASA Boulevard, Melbourne, Florida 32919-0001 U.S.A. All rights reserved. This product and related documentation are protected by copyright and are distributed under licenses restricting their use, copying, distribution, and decompilation. No part of this product or related documentation may be reproduced in any form by any means without prior written authorization of Harris Corporation and its licensors, if any.This publication could include technical inaccuracies or typographical errors. Changes are periodically added to the information herein; these changes will be incorporated into new editions of the publication. Harris Corporation may make improvements and/or changes in the product(s) and/or the program(s) described in this publication at any time.All trademarks are property of their respective owners.
Warranty InformationThe Limited Warranty Policy provides a complete description of your warranty coverage, limitations, and exclusions, as well as procedures for obtaining warranty service. To view the complete warranty, visit our website.This publication is provided “as is” without warranty of any kind, either express or implied, including, but not limited to, the implied warranties of merchantability, fitness for a particular purpose, or non-infringement.
Contents
PrefaceManual Information .............................................................................. vii
Purpose ........................................................................................... viiAudience ........................................................................................ viiRevision History ............................................................................ viiWriting Conventions ..................................................................... viiiObtaining Documents ................................................................... viii
Unpacking/Shipping Information .......................................................... ixRestriction on Hazardous Substances (RoHS) Compliance ....................xWaste from Electrical and Electronic Equipment (WEEE) Compliance xiReferences ............................................................................................. xiiSafety ................................................................................................... xiii
Safety Terms and Symbols in this Manual ................................... xiii
Chapter 1: IntroductionGeneral Description .................................................................................1Main Features ...........................................................................................2OP+DAS Module Types ..........................................................................3Back Module ............................................................................................5
Weidmüller Audio Connector ...........................................................5Signal Flow ..............................................................................................7
Chapter 2: Installation and OperationMaximum Frame Power Ratings ...........................................................10Setting the Jumpers ................................................................................11
Local or Remote Control Jumpers ..................................................12Analog Audio Input Impedance Jumpers .......................................13Configurable Outputs Jumpers .......................................................14
DAS6801+/OP+DAS Installation and Operation Manual iii
Contents
Installing the Modules ........................................................................... 15Installing and Removing DAS6801+ Modules ............................. 15Installing OP+DAS Modules ......................................................... 16Inspecting and Cleaning Fiber Optic Connections ........................ 19
Upgrading Module Firmware ................................................................ 23Upgrading the Firmware ................................................................ 23Correcting a Failed Upgrading Procedure ..................................... 26
Operating Notes ..................................................................................... 29Q-SEE Compliant Thumbnails ...................................................... 29
Activating DAS6801+/OP+DAS Functions ......................................... 30Adding a License Key ................................................................... 30Audio Test Tones ........................................................................... 31Audio Embedding Modes .............................................................. 31Audio Embedding Errors ............................................................... 38AES Non-PCM Processing ............................................................ 38Video Frame Synchronization ....................................................... 39Audio Synchronization .................................................................. 39Audio Path ...................................................................................... 39Test Pattern Generator ................................................................... 403D Comb Filtering ......................................................................... 40
Parameter Interdependencies ................................................................. 41ADS Clean Parameter .................................................................... 41Channel Word Length .................................................................... 41Parameter Ranges Depending on Video Standard Setting ............. 42Cross-Functional Parameter Changes ............................................ 43
Changing Parameter Settings ................................................................ 49Changing Parameter Settings using Card Edge Controls ............... 49Changing Parameters Using CCS Software ................................... 51Setting DAS6801+ and OP+DAS Remote Control Parameters .... 53
LEDs and Alarms .................................................................................. 68Monitoring LEDs ........................................................................... 68Module Status LEDs ...................................................................... 70Alarms ............................................................................................ 71
Chapter 3: SpecificationsInputs ..................................................................................................... 79
Serial Digital Video Input .............................................................. 79Composite Analog Video Input .................................................... 80System Input (Analog-to-Digital Conversion) ............................... 80
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Contents
Reference Video Input ....................................................................81DARS Input ....................................................................................81Analog Audio Input ........................................................................82AES Inputs ......................................................................................82
Outputs ...................................................................................................83Serial Digital Video Output ............................................................83Fiber Option Video Output (OP+DAS Only) .................................83Laser Output (OP+DAS Only) .......................................................84Data I/O Output ..............................................................................86AES Outputs ..................................................................................86Optical Port .....................................................................................87
Propagation Delay (Delay Mode) ..........................................................88Power Consumption ...............................................................................89Operating Temperature ..........................................................................89
Appendix A: Audio Bit ManipulationOverview ................................................................................................91Manipulating Channel Status Bits (C-Bit) .............................................92Manipulating Validity and User Bits (V-Bit and U-Bit) ........................95Identifying Audio Characteristics(Audio Sampling Frequency and Word Length) ....................................96
Appendix B: Laser Safety GuidelinesLaser Safety ............................................................................................97
Precautions for Enclosed Systems ..................................................98Precautions for Unenclosed Systems ..............................................98
Labels .....................................................................................................99
Appendix C: Communication and Control Troubleshooting Tips
Software Communication Problems ....................................................101Hardware Communication Problems ...................................................104
IndexKeywords .............................................................................................105
DAS6801+/OP+DAS Installation and Operation Manual v
Contents
vi DAS6801+/OP+DAS Installation and Operation Manual
Preface
Manual Information
PurposeThis manual details the features, installation, operation, maintenance, and specifications for the DAS6801+/OP+DAS Decoder, Synchronizer, Multiplexer, and Processing Amplifier.
AudienceThis manual is written for engineers, technicians, and operators responsible for installation, setup, maintenance, and/or operation of the DAS6801+/OP+DAS Decoder, Synchronizer, Multiplexer, and Processing Amplifier.
Revision HistoryTable P-1. Revision History of Manual
Edition Date Comments
A August 2008 Initial release
B June 2009 Addition of DWDM options for OP+DAS
DAS6801+/OP+DAS Installation and Operation Manual vii
Preface
Writing ConventionsTo enhance your understanding, the authors of this manual have adhered to the following text conventions:
Obtaining DocumentsProduct support documents can be viewed or downloaded from our website. Alternatively, contact your Customer Service representative to request a document.
Table P-2. Writing Conventions
Term or Convention Description
Bold Indicates dialog boxes, property sheets, fields, buttons, check boxes, list boxes, combo boxes, menus, submenus, windows, lists, and selection names
Italics Indicates E-mail addresses, the names of books or publications, and the first instances of new terms and specialized words that need emphasis
CAPS Indicates a specific key on the keyboard, such as ENTER, TAB, CTRL, ALT, or DELETE
Code Indicates variables or command-line entries, such as a DOS entry or something you type into a field
> Indicates the direction of navigation through a hierarchy of menus and windows
hyperlink Indicates a jump to another location within the electronic document or elsewhere
Internet address Indicates a jump to a website or URL
NoteIndicates important information that helps to avoid and troubleshoot problems
viii DAS6801+/OP+DAS Installation and Operation Manual
Preface
Unpacking/Shipping InformationThis product was carefully inspected, tested, and calibrated before shipment to ensure years of stable and trouble-free service. 1. Check equipment for any visible damage that may have occurred
during transit. 2. Confirm that you have received all items listed on the packing list. 3. Contact your dealer if any item on the packing list is missing.4. Contact the carrier if any item is damaged.5. Remove all packaging material from the product and its associated
components before you install the unit.Keep at least one set of original packaging, in the event that you need to return a product for servicing. Except for firmware upgrades, DAS6801+/OP+DAS modules are not designed for field servicing. All hardware upgrades, modifications, or repairs require you to return the modules to the Customer Service center.In the unlikely event that your product fails to operate properly, please contact Customer Service to obtain a Return Authorization (RA) number, then send the unit back for servicing. Keep at least one set of original packaging in the event that a product needs to be returned for service. If the original package is not available, you can supply your own packaging as long as it meets the following criteria:• The packaging must be able to withstand the product’s weight.• The product must be held rigid within the packaging.• There must be at least 2 in. (5 cm) of space between the product and
the container.• The corners of the product must be protected.Ship products back to us for servicing prepaid and, if possible, in the original packaging material. If the product is still within the warranty period, we will return the product prepaid after servicing.
DAS6801+/OP+DAS Installation and Operation Manual ix
Preface
Restriction on Hazardous Substances (RoHS) Compliance
Directive 2002/95/EC—commonly known as the European Union (EU) Restriction on Hazardous Substances (RoHS)—sets limits on the use of certain substances found in electrical and electronic equipment. The intent of this legislation is to reduce the amount of hazardous chemicals that may leach out of landfill sites or otherwise contaminate the environment during end-of-life recycling. The Directive, which took effect on July 1, 2006, refers to the following hazardous substances: • Lead (Pb)• Mercury (Hg)• Cadmium (Cd)• Hexavalent Chromium (Cr-V1)• Polybrominated Biphenyls (PBB)• Polybrominated Diphenyl Ethers (PBDE)According to this EU Directive, all products sold in the European Union will be fully RoHS-compliant and “lead-free.” (See our website for more information.) Spare parts supplied for the repair and upgrade of equipment sold before July 1, 2006 are exempt from the legislation. Equipment that complies with the EU directive will be marked with a RoHS-compliant emblem, as shown in Figure P-1.
Figure P-1. RoHS Compliance Emblem
x DAS6801+/OP+DAS Installation and Operation Manual
Preface
Waste from Electrical and Electronic Equipment (WEEE) Compliance
The European Union (EU) Directive 2002/96/EC on Waste from Electrical and Electronic Equipment (WEEE) deals with the collection, treatment, recovery, and recycling of electrical and electronic waste products. The objective of the WEEE Directive is to assign the responsibility for the disposal of associated hazardous waste to either the producers or users of these products. As of August 13, 2005, the producers or users of these products were required to recycle electrical and electronic equipment at end of its useful life, and may not dispose of the equipment in landfills or by using other unapproved methods. (Some EU member states may have different deadlines.)In accordance with this EU Directive, companies selling electric or electronic devices in the EU will affix labels indicating that such products must be properly recycled. (See our website for more information.) Contact your local Sales representative for information on returning these products for recycling. Equipment that complies with the EU directive will be marked with a WEEE-compliant emblem, as shown in Figure P-2.
Figure P-2. WEEE Compliance Emblem
DAS6801+/OP+DAS Installation and Operation Manual xi
Preface
ReferencesITU-T G.694.1Spectral Grids for WDM Applications: DWDM Wavelength GridITU-T G.694.2Spectral Grids for WDM Applications: CWDM Wavelength GridITU-T G.695Optical Interfaces for Coarse Wavelength Division Multiplexing ApplicationsITU-T G.652Characteristics of a Single-Mode Optical Fiber Cable IEC 61754-4-1Fiber Optic Connector Interfaces - Part 4-1: Type SC Connector Family - Simplified Receptacle SC-PC Connector InterfacesIEC 60874-14-2Detail Specification for Fiber Optic Connector Type SC-PC Tuned Terminated to Single-Mode Fiber Type B1IEC 60874-14-5Detail Specification for Fiber Optic Connector Type SC-PC Untuned Terminated to Single-Mode Fiber Type B1IEC 61754-4Specifications for the fiber optic connector type SC/PCIEC 61754-2Specifications for the fiber optic connector type ST/PC terminated to a type BFOC/2,5IEC 61754-13Specifications for the fiber optic connector type FC/PCFCC Code of Federal Regulations (CFR) 47, part 15
EN55103-1EMC Emission Requirements Applies to Professional Audio, Video, Audio-Visual, and Entertainment Lighting Control ApparatusEN55103-2EMC Immunity Requirements Applies to Professional Audio, Video, Audio-Visual, and Entertainment Lighting Control Apparatus
xii DAS6801+/OP+DAS Installation and Operation Manual
Preface
SafetySee “Laser Safety” on page 97 to find the safety standards and compliances for this +OP+ series product. A 6800+ series safety manual is shipped with every FR6802+ Frame Installation and Operation Manual and can be downloaded from our website. Alternatively, contact your Customer Service representative for a copy of this safety manual.Carefully review all safety precautions to avoid injury and prevent damage to this product or any products connected to it. If this product is rack-mountable, it should be mounted in an appropriate rack using the rack-mounting positions and rear support guides provided. Each frame should be connected to a separate electrical circuit for protection against circuit overloading. If this product relies on forced air cooling, all obstructions to the air flow must be removed prior to mounting the frame in the rack. If this product has a provision for external earth grounding, the frame should be grounded to earth via the protective earth ground on the rear panel.IMPORTANT! Only qualified personnel should perform service procedures.
Safety Terms and Symbols in this ManualWARNINGStatements identifying conditions or practices that may result in personal injury or loss of life. High voltage is present.
CAUTIONStatements identifying conditions or practices that can result in damage to the equipment or other property.
DAS6801+/OP+DAS Installation and Operation Manual xiii
Preface
xiv DAS6801+/OP+DAS Installation and Operation Manual
Chapter 1
Introduction
General DescriptionThe DAS6801+ and OP+DAS decoder, synchronizer, multiplexer, and processing amplifier modules provide video and audio conversion from analog to digital, synchronize the audio to the video, and then embed the synchronized audio into the SD-SDI signal. The modules provide full processing for both video and audio, including proc amp control. The OP+DAS module has an optional hardware submodule that provides output over fiber in 1 of 17 wavelengths. DAS6801+ and OP+DAS accept a reference signal from the frame’s genlock connector. They can be controlled locally (from the card edge), or controlled and monitored remotely with control software applications such as + Pilot Lite™ and CCS Navigator™, or CCS-compliant remote control panels such as NUCLEUS.The back connector for DAS6801+ and OP+DAS modules requires two frame slots within an FR6802+XF or FR6802+QXF frame and is not backward compatible with 6800/7000 series frames or FR6802+DM frames. DAS6801+ and OP+DAS modules must be installed in a frame with fans.
DAS6801+/OP+DAS Installation and Operation Manual 1
Chapter 1: Introduction
Main FeaturesDAS6801+ and OP+DAS modules include the following features: • 12-bit, 8 fsc sampling of input video • User-adjustable input video processing functions: Y/Cb/Cr gain and
offset, black and white level clip, hue • Selectable composite analog video or SDI inputs • Up to four SDI 525 or 625, 270 Mb/s component digital video
outputs• EDH encoding on SDI output • Analog reference input from frame• 2D comb video decoder as standard feature, with optional upgrade
to 3D comb video decoder• Infinitely variable output phase (adjustable in 27 MHz clock
increments) • Freeze modes: pass, black, or freeze • Four balanced analog audio inputs • Two balanced and unbalanced AES selectable inputs or outputs • Jumper-selectable analog audio input impedance: high impedance
or 600Ω
• Bypass relay from the SDI input to dedicated SDI output for loss of power
• One balanced or unbalanced (selectable) DARS input • Audio output level compatible with -15 dBu @ 0 dBFS • Audio delay equivalent video delay • Loss of audio output modes: pass, mute • QSEE compliant thumbnails • QSEE Smart Alarm monitoring • Video frame synchronization • Optional software key option to upgrade the video decoder from 2D
to 3D comb filter • Single, CWDM, and DWDM options (OP+DAS only)
2 DAS6801+/OP+DAS Installation and Operation Manual
Chapter 1: Introduction
OP+DAS Module TypesTable 1-1 describes the different versions of the OP+DAS. All of these modules are provided with SC/PC fiber connectors. Optional connectors are listed in Table 1-2 on page 4.
Table 1-1. Available Optical Modules
Single-Mode Optical Output ModuleProduct Description
OP+DAS+13D SD-SDI 1310 nm fiber output
CWDM Optical Output ModulesProduct Wavelength Product Wavelength
OP+DASC27D 1271 nm OP+DASC47D 1471 nm
OP+DASC29D 1291 nm OP+DASC49D 1491 nm
OP+DASC31D 1311 nm OP+DASC51D 1511 nm
OP+DASC33D 1331 nm OP+DASC53D 1531 nm
OP+DASC35D 1351 nm OP+DASC55D 1551 nm
OP+DASC37D 1371 nm OP+DASC57D 1571 nm
OP+DASC43D 1431 nm OP+DASC59D 1591 nm
OP+DASC45D 1451 nm OP+DASC61D 1611 nm
DWDM Optical Output ModulesOP+DAS+D21D 1560.61 nm OP+DAS+D41D 1544.53 nm
OP+DAS+D22D 1559.79 nm OP+DAS+D42D 1543.73 nm
OP+DAS+D23D 1558.98 nm OP+DAS+D43D 1542.94 nm
OP+DAS+D24D 1558.17 nm OP+DAS+D44D 1542.14 nm
OP+DAS+D25D 1557.36 nm OP+DAS+D45D 1541.35 nm
OP+DAS+D26D 1556.55 nm OP+DAS+D46D 1540.56 nm
OP+DAS+D27D 1555.75 nm OP+DAS+D47D 1539.77 nm
OP+DAS+D28D 1554.94 nm OP+DAS+D48D 1538.98 nm
OP+DAS+D29D 1554.13 nm OP+DAS+D49D 1538.19 nm
OP+DAS+D30D 1553.33 nm OP+DAS+D50D 1537.40 nm
DAS6801+/OP+DAS Installation and Operation Manual 3
Chapter 1: Introduction
OP+DAS+D31D 1552.52 nm OP+DAS+D51D 1536.61 nm
OP+DAS+D32D 1551.72 nm OP+DAS+D52D 1535.82 nm
OP+DAS+D33D 1550.92 nm OP+DAS+D53D 1535.04 nm
OP+DAS+D34D 1550.12 nm OP+DAS+D54D 1534.25 nm
OP+DAS+D35D 1549.32 nm OP+DAS+D55D 1533.47 nm
OP+DAS+D36D 1548.51 nm OP+DAS+D56D 1532.68 nm
OP+DAS+D37D 1547.72 nm OP+DAS+D57D 1531.90 nm
OP+DAS+D38D 1546.92 nm OP+DAS+D58D 1531.12 nm
OP+DAS+D39D 1546.12 nm OP+DAS+D59D 1530.33 nm
OP+DAS+D40D 1545.32 nm OP+DAS+D60D 1529.55 nm
Table 1-2. Available Connectors (at Time of Order)
Item DescriptionOP+OPT+SC SC/PC fiber optic connectors (standard)
OP+OPT+ST ST/PC fiber optic connectors (optional)
OP+OPT+FC FC/PC fiber optic connectors (optional)
Table 1-1. Available Optical Modules (Continued)
4 DAS6801+/OP+DAS Installation and Operation Manual
Chapter 1: Introduction
Back Module
Figure 1-1. DAS6801+/OP+DAS Back Module
Weidmüller Audio ConnectorThe female connector on the back module fits with the (provided) male connector. Your can wire your own cable for analog audio inputs 1A, 1B, 2A, and 2B, balanced DARS, AES1, and AES2.
Figure 1-2. Weidmüller Audio Connector
DARS/SDI IN
SDI OUT 1Tx
SDI OUT 2/DATA I/O
SDI OUT 3/AES I/O 1
ANALOG AUDIO IN & BAL DARS, AES 1, AES 2
CPST IN
SDI OUT 4/AES I /O 2
Step 1: Rectangular slot
Insert flathead screwdriver into a rectangular slot to open a corresponding round connection point (above or below)
Step 2: Round Hole
Insert a stripped audio cable into a round hole and remove the flathead screwdriver from the rectangular slot to hold the cable.(Note: The holes are polarized.)
DAS6801+/OP+DAS Installation and Operation Manual 5
Chapter 1: Introduction
The pins are listed here from the top to the bottom of the connector, and from left to right, with the module oriented so the top two pins are closest to the Fiber optical output.
Table 1-3. Pin Assignment of Audio Connector (Female)
Signal into Left Side of Connector
Signal into Right Side of Connector
AES 1 - AES 1 +
AES 2 - AES 2 +
DARS In - DARS in +
Ground Ground
Ch 1A - Ch 1A +
Ground Ground
Ch 1B - Ch 1B +
Ground Ground
Ch 2A - Ch 2A +
Ground Ground
Ch 2B - Ch 2B +
6 DAS6801+/OP+DAS Installation and Operation Manual
Chapter 1: Introduction
Signal Flow
Figure 1-3. DAS6801+/OP+DAS Signal Flow Diagram
`
CPU Monitoring and Control
DARS reference
Equalizer De-serializerAudio
embedder
A to D conversion&2D decoder
DATA I/O(shared with SD-SDI out 2)
SD-SDI out 1SD-SDI out 2(shared with DATA I/O)SD-SDI out 3(shared with AES out 1)
AES out 1 Balanced1
AES out 2 Balanced1
DARS balanced
SD-SDI in
Analog audio in
Composite analog video in
A to D conversion
Genlock
Video proc/delay
Video frame sync
Audio delay/
sync/proc
AES in 2Balanced 1
AES in 1 Balanced1
DARS unbalanced(shared with SD-SDI in)
3D decoder
4/
Fiber-optic out
OP+DAS+xxx versions only
Fiber-optic transmitter
SD-SDI out4 (shared with AES out 2)
4/
Reference(from frame)
DAS68OPT+3D option
1Balanced AES in and out are shared
DAS6801+/OP+DAS Installation and Operation Manual 7
Chapter 1: Introduction
8 DAS6801+/OP+DAS Installation and Operation Manual
Chapter 2
Installation and Operation
Caution
Before installing this product, read the Safety Instructions and Standards Manual shipped with every frame Installation and Operation Manual, or download it from our website. This safety manual contains important information about the safe installation and operation of 6800+ series products.
Also see “Laser Safety” on page 97 of this manual.
DAS6801+/OP+DAS Installation and Operation Manual 9
Chapter 2: Installation and Operation
Maximum Frame Power RatingsDAS6801+/OP+DAS modules operate only in fan-cooled frames, subject to the limitations shown in Table 2-1. These modules cannot be installed in FR6802+DM or 6800/7000 series frames.
Caution
To maintain proper temperatures, ensure the front panel is closed at all times, and the fan module is fully operational.
Table 2-1. Frame Power Ratings
Frame Type Power Supply
Max. Frame Power Dissipation
Number of Usable Slots*
Max. Power Dissipation Per Slot
DAS6801+/OP+DAS Power Requirements
FR6802+XF AC 120 W 20 6 W
12 W per module FR6802+XF48 DC 105 W 20 5.25 W
FR6802+QXF AC or DC 120 W 20 6 W
FR6822+ and FR6822+QXFE
AC or DC 120 W 20 6 W
* Each front module requires two of these slots. Therefore, to calculate the maximum power dissipation available per module, double the rating shown in the Max. Power Dissipation Per Slot column.
10 DAS6801+/OP+DAS Installation and Operation Manual
Chapter 2: Installation and Operation
Setting the JumpersDAS6801+ and OP+DAS modules have three groups of user-selectable jumpers. In all cases, the white triangle near each jumper indicates pin 1. Figure 2-1 and Figure 2-2 show the locations of the jumpers.
Figure 2-1. DAS6801+ Jumper Locations
Figure 2-2. OP+DAS Jumper Locations
Jumper CJ1 for local or remote control Jumpers J2, J3, J4, and J5
for analog audio input impedance
Jumpers J6, J7, and J8 for configurable outputs
Jumper CJ1 for local or remote control Jumpers J2, J3, J4, and J5
for analog audio output impedance
Jumpers J6, J7, and J8 for configurable outputs (below plate)
DAS6801+/OP+DAS Installation and Operation Manual 11
Chapter 2: Installation and Operation
Local or Remote Control JumpersYou need to configure modules for local or remote operation prior to power-up. Follow this procedure to set jumper REM/LOC for either local or remote control:1. Locate jumper REM/LOC on the module (behind the module
extractor handle).Figure 2-1 shows the location of the REM/LOC jumper.
2. Place a jumper on pins 1 and 2 to set the module for Remote control, or pins 2 and 3 to set the module for Local control. See Figure 2-3.
Figure 2-3. REM/LOC Settings for Local and Remote Control
1 2 3 1 2 3
Remote control setting (default)
Local control setting
12 DAS6801+/OP+DAS Installation and Operation Manual
Chapter 2: Installation and Operation
Analog Audio Input Impedance JumpersFollow this procedure to set jumpers J2, J3, J4, and J5 for high impedance or 600Ω:1. Locate jumpers J2, J3, J4, and J5 on the module.
Figure 2-1 shows the location of jumpers J2, J3, J4, and J5.2. Place a jumper on pins 1 and 2 to set each audio channel for High
impedance, or pins 2 and 3 to set the module for 600Ω. See Table 2-2.
Table 2-2. Analog Audio Input Impedance Jumpers
Jumper Audio Channel Setting Visual
ConfigurationJ2 1A High-Z
(default)
600Ω
J3 1B High-Z(default)
600Ω
J4 2A High-Z(default)
600Ω
J5 2B High-Z(default)
600Ω
32
13
21
32
13
21
32
13
21
32
13
21
DAS6801+/OP+DAS Installation and Operation Manual 13
Chapter 2: Installation and Operation
Configurable Outputs JumpersFollow this procedure to set jumpers J6, J7, and J8 for SDI or other output.1. Locate jumpers J6, J7, and J8 on the module.
Figure 2-1 shows the location of the J6, J7, and J8 jumpers.2. Place a jumper on pins 1 and 2 and another jumper on pins 3 and 4
to set each output for the first (default) option, or pins 2 and 3 to set the module for the second option, as described in Table 2-3.
Table 2-3. Back Connector Output Jumpers
Jumper Name Setting Visual
Configuration
J6
Data I/O output
SDI 2 output(default)
J7
AES 2 unbalanced output
SDI 4 output(default)
J8
AES 1 unbalanced output
SDI 3 output(default)
32
14
32
14
32
14
32
14
32
14
32
14
14 DAS6801+/OP+DAS Installation and Operation Manual
Chapter 2: Installation and Operation
Installing the ModulesDAS6801+ and OP+DAS modules cannot be installed in a FR6802+DM frame, a FR6800/7000 frame, or a frame without fans. See your frame Installation and Operation Manual for details about installing back modules.
Installing and Removing DAS6801+ ModulesWhen you install both the front and rear modules, ensure that the back module is installed first before plugging in the front module. When you remove both the front and rear modules, ensure that the front module is unplugged from the frame before you remove the rear module. See your frame Installation and Operation Manual and the Safety Instructions and Standards Manual for information about installing and operating the frame and its components.
DAS6801+/OP+DAS Installation and Operation Manual 15
Chapter 2: Installation and Operation
Installing OP+DAS ModulesFront and back modules in the OPTO+ series have plastic caps that protect the fragile laser connections from damage. You must remove these protective covers before you install the back and front modules (see Figure 2-4).In addition, all fiber optic connections must be inspected and cleaned before they are assembled. Carefully follow the inspection and cleaning steps described in the next pages. Additional safety information appears in “Laser Safety” on page 97.
Caution
Ensure that you remove the fiber optic protective covers from the front and back modules before installation. Take care to avoid touching the fiber optic connections. Thoroughly clean the connections before installation. Remove power from the frame before installing or removing back modules.
Figure 2-4. Protective Covers for Laser Connectors
Remove these protective covers
Remove this protective cover
16 DAS6801+/OP+DAS Installation and Operation Manual
Chapter 2: Installation and Operation
Back Module InstallationFollow these steps to install the back module into a frame:1. Remove a blank back plate from the frame.
Do not discard the blank back plates. They may be needed for future configurations.
2. On the side of the back module that inserts into the front module, remove the inner protective cap from the fiber connection (see Figure 2-4 on page 16).
Caution
Microscopic dust or other contaminants can seriously impair or disable a fiber optic network. Observe strict cleaning procedures. Do not touch the end of the fiber.
3. Follow the inspection and cleaning procedure that begins on page 19.
4. If it is already installed, remove the front module from the slot.5. Install the new back module by inserting the bottom lip into the
required frame slot, and then screwing it into place.Ensure that the EMI gaskets on the right side of the back module remains in place during the installation. The EMI gaskets fit tightly.
6. Apply the adhesive label to the back module if it is supplied separately.
Front Module InstallationFollow these steps to install the front module: 1. Pull out the finger-release screws on the right and left side of the
front panel of the frame, and then open it.2. Locate the front module slot that corresponds with the matching
back module.
DAS6801+/OP+DAS Installation and Operation Manual 17
Chapter 2: Installation and Operation
3. Gently remove the outer and inner protective caps from the laser connections. (see Figure 2-4 on page 16).
Caution
Microscopic dust or other contaminants can seriously impair or disable a fiber optic network. Observe strict cleaning procedures. Do not touch the end of the fiber.
4. Follow the fiber cleaning instructions that begin on page 19.5. Ensure that your front module matches with a corresponding back
module of the same name.6. Slide the module into the guides in the frame. 7. When the module edge is flush with the guide, close the extractor
handle.The module is properly seated when its edge is flush with the guide edge and the extractor handle closes.
8. Close the front panel to ensure proper frame ventilation.To prevent overheating, keep the front panel closed and all back module plate slots covered during operation.
Removing OP+DAS Modules
Note
The removal steps provided here are similar to those outlined in your frame Installation and Operation Manual. Refer to that manual for detailed information about installing and operating the frame and its components.
Front ModuleFollow these steps to remove a front module from a frame:1. Pull out the finger-release screws on the right and left side of the
front panel of the frame, and then open the front panel.2. Grasp the extractor handle on the installed module, and then pull
the module out of its slot. Use the handle as a lever.3. Close the front panel to ensure proper frame ventilation.
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Back ModuleFollow these steps to remove a back module from a frame:1. Remove the front module, as described above.2. Unscrew the top of the corresponding back module, and then tip it
towards you.3. Pull the bottom lip of the back module from its slot.4. Reinstall a new or blank back plate in the empty slot to ensure
proper frame ventilation.5. Reinstall the front module.
Inspecting and Cleaning Fiber Optic ConnectionsSmall amounts of microscopic dust or other contaminants can seriously impair or disable a fiber optic network. To ensure that your network operates reliably, you must carefully inspect and clean each connection when installing OPTO+ products.Table 2-4 lists some typical contaminants of a fiber optic connection. The inspection and cleaning procedure begins on page 21.
Important Points• Before you begin cleaning, always inspect the fiber connections.• Inspect and clean both fiber ends every time you make a
connection.• Keep a protective cap on unplugged fiber connectors.
Table 2-4. Typical Contaminants
Contaminant CommentsDust particle, 1 micron Can block up to 1% of the light transmission,
creating a loss of 0.05 dB
Dust particle, 9 microns Although microscopic, the particle can completely block the fiber core
Human hair Typically 50 to 75 microns in diameter
Oil Frequently caused by touching
Film residues Can accumulate from vapors or smoke
Powdery coatings Can be left behind after water or other solvents evaporate
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• Do not touch the end of a fiber.• Store unused protective caps in a clean resealable container, located
nearby for easy access.• Do not reuse cleaning tissues or swabs.• Do not allow alcohol or another wet cleaning agent to dry on a fiber
end.• Never touch the dispenser tip of an alcohol bottle or any clean
portion of a tissue or swab.• Use care when handling the fiber; do not twist or pull.• Keep your cleaning fluids away from open flame or spark.
Figure 2-5 describes the acceptable limits of defects in a fiber connection.
Figure 2-5. Fiber Optic Cross Section
Zone 2(20 to 50 micron diameter)Maximum of 3 scratches <1.0 micron width is acceptable;Maximum 1.0 micron light dig is acceptable
Zone 1(0 to 20 micron diameter)No scratches or digs are allowed
Zone 3(50 to 126 micron diameter)Maximum 25 micron dig is acceptable;Maximum scratch size of 1.0 micron is acceptable
Maximum 25 micron diameter dig is acceptable
Scratches and dust
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Inspection and Cleaning Procedure
Inspection
Warning
Eye damage may occur if an optical instrument such as a microscope, magnifying glass, or eye loupe is used to stare at an energized fiber end.
To inspect and clean the fibers, follow these steps:1. Ensure the fiber is not “live.”2. Inspect the fiber endface with a fiberscope.3. If the fiber endface is clean, return to the installation instructions on
page 17 for back modules or page 17 for front modules.If the connector is dirty, proceed to the dry cleaning instructions below.
Dry CleaningIf you are using cartridge or pocket-style dry cleaning tools, follow the manufacturer’s directions. If you are using lint-free wipes, follow these steps:1. Fold the lint-free wipe four to eight times into a square, taking care
to avoid touching the cleaning surface of the wipe.2. Lightly wipe the fiber tip in the central portion of the lint-free wipe.
Caution
Do not scrub the fiber. Excessive rubbing will leave scratches.
3. Repeat the wiping action on another clean section of the wipe or a new wipe.
4. Inspect the connector again with the fiberscope.5. If the connection is clean, return to the installation steps on page 17
for back modules, or page 17 for front modules.If the connector is still dirty, proceed to the wet cleaning instructions.
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Wet CleaningUsing 99.8% isopropyl alcohol and lint-free wipes, follow these steps to wet clean the fiber:1. Fold the wipe into a square, about four to eight layers thick. 2. Moisten one section of the lint-free wipe with one drop of 99.8%
alcohol, ensuring that a portion of the wipe remains dry.3. Lightly wipe the fiber end in the alcohol-moistened portion of the
lint-free wipe. 4. Immediately repeat the wiping action on the dry section of the
wipe, removing any residual alcohol.5. Inspect the fiber endface again, and if necessary, repeat the wet
cleaning with another clean section of the lint-free wipe.
Caution
Do not scrub the fiber. Excessive rubbing will leave scratches.
6. Dry clean any remaining residue, and then inspect the connector again.
7. If the contamination persists, repeat the dry and wet cleaning procedure until the endface is clean. If the fiber end still remains dirty after repeated cleaning attempts, call Customer Service for further instructions.If the fiber end is clean, return to the installation instructions on page 17 for back modules, or page 17 for front modules.
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Upgrading Module FirmwareFirmware upgrading is a routine procedure that you must perform to install newer versions of software. CCS Pilot, CoPilot, or Navigator software version 3.1.1 or later is required for this procedure. The frame must contain or be connected to another frame that contains an ICE6800+ or a 6800+ETH module. In the unlikely event that the upgrade fails (because of such situations as network interruptions, power failures, and so on), the module may not respond to controls and will appear to be non-functional. In that event, follow the procedures described in “Correcting a Failed Upgrading Procedure” on page 26.
Upgrading the FirmwareYou can upgrade your 6800+ module’s firmware using the Software Upgrade tool. This tool is included with CCS Pilot, Co-Pilot, or Navigator software version 3.1.1 or later.
Caution
The File Transfer tab is not meant to be used for firmware upgrades. For best results, use the Software Upgrade dialog box to upgrade module firmware.
To upgrade your module’s firmware, follow these steps:1. Download the most recent appropriate upgrade package from our
website.2. If the affected module has not been discovered, perform the
Discovery operation, as described in “Discovering Your Module Using CCS Software” on page 57.
NoteInformation about discovering modules can also be found in your CCS software application manual or online help. (If you cannot discover the device, see “Manually Adding a Device to the Discovery or Network Folder” on page 27.)
3. From the Tools menu, select Software Upgrade.
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The Software Upgrade dialog box appears.
Figure 2-6. Software Upgrade Tool’s New Transfer Tab
4. On the New Transfer tab, click Add.The Device Selection dialog box opens.
5. Select one or more devices, and then click OK to close the Add Device dialog box.
NoteYou can only add one device from each IP address. All items in a frame have the same IP address.
The selected devices appear in the table under Device Name. These devices will receive the same upgrade package.
6. Before proceeding with the firmware upgrade, you can • Highlight the module’s position in the Navigation window by
clicking Find Device. • View the firmware version currently installed on the module by
clicking Version Info on the Software Upgrade dialog box.
Package Info includes a list of the components contained in the ZIP file.
Version Info lists the firmware version currently installed on the module.
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7. Click Browse to select the firmware upgrade package (ZIP file). A standard Windows File Selection dialog box opens.
8. Choose the upgrade ZIP file on a local or network drive. The selected file’s path name appears to the left of the Browse button.
NoteThe extraction process of the ZIP file part of the upgrade process. You do not need to extract the files yourself. You can view the contents of the ZIP file by clicking Package Info on the Software Upgrade dialog box.
9. Click Submit Transfer. A message appears that asks if you want to proceed with the request. If you have multiple devices selected, multiple transfer tasks are submitted—one per device.The transfer now progresses. You can minimize the Software Upgrade dialog box, continue with other tasks, or switch to the Progress tab to view the status of the transfers.
NoteClosing the Software Upgrade dialog box does not affect any of the transfer processes that may be running in the background. If you try to log off or exit the CCS software while a transfer is underway, a message will alert you that processes are still active and asks if you want to terminate these processes.
10. Select the Log tab and look at the Progress column to ensure that all files have correctly updated. The module automatically reboots following an upgrade procedure.
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Correcting a Failed Upgrading ProcedureFirmware upgrades may fail in the event of network interruptions, power failures, or if the wrong upgrade package was transferred to the module. These problems can be corrected by upgrading the firmware while the module is in Boot Loader mode. The upgrade will not work unless you put the module in Boot Loader mode.
Note
If you have not already downloaded the most recent appropriate upgrade package from our website, do so now.
Putting the Module in Boot Loader ModeFollow these steps to put the module in Boot Loader mode:1. Remove the affected module from the 6800+ frame.
Figure 2-7. Buttons on a Typical Card Edge
2. Set the hex switch to F. 3. While pressing the Navigation toggle switch down, reinsert the
module into the frame.If your device is listed in the Discovery or Network folder, you can continue the firmware upgrade as described in “Upgrading the Firmware” beginning with step 3 on page 23. If not, you must manually add the device to the Discovery or Network folder. To do this, see the next section.
Hex switch (mode select rotary switch)
Navigation toggle switch
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Manually Adding a Device to the Discovery or Network FolderIf your device is not listed in the Discovery or Network folder, you must manually add it to these folders. After you add the device, use the Software Upgrade dialog box to continue with the module firmware upgrade.
1. Enter Build mode, and then drag or copy and paste the module’s device icon from the Catalog folder into the Network or Discovery folder.
2. Right-click the device icon, and then select Properties. 3. On the Device tab of the Navigation Properties dialog box, enter
the IP address of the frame that holds the module. (See Figure 2-8.)
Figure 2-8. Navigation Properties Box
Caution
If you make changes in the last field (located above and to the far right of the Set Default button), you may lose your connection to the module. If this happens, you will need to rediscover the module.
Do not make changes in this field
Enter frame IP address here
Frame number=0 Slot number=17Must be set to 1
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4. In the third field, enter1.0.[slotnumber]
(where, for example, 1.0.17 would refer to the module in slot 17 of the frame number 0).
5. Close the dialog box.6. You can now continue your firmware upgrade as described in
“Upgrading the Firmware” beginning with step 3 on page 23.
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Operating NotesWhen you set the control parameters on the DAS6801+ or OP+DAS, observe the following:• If you make changes to certain parameters, other related parameters
may also be affected. See “Parameter Interdependencies” on page 41 for more information.
• When you change a parameter, the effect is immediate. However, the module requires up to 30 seconds to save the latest change. After 30 seconds, the new settings are saved and will be restored if the module loses power and must be restarted.
• For best results, and to ensure SDI output jitter compliance, when video is sourced from low quality video sources such as VCRs, you should use the synchronizer mode (found at Synchronization > Frame Sync Mode > Sync Mode).
Q-SEE Compliant ThumbnailsWhen installed in an FR6802+QXF frame that also contains a 6800+ETH resource module, DAS6801+ module control windows have an extra Streaming tab in CCS Pilot and Navigator (version 3.2.1 or later). Here you can view output video from the module. In addition, video from the DAS6801+, displayed on the 6800+ETH control page at up to three frames per second, and (for CCS Navigator only) on Graphical Navigation pages.
Note
Both DAS6801+ and OP+DAS modules show a DAS6801+ label in CCS Navigator.
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Activating DAS6801+/OP+DAS FunctionsThe following sections provide information about the DAS6801+ and OP+DAS special functions: • “Adding a License Key” on page 30• “Audio Test Tones” on page 31• “Audio Embedding Modes” on page 31• “Audio Embedding Errors” on page 38• “AES Non-PCM Processing” on page 38• “Video Frame Synchronization” on page 39• “Audio Synchronization” on page 39• “Audio Path” on page 39• “Test Pattern Generator” on page 40
Adding a License Key To enter a license key to activate 3D decoder functionality, your CCS software must be in Control mode. Follow these steps: 1. Select the DAS6801+ module in the Navigation pane, right click,
and then select Control to open the module’s Control window.
NoteBoth DAS6801+ and OP+DAS modules appear as DAS6801+ modules in Navigator.
2. Select the Parameters tab. 3. Select General in the tree view, and then type your license key in
the License Key field.If your license key is valid, the Installed Options field will display the features that are available on the module, which in this case will be 3D.
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Audio Test TonesTable 2-5 describes the frequency and levels of each audio output test tone, available as a selection from each of the Emb Audio Ch (1 to 16) Source Select and AES Ch (1A to 2B) Source Select parameters (see page 65).
Audio Embedding ModesThe DAS6801+/OP+DAS audio embedder component is composed of several smaller subcomponent blocks:• One ancillary data stripper (ADS)• Four audio embedding subcomponentsThe first subcomponent is an ancillary data stripper (ADS). This block removes all ancillary data packets in the input SDI stream, prior to embedding.Following the ADS block are four separate audio-embedding subcomponents. Each subcomponent has the ability to operate on only one audio group, either appending or overwriting a predetermined group onto the SDI stream.
Table 2-5. Audio Test Tones
Test Tone Frequency LevelTest Tone 1 400 Hz -20 dBFS
Test Tone 2 1 kHz -20 dBFS
Test Tone 3 2 kHz -20 dBFS
Test Tone 4 4 kHz -20 dBFS
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The audio embedding modes are Audio Group (1 to 4) Embedding Mode parameters (see page 63). Table 2-6 describes the Off, Append, OverWrt, and Auto options available from each of the embedding modes.
Append EmbeddingWhen you select Append embedding, the DAS6801+ attempts to insert the audio data and control packets immediately following the last existing data/control packet in the horizontal ancillary data space (ADS). Append embedding is only valid if the audio group to be embedded does not already exist.
Table 2-6. Embedding Mode Options
Options DescriptionOff Deactivates embedding of the selected audio group
Append Attempts to insert the audio data and control packets immediately following the last existing audio data/control packet in the horizontal ancillary region (see “Append Embedding” on page 32)
OverWrt Attempts to overwrite existing audio data and control packets of the same group number with the new audio data (see “Overwrite Embedding” on page 36)
Auto Attempts first to overwrite existing audio data and control packets of the same audio group number; failing that, it appends the new audio data and control packets immediately following the last existing audio data/control packet (refer to the Audio Group (1 to 4) Exists parameters on page 63 to determine what audio groups are already present in the incoming SDI signal)
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Figure 2-9 shows how append embedding will appear in the ancillary data space when there is no previous audio or other data.
Figure 2-9. In Append Embedding Mode, Adding Group 1 When No Other Data is Present
When auxiliary data exists in the ancillary data space, appended audio appears following that data, as shown in Figure 2-10.
Figure 2-10. In Append Embedding Mode, Adding Group 1 When Auxiliary Data is Present
EAV
ADS before embedding
EAV
ADS after embedding group 1Group 1
ADS before embeddingOther
auxilliary dataAEAV Other
auxilliary dataB
ADS after embedding group 1Group 1EAV Other
auxilliary dataA
Other auxilliary data
B
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When Group 1 audio data exists in the ancillary data space, if you attempt to insert another audio into Group 1, an error will be returned, as shown in Figure 2-11.
Figure 2-11. Append Embedding Mode When Adding Group 1 and a Group 1 Already Exists
When there is pre-existing Group 1 audio in the ancillary data space, and no Group 2 audio, then if you insert Group 2 audio, it will be inserted following the Group 1 audio, as shown in Figure 2-12.
Figure 2-12. Append Embedding Mode, Adding Group 2 Following Group 1
ADS after attempting to embed group 1
ADS before embeddingPre-existing
Group 1EAV
EAV Pre-existing Group 1
Result: Error is returned
ADS after embedding group 2 EAV Group 1 Group 2
EAV
ADS before embeddingGroup 1
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When there is pre-existing Group 2 audio in the ancillary data space, and no Group 1 audio, if you insert Group 1 audio, it will be inserted following the Group 2 audio, as shown in Figure 2-13.
Figure 2-13. Append Embedding Mode, Adding Group 2 Following Group 1
An audio group cannot be divided, and in Append embedding, the audio group is always added following the last block in the ADS. If there is not enough room to append the audio group following the last block of auxiliary data or audio in the ADS, the attempt will result in an error, as shown in Figure 2-14.
Figure 2-14. Append Embedding Mode Returns Error when Auxiliary Data Exists in all Audio Groups
ADS before embeddingEAV Group 2
ADS after embedding group 1Group 1EAV Group 2
ADS before embeddingEAV Other
auxillary data
Other auxillary
dataOther
auxillary data
ADS after attempting to embed group 1 EAV
Result: Error is returned
Other auxillary
dataOther
auxillary data
Other auxillary
data
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Overwrite EmbeddingWhen you select Overwrite embedding, the module attempts to overwrite any existing audio data and control packets of the same group number with the new audio data. This setting is valid only if the audio group to be embedded already exists. If the new sample distribution does not exactly match the existing audio data packet sample distribution, the embedder will mark some audio data packets for deletion (DID word will be set to 180h).
Note
To avoid sample distribution issues, activate the ADS Clean feature (see “ADS Clean Parameter” on page 41).
When you attempt Overwrite embedding and there is no previous audio (as in Figure 2-15), this will return an error because there is nothing to overwrite.
Figure 2-15. Overwrite Embedding Mode When there is No Pre-existing Audio
ADS before embeddingEAV
EAV
ADS after attempting to embed group 1
Result: Error is returned
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Figure 2-16 shows how overwrite embedding will appear in the ancillary data space when there is auxiliary data where Group 1 should be inserted.
Figure 2-16. Overwrite Embedding Mode When there is Auxiliary Data on Group 1
Figure 2-17 shows how overwrite embedding will appear in the ancillary data space when there is pre-existing Group 1 audio. This operation is successful.
Figure 2-17. Overwrite Embedding Mode When There is Group 1 Audio in the Group 1 Space
EAV
ADS before embeddingother
auxilliary dataA
other auxilliary data
B
ADS after attempting to embed group 1EAV
other auxilliary data
Aother
auxilliary dataB
Result: Error is returned
ADS after embedding group 1 (with overwrite group specified as Group 1)
Group 1EAV
ADS before embeddingPre-existing Group 1EAV
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Audio Embedding ErrorsTable 2-7 describes audio embedding errors (also see page 63).
To avoid embedding errors, follow these guidelines:• Set the embedding mode to Auto. If the group is present, it will be
overwritten; if it is not present, it will be appended. The overwrite and append errors are actually warnings that the appropriate operation is not being performed.
• Do not overwrite embedded groups of 20-bit audio samples with groups of 24-bit audio samples. The required extended data packet information appended to that group may overwrite a pre-existing audio group. For 24-bit audio embedding, use the ADS Clean feature provided.
• Do not overwrite embedded groups of 24-bit audio samples with groups of 20-bit audio samples due to existing embedded extended data packets. For this mode, use the ADS Clean feature provided.
AES Non-PCM ProcessingWhen AES is selected as the assignment for an audio input channel and that AES format feedback is detected as Non-PCM, the output channel gain and invert controls that are assigned to that source channel will have no effect on the Non-PCM signal.
Table 2-7. Audio Embedding Error Descriptions
Error DescriptionGroup (1 to 4) Append Embedding Error
Occurs if the embedder is set to Append mode for a particular audio group, but that audio group already exists in the incoming SDI signal (in this case, the embedder will not embed another audio data and control packet of the same audio group, as this will result in incorrect audio sample distribution)
Group (1 to 4) Overwrite Embed Error
Occurs if the embedder is set to Overwrite mode for a particular audio group, but that audio group does not exist in the incoming SDI signal
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Video Frame SynchronizationThe frame synchronizer offers two modes of operation: Synchronizer (Sync) mode and Delay mode, which can be chosen using the Frame Sync Mode parameter. (See page 60.)When in Sync mode, the output video is synchronized to the reference video. When in Delay mode, the output video is synchronized to the input video. In both Sync mode and Delay mode, there are several controls to manipulate the output video signal: • Horizontal timing and vertical timing • Adjustable frame delay• Options to determine the output video behavior on loss of input
video, including pass, black, and freeze• Manually freeze output video on first or second field, or on the
whole frame
Audio SynchronizationBy default, DAS6801+/OP+DAS synchronizes analog input audio or AES input audio with timing information from the video frame synchronizer prior to embedding the audio. (See page 64.)You can use the Audio Sync Bypass parameter to output non-synchronized audio.You can set the Audio LOV Output Mode parameter so that, in the event of loss of video, the audio is either passed or muted.
Audio PathYou can assign each of the 16 embedded audio channels, and the 2 AES output channels (with the AES option), to one of up to 10 sources, as listed below: • Ch (1A to 2B)• Ch (1 to 2) Sum • Test Tone 400 Hz• Test Tone 1 kHz, Test Tone 2 kHz, and Test Tone 4 kHz(The parameters are described on page 65.)
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Test Pattern Generator When the Test Pattern Enable parameter (listed on page 61) is set to On, you can use the Test Pattern Select parameter to choose from the following: • 75% Color Bars• Modulated Ramp• Multiburst• Pulse & Bars
3D Comb Filtering If your DAS6801+/OP+DAS module has the DAS68OPT+3D option activated, then you will have two additional parameters: • Frame Comb Filter• Field Comb FilterThese parameters are in the parameter list under Decoder > Filtering. (Contact your Customer Service representative to purchase license keys. To activate a license key, see “Adding a License Key” on page 30.)
Note
These parameters do not appear in CCS Navigator if you do not have the option activated. They will always appear in + Pilot Lite, but if the option key is not activated, these parameters will be unavailable.
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Parameter InterdependenciesWhen you configure certain parameters, you force a change in other associated parameters. The various conditions that affect parameter availability or settings are described in the following sections: • “ADS Clean Parameter” on page 41• “Channel Word Length” on page 41• “Parameter Ranges Depending on Video Standard Setting” on
page 42• “Cross-Functional Parameter Changes” on page 43
ADS Clean ParameterThe ADS Clean parameter removes all data from the Ancillary data space in preparation for embedding audio. Depending on the setting of the ADS Clean parameter (listed on page 63), the Audio Group (1 to 4) Embedding Mode parameters will have different options.
Channel Word LengthThe default value for all Emb Audio Ch (1/2 to 15/16) Word Length parameters is 20-bits. (The parameters are listed on page 65.)If at least one pair is set to 24-bits, the corresponding embedder will enable 24-bits embedding for that audio group.
Table 2-8. ADS Clean Parameter
ADS Clean Parameter’s State
Audio Group (1 to 4) Embedding Mode Options
Yes • Off• Append
No • Off • Append• OverWrt• Auto
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Parameter Ranges Depending on Video Standard SettingTable 2-9. Parameter Ranges Depending on Video Standard Setting
Parameter NTSC/525 PAL-M/525 PAL-B/625Fine Picture Position -69.253 ns to 68.747 ns -69.253 ns to 68.747 ns -56.205 ns to 55.795 ns
Vertical Phase 0 to 524 lines 0 to 524 lines 0 to 624 lines
Horizontal Phase 0 to 63.518 μs 0 to 63.518 μs 0 to 63.963 μs
OSD VU 1 Bar Vertical Position 0 to 148 0 to 148 0 to 192
OSD VU 2 Bar Vertical Position 0 to 148 0 to 148 0 to 192
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Cross-Functional Parameter ChangesWhen some parameters are set, this causes a change in other parameters’ availability. Table 2-10 describes this cause and effect relationship for the DAS6801+/OP+DAS.
Table 2-10. Cross-Functional Parameter Changes
Parameter Option Affected Parameter ChangeAES 1 In/Out Control
Input Audio Input Pair 1 Source AES 1 option enabled
Audio Input Pair 2 Source AES 1 option enabled
AES Input 1 Type Select Enabled
AES 1 Input Present Enabled
AES 1A Input Format Feedback Enabled
AES 1B Input Format Feedback Enabled
AES 1A Input V-Bit Feedback Enabled
AES 1B Input V-Bit Feedback Enabled
Output Audio Input Pair 1 Source AES 1 option disabled
Audio Input Pair 2 Source AES 1 option disabled
AES Input 1 Type Select Disabled
AES 1 Input Present Disabled
AES 1A Input Format Feedback Disabled
AES 1B Input Format Feedback Disabled
AES 1A Input V-Bit Feedback Disabled
AES 1B Input V-Bit Feedback Disabled
Input Video Path Composite SDI Emb. Ch (1 to 16) Average Level Disabled
Audio Average Level Reporting Disabled
Audio Average Level Restart Disabled
SDI SDI Emb. Ch (1 to 16) Average Level Enabled
Audio Average Level Reporting Enabled
Audio Average Level Restart Enabled
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AES 2 In/Out Control
Input Audio Input Pair 1 Source AES 2 option enabled
Audio Input Pair 2 Source AES 2 option enabled
AES Input 2 Type Select Enabled
AES 2 Input Present Enabled
AES 2A Input Format Feedback Enabled
AES 2B Input Format Feedback Enabled
AES 2A Input V-Bit Feedback Enabled
AES 2B Input V-Bit Feedback Enabled
Output Audio Input Pair 1 Source AES 2 option disabled
Audio Input Pair 2 Source AES 2 option disabled
AES Input 2 Type Select Disabled
AES 2 Input Present Disabled
AES 2A Input Format Feedback Disabled
AES 2B Input Format Feedback Disabled
AES 2A Input V-Bit Feedback Disabled
AES 2B Input V-Bit Feedback Disabled
Table 2-10. Cross-Functional Parameter Changes (Continued)
Parameter Option Affected Parameter Change
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SDI / Unbalanced DARS Select
SDI DARS Input Type Select Unbalanced option disabled
SDI Input Present Enabled
SDI Video Standard Set Enabled
SDI Input Video Standard Fb Enabled
EDH Present Enabled
EDH Error Counter Enabled
EDH Error Counter Clear Enabled
DARS DARS Input Type Select Unbalanced option enabled
SDI Input Present Disabled
SDI Video Standard Set Disabled
SDI Input Video Standard Fb Disabled
EDH Present Disabled
EDH Error Counter Disabled
EDH Error Counter Clear Disabled
Table 2-10. Cross-Functional Parameter Changes (Continued)
Parameter Option Affected Parameter Change
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TBC Active Yes Decoder Lock Mode Disabled
Field Comb Filter Disabled
VBI Field 1 Line (6 to 23) Mode Disabled
VBI Field 2 Line (6 to 23) Mode Disabled
Setup Line Select Disabled
Fine Picture Position Disabled
Cable Equalizer Disabled
Cable Length Disabled
No Decoder Lock Mode Enabled
Field Comb Filter Enabled
VBI Field 1 Line (6 to 23) Mode Enabled
VBI Field 2 Line (6 to 23) Mode Enabled
Setup Line Select Enabled
Fine Picture Position Enabled
Cable Equalizer Enabled
Cable Length Enabled
Table 2-10. Cross-Functional Parameter Changes (Continued)
Parameter Option Affected Parameter Change
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AES 1 In/Out Control
Input AES Ch 1A Output Gain Disabled
AES Ch 1B Output Gain Disabled
AES Ch 1A Output Invert Disabled
AES Ch 1B Output Invert Disabled
AES Ch 1A Output Mute Disabled
AES Ch 1B Output Mute Disabled
AES Ch 1 Output Word Length Disabled
AES Ch 1A Output Source Select Disabled
AES Ch 1B Output Source Select Disabled
Output AES Ch 1A Output Gain Enabled
AES Ch 1B Output Gain Enabled
AES Ch 1A Output Invert Enabled
AES Ch 1B Output Invert Enabled
AES Ch 1A Output Mute Enabled
AES Ch 1B Output Mute Enabled
AES Ch 1 Output Word Length Enabled
AES Ch 1A Output Source Select Enabled
AES Ch 1B Output Source Select Enabled
Table 2-10. Cross-Functional Parameter Changes (Continued)
Parameter Option Affected Parameter Change
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AES 2 In/Out Control
Input AES Ch 2A Output Gain Disabled
AES Ch 2B Output Gain Disabled
AES Ch 2A Output Invert Disabled
AES Ch 2B Output Invert Disabled
AES Ch 2A Output Mute Disabled
AES Ch 2B Output Mute Disabled
AES Ch 2 Output Word Length Disabled
AES Ch 2A Output Source Select Disabled
AES Ch 2B Output Source Select Disabled
Output AES Ch 2A Output Gain Enabled
AES Ch 2B Output Gain Enabled
AES Ch 2A Output Invert Enabled
AES Ch 2B Output Invert Enabled
AES Ch 2A Output Mute Enabled
AES Ch 2B Output Mute Enabled
AES Ch 2 Output Word Length Enabled
AES Ch 2A Output Source Select Enabled
AES Ch 2B Output Source Select Enabled
SDI / Unbalanced DARS Select
SDI Video Source Select Enabled
Video Source Priority Enabled
DARS Video Source Select Disabled
Video Source Priority Disabled
Video Source Select Auto Video Source Priority Enabled
Composite Video Source Priority Disabled
SDI Video Source Priority Disabled
Table 2-10. Cross-Functional Parameter Changes (Continued)
Parameter Option Affected Parameter Change
48 DAS6801+/OP+DAS Installation and Operation Manual
Chapter 2: Installation and Operation
Changing Parameter SettingsYou can change parameter settings at the card edge for DAS6801+ and OP+DAS modules, or you can change the parameter settings, view read-only parameters, and view alarms and adjust alarm settings using CCS software. See the following topics for more information: • “Changing Parameter Settings using Card Edge Controls” on
page 49• “Changing Parameters Using CCS Software” on page 51
Changing Parameter Settings using Card Edge Controls 1. Rotate the hex switch (mode select rotary switch) to 0.2. Once the hex switch is set to 0, toggle the navigation switch up or
down to select a bank. View the four control LEDs next to the navigation toggle switch to see which bank is currently selected. (See Table 2-11.)See Table 2-12 on page 53 to view the various banks, hex switch positions, and corresponding parameter options and values.
Table 2-11. Selected Bank as Indicated by Control LEDs
Bank 3 Bank 2 Bank 1 Bank 0 Bank NumberOff Off Off Off 0
Off Off Off On 1
Off Off On Off 2
Off Off On On 3
Off On Off Off 4
Off On Off On 5
Off On On Off 6
Off On On On 7
On Off Off Off 8
On Off Off On 9
On Off On Off A (10)
On Off On On B (11)
DAS6801+/OP+DAS Installation and Operation Manual 49
Chapter 2: Installation and Operation
3. Rotate the hex switch to the parameter number (1 to 9) or letter (A to F) of the option you want to set.
4. Toggle the navigation switch to select and set the value of the chosen parameter.
5. Do either of the following: • Rotate the hex switch to another parameter number/letter in the
current bank, and then repeat step 4.• Rotate the hex switch to 0 again to select a different bank, and
then repeat steps 3 and 4.
NoteFor best results, use the available 6800+ software control options (serial/local or Ethernet/remote) to aid in viewing, setting, and confirming parameter values.
On On Off Off C (12)
On On Off On D (13)
On On On Off E (14)
On On On On F (15)
Table 2-11. Selected Bank as Indicated by Control LEDs (Continued)
Bank 3 Bank 2 Bank 1 Bank 0 Bank Number
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Recalling Factory Default Parameter SettingsTable 2-12 on page 53 describes all of the parameter settings for the DAS6801+ and OP+DAS, including the original factory defaults. To return this module to its factory default settings, you can either reset each parameter individually or do a global recall following this procedure:1. Rotate the hex switch to 0.2. Toggle the navigation switch to the bank number 0.
Use the control LEDs to verify which bank you have selected, or use an available 6800+ software control option (serial/local or Ethernet/remote) to aid in confirming your bank selection.
3. Rotate the hex switch to the global recall parameter F.4. Toggle the navigation switch to On.
Use an available 6800+ software control option to aid in viewing, setting, and confirming the parameter value.
Reading Software and Hardware VersionsThe current software version of your DAS6801+/OP+DAS module can only be viewed using a CCS-enabled control panel or a CCS software application, such as Pilot or + Pilot Lite. See your RCP-CCS-1U Installation and Operation Manual, CCS software application user manual, or CCS software application online help for information on viewing software and hardware version numbers.
Changing Parameters Using CCS SoftwareBefore using software applications to change your module’s parameter settings, you must refresh (+ Pilot Lite) or discover (Pilot and Navigator) the module. Refresh and Discovery are the processes by which your software finds, and then connects to your module.
Identifying Your Module in CCS SoftwareWhether your module is a DAS6801+ or an OP+DAS, when you discover it in CCS Navigator or refresh it in + Pilot Lite, the module will be identified as a DAS6801+. If your module has an optional laser OP+DAS component, the Laser Wavelength parameter displays the wavelength. If the module does not have an optical component, the Laser Wavelength parameter displays Not Installed.
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In addition, if the module is an OP+DAS, it will have one additional alarm that standard DAS6801+ modules do not. This alarm is Laser Failed.
Refreshing Your Module Using + Pilot LiteWhen you use + Pilot Lite to change your module’s control parameters, you must “refresh” the control connection between your 6800+ frame and PC. To refresh the connection, from the + Pilot Lite menu bar, select File > Refresh. For information about controlling a device using + Pilot Lite, see your + Pilot Lite User Manual.
Discovering Your Module Using CCS Software To discover your DAS6801+ or OP+DAS module, your Pilot or Navigator software must be in Build mode.1. If the Discovery pane is not open, click Tools > Discovery in the
main menu. A Discovery pane appears, most likely in the bottom left corner of the screen.
2. Click Options, and then click Add.3. Enter the IP address of the frame that contains your module, the
frame that contains your ICE6800+ module, or the frame that contains a 6800+ETH module that provides access to your module.
4. Click OK to close the Add IP address dialog box, and then OK again to close the Discovery Options dialog box.
5. Click Start. Pilot or Navigator runs a discovery.
6. When your discovery is complete, Discovery Completed is displayed in the Discovery pane. To continue, click Save. The objects you have discovered are saved to the Discovery folder of the Navigation pane.
You can now switch to Control mode by selecting Operational Mode > Control from the main menu. Double-click DAS6801+ in the Navigation pane (OP+DAS modules are also referred to as DAS6801+ in the Navigator pane). The Control dialog box opens displaying the module’s controls.
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Setting DAS6801+ and OP+DAS Remote Control Parameters
The following table lists all of the remote control parameters and options for the DAS6801+ and OP+DAS. To access these parameters, you can use + Pilot Lite or CCS control software such as Pilot or Navigator. See your software user manual for more information. You can also use a web browser, if there is a 6800+ETH+HTTP in the chain of 6800+ frames. See your FR6802+QXF manual for more information. Note that rows in the table that contain a range of numbers in parentheses indicate that a series of numbered parameters contain that same function and range.
LegendA bolded option is the default setting for that parameter. Read-only parameters are shown in grey.All parameters clip unless otherwise indicated.
Table 2-12. DAS6801+/OP+DAS Parameters
Path Parameter Name
Bank/Switch Function Options or User Range
General
Serial Number Displays the module’s unique identifier
String
License Key Activates options String
Installed Options Displays activated options
Laser Wavelength Shows the wavelength of the laser submodule if the module is a OP+DAS; if the module is a DAS6801+, this parameter displays Not Installed
String
Factory Recall 0, F Recalls the factory default settings
• No • Yes
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Chapter 2: Installation and Operation
Input
Video Source Select 0, 1 Selects the source of the video input (composite/SDI)
• Auto • Composite • SDI
Video Source Priority
0, 2 Selects the priority for video input selection
• Composite • SDI
Input Video Path Reports the selected video source
• Composite• SDI
Audio Ch 1A/1B Assignment
0, 5 Assigns the source input for audio channels 1A and 1B
• AES 1 • AES 2 • Analog channel 1A/1B • Analog channel 2A/2B
Audio Ch 2A/2B Assignment
0, 6 Assigns the source input for audio channels 2A and 2B
• AES 1 • AES 2 • Analog channel 1A/1B• Analog channel 2A/2B
SDI/Unbalanced DARS Select
0, 9 Selects between SDI or unbalanced DARS input
• SDI • DARS
Input > Analog Audio
Audio Input Channel (1A to 2B) Level
0, B••0, E
Sets the specified audio channel input 0 dBFS operational level
12 dBu to 28 dBu (24 dBu)
Analog Audio Ch (1A to 2B) Present
Reports the presence of audio on the specified channel
• No• Yes
Analog Audio Ch (1A to 2B) Peak
Indicates a peak audio level on the specified channel
• No• Yes
Table 2-12. DAS6801+/OP+DAS Parameters (Continued)
Path Parameter Name
Bank/Switch Function Options or User Range
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Chapter 2: Installation and Operation
Input > AES
AES Input 1 Type Select
0, 7 Selects the type of input for AES 1 (balanced/unbalanced)
• Balanced • Unbalanced
AES Input 2 Type Select
0, 8 Selects the type of input for AES 2 (balanced/unbalanced)
• Balanced • Unbalanced
AES (1 to 2) Input Present
Reports the presence of the specified AES input
• No• Yes
AES (1A to 2B) Input Format Feedback
Reports the detected format (PCM/Non-PCM) for the specified AES input
• PCM• Non-PCM• Unknown
AES (1A to 2B) Input V-Bit Feedback
Reports the validity bit status of the specified input AES channel
• Off• On
Input > SDI
SDI Input Present Reports the presence of input SDI
• No• Yes
SDI Video Standard Set
1, 1 Selects the SDI video signal standard
• Auto • 525 • 625
SDI Video Standard Fb
Reports the detected SDI input video standard
• 525• 625• Unknown
EDH Present Reports the presence of EDH in the input SDI signal
• No• Yes
EDH Error Counter Reports the number of occurred EDH errors
0 to 32767
EDH Error Counter Clear
1, 2 Clears the EDH error counter • No • Yes
Table 2-12. DAS6801+/OP+DAS Parameters (Continued)
Path Parameter Name
Bank/Switch Function Options or User Range
DAS6801+/OP+DAS Installation and Operation Manual 55
Chapter 2: Installation and Operation
Input > Genlock/DARS
DARS Input Type Select
0, A Selects the type of DARS input (balanced/unbalanced)
• Balanced (default for SDI Selected)
• Unbalanced (default for DARS selected)
Genlock Video Present
Reports the presence of the reference video signal
• No• Yes
Genlock Video Locked
Reports the locked status of the reference video signal
• No• Yes
Genlock Video Standard Feedback
Reports the detected reference video standard
• 525• 625• Unknown
DARS Input Present Reports the presence of the DARS input signal
• No• Yes
DARS Locked to Video
Reports the locked status of the DARS input signal
• No• Yes
Input > QSEE
SDI Emb Ch (1 to 16) Average Level
Reports the average audio level -99.99 to 0 dBFS
Input > QSEE Setup
SDI Expected Video Format
14, 8 Sets the expected video format for the Format Change alarm
• 525 • 625
Composite Expected Video Format
14, 9 Sets the expected video format for the Format Change alarm
• NTSC • PAL-B• PAL-M
Luminance Low Threshold
14, A Chooses the limit below which the SDI Luma Low alarm is triggered
-6.8% to +15% of nominal 100% level (7.5%)
Luminance Peak Threshold
14, B When the luminance level meets or exceeds the value chosen here, the SDI Luma Peak alarm is triggered
90% to 108% of nominal 100% level (102%)
Table 2-12. DAS6801+/OP+DAS Parameters (Continued)
Path Parameter Name
Bank/Switch Function Options or User Range
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Chrominance Low Threshold
14, C Chooses the limit below which the SDI Chroma Low alarm is triggered
0% to +15% of nominal 100% level (0%)
Chrominance Peak Threshold
14, D When the chrominance level meets or exceeds the value chosen here, the SDI Chroma Peak alarm is triggered
90% to 108% of nominal 100% level (102%)
Video Black Threshold
14, E Chooses the limit below which the SDI Video Black alarm is triggered
0% to 10% of nominal 100% level (5.5%)
Peak Audio Threshold
14, F Determines the threshold above which the SDI Embedded Ch (01 to 16) Peaked alarms are triggered
-20 to 0 dBFS (-2 dBFS)
Low Audio Threshold
15, 1 Determines the threshold below which SDI Embedded Ch (01 to 16) Low Audio alarms are triggered
-80 to -30 dBFS (-60 dBFS)
Loss of Sound Threshold
15, 2 Determines the threshold below which SDI Embedded Ch (01 to 16) Loss of Sound alarms are triggered
-100 to -60 dBFS (-90 dBFS)
Audio Average Level Reporting
15, 3 Enables audio average level reporting
• Disable • Enable
Audio Average Level Restart
15, 4 Restarts audio level averaging for all 16 audio channels simultaneously (When you activate this parameter, it switches to On for a moment, and then returns to the Off position)
• Off • On
D-VITC Line Select 15, 5 Selects the line for D-VITC presence and continuity reporting
525: 1 to 525 (14) 625: 1 to 625 (19)
Table 2-12. DAS6801+/OP+DAS Parameters (Continued)
Path Parameter Name
Bank/Switch Function Options or User Range
DAS6801+/OP+DAS Installation and Operation Manual 57
Chapter 2: Installation and Operation
Decoder
TBC Mode 1, 3 Specifies whether or not the analog input signal is to be time-base corrected by the unit's TBC circuitry
• AutoSwitch • On• Off
TBC Active Returns the status of TBC activation
• Off• On
Composite Input Standard Set
1, 4 Selects the composite analog input video standard for the decoding circuit
• Auto • NTSC• PAL-B• PAL-M • SECAM
Composite Input Present
Reports the presence of the composite analog input video signal
• No• Yes
Composite Input Standard Feedback
Reports the detected composite input video standard
• Unknown• NTSC• PAL-B• PAL-M• SECAM
Composite Input Locked
Reports the locked status of the composite analog input video signal
• No• Yes
Composite Input Burst Present
Reports the presence of the burst signal from the composite analog input video signal
• No• Yes
Composite Input Noise Present
Reports the presence of excessive noise in the composite analog input video signal
• No• Yes
Composite Input SC/H Error
Reports the detected SC/H relationship from the composite analog input video signal
• No• Yes
Table 2-12. DAS6801+/OP+DAS Parameters (Continued)
Path Parameter Name
Bank/Switch Function Options or User Range
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Decoder Lock Mode 1, 5 Sets the locking mode for the decoder’s PLL circuit
• Sync• Auto • burst
Input Setup 4, 1 Controls the removal of SETUP (7.5 IRE) from the input video
• Present (default for NTSC and PAL-M)
• Absent (default for PAL-B)
Setup Line Select 4, 2 Selects the starting line for the removal of SETUP (7.5 IRE)
10 to 25 (22)
Fine Picture Position 4, 3 Adjusts the fine picture position
• -69.253 ns to 68.747 ns (NTSC, PALM)
• -56.205 ns to 55.795 ns (PALB) (0.000 ns)
Cable Equalizer 4, 5 Controls the activation of the cable equalizer
• On • Off
Cable Length 4, 6 Sets the length of the cable for the equalizer circuit
0 m to 300 m
Decoder > Filtering
Frame Comb Filter 1, 6 Controls the activation of the Frame Comb filter (available with the DAS68OPT+3D option only)
• Off • On
Field Comb Filter 1, 7 Controls the activation of the Field Comb filter(available with the DAS68OPT+3D option only)
• Off • On
Line Comb Filter 1, 8 Controls the activation of the Line Comb filter
• Off • On
Notch Comb Filter 1, 9 Controls the activation of the Notch Comb filter
• Off • On
Table 2-12. DAS6801+/OP+DAS Parameters (Continued)
Path Parameter Name
Bank/Switch Function Options or User Range
DAS6801+/OP+DAS Installation and Operation Manual 59
Chapter 2: Installation and Operation
Decoder > VBI Processing
VBI Field 1 Line (6 to 23) Mode
1, A•2, C
Assigns a processing mode for the specified VBI field 1 line
• Follow Act Ln (NTSC, PAL-M lines 21-23)
• Notch (NTSC, PAL-M lines 10-20, PAL-B Lines 6-23)
• Bypass to Luma• Blank
VBI Field 2 Line (6 to 23) Mode
2, D•3, F
Assigns a processing mode for the specified VBI field 2 line
• Follow Act Ln (NTSC, PAL-M lines 21-23)
• Notch (NTSC, PAL-M lines 10-20, PAL-B Lines 6-23)
• Bypass to Luma• Blank
Decoder > Enhancement
Hanover Bar Suppression
4, 4 Controls the activation of the Hanover bar suppression circuit
• Off • On
Synchronization
Frame Sync Mode 4, 8 Selects the operational mode for the video frame synchronizer
• Delay Mode• Sync Mode
Force Freeze Type 4, 9 Selects the type of forced video freeze
• Field 1 • Field 2 • Frame
Force Freeze 4, A Forces the output video to freeze
• Off • On
Loss Of Video Output Mode
4, B Selects the output video mode when the input video is disrupted
• Pass • Black • Freeze
Horizontal Phase 4, C Adjusts the horizontal timing • 0 to 63.518 μsec (NTSC, PAL-M, 525)
• 0 to 63.963 μsec (PAL-B, 625)
Table 2-12. DAS6801+/OP+DAS Parameters (Continued)
Path Parameter Name
Bank/Switch Function Options or User Range
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Vertical Phase 4, D Adjusts the vertical timing • 0 to 524 ln (NTSC, PAL-M, 525)• 0 to 624 ln (PAL-B, 625)
Video Delay 4, E Controls the amount of video delay in frames
0 frame to 20 frame
Output Video Frozen Reports the output video frozen status
• No• Yes
Audio/Video Align 5, 1 Adds a fixed delay to the video processing path to align output video and audio
• No• Yes
Test Pattern Generator
Test Pattern Select 5, 2 Selects the video test pattern to display
• 75% Color Bars • Modulated Ramp• Multiburst• Pulse & Bars
Test Pattern Enable 5, 3 Activates the internal test pattern generator
• Off • On
Video Processing
Video ProcAmp Enable
5, 4 Activates the video processing amplifier
• No• Yes
Y Gain 5, 5 Adjusts gain for the luminance (Y) channel
-3.0 to +3.0 dB (0 dB)
Cb Gain 5, 6 Adjusts gain to the chrominance (Cb) color difference component
-3.0 to +3.0 dB (0 dB)
Cr Gain 5, 7 Adjusts gain to the chrominance (Cr) color difference component
-3.0 to +3.0 dB (0 dB)
Y Offset 5, 8 Adjusts offset for the luminance (Y) channel
±100.6 mV (0 mV)
Cb Offset 5, 9 Adjusts offset for the chrominance (Cb) channel
±100.6 mV (0 mV)
Table 2-12. DAS6801+/OP+DAS Parameters (Continued)
Path Parameter Name
Bank/Switch Function Options or User Range
DAS6801+/OP+DAS Installation and Operation Manual 61
Chapter 2: Installation and Operation
Cr Offset 5, A Adjusts offset for the chrominance (Cr) channel
±100.6 mV (0 mV)
White Clip Enable 5, B Controls level clipping according to the White Clip Level parameter
• Disable • Enable
White Clip Level 5, C Sets the white clip level 636.9 to 763.1 mV (700 mV)
Black Clip Enable 5, D Controls level clipping according to the Black Clip Level parameter
• Disable • Enable
Black Clip Level 5, E Sets the black clip level -47.9 to +47.9 mV (0.0 mV)
Hue 5, F Adjusts the hue of the incoming video signal
-180 to +180° (0°)
Video Processing > VBI Processing
VBI Control Type Provides a master control for the VBI line processing
• Individual • Set All Pass• Set All Delete
VBI Line (6 to 9) Delete
Deletes to black the active video portion of the selected VBI line (625 output only)
• Off • On
VBI Line (10 to 19) Delete
Deletes to black the active video portion of the selected VBI line
• Off • On
VBI Line (20 to 22) Delete
Deletes to black the active video portion of the selected VBI line (625 output only)
• Off • On
VBI Line (272 to 282) Delete
Deletes to black the active video portion of the selected VBI line (525 output only)
• Off • On
VBI Line (318 to 335) Delete
Deletes to black the active video portion of the selected VBI line (625 output only)
• Off • On
Table 2-12. DAS6801+/OP+DAS Parameters (Continued)
Path Parameter Name
Bank/Switch Function Options or User Range
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Chapter 2: Installation and Operation
Embedding
Embedder Enable 6, 7 Activates the audio embedder • Yes • No
Audio Group (1 to 4) Exists
Reports the presence of the specified audio group in the SDI stream
• No • Yes
ADS Clean 6, 8 Cleans the Ancillary Data Space prior to audio embedding
• Off • On
Audio Group (1 to 4) Embedding Mode
6, 9••6, C
Selects the embedding mode for the specified audio group
• Off(default for Groups 2 to 4)
• Append • OverWrt • Auto
(default for Group 1)
Group (1 to 4) Append Embedding Error
Reports if an append embedding error has occurred in the specified group embedder
• No• Yes
Group (1 to 4) Overwrite Embed Error
Reports if an overwrite embedding error has occurred in the specified group embedder
• No • Yes
Audio Processing
Audio Pair (1 to 2) Src Control
7, 67, 7
Controls insertion of the audio sample rate converter in the processing path for the specified audio pair
• Auto • On • Off
Fade Rate 7, 8 Controls the rate of fading when channels are swapped or muted
0.0 s to 10.0 s (1.0 s)
V-Bit Mute Enable 6, F Activates audio channel muting upon detection of an incoming set V-bit
• No• Yes
Table 2-12. DAS6801+/OP+DAS Parameters (Continued)
Path Parameter Name
Bank/Switch Function Options or User Range
DAS6801+/OP+DAS Installation and Operation Manual 63
Chapter 2: Installation and Operation
Audio Processing > AES I/O Control
AES1 In/Out Control 0, 3 Sets AES channel 1 to be an input or output
• Input• Output
AES2 In/Out Control 0, 4 Sets AES channel 2 to be an input or output
• Input• Output
Audio Processing > Synchronization
Audio Sync Bypass 7, 1 Bypasses the audio synchronizer function
• No • Yes
Audio Track Video 6, D Automatically tracks the delay introduced by the video frame synchronizer
• No• Yes
Audio LOV Output Mode
6, E Selects the output audio mode when the input video is disrupted
• Mute • Pass
Audio Processing > Delay
Input Audio Ch (1A to 2B) Delay
7, 2••7, 5
Adjusts delay for the selected input audio channel
0.0 ms to 1320.0 ms
Audio Processing > Gain
Emb Audio Ch (1 to 16) Gain
7, 9••8, D
Adjusts gain for the specified output channel
±36.0 dB (0.0 dB)
AES Ch (1A to 2B) Output Gain
Audio Processing > Invert
Emb Audio Ch (1 to 16) Invert
8, E••10, 3
Invert control for the specified output channel
• No • Yes
AES Ch (1A to 2B) Output Invert
Table 2-12. DAS6801+/OP+DAS Parameters (Continued)
Path Parameter Name
Bank/Switch Function Options or User Range
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Audio Processing > Mute
Emb Audio Ch (1 to 16) Mute
10, 4••11, 8
Enables muting for the specified output channel
• Off • On
AES Ch (1A to 2B) Output Mute
Audio Processing > Word Length
Emb Audio Ch (1/2 to 15/16) Word Length
11, 9••12, 1
Adjusts the sample resolution for the selected output audio channel pair
• 24 bits • 20 bits • 16 bits
AES Ch (1 to 2) Output Word Length
12, 212, 3
Adjusts the sample resolution for the specified output audio AES
• 24 bits • 20 bits • 16 bits
Audio Processing > Source Selection
Emb Audio Ch (1 to 16) Source Select
12, 4••13, 4
Selects the source for the specified output channel
• Ch 1A (default: Emb Audio Ch 1, 5, 9, 13, 1A Source Select)
• Ch 1B (default: Emb Audio Ch 2, 6, 10, 14, 1B Source Select)
• Ch 2A (default: Emb Audio Ch 2, 7, 11, 15, 2A Source Select)
• Ch 2B (default: Emb Audio Ch 4, 8, 12, 16, 2B Source Select)
• Ch 1 Sum • Ch 2 Sum • Test Tone 400 Hz• Test Tone 1 kHz• Test Tone 2 kHz • Test Tone 4 kHz
AES Ch (1A to 2B) Output Source Select
13, 5••13, 8
Table 2-12. DAS6801+/OP+DAS Parameters (Continued)
Path Parameter Name
Bank/Switch Function Options or User Range
DAS6801+/OP+DAS Installation and Operation Manual 65
Chapter 2: Installation and Operation
OSD
SDI 2 Output OSD Enable
13, 9 Enables on-screen display for SDI output 2
• Off • On
SDI 3/4 Output OSD Enable
13, A Enables on-screen display for SDI outputs 3 & 4
• Off • On
OSD VU 1 Bar Enable
13, B Enables the on-screen VU meter for audio pair 1
• Off • On
OSD VU 1 Audio Source
13, C Selects the audio source to VU meter 1
• Input Ch 1A/1B • Input Ch 2A/2B • Out Emb Ch 1/2• Out Emb Ch 3/4• Out Emb Ch 5/6• Out Emb Ch 7/8• Out Emb Ch 9/10• Out Emb Ch 11/12• Out Emb Ch 13/14• Out Emb Ch 15/16• Out AES 1• Out AES 2
OSD VU 1 Bar Mode
13, D Selects the mode for on-screen display VU meter 1
• VU• PPM• VU+PPM
OSD VU 1 Bar Opaqueness
13, E Controls the opaqueness of on screen display VU meter 1
0 to 15 (5)
OSD VU 1 Bar Vertical Position
13, F Controls the vertical position of on screen display VU meter 1
• 0 to 148 (525) Default 74 • 0 to 192 (625) Default 96
OSD VU 1 Bar Horizontal Position
14, 1 Controls the horizontal position of on screen display VU meter 1
0 to 162 (15)
OSD VU 2 Bar Enable
14, 2 Activates the on-screen VU meter for audio pair 2
• Off • On
Table 2-12. DAS6801+/OP+DAS Parameters (Continued)
Path Parameter Name
Bank/Switch Function Options or User Range
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OSD VU 2 Audio Source
14, 3 Selects the audio source to VU meter 2
• Input Ch 1A/1B • Input Ch 2A/2B • Out Emb Ch 1/2• Out Emb Ch 3/4• Out Emb Ch 5/6• Out Emb Ch 7/8• Out Emb Ch 9/10• Out Emb Ch 11/12• Out Emb Ch 13/14• Out Emb Ch 15/16• Out AES 1• Out AES 2
OSD VU 2 Bar Mode
14, 4 Selects the mode for on-screen display VU meter 2
• VU• PPM• VU+PPM
OSD VU 2 Bar Opaqueness
14, 5 Controls the opaqueness of on screen display VU meter 2
0 to 15 (5)
OSD VU 2 Bar Vertical Position
14, 6 Controls the vertical position of on screen display VU meter 2
• 0 to 148 (525) Default 74 • 0 to 192 (625) Default 96
OSD VU 2 Bar Horizontal Position
14, 7 Controls the horizontal position of on screen display VU meter 2
0 to 162 (147)
Table 2-12. DAS6801+/OP+DAS Parameters (Continued)
Path Parameter Name
Bank/Switch Function Options or User Range
DAS6801+/OP+DAS Installation and Operation Manual 67
Chapter 2: Installation and Operation
LEDs and Alarms
Monitoring LEDsThe DAS6801+/OP+DAS has card-edge LEDs that serve as a quick monitoring reference. Figure 2-19 shows the position of each monitoring LED on the module. Table 2-13 on page 69 describes each LED in more detail.
Figure 2-18. Location of DAS6801+/OP+DAS LEDs
Figure 2-19. Monitoring LED Locations
Monitoring LEDsModule status LED
Bank 0
Bank 1
Bank 2
Bank 3
Auto Comp
Comp Pres
NTSC
PAL
TBC Mode
Freeze
CH1A Peak
CH1B Peak
Ch2A Peak
Ch2B Peak
Auto SDI
SDI Pres
525
625
SDI In Sel
Ref Pres
Emb Err
DARS Pres
AES1 Pres
AES2 Pres
Ch1A Silent
Ch1B Silent
Ch2A Silent
Ch2B Silent
68 DAS6801+/OP+DAS Installation and Operation Manual
Chapter 2: Installation and Operation
Table 2-13. Monitoring LEDs
LED Color Indications Meaning
Auto Comp Green Indicates auto Composite standard detection
Comp Pres Green Indicates presence of Composite input
NTSC Green Selected video standard is NTSC
PAL Green Selected video standard is PAL
TBC Mode Green The TBC mode is active
Freeze Yellow Video is frozen
Ch1A Peak Red Channel 1A audio has peaked
Ch1B Peak Red Channel 1B audio has peaked
Ch2A Peak Red Channel 2A audio has peaked
Ch2B Peak Red Channel 2B audio has peaked
Auto SDI Green Auto SDI standard detection
SDI Pres Green SDI input is present
525 Green Selected video standard is 525
625 Green Selected video standard is 625
SDI in Sel Green SDI input is selected
Ref Pres Green Composite reference is present
Embed Error Red An embedding error has occurred
DARS Pres Green DARS reference signal is present
AES 1 Pres Green Presence of AES audio on AES 1 signal
AES 2 Pres Green Presence of AES audio on AES 2 signal
Ch 1A Silence Green Channel 1A audio is silent
Ch 1B Silence Green Channel 1B audio is silent
Ch 2A Silence Green Channel 2A audio is silent
Ch 2B Silence Green Channel 2B audio is silent
DAS6801+/OP+DAS Installation and Operation Manual 69
Chapter 2: Installation and Operation
Module Status LEDsDAS6801+ and OP+DAS modules do not have any card-edge alarms. Instead, module status LEDs on the corner of the module light up if an error is detected. See Figure 2-18 on page 68 for the location of these LEDs, and Table 2-14 for a definition of the LED colors.
Note
If the LED is flashing red, contact your Customer Service representative.
Table 2-14. Module Status LED Descriptions
LED Color MeaningOff There is no power to the module; the module is not
operational.
Green There is power to the module; the module is operating properly.
Red There is an alarm condition.
Flashing red The module has detected a hardware/firmware fault.
Yellow The module is undergoing configuration.
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AlarmsIf a major or minor alarm is triggered within your DAS6801+ or OP+DAS module, the Status LED will light red. Alarms are usually logged and monitored within available software control applications (for example, + Pilot Lite or Pilot). You can only differentiate between major and minor alarms within a software control application. See the appropriate software control user manual or online help for more information. The following settings can be made for each alarm within Pilot or Navigator software:
Table 2-15. Alarm Options
Alarm Option EffectEnable/Disable This option toggles between Enabled and Disabled. If
the alarm is Enabled, an alarm condition will generate an alarm; but if it is Disabled, the alarm condition will be ignored.
Alarm priority This setting determines whether a triggered alarm will be reported as major or minor. The range is 1 - 10. A priority of 6 or higher is a major alarm, and a priority of 5 or lower is a minor alarm
Trigger (s) This option determines how long an alarm condition must exist (in seconds) before the alarm is triggered. If the alarm level is reached for less time than the Trigger duration, then the alarm will not trigger. Choose any duration from 0 to 7200 (or two hours). If this option is set to 0, the alarm will trigger as soon as the alarm condition exists.
Clear (s) Determines the amount of time the alarm condition must be in abate in order for the alarm to be turned off. Choose any duration from 0 to 7200 seconds (or two hours). If this option is set to 0, the alarm will clear as soon as the alarm condition ceases.
Ack When an alarm is active, click here to allow other users on the network to see that you have acknowledged the alarm.
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Table 2-16 describes the specific alarms for the DAS6801+ and OP+DAS. You can only identify specific alarms using a software control application.
Table 2-16. Alarm Definitions—DAS6801+/OP+DAS
Alarm Name Alarm DescriptionAlarm Option Default SettingsEnable/ Disable Priority Trigger Clear
Composite Video Loss Reports that active composite video is absent
Enabled 6 (Major) 0.1 sec 2 sec
Composite Video Burst Loss
Reports that active composite video burst is absent
Enabled 1 (Minor) 0.1 sec 2 sec
Composite Video Lock Loss
Reports that composite video lock is absent
Enabled 6 (Major) 0.1 sec 2 sec
Composite Video Noisy Reports that active composite video is noisy
Enabled 1 (Minor) 0.1 sec 2 sec
Composite Video SC/H Error
Reports that active composite video contains SC/H errors
Enabled 1 (Minor) 0.1 sec 2 sec
Composite Video Standard Mismatch
Reports that the Composite Input Standard Set parameter setting differs from the Composite Input Standard Feedback parameter; this alarm will not trigger if the Composite Input Standard Set parameter is set to Auto
Enabled 1 (Minor) 0.1 sec 2 sec
Output Video Frozen Reports that active composite video is frozen
Enabled 1 (Minor) 0.1 sec 2 sec
Loss of SDI Input Reports that SDI Input is absent
Enabled 6 (Major) 0.1 sec 2 sec
SDI Video Standard Mismatch
Reports that the SDI Video Standard Set parameter setting differs from the SDI Video Standard Fb parameter; this alarm will not trigger if the SDI Video Standard Set parameter is set to Auto
Enabled 1 (Minor) 0.1 sec 2 sec
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Group (1 to 4) Append Embedding Error
Reports that the embedder is unable to append the specified audio group due to the pre-existence of that audio group
Enabled 6 (Major) 0.1 sec 2 sec
Group (1 to 4) Overwrite Embedding Error
Reports that the embedder is unable to overwrite the specified audio group due to a lack of that audio group existing in the input SDI
Enabled 6 (Major) 0.1 sec 2 sec
DARS Input Loss Reports that DARS input is missing
Enabled 1 (Minor) 0.1 sec 2 sec
DARS Input Unlocked Reports that the DARS input signal is not locked to the reference signal
Enabled 1 (Minor) 0.1 sec 2 sec
Analog Audio Ch (1A to 2B) Peak
Reports that the specified audio channel is too high
Enabled 1 (Minor) 0.1 sec 2 sec
AES (1 to 2) Missing Reports that the specified audio channel is not present
Enabled 1 (Minor) 0.1 sec 2 sec
Reference Video Missing Reports that reference video is not present
Enabled 6 (Major) 0.1 sec 2 sec
Reference Video Not Locked
Reports that reference video is not locked
Enabled 6 (Major) 0.1 sec 2 sec
Mismatched Output/Ref Standards
Reports a mismatch between the reference video and the input video standard
Enabled 6 (Major) 1 sec 2 sec
Laser Failed (OP+DAS modules only)
Reports that the laser unit is disabled.
Enabled 6 (Major) 1 sec 2 sec
SDI Format Changed to 525
Reports when the video input format deviates from the video input standard set by the SDI Expected Video Format parameter
Enabled 1 (Minor) 2.0 sec 2.0
Table 2-16. Alarm Definitions—DAS6801+/OP+DAS (Continued)
Alarm Name Alarm DescriptionAlarm Option Default SettingsEnable/ Disable Priority Trigger Clear
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SDI Format Changed to 625
Reports when the video input format deviates from the video input standard set by the SDI Expected Video Format parameter
Enabled 1 (Minor) 2.0 2.0
Composite Format Changed to NTSC
This alarm is activated when the video input format deviates from the video input standard set by the Composite Expected Video Format parameter
Enabled 1 (Minor) 2.0 2.0
Composite Format Changed to PAL-B
This alarm is activated when the video input format deviates from the video input standard set by the Composite Expected Video Format parameter
Enabled 1 (Minor) 2.0 2.0
Composite Format Changed to PAL-M
This alarm is activated when the video input format deviates from the video input standard set by the Composite Expected Video Format parameter
Enabled 1 (Minor) 2.0 2.0
Composite Format Changed to SECAM
This alarm is activated when the video input format deviates from the video input standard set by the Composite Expected Video Format parameter
Enabled 1 (Minor) 2.0 2.0
SDI EDH Error Reports recurring EDH errors in the standard definition video signal
Enabled 1 (Minor) 2.0 2.0
Table 2-16. Alarm Definitions—DAS6801+/OP+DAS (Continued)
Alarm Name Alarm DescriptionAlarm Option Default SettingsEnable/ Disable Priority Trigger Clear
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CC EIA/CEA-608-B Missing
(525 only)
Reports that the standard definition CC data on line 21 “field 1” is not detected for a period in excess of the duration setting
Enabled 1 (Minor) 240.0 2.0
WSS Missing
(625 only)
Reports that the presence of Widescreen Signaling for Widescreen Format is not detected for a period in excess of the duration setting
Enabled 1 (Minor) 240.0 2.0
Luma Peak Reports that the luma component has exceeded the threshold defined by the Luminance Peak Threshold parameter
Enabled 1 (Minor) 240.0 2.0
Luma Low Reports that the luma component remains below the threshold defined by the Luminance Low Threshold parameter
Enabled 1 (Minor) 240.0 2.0
Chroma Peak Reports that the chroma component has exceeded the threshold defined by Chrominance Peak Threshold parameter
Enabled 1 (Minor) 240.0 2.0
Chroma Low Reports that the chroma component remains below the threshold defined by the Chrominance Low Threshold parameter
Enabled 1 (Minor) 240.0 2.0
Video Black Reports that the video level does not exceed the level defined by the Video Black Threshold parameter
Enabled 6 (Major) 240.0 2.0
Output Video Frozen Reports that the video is not moving
Enabled 6 (Major) 30.0 s 2.0 s
Table 2-16. Alarm Definitions—DAS6801+/OP+DAS (Continued)
Alarm Name Alarm DescriptionAlarm Option Default SettingsEnable/ Disable Priority Trigger Clear
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CC/XDS Data Missing
(525 only)
Reports that the CC/Extended data services on line 21 field 2 is not detected
Enabled 1 (Minor) 240.0 2.0
VChip Data Missing
(525 only)
Reports that VChip data is not present on line 21 field 2
Enabled 1 (Minor) 240.0 2.0
SDI Embedded Ch01 Peaked..SDI Embedded Ch16 Peaked
Reports that the peak audio level meets or exceeds the limit set in the Peak Audio Threshold parameter
Enabled 1 (Minor) 30.0 2.0
SDI Embedded Ch01 Loss of Sound..SDI Embedded Ch16 Loss of Sound
Peak amplitude has fallen below the limit set in the Loss of Sound Threshold parameter
Enabled 1 (Minor) 30.0 2.0
SDI Embedded Ch01 Vbit Set..SDI Embedded Ch16 Vbit Set
The V-Bit alarm occurs when a set V-Bit is detected in the embedded audio source
Enabled 1 (Minor) 1.0 2.0
SDI Embedded Ch01 Low Audio..SDI Embedded Ch16 Low Audio
Peak audio sample stays below the level set in the Low Audio Threshold parameter
Enabled 1 (Minor) 30.0 2.0
SDI Embedded Ch01 Missing..SDI Embedded Ch16 Missing
Reports if the SDI embedded audio channel is missing
Enabled 1 (Minor) 1.0 2.0
Table 2-16. Alarm Definitions—DAS6801+/OP+DAS (Continued)
Alarm Name Alarm DescriptionAlarm Option Default SettingsEnable/ Disable Priority Trigger Clear
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SDI Embedded Audio Group 1 Missing..SDI Embedded Audio Group 4 Missing
Reports that the audio in the specified group is not present
Enabled 1 (Minor) 1.0 2.0
D-VITC Missing This alarm is triggered when the D-VITC signal is not detected on the line defined by the D-VITC Line Select parameter
Enabled 1 (Minor) 30.0 2.0
ATC Missing Reports that ATC packet information is not present
Enabled 1 (Minor) 30.0 2.0
Table 2-16. Alarm Definitions—DAS6801+/OP+DAS (Continued)
Alarm Name Alarm DescriptionAlarm Option Default SettingsEnable/ Disable Priority Trigger Clear
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78 DAS6801+/OP+DAS Installation and Operation Manual
Chapter 3
Specifications
Inputs
Serial Digital Video InputTable 3-1. Serial Digital Video Input
Item SpecificationNumber of inputs 1
Connector BNC (IEC169-8)
Standard SMPTE 259M-C, 270 Mb/s, 525/625 component
Impedance 75Ω
Return loss >18 dB to clock frequency
Signal level 800 mV ±10%
Equalization Automatic up to >23 dB, 259M-C typical
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Chapter 3: Specifications
Composite Analog Video Input
System Input (Analog-to-Digital Conversion)
Table 3-2. Composite Analog Video Input
Item SpecificationNumber 1 (75Ω terminated)
Standard NTSC (SMPTE 170M), PAL-B (ITU624-2), SECAM, PAL-M
Connector BNC (IEC169-8)
Level 1.0 V pk-to-pk; ±6 dB nominal
Impedance 75Ω
Common mode range 5 V pk-to-pk
Return loss >40 dB to 6 MHz
Common mode rejection ratio
>60 dB at 50/60 Hz, 5 V pk-to-pk
Table 3-3. System Input (Analog-to-Digital Conversion)
Item SpecificationQuantization 12 bit
Setup level range ±7.5 IRE
Frequency response ±0.1 dB to 6 MHz (typical)
Signal-to-noise ratio >62 dB RMS typical
Chrominance/luminance gain error <0.1 dB
Chrominance/luminance delay error <10 nsec
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Reference Video Input
DARS Input
Table 3-4. Reference Video Input
Item SpecificationNumber of inputs 1
Connector BNC (IEC169-8) (frame only)
Input level 1 V pk-to-pk ±3 dB (nominal)
Impedance 75Ω
Table 3-5. DARS Inputs
Item Balanced Specification Unbalanced SpecificationNumber of inputs 1 1
Connector Weidmüller 22-pin locking header-socket pair
BNC (IEC169-8)
Sensitivity <200 mV < 100 mV
Standards -- AES 3, SMPTE 276M
Type -- Unbalanced, AC coupled
Impedance 110Ω ± 20% (0.1 to 6 MHz) 75Ω
Maximum input signal 10 V pk-to-pk --
Common mode rejection 0 to 7 V (0 to 20 kHz) --
Return loss -- >25 dB, 0.1 to 6 MHz
Input audio rate PCM input: 32 to 96 kHz PCM input: 32 to 96 kHz
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Chapter 3: Specifications
Analog Audio Input
AES Inputs
Table 3-6. Analog Audio Input
Item SpecificationNumber of inputs 4
Connector Weidmüller 22-pin locking header-socket pair
Input analog level 28 dBu to 12 dBu (adjustable by 1 dB increments)
CMRR >80 dB at 60 Hz, typical
Linearity <±0.5 dB (to -100 dBFS)
Frequency response <±0.05 dB (20 Hz to 20 kHz)
THD >100 dB (at -1 dBFS, 20 Hz to 20 KHz), typical
SNR >100 dB
Table 3-7. AES Inputs
Item Unbalanced Specification Balanced SpecificationNumber of inputs 2 2
Connector BNC (IEC169-8) Weidmüller 22-pin locking header-socket pair
Standards AES 3, SMPTE 276M --
Type Unbalanced, AC coupled --
Sensitivity <100 mV < 200 mV
Impedance 75Ω 110Ω ± 20% (0.1 to 6 MHz)
Return loss >25 dB, 0.1 to 6 MHz --
Input audio rate PCM input: 32 to 96 kHz PCM input: 32 to 96 kHz
Bits 16, 20, or 24 16, 20, or 24
Maximum input signal -- 10 V pk-to-pk
Common mode rejection -- 0 to 7 V (0 to 20 kHz)
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Outputs
Serial Digital Video Output
Fiber Option Video Output (OP+DAS Only)
Table 3-8. Serial Digital Video Output
Item SpecificationStandard SMPTE 259M-C, 270 Mb/s, 525/625
component
Number of outputs 4
Connector BNC (IEC169-8)
Quantization 10 bits
Impedance 75Ω
Return loss >18 dB from 5 MHz to 270 MHz
Signal level 800 mV ±10%
DC offset 0 V ±0.5 V
Rise and fall times 0.4 – 1.5 nS
Overshoot <10%
Jitter <0.2 UI (pk-to-pk)
Table 3-9. Fiber Option Video Output
Item SpecificationNumber of outputs 1
Output connector BSC2 Optical Coupler
Input level <800 mV pk-to-pk differential
Wavelength CWDM 16 channels
Sub-module fiber connector LC TOSA
Extinction ratio >8 in each channel
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Chapter 3: Specifications
Laser Output (OP+DAS Only) OP+DAS optical modules comply with laser product performance standards set by the Center for Devices and Radiological Health (except for deviations), pursuant to Laser Notice No. 50, dated July 26, 2001. Additionally, OP+DAS modules comply with the provisions of IEC 60825-1.
Table 3-10. Laser Specifications for Single-Mode and CWDM Wavelengths
Laser Module Model Wavelength (nm)
Output Optical Power
Pulse Duration
Connector Type
Laser Product Class/Laser Radiation Class
OP+DAS13S 1310 -7 dBm typical Continuous SC/PC,ST/PC, or FC/PC, as ordered
1/I
OP+DASCxxD • 1270• 1290• 1310• 1330• 1350• 1370• 1430• 1450
• 1470• 1490• 1510• 1530• 1550• 1570• 1590• 1610
0 dBm typical
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Table 3-11. Laser Specifications for Standard and High-Sensitivity DWDM Wavelengths
OP+DAS+DxyD ITU Wavelengths (nm)[19xy00 GHz (xy is from 21 to 60)]
Output Optical Power
Pulse Duration
Connector Type
Laser Product Class
Laser Radiation Class
Ch21 1560.61 Ch41 1544.53 1.68 mW Continuous SC/PC,ST/PC, or FC/PC, as ordered
I 1
Ch22 1559.79 Ch42 1543.73
Ch23 1558.98 Ch43 1542.94
Ch24 1558.17 Ch44 1542.14
Ch25 1557.36 Ch45 1541.35
Ch26 1556.55 Ch46 1540.56
Ch27 1555.75 Ch47 1539.77
Ch28 1554.94 Ch48 1538.98
Ch29 1554.13 Ch49 1538.19
Ch30 1553.33 Ch50 1537.40
Ch31 1552.52 Ch51 1536.61
Ch32 1551.72 Ch52 1535.82
Ch33 1550.92 Ch53 1535.04
Ch34 1550.12 Ch54 1534.25
Ch35 1549.32 Ch55 1533.47
Ch36 1548.51 Ch56 1532.68
Ch37 1547.72 Ch57 1531.90
Ch38 1546.92 Ch58 1531.12
Ch39 1546.12 Ch59 1530.33
Ch40 1545.32 Ch60 1529.55
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Chapter 3: Specifications
Data I/O Output
AES Outputs
Table 3-12. Data I/O Output
Item SpecificationNumber of outputs 1
Connector BNC (IEC169-8)
Impedance 75Ω
Table 3-13. AES Outputs
Item Unbalanced Specification Balanced SpecificationNumber of outputs 2 2
Connector BNC (IEC169-8) Weidmüller 22-pin locking header-socket pair
Output level -- 2.0 to 7.0 V pk-to-pk
Signal level 1.0 V pk-to-pk ±10% --
Impedance 75Ω 110Ω ± 20% (0.1 to 6 MHz)
Return loss >25 dB, 0.1 MHz to 6 MHz
Jitter < ± 20 ns, peak value ± 0 ns
DC offset 0.0 ±50 mV --
Rise/fall time 30 ns to 44 ns (10% to 90%) 5 to 30 ns (10% to 90%)
Common mode component -- >30 dB below output signal (0 to 6 MHz)
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Optical Port Item Minimum Typical Maximum NoteSingle-Mode Wavelength Module (OP+DAS+13D)
Peak wavelength (FP) 1290 nm 1310 nm 1340 nm -
Spectrum width (RMS) (FP) - 2 nm 4 nm -
Average output power (FP) -8 dBm -7 dBm -6 dBm -
Multiple Wavelength CWDM Modules (OP+DAS+CxxD)
Peak wavelength (CWDM) n-3 n1
1 n=1270, 1290, 1310, 1330, 1350, 1370, 1430, 1450, 1470, 1490, 1510, 1530, 1550, 1570, 1590, 1610 nm
n+3 -
Average output power (CWDM) -1 dBm 0 dBm +2 dBm -
Multiple Wavelength DWDM Modules (OP+DAS+DxyD)
Center frequency (DWDM) (19xy00-10) GHz
19xy00 GHz (19xy00+10) GHz
The xy values are from 21 to 60. The wavelength in nanometers is calculated from 299792458, divided by the frequency in GHz. For example, light with a frequency of 192100 GHz is in a wavelength of 1560.61 nm
Average output power (DWDM) +1 dBm +2 dBm +3dBm
All Modules
Extinction ratio 6 dB 8 dB - 2.1 GHz filter(fourth order Bessel)
Optical rise time - - 135 ps No filter; 20% to 80%
Optical fall time - 135 ps 150 ps No filter; 20% to 80%
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Chapter 3: Specifications
Propagation Delay (Delay Mode)
3D comb adds 1 frame delay in any mode.
Table 3-14. SDI Input to SDI Output Delay (D/D)
SDI Input Standard With Audio/Video Align parameter set to Off
With Audio/Video Align parameter set to On
525 19.1 μs 4.98 ms
625 19.1 μs 4.89 ms
Table 3-15. Composite Input to SDI Output Delay (A/D)
Composite Input Standard With Audio/Video Align parameter set to Off
With Audio/Video Align parameter set to On
TBC Off NTSC 90 μs 5.04 ms
PAL-B 91 μs 4.96 ms
PAL-M 91 μs 5.05 ms
TBC On NTSC 166 μs 5.12 ms
PAL-B 231 μs 5.10 ms
PAL-M 230 μs 5.19 ms
Table 3-16. Audio Delay
Audio Path Propagation DelayAES in to AES out PCM mode 3.7 ms
Non-PCM mode 860 μs
Analog audio in to AES out 3.7 ms
AES audio in to embedded audio out PCM mode 4.3 ms
Non-PCM mode 1.5 ms
Analog audio in to embedded audio out 4.3 ms
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Power ConsumptionThe power consumption for DAS6801+/OP+DAS modules is <12 W.
Operating TemperatureThe operating temperature for DAS6801+/OP+DAS modules is 41° to 113°F (5° to 45°C).
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Chapter 3: Specifications
90 DAS6801+/OP+DAS Installation and Operation Manual
Appendix A
Audio Bit Manipulation
OverviewThe tables in this appendix contain information on the manipulation of bits that occur when you use DAS6801+ and OP+DAS modules.
Table A-1. Description of Short Forms in the Appendix
RX Key TX Key Sample Rate Indication Audio Word LengthN=Not recognized N=Not
transmittedByte 0 Bits [6,7],Byte 4 Bits [3,4,5,6]• [00,0100] = 96 kHz• [01,0000] = 48 kHz• [11,0000] = 32 kHz• [00,1000] = 24 kHz• [00,0101] = 88.2 kHz• [10,0000] = 44.1 kHz• [00,1001] = 22.05 kHz
Byte 2 Bits [0,1,2]• [000] = Maximum word length 20
bits (auxiliary bit use not indicated)
• [001] = Maximum word length 24 bits (auxiliary bits used for audio)
Byte 2 Bits [3,4,5]• [100] = Encoded word length
=Maximum word length - 4 bits• [101] = Encoded word length
=Maximum word length - 0 bits
Y=Recognized Y=Transmitted
S=Recognized and stored, passed-through, or both
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Appendix A: Audio Bit Manipulation
Manipulating Channel Status Bits (C-Bit)Table A-2. Channel Status (C-Bits) Data Description
Byte Bit Function RX TX Remarks
0 0 [0] Consumer use [1] Professional use
N Y
NY
• RX ignores bit• TX sets bit to 1
0 1 [0] Normal Audio Mode (linear PCM)[1] Non-audio (non-PCM)
SS
YY
• RX sets up audio channel to pass data (Gain=0 dB, Invert=off)
• TX bit passed unmodified or forced, according to Output Chxx Format and Out Chxx Format Fb parameters
0 2 to 4 [000] Not indicated [100] No emphasis [110] 50/15 µs [111] CCITTJ17
SSSS
YYYY
• RX ignores bits• TX passed bits
unmodified
0 5 [0] Locked [1] Unlocked
N N
Y N
• RX ignores bits• TX sets bit to [0]
0 6 to 7 [00] Not indicated [01] 48 kHz [10] 44.1 kHz [11] 32 kHz
YYYY
N YNN
• RX ignores bits • TX sets bits to [01]
1 0 to 3 [0000] Not indicated [0001] Two channel [0010] Mono [0011] Prim/sec [0100] Stereo [0101] to [1111] Undefined
NNNNNN
YNNNNN
• RX ignores bits • TX sets bits to [0000]
1 4 to 7 [0000] Not indicated [0001] 192 bit block [0010] AES18 (HDLC) [0011] User defined [0100] to [1111] Undefined
SSSSS
Y YYYY
• RX ignores bits• TX passes bits
unmodified
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Appendix A: Audio Bit Manipulation
2 0 to 2 [000] Aux. bit use is not indicated[001] Aux. bit use is audio data[010] Aux. bit use is co-ordination signal[011] to [111] Undefined
N N N N
YYNN
• RX ignores bits• TX sets bits according to
transmitted word length
2 3 to 5 [000] Not indicated [001] Max length - 1 [010] Max length - 2 [011] Max length - 3 [100] Max length - 4 [101] Max length [110] to [111] Undefined
N N N N N N N
NNN NY YN
• RX ignores bits• TX sets bits according to
transmitted word length
2 6 to 7 [00] Alignment level not indicated[01] Alignment to SMPTE RP155[10] Alignment to EBU R68[11] Reserved
N Y • RX ignores bits• TX sets bits to [00]
3 0 to 6 bit 7 = 0: Channel numberbit 7 = 1: [0,1,2,3] Channel number
[4,5,6] Multi-channel mode
N Y • RX ignores bits• TX sets bits to [0000000]
3 7 [0] Undefined multi-channel mode[1] Defined multi-channel mode
N Y • RX ignores bits• TX sets bits to [0]
4 0 to 1 [00] Not a reference [01] Grade 1 reference [10] Grade 2 reference [11] Undefined
N N N N
Y N NN
• RX ignores bits• TX sets bits to [00]
4 2 Reserved N Y • RX ignores bits• TX sets bits to [0]
Table A-2. Channel Status (C-Bits) Data Description (Continued)
Byte Bit Function RX TX Remarks
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Appendix A: Audio Bit Manipulation
4 3 to 6 [0000] Not indicated[1000] 24 kHz[0100] 96 kHz[1100] 192 kHz[1001] 22.05 kHz[0101] 88.2 kHz[1101] 176.4 Hz[1111] User defined
N Y • RX ignores bits• TX sets bits to [0000]
4 7 [0] Sample frequency not scaled[1] Sample frequency scaled by 1/1.001
N Y • RX ignores bits• TX sets bits to [0]
5 0 to 7 Reserved N Y • RX ignores bits• TX sets bits to
[00000000]
6 to 9 0 to 7 Alphanumeric channel origin data S Y • RX ignores bits• TX passed bits
unmodified
10 to 13 0 to 7 Alphanumeric channel destination data S Y • RX ignores bits• TX passed bits
unmodified
14 to 17 0 to 7 Local sample address code S Y • RX ignores bits• TX passed bits
unmodified
18 to 21 0 to 7 Time-of-day sample address code S Y • RX ignores bits• TX passed bits
unmodified
22 0 to 3 Reserved N Y • RX ignores bits• TX passed bits
unmodified
22 4 Bytes 0 to 5 reliability flag N Y • RX ignores bits• TX passed bits
unmodified
Table A-2. Channel Status (C-Bits) Data Description (Continued)
Byte Bit Function RX TX Remarks
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Appendix A: Audio Bit Manipulation
Manipulating Validity and User Bits (V-Bit and U-Bit)
22 5 Bytes 6 to 13 reliability flag S Y • RX ignores bits• TX passed bits
unmodified
22 6 Bytes 14 to 17 reliability flag S Y • RX ignores bits• TX passed bits
unmodified
22 7 Bytes 17 to 21 reliability flag S Y • RX ignores bits• TX passed bits
unmodified
23 0 to 7 CRC Y Y • RX ignores bits• TX calculates CRC on
output
Table A-2. Channel Status (C-Bits) Data Description (Continued)
Byte Bit Function RX TX Remarks
Table A-3. V-Bit and U-Bit Data Descriptions
Item RX TX Remarks Validity (V) bit S Y • RX optionally mutes data if
enabled• TX passes bit unmodified
User (U) bit S Y • RX ignores bits• TX passed bits unmodified
DAS6801+/OP+DAS Installation and Operation Manual 95
Appendix A: Audio Bit Manipulation
Identifying Audio Characteristics(Audio Sampling Frequency and Word Length)
Table A-4. Audio Sampling Frequency and Word Length
Item Remarks Audio sampling frequency • RX: 32 to 108 kHz
• TX: 48 kHz
Audio word length • RX: 16 to 24 bits• TX: 16 to 24 bits
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Appendix B
Laser Safety Guidelines
Laser Safety
Optical fiber telecommunication systems use semiconductor laser transmitters that emit infrared light normally not visible to the human eye. Although a conventional laser produces a small beam of light, the power density is very high, and it can damage your eyes.If a beam of laser light enters the eye, the eye magnifies and focuses the energy on the retina. The energy that reaches the retina can be as much as 100,000 times more than at the cornea and, as a result, it can burn the retina. Laser transmission products are classified in four major groups (Class 1, 2, 3, and 4), according to their emissions and potential for causing injury. Fiber optic transmitter modules in this series are designated Class 1.
WARNINGUse of controls, adjustments, and procedures other than those specified in this document may result in hazardous laser radiation exposure.
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Appendix B: Laser Safety Guidelines
Precautions for Enclosed SystemsIn its normal operating mode, an optical fiber communication system is totally enclosed and presents no risk of eye injury. However, if the fiber optic cables that interconnect various components of an optical fiber disconnect or break, you may be exposed to laser emissions. Also, technicians may be exposed to laser emissions during installation and servicing. Unlike some other laser designs, semiconductor lasers have a highly divergent beam that decreases rapidly with distance. The greater the distance, the less energy will enter the eye, and the less potential risk for eye injury.
Under normal operating conditions, optical fiber telecommunication systems are completely enclosed; nonetheless, observe the following precautions: 1. Do not stare into optical connectors or broken fibers. 2. Ensure technicians have satisfactorily completed an approved
training course before performing installation or maintenance.3. Ensure there are appropriate warning labels near the optical ports of
the modules.
Precautions for Unenclosed SystemsDuring service, maintenance, or restoration, an optical fiber telecommunication system is considered unenclosed. Under these conditions, follow these practices:
1. Avoid exposing the eye to emissions from unterminated, energized optical connectors at close distances.
WARNINGEye damage may occur if an optical instrument such as a microscope, magnifying glass, or eye loupe is used to stare at the energized fiber end.
CAUTIONOnly authorized, trained personnel shall be permitted to do service, maintenance, and restoration.
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Appendix B: Laser Safety Guidelines
2. Ensure that only authorized, trained personnel use optical test equipment during installation or servicing.
3. Turn off all laser sources before scanning a fiber with an optical test set.
4. Keep all unauthorized personnel away from the immediate area of the optical fiber systems during installation and service.
For guidance on the safe use of optical fiber communication systems in the workplace, consult ANSI Z136.2, American National Standard for Safe Use of Lasers in the U.S., or outside the U.S., IEC-60825, Part 2.
LabelsThe label shown in Figure B-1 is applicable to Class 1 laser products.
Figure B-1. Label for Class 1 Laser Products
CLASS 1LASER PRODUCT
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Appendix B: Laser Safety Guidelines
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Appendix C
Communication and ControlTroubleshooting Tips
Software Communication ProblemsThe frame is powered up, but the module does not communicate with + Pilot Lite or CCS Pilot/Navigator.Solutions• Ensure you have specified the proper module slot.
See your frame Installation and Operation Manual for more information about slot identification.
• Verify whether there is an ICE6800+ or 6800+ETH module installed in the frame.
• Remove any legacy 6800 series product that is in the frame.+ Pilot Lite and CCS software cannot communicate with legacy 6800 series products, even though these modules may operate with card-edge controls in an FR6802+ frame. Legacy 6800 products do not have the “+” symbol on their extractor handles.
• Check for bent pins on the back module by following this procedure:a. Unplug the front module. b. Unscrew and remove the back module.c. Inspect the 20- or 30-pin spring connector at the bottom of the
back module (Figure C-1 on page 102), and verify that the connector does not have any slightly bent or pressed pins.
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Appendix C: Communication and Control Troubleshooting Tips
d. Carefully reposition any bent pins. If this is not possible, contact Customer Support.
Figure C-1. Typical Back Module Spring Connector
The frame is powered up, but + Pilot Lite does not communicate with the module.Solutions• Ensure you have installed the correct cables between the PC and the
frame:• A null modem serial cable must be used between a PC and an
FR6802+ frame (not a straight-through cable). At minimum, this requires that pins 2 and 3 are crossed, but pin 5 (ground) is straight-through to pin 5.
• A USB cable must be used between a PC and an FR6802+QXF frame.
• Verify whether there is an ICE6800+ or 6800+ETH module installed in the frame.• + Pilot Lite control is disabled if an ICE6800+ or 6800+ETH
control module is installed in the frame.• Set the Frame ID DIP switch settings correctly (the Frame ID DIP
switch is located at the rear of the frame.)• If only one frame is connected, set the DIP switch to 00.
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Appendix C: Communication and Control Troubleshooting Tips
• If multiple frames are used in a daisy-chain, set the DIP switch numbers consecutively to the following:• 00 (frame 1)• 01 (frame 2)• 10 (frame 3• 11 (frame 4)
See your FR6802+ Frame Installation and Operation Manual for more information about frame ID switch settings.
• Check that the correct COM port is configured in + Pilot Lite and that another application is not using that COM port.
+ Pilot Lite and CCS software see the frame, but do not find all of the modules.Solutions• Remove any legacy 6800 series products.• Plug your modules in before starting the discovery.• Start your discovery after the frame and all modules have fully
powered up.• Refresh + Pilot Lite (File > Refresh), and ensure that the installed
modules are fully powered up first before discovery.
+ Pilot Lite and CCS Pilot/Navigator do not respond after they have been launched.SolutionClose either + Pilot Lite or CCS Pilot/Navigator. Both programs cannot be running at the same time on the same PC.
+ Pilot Lite and CCS software show a module in the Control window, but cannot control it.Solution1. Set the module’s Local/Remote jumper to Remote.2. Ensure the module name in the Control window matches the
module type in the frame. 3. Gently push the module into its slot in the frame to ensure it is
seated properly and powered up.4. Verify that the Control window indicates the device is ready.
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Appendix C: Communication and Control Troubleshooting Tips
Hardware Communication ProblemsAfter a power failure, the frames and PC do not communicate.Solution1. Wait four minutes for the frames to recover from the power failure.2. Close the + Pilot Lite or CCS software, and then restart the PC.3. Restart the software application.
The module does not seem to work.Solutions• Ensure the correct frame is powered up.• Verify that all appropriate rear connections are secure.• Gently push the module into its slot in the frame to ensure it is
seated properly.• Ensure the back module does not have bent pins by following this
procedure:a. Unplug the front module. b. Unscrew and remove the back module.c. Inspect the spring connector at the bottom of the back module
(Figure C-1), and verify the connector does not have any slightly bent or pressed pins.
d. Carefully reposition any bent pins. If this is not possible, contact Customer Support.
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Index
KeywordsAAcknowledge, alarm 71ADS (ancillary data stripper) 32
ADS clean parameter 41AES input specification 82AES output specifications 86Alarms 68, 72
CCS definitions 72module-specific 72–73priority 71
Analog audio input specification 82Analog-to-digital conversion specification 80Ancillary data 31Append embedding 33, 34Audio
AES input specification 82analog input specification 82bit manipulation 91embedding 38, 63Invert parameter 38, 47, 64Mute parameter 63, 65sampling frequency 96Source Select parameter 65test tone 31, 39, 65word length 41, 47, 65
BBack connector 5, 17, 19Balanced audio
input specification 82output specifications 86
Bank selection 49Black clip 62
CCard-edge controls 49C-bit 92CCS applications
changing parameter settings 51–52refreshing and discovering modules 52troubleshooting 103
Changing parameters 49Channel status bits 92Channel word length 41CJ1 jumper 12, 14Clean, ADS 41Cleaning fiber optic connections 19–22Clear, alarm 71Composite analog video input specification 80Control LEDs 49Control packet 32Controls, card-edge 49Correcting failed upgrades 26Cross section of optical fiber 20
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Index
DDARS input specification 81Data I/O specification 86Decoder, 3D, enabling 30Default parameter settings 51Defects in a fiber connection 20Delay, input audio 64Discovering a module 52Dry cleaning 21
EEmbed Mode parameters 32Embedder, ancillary data 31Embedding audio 38, 63
FFactory default settings 51, 53Features 2Fiber optic specifications 83Firmware upgrading 23–28FR6802+ frames 10Frame power ratings 10Front module
installation and removal 16–19
GGain parameters 64
HHardware version 51
IInputs
AES specification 82specifications 79video specification 80
Inspecting and cleaning fiber connections 19–22
Installation 15, 16–19Invert audio 38, 47, 64
JJumpers 11–14
audio output impedance 13CJ1 for local/remote control 12, 14SDI or configurable outputs 14
LLaser output specifications 84Laser precautions 16–18, 98–99LEDs 68
control 49module status 70monitoring 68, 69
License key 30Local control 49
jumper for setting 12, 14
MManipulating channel status bits 92Manipulating validity bits 95Module status LEDs 70Modules
back 17, 19front 18installation and removal 16–22
Monitoring LEDs 68, 69Mute audio 63, 64, 65Mute parameter 65
NNavigation Properties dialog box 27Navigation switch 50Navigator 103
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Index
OOP+DAS+ specifications 83Operating temperature 89Optical output specifications 83Outputs
audio channel source 31data I/O 86laser specifications 84test tone 31video specifications 83
Overwrite embedding 36
PParameters
changing using CCS applications 51–52cross-functional changes 41defaults 53remote control 53–67setting at card edge 49
Phase, horizontal and vertical 60+ Pilot Lite 101–103Pilot 103Power
consumption specifications 89ratings 10
Power failure 104Priority, alarm 71Product servicing ixPropagation delay specifications 88
QQ-SEE compliant alarms 71–77Q-SEE compliant thumbnails 29
RRecalling default parameter settings 51Reference video input specification 81Refreshing a module with + Pilot Lite 52Remote control 12, 14
Removing a module 19Reset factory defaults 51Returning a product ixRoHS-compliance xRotary switch 49
SSafety
general precautions xiiiprecautions with lasers 98–99
Sampling frequency 96Serial digital video input specification 79Serial number 53Setting jumpers 11–14Signal flow 7Software
controlling module 51–52upgrading 23–28version 51
Source Select parameter 65Specifications 79–89
AES inputs 82AES outputs 86analog audio input 82analog-to-digital conversion 80composite analog video input 80DARS input 81data I/O output 86fiber optic video output 83laser output 84power consumption 89reference video input 81serial digital video input 79serial digital video output 83system input 80temperature 89
StandardsRoHS compliance xWEEE compliance xi
System input specifications 80
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Index
TTemperature 89Test tone frequencies 31Thumbnails, Q-SEE compliant 29Trigger, alarm 71Troubleshooting 101–104
+ Pilot Lite 101–103hardware issues 104Navigator 103Pilot 103upgrade procedure 26
UUnbalanced audio
input specification 82output specification 86
Upgrading module software 23–28User bits (U-bits) 95
VValidity bits (V-bits) 95Video
Gain parameters 61input specification 80Offset parameters 61output specifications 83ProcAmp Enable 61, 62
WWEEE compliance xiWet cleaning 22White clip 62Word length 41, 65, 96Writing conventions viii
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