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9922-FS
Users Guide
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Cobalt Digital 9922-FS Users Guide

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Page 1
9922-FS
9922-FS
3G/HD/SD-SDI Frame Sync
De-Embedding, CVBS I/O, and Dual-Channel Option (+2FS)
Product Manual
Cobalt Digital Inc.
2506 Galen Drive Champaign, IL 61821 Voice 217.344.1243 • Fax 217.344.1245 www.cobaltdigital.com
9922FS-OM (V1.8)
Page 2
Copyright
©Copyright 2018, Cobalt Digital Inc. All Rights Reserved.
Duplication or distribution of this manual and any information contained within is strictly prohibited without the express written permission of Coba lt Digital Inc. This manual and a ny information contained within, may not be re produced, distribute d, or transmitted in any form, or by any means, for any purpose, without the express written permission of Cobalt Digital Inc. Reproduction or reverse engineering of software used in this device is prohibited.
Disclaimer
The information in this document has been carefully examined and is believed to be entirely reliable. However, no responsibility is assumed for inaccuracies. Furthermore, C obalt Digit al Inc. res erves the right to ma ke changes to any pro ducts herein to improve readability, function, or design. Cobalt Digital Inc. does not assume any liability arising out of the application or use of any product or circuit described herein.
Trademark Information
Cobalt® is a registered trademark of Cobalt Digital Inc. openGear Dolby
property of their respective owners.
®
is a registered trademark of Ross Video Limited. DashBoard™ is a trademark of Ross Video Limited.
®
is a registered trademark of Dolby Laboratories, Inc. Other product names or trademarks appearing in this manual are the
Congratulations on choosing the Cobalt AES/Analog Audio Embedding /De-Embe dding, CV BS I/O, and Dua l-Channel Option (+2 FS). The 992 2-FS is part of a full line of modular processing and conversion gear for broadcast TV environments. The Cobalt Digital Inc. line includes video decoders and encoders, audio embedders and de-embedders, distribution amplifiers, format converters, remote control system s and much more. Should you have questions pertaining to the installation or operation of your 9922-FS, please contact us at the contact information on the front cover.
®
9922-FS 3G/HD/SD-SDI Frame Sync with Audio/Video Processing,
Manual No.: 9922FS-OM Document Version: V1.8 Release Date: February 23, 2018 Applicable for
Firmware Version
V2.031 or greater
(or greater): Description of
product/manual changes:
- Update manual for latest card functionality, including new standard feature and available options. (This firmware version has significant user interface changes versus prior firmware versions and the use of this new Product Manual is strongly recommended.)
- Correction to manual to show correct illustration for rear I/O module RM20-9922-FS-C. Previous illustration did not show full complement of SDI OUT connectors.
9922FS-OM (V1.8)
Page 3
Table of Contents
Chapter 1 Introduction . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . 1-1
Overview ............................................................................................................................. 1-1
9922-FS Card Software Versions and this Manual............................................................. 1-2
Cobalt Reference Guides..................................................................................................... 1-2
Manual Conventions............................................................................................................ 1-3
Warnings, Cautions, and Notes.............................................................................. 1-4
Labeling Symbol Definitions ................................................................................. 1-4
Safety and Regulatory Summary......................................................................................... 1-5
Warnings................................................................................................................. 1-5
Cautions.................................................................................................................. 1-5
EMC Compliance Per Market................................................................................ 1-5
9922-FS Functional Description.......................................................................................... 1-6
9922-FS Input/Output Formats............................................................................... 1-6
Video Processor Description.................................................................................. 1-8
Audio Processor Description ................................................................................ 1-14
Control and Data Input/Output Interfaces............................................................ 1-16
Alarm Function..................................................................................................... 1-17
User Control Interface.......................................................................................... 1-18
9922-FS Rear I/O Modules .................................................................................. 1-20
Technical Specifications.................................................................................................... 1-20
Warranty and Service Information .................................................................................... 1-23
Cobalt Digital Inc. Limited Warranty .................................................................. 1-23
Contact Cobalt Digital Inc................................................................................................. 1-24
Chapter 2 Installation and Setup . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . 2-1
Overview ............................................................................................................................. 2-1
Installing the 9922-FS Into a Frame Slot............................................................................. 2-1
Installing a Rear I/O Module............................................................................................... 2-3
9922-FS Rear I/O Modules .................................................................................... 2-4
GPIO, Serial (COMM), and Analog Audio Connections.................................................. 2-10
Setting Up 9922-FS Network Remote Control.................................................. ......... ....... 2-10
Chapter 3 Operating Instructions. . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . 3-1
Overview ............................................................................................................................. 3-1
Control and Display Descriptions........................................................................................ 3-1
Function Menu/Parameter Overview ..................................................................... 3-2
DashBoard User Interface .................................................................................. 3-3
®
Cobalt
Web HTML5 User Interface .................................................................................. 3-5
9922FS-OM (V1.8) 9922-FS PRODUCT MANUAL i
Remote Control Panel User Interfaces...................................................... 3-4
Page 4
Accessing the 9922-FS Card via Remote Control............................................................... 3-6
Accessing the 9922-FS Card Using DashBoard................................................. 3-6
Accessing the 9922-FS Card Using a Cobalt
®
Remote Control Panel .................. 3-7
Checking 9922-FS Card Information.................................................................................. 3-8
Ancillary Data Line Number Locations and Ranges........................................................... 3-9
9922-FS Function Menu List and Descriptions ................................................................ 3-10
Input Video Controls ........................................................................................... 3-11
Timecode ............................................................................................................. 3-12
Reticules .............................................................................................................. 3-17
Output Video Mode Controls .............................................................................. 3-20
Framesync ........................................................................................................... 3-21
Input Audio Status ............................................................................................... 3-24
Input Audio Routing/Controls ............................................................................. 3-25
Video Quality Events .......................................................................................... 3-30
Audio Detect Events Setup Controls ................................................................... 3-31
Closed Captioning ............................................................................................... 3-32
Video Proc/Color Correction .............................................................................. 3-33
Output Audio Routing/Controls .......................................................................... 3-36
Character Burner ................................................................................................. 3-41
Moving Box Insertion ......................................................................................... 3-46
Y/C Alignment Controls ..................................................................................... 3-47
Wings Insertion ................................................................................................... 3-48
Keyer ................................................................................................................... 3-49
Ancillary Data Proc Controls .............................................................................. 3-52
COMM Ports Setup Controls .............................................................................. 3-55
Presets .................................................................................................................. 3-57
GPO Setup Controls ............................................................................................ 3-58
Event Setup Controls ........................................................................................... 3-59
Admin (Log Status/Firmware Update - Card IP Address) .................................. 3-63
User Log .............................................................................................................. 3-65
Alarms Setup Controls ........................................................................................ 3-66
Troubleshooting.................................................................................................................3-70
Error and Failure Indicator Overview.................................................................. 3-70
Basic Troubleshooting Checks............................................................................. 3-74
9922-FS Processing Error Troubleshooting......................................................... 3-75
Troubleshooting Network/Remote Control Errors............................................... 3-76
In Case of Problems ............................................................................................. 3-76
ii 9922-FS PRODUCT MANUAL 9922FS-OM (V1.8)
Page 5

Overview

Chapter 1

Chapter 1 Introduction

This manual provides installation and operating instructions for the 9922-FS 3G/HD/SD-SDI 3G/HD/SD-SDI Frame Sync with Audio/Video Processing, AES/Analog Audio Embedding/De-Embedding, CVBS I/O, and Dual-Chan nel Option (+2FS) card (also referred to herein as the 9922-FS).
This manual consists of the following chapters:
Chapte r 1, Introduction– Provides informati on about this manual
and what is covered. Als o pr ovi des general information re gar di ng the 9922-FS.
Chapter 2, Installation and Setup” – Provides instructio ns for
installing the 9922- FS i n a fr ame, and optionally install ing a 9922-FS Rear I/O Module.
Chapter 3, Operating Instructions” – Provides overviews of
operating controls and instructions for using the 9922-FS.
This chapter contains the following information:
9922-FS Card Software Versions and this Manual (p. 1-2)
Manual Conventions (p. 1-3)
Safety and Regulatory Summary (p. 1-5)
9922-FS Functional Description (p. 1-6)
Technical Sp ecifications (p. 1-20)
Warranty and Service Information (p. 1-23)
Contact Cobalt Dig ital Inc. (p. 1-24)
9922FS -OM (V1.8) 9922-FS PRODUCT MANUAL 1-1
Page 6
1 9922-FS Card Software Versions and this Manual

9922-FS Card Software Versions and this Manual

When applicable, Cobalt Digital Inc. provides for continual product enhancements through software updates. As such, functions described in this manual may pertain specifically to cards loaded with a particular software build.
The Software Version of your card can be checked by viewing the Ca r d I n fo menu in DashBoard. See Checking 9922-FS Card Information (p. 3-8) in Chapter 3, Operating Instructio ns for more infor mation. You can then check our website for the lates t software version currently released for the card as described below.
Note: Not all functionality described in this manual may appear on cards with initial
software versions.
Check our website and proceed as follows if your card’s software does not match the latest versi on:
Card Software earlier than latest version
Card Software newer than version in manual
Card is not loaded with the latest software. Not all functions and/or specified performance described in this manual may be available.
You can update your card with new Update software by going to the Support>Firmware Do wnloads link at www.cobaltdigital.com. Download Firmware Update Guide, which provides simple instructions for downloading the latest firmware for your card onto your computer, and then uploading it to your card through DashBoard™.
Software updates are field-installed with out an y need to remove the card from its frame.
A new manual is expediently released whenever a cards software is updated and specifications and/or functionality have changed as compared to an earlier version (a new manual is not necessarily released if specifications and/or functionality have not changed). A manual earlier than a cards softw a re version may not completely or accurately describe all functions available for your card.
If your card shows features not described in this manual, you can check for the latest manual (if applicable) and download it by going to the cards web page on www.cobaltdigital.com.

Cobalt Reference Guides

From the Cobalt® web home page, go to Support>Referen ce Docum ents for easy to use guides covering network remote control, card firmware updates, example card processing UI setups and other topics.
1-2 9922-FS PROD UCT MANUAL 9922FS-OM (V1.8)
Page 7
Introduction Manual Conventions

Manual Conventions

In this manual, display messages and connectors are shown using the exact name shown on the 9922-FS itself. Examples are provided below.
Card-edge display messages are shown like this:
BOOT
Connector names are shown like this: SDI IN A
In this manual, the terms below are applicable as follows:
9922-FS refers to the 9922-FS 3G/HD/SD-SDI Frame Sync with
Audio/Video Processing, AES/Analog Audio Embedding/ De-Embedding, CVBS I/O, and Dual-Channel Option (+2FS) card.
Frame refers to the HPF-9000, OG3-FR, 8321, or similar 20-slot
frame that houses Cobalt
Device and/or Card refers to a Cobalt
System and/or Video System refers to the mix of interconnected
®
or other cards.
®
or other card.
production and terminal equipment in which the 9922-FS and other cards operate.
Functions and/or features that are available only as an option are
denoted in th is manual like this:
Most options are covered in this manual. However, if your card has DashBoard tabs that are not describe d in this manual it indicates that the optional function/feature is covered in a separate Manual Supplement.
If your have not received a Manual Supplement for options on your card, you can download a pdf for the option by going to the card’s web page and clicking on
Product Downloads, where you can select
from any available option Manual Supplements for the card.
9922FS-OM (V1.8) 9922-FS PRODUCT MANUAL 1-3
Page 8
1 Manual Conventions

Warnings, Cautions, and Notes

Certain items in this manual are highlighted by special messages. The definitions are provided below.
Warnings
Warning messages indicate a possible hazard which, if not avoided, could result in personal injury or death.
Cautions
Caution messages indicate a problem or incorrect practice which, if not avoided, could result in improper operation or damage to the product.
Notes
Notes pro vide suppl emental information to the accompanying text. Notes typically precede the text to which they apply.

Labeling Symbol Definitions

Important note regarding product usage. Failure to observe may result in unexpected or incorrect operation.
Electronic device or assembly is susceptible to damage from an ESD event. Han dle only using appropriate ESD prevention practices.
If ESD wrist strap is not available, handle card only by edges and avoid contact with any connectors or components.
Symbol (WEEE 2002/96/EC) For product disposal, ensure the following:
Do not dispose of this product as unsorted municipal waste.
Collect this product separately.
Use collection and return systems available to you.
1-4 9922-FS PROD UCT MANUAL 9922FS-OM (V1.8)
Page 9
Introduction Safety and Regulatory Summary

Safety and Regulatory Summary

Warnings

! WARNING !

Cautions

CAUTION
CAUTION
CAUTION
CAUTION
CAUTION
CAUTION
T o re duce risk of electr ic shock do not remove line voltage service barrier cover on frame equipment containing an AC power supply. NO USER SERVICEABLE PARTS INSIDE. REFER SERVICING TO QUALIFIED SERVICE PERSONNEL.
This device is intended for environmentally controlled use only in appropriate video terminal equipment operating environments.
This product is intended to be a component product of an openGear® frame. Refer to the openGear® frame Owner's Manual for important safety instructions regarding the proper installation and safe operation of the frame as well as its component products.
Heat and power distribution requirements within a frame may dictate specific slot placement of cards. Cards with many heat-producing components should be arranged to avoid areas of excess heat build-up, particularly in frames using only convection cooling. The 9922-FS has a moderate power dissipation (<18 W). As such, avoiding placing the card adjacent to other cards with similar dissipation values if possible.
If required, make certain Rear I/O Module(s) is installed before installing the 9922-FS into the frame slot. Damage to card and/or Rear I/O Module can occur if module installation is attempted with card already installed in slot.
If card resists fully engaging in rear I/O mod ule mating connec tor, check for alignment and proper insertion in slot tracks. Damage to card and/or rear I/O module may occur if improper card insertion is attempted.
The 9922-FS FPGA is designed for a normal-range operating temperature around 85° C core temperature. Operation in severe conditions exceeding this limit for non-sustained usage are within device operating safe parameters, and can be allowed by setting this control to Disable. However, the disable (override) setting should be avoided under normal conditions to ensure maximum card protection.

EMC Compliance Per Market

Market Regulatory Standard or Code United States of America FCC "Code of Federal Regulations" Title 47 Part15, Subpart B, Class A Canada ICES-003 International CISPR 24:2010
IEC 61000-4-2:2008 IEC 61000-4-3:2006 with A1:2007 and A2:2010 IEC 61000-4-4:2004 IEC 61000-4-6:2008 IEC 61000-6-3:2006 with A1:2010 CISPR 22:2008
9922FS-OM (V1.8) 9922-FS PRODUCT MANUAL 1-5
Page 10
1 9922-FS Functional Description

9922-FS Functional Description

Figure 1-1 shows a functional block diagram of the 9922-FS. The 9922-FS frame sync also includes AES/analog audio support and CVBS video I/O. In addition to a basic signal presence input failover function, a Quality Check option allows failover to alternate inputs based on user-configurable subjective criteria such as black or frozen frame. Two discrete character burn strings and timecode burn can be inserted on output video, with each string inserted as static text and/or insert only upon LOS. A moving-box insertion can be enabled to serve as a dynamic raster confidence check even in cases where the input video image is static or lost.
The 9922-FS also provides timecode/closed-captioning conversion from packet-based timecode formats and CEA608/708 HD formats to HD ATC, SD_ATC, and SD VITC-based (waveform) timecode.

9922-FS Input/Output Formats

The 9922-FS provides the following inputs and outputs:
Inputs:
3G/HD/SD SDI IN A thru SDI IN D four 3G/HD/SD-SDI inputs.
SDI IN A or SDI IN B can be set to failover to A or B in absence of
opposite channel of this pair.
CVBS IN CVBS coaxial analog video input.
AES IN BNC (AES-3id, 75) ports as AES input (number of
ports dependent on rear I/O module used).
AN-AUD IN F our balanced analog audio emb ed inputs.
Outputs:
3G/HD/SD-SDI OUT (1-4) four 3G/HD/SD-SDI buffered video
outputs. Each output can be independently set as processed output video or selected input video reclocked.
RLY BYP B –3G/HD/SD-SDI which outputs a copy of SDI OUT 1
under normal conditions, or passive outputs the SDI input on
SDI IN B as a relay failover if card power is lost.
AES OUT BNC (AES-3id, 75Ω) ports as AES outputs (number of
ports dependent on rear I/O module used).
AN-AUD OUT Four balanced analog audio de-embed outputs.
CVBS OUT CVBS coaxial analog video usable with SD video
streams.
1-6 9922-FS PROD UCT MANUAL 9922FS-OM (V1.8)
Page 11
Introduction 9922-FS Functional Description
PROC
VIDEO
OUT
CVBS OUT
RLY BYP B
1
(SDI)
2
3
4
AN-AUD OUT
AES OUT
9922BD V1.0LB104
Framesync/
Audio
Demux
Pattern Gen
(from frame)
EXT REF IN
Character/
Color
Corrector
Video Proc/
Insertion
Wing/Key-Fill
Graphic Burn
Timecode Burn
From
Video
DAC
Output
Timecode
Crosspoint
Select/Proc
RLY
RLY BYP
Wings/Key/Fill In
Protect
Copy 1A
(from input select)
Output
Crosspoint
Selected
Serialize
Input RCK
Wings/Key/
Fill Preview
Mux
Delay
Audio
Offset
Downmix
Tx
AES
Output
Routing
Audio
DAC
(NOTE 2)
Deserialize
Video Quality
Selected Input RCK (to
Output Crosspoint)
RLY bypass (to Output RLY BYP B)
(NOTE 2)
Events Check
Deserialize
Failover
Input Select/
Rx
EQ/
EQ/
Reclock
Reclock
EQ/
EQ/
Reclock
ADC
Video
Reclock
GPIO
SDI IN A
3G/HD/SD
SDI IN B
3G/HD/SD
3G/HD/SD
SDI IN D
SDI IN C
3G/HD/SD
CVBS IN
Control/
AES
AES IN
Monitor
(NOTE 2)
Audio
ADC
AN-AUD IN
Notes: 1. Signal connections shown depicts full input/output capability.
Practical input/output signal availability is determined by rear I/O
module used. Refer to text for more information.
for more information.
SDI output RLY BYP B outputs a copy of SDI OUT 1 crosspoint
selection in normal operation. In power loss failover RLY BYP B
passive outputs SDI IN B.
2. SDI I/O and bypass are functions of rear I/O module. Refer to text
card option(s).
3. Some functions shown here are available only with corresponding
Figure 1-1 9922-FS Functional Block Diagram
9922FS-OM (V1.8) 9922-FS PRODUCT MANUAL 1-7
Page 12
1 9922-FS Functional Description

Video Processor Description

The 9922-FS video subsystem provides the functions described below.
Input Video Select/Quality Check Functions
A GUI-based control a llows the card to select from up to fou r 3G/HD/ SD-SDI inputs, and a SD CVBS analog video input. For analog inputs, waveform-based ancillary data is preserved for extraction and usag e later in the card processing chain.
The input can be selected using DashBoard manual control, set to failover to an alternate input upon loss of the target input, and can be externally selected via a GPIO interfac e. An i nput allows inputs to be filtered (screened) for only user-allowed raster sizes and frame rates, with unallowed raster/rates being rejected as an input (input unlock). Reclocked copies of any SDI input can be outputted by the card when selected as a choice on the output crosspoint.
(Option +QC). Quali t y Check allows criteria such as black/
frozen frame events to propagate an event alert. This alert can be used by the card Presets function to invoke video routing changes, GPO, and other actions.
Allowed Rasters and Allowed Frame Rates filter
Auto-Changeover Function
(See Figure 1-2.) This f unctio n al lows th e card l ogic a sse rt of input s elect and routing to the while providing latching relays at both the input and output nodes to provide input failover to select an alternate input, and also provides output failover which can passively relay-route the currently selected input directly to the output if the card loses power or is removed from the frame. (Both relays are located on the card rear module.)
The
RLY BYP B SDI output retains selected routing regardless of whether a
selection was manuall y invoked or by a un it-d etect ed fail over ( such as l oss of power). For example, prior to a power loss event if a changeover from
to SDI IN B was active at the time, this selection is retained by the latching
A
relays. In a power-loss event,
RLY BYP B, and the card automatically removed from the signal path until
normal operation again commences. In normal operation, the output relay always maintains rou ting f rom the c ard pr ocesse d output to out put
Note: The card also provides active (DA-driven) outputs RCK/PROC 1 thru
RCK/PROC 4. These outputs are independent of the relay failover function
and will lose signal in the event of a power loss.
The above failover uses basic signal presence as failover criteria and is limited to inputs A and B. Failover using active assessments (Quality Check) can be set to provide failovers using frozen/black frame and other criteria. See Video Quality Events Detect Function (p. 1-13) for more information.
RLY BYP B card processed output under normal conditions,
SDI IN B would be directly routed to output
RL Y BYP B.
SDI IN
1-8 9922-FS PROD UCT MANUAL 9922FS-OM (V1.8)
Page 13
Introduction 9922-FS Functional Description
SDI IN A selected; card and SDI IN A OK
Select A active
asserted by
control logic
A
B
PROCINPROC
OUT
SDI IN A loss; failover to SDI IN B
A
B
Select B active asserted
by control logic
PROCINPROC
SDI IN B selected; card loses power
Mechanical HOLD B
asserted by relay
latching
A
B
PROCINPROC
OUT
Select Processed
active asserted by
control logic
OUT
Select Processed
active asserted by
control logic
Mechanical GO TO bypass asserted by
relay latching
SDI A selected; card loses power
Mechanical HOLD A
asserted by relay
latching
A
B
PROCINPROC
OUT
SDI IN B selected; card and SDI IN B OK
Select B active
asserted by
control logic
PROCINPROC
OUT
Mechanical GO TO
bypass asserted by relay latching
Select Processed
active asserted by
control logic
9940ACOFO LB90
Figure 1-2 Auto-Changeover Function and Signal Flow
Video Output Crosspoint
A four-output vid eo matrix crosspoi nt allows independ ently applying th e card processed video output, reclocked input, or wings/key-fill previews to any of the four card discrete coaxial outputs ( output, a CVBS coaxial output is available as a processed video output.
An additional output ( outputs a copy of power loss failover
SDI IN B.
RLY BYP B) provides a relay-protected output that
SDI OUT 1 crosspoint selection in normal operation. In
RLY BYP B passive outputs the signal connected to
SDI OUT 1 thru SDI OUT 4). For an SD
9922FS-OM (V1.8) 9922-FS PRODUCT MANUAL 1-9
Page 14
1 9922-FS Functional Description
Timecode Processor
(See Figure 1-3.) This func ti on provides for extracti on of t imec ode da ta from input video source, and in turn allow individual timecode strings to be embedded and/or burned into the ou tp ut vi deo . The fun cti on can monitor any of the video inputs of the card for supported timecode formats such as ATC_LTC or ATC_VITC for down-conversions to HD, and ATC_VITC or VITC waveform (with selectable odd/even field line number control) for SD SDI or CVBS inputs. Wavef orm VI TC ti mecod e ca n al so be extracted from a reference input and used as the output t im ec ode value. If the prefer red format is detected, the preferred format is used by the card; if the preferred format is not detected, the card uses other formats (where available) as desired. An internally-generated free-run timecode can be also be embedded on output video if desired.
The function also provi des conv ersio n bet ween var ious t imecode format s and provides independent insertion and line number controls for each SDI timecode output format.
Frame
Reference
Program
Video
Input
receive, send and tra nsl at e between audio/RS-485 LTC timecode formats and the VBI formats described above.
Ref VITC
Waveform
Detect/Extract
SDI VITC
Waveform
Detect/Extract
SDI ATC_VITC Detect/Extract
SDI ATC_LTC Detect/Extract
Free Run
(Internal Count)
When licensed with option
3G/HD/SD–SDI
Priority/
Select
Buffer/
Format
+LTC, this function also can
SDI VITC
Timecode
Proc/Embed
ATC_VITC
Timecode
Proc/Embed
ATC_LTC Timecode
Proc/Embed
Insert
Control
Line
Number
Control
Audio/
RS-485 LTC
Audio LTC
Select/Extract
Audio/RS-485 LTC Generate
Audio LTC Out RS-485 LTC Out
Figure 1-3 Timecode Processor
1-10 9922 - FS PRODU C T MAN UAL 9922FS-OM (V1. 8)
Page 15
Introduction 9922-FS Functional Description
Frame Sync Function
This function p rovide s for fra me s ync co ntrol usin g e ither one of t wo ext ern al
FRAME REF IN (1,2) reference signals distri buted with the card fra me, or the
input video as a frame sync reference. This function also allows horizontal and/or vertical offset to be added
between the output video and the frame sync reference. Frame sync can select from either of two card frame reference sources, or
free-run input video s ync. Selectable failover allows alternate reference selection should the initial reference source become unavailable or invalid. In the event of input video loss of signal, the output can be set to disable video, go to black, go to an internal test signal generator pattern, or freeze to the last intact frame (last frame having valid SAV and EAV codes).
An internal test signal generator provides a selection of various standard patterns such as color bars, sweep patterns, and other technical patterns. The test patterns can be a pplie d to t he outp ut vide o upon los s of inp ut o r manuall y inserted at any time.
When licensed with option
+2FS, this function enables a
second independent video/frame sync path in which the input and output crosspoints supply two video paths to and from the dual processing paths.
Note: When this option is enabled, the 9922-FS card becomes a 9922-2FS card.
Refer to 9922-2FS Product Manual for dual-channel frame sync card descrip­tions.
Wings Insertion
Wings insertion allows a symmetrical L-R wings insertion to be integrated into the card program video output. Wings video is accommodated using a separate wings SDI input. The wings user interface displays wings timing relative to the card output video, allowing wings timing offset to be adjusted such that wings can be properly framed. (This function does not provide timing offset c ontrol of the wings v ideo; of fset must be prov ided by a ext ernal frame sync card or device controlling the wings video feed.)
The wings L/R insertion width can be manually configured using a wings width control.
9922FS-OM (V1.8) 9922-FS PRODUCT MANUAL 1-11
Page 16
1 9922-FS Functional Description
Key/Fill Insertion
Option +KEYER provides for three of the card SDI video inputs to be used as respective program video, key, and fill inputs. This function provides chroma keying using the video that is inserted in the area cleared out by the key. The keying user interface displays key and fill timing relative to the card output video, allowing timing offset to be adjusted such that key and fill can be properly framed. (The option and its host card does no t provide t iming of fset c ontrol of the key/fill video; offset must be provided by external frame sync cards or devices controlling the key and fill video feed.) The program video input when using keying ac commodates e ither an SDI or an analog video input; key and fill inputs are SDI only.
Alpha threshold keyer modes allow full-color key/fill from cost-effective generic sources such as a st andard PC (with ap propriat e HDMI-to-SDI output conversion) hosting simple .bmp, .jpeg, or .png graphic files. In these modes, a common key/fill SDI input provides both the key and fill input.
EAS T ext Crawl Generation Option +EAS provides for
automated keying Emergency Alert System (EAS) text crawls in the active program video output. The function receives its text stream via a card serial data input. The EAS crawl start can be set to trigger upon receiving the serial data message, or be set to use a GPI to trigger start of the EAS crawl.
KEY VID IN signal. The FILL VID IN signal provides the fill
Embedded in the received serial data are commands which set the message severity to be shown by the keyed crawl (severity is correlated to user-specified text color and background color for the crawl). User controls allow control of the crawl speed and repeat of the crawl burn-in (if desired). Refer to +TTS Manual Supplement OPT-SW-PHXEAS-MS for detailed information and installation/setup instructions. This supplement is furnished with the option.
Color Corrector
Option +COLOR converts the YCbCr SDI input video to the 4:4:4 RGB color space (where the color c or rection i s appl ied), a nd then b ack to YCbCr SDI o n the output. Controls are avai l abl e to adjust each RGB level independe ntl y fo r both white levels (gain) and black levels (offset). Gamma can also be independently adjusted for each RGB channels. Various controls can be ganged to provide adjustment for all three color channels simultaneously.
1-12 9922 - FS PRODU C T MAN UAL 9922FS-OM (V1. 8)
Page 17
Introduction 9922-FS Functional Description
Character/Image Burn-in Functions
User text and timecode (as selected using the timecode function) can be burned into the output video. Burn-in attributes such as size, position, background, color, and opacity are user-configurable. Two discrete character burn strings can b e insert ed on output video, wit h each str ing inse rted as s tatic text and/or insert only upon LOS. A moving-box insertion can be enabled to serve as a dynamic raster confidence check even in cases where the input video image is static or lost.
Options
+T-SLATE and +LOGO respectively provide for
automated trouble slate and logo (such as ID “bug”) into the output video raster. Refer to +LOGO / +T-SLATE Manual Supplement OPT-SW-PHXLTS-MS for detailed information and installation/setup instructions. This supplement is furnished with either of these options.
Video Quality Events Detect Function
Option +QC provides a Video Quality Events user interface and an Event
Triggers user int erface for setting an ar ea of concern ac ross the prog ram rast er
which can be monitored for frozen or black video events. Threshold controls allow setting the sensitivity of the function, while engage and disengage threshold timing controls allow setting how fast the event detection engages and releases when triggered. The instructing the card as to the action to take upon an event (such as go to a changed signal routing, activate a GPO, send an automated email, or go to a user-defined preset).
An
Event Trigg ers user interface can detect Closed Caption Presence and
Closed Caption Absence events. The allows instructing the card as to the action to t ake upon an event (su ch as go to a changed signal routi ng, acti vate a GPO, send an auto mate d email, or go to a user-defined preset).
Event Triggers user interface allows
Event Triggers user interface in turn
Ancillary Data Processor
This function provides full VANC/HANC ancillary data de-embedding and embedding for 3G/HD/SD-SDI streams. Direct access to DID and SDID locations allows extraction or insertion of user data such as camera PTZ, SCTE 104, closed-captioning read/insert, GPI/GPO via ANC, or other specialized user payloads. Data can be extracted and inserted within the card (Bridge mode), or inserted and/or extracted to and from the card via serial or IP interfaces connecting to external devices/systems. A rear I/O module with a dedicated IP port can be used with the ancillary data processor function for data insertion or extraction via IP.
This option also provides SMPTE 337 embed/de-embed, which allows serial user data to be embedded and de-embedded over unused embedded audio pairs.
9922FS-OM (V1.8) 9922-FS PRODUCT MANUAL 1-13
Page 18
1 9922-FS Functional Description

Audio Processor Description

The audio processor operates as an internal audio router. This function chooses from the following inputs:
16 channels of embedded audio from the SDI video input (default
1-to-1 routing to SDI output)
Up to 16 channels (8 pairs) of discrete AES input
Up to 4 channels of balanced analog audio input
(See Figure 1-4.) The audio processing subsection is built around a card internal 16-channel audio bus. This 16-channel bus receives inputs from an input routing crosspoint that routes de-embedded, and discrete AES and analog audio inputs, over the 16-channel card bus. Correspondingly, at the output end of the 16-channel bus is an output routing crosspoint that in turn distributes the 16-channel bus signals to embedded, and discrete AES and analog audio outputs.
An Input Audio Status display shows the presence and peak level of each input audio channel received by the card. In addition to SDI embedded audio channel sources, analog and coaxial AES inputs are available as input audio choices. For AES audio inputs, payload is identified (PCM or data such as
®
Dolby
Digital or E). Each AES input pair has independent sample rate converters to align each input pair with video ti mi ng to acco mmod at e cases where AES audio is not synchronous with input video (SRC automatically bypassed for non-PCM payloads). As such, the audio subsection provides a full crosspoint between all supported audio inputs and output types.
1
De-Embed IN 1-16 (from Program Video De-Embed)
AES IN
AN-AUD
IN
AES
Rx/SRC
Analog
Audio
ADC
Input Routing
Internal
Bus
Figure 1-4 Basic Audio Processing Block Diagram
Routing/Gain/
Mute/Invert
Controls
Audio
Meters
1. Discrete audi o I/O cha nnel coun t is d ependen t on rea r I/O mo dule use d. Not a ll rear I/ O mo dules may not support maximum numb er of a va ilab le discrete channels.
Internal Bus Controls
Audio Delay
Offset
Control
Dolby E
Alignment
Control
Ref
Output Routing
Routing/Gain/
Mute/Invert
Controls
Audio
Meters
Downmix
Embed 1-16 (to Program Video Embed)
AES
Tx
Analog
Audio
DAC
AES OUT
AN-AUD OUT
9902AUD V1.0LB89
1-14 9922 - FS PRODU C T MAN UAL 9922FS-OM (V1. 8)
Page 19
Introduction 9922-FS Functional Description
(Option +CQS). Clean and Quiet Switching allows SDI input selection to be changed from one source to another while ducking audio during controlled input video switching t ransitions t o provide silenc e between input switches. The cross-fade is queued for the next available RP168 switch line following the switch command.
Note: • Clean audio switching is assured only for intentional, controlled switches via
user control. Clean audio switching cannot be assured for failover switches.
Clean switching requires that both SDI signals (switch from and switch to)
be stable and present.
Clean audio switching function is designed for PCM audio. This function
does not assure clean decoded audio when switching from/to Dolby or other non-PCM audio.
Audio Down Mix Function
(See Figure 1-5.) The Audio Down Mixer function provides for the selection of any five embedded c hannel s serv ing as Left ( Surround ( into stereo pair Down Mix Left ( resulting stereo pair
Ls), and Right Surround (Rs) individual signals to be multiplexed
DM-L) and Down Mix Right (DM-R). The
DM-L and DM-R can in turn be routed to any embedded
audio pair as desired (or de-embedded to an AES or analog audio output).
L), Right (R), Center (C), Left
Embed Ch 1 - Ch 16
Emb Ch 1 Emb Ch 2 Emb Ch 3 Emb Ch 5 Emb Ch 6
Figure 1-5 Audio Down Mix Functional Block Diagram with Example Sources
L R C Ls Rs
DM-L
DM-R
Flex Buses
For both input and output nodes before and after the card internal buses, flex buses provide flexible-structure mixer in which any of 16 summing nodes (
Flex Mix Bus A thru Flex Mix Bus P) can receive any card audio in put, the reby
allowing several customizable mixing schemes. Similarly, any of the 16 card internal bus signals can be applied to an output flex bus mixer.
Text-To-Speech
Cobalt Digital +TTS is a co mplete 2 1CVAA digital text-to-speech gen erati on / audio insertion solution for embedded and discrete audio systems.
9922FS-OM (V1.8) 9922-FS PRODUCT MANUAL 1-15
Page 20
1 9922-FS Functional Description
+TTS interfaces with industry standard Windows Share folder systems to
receive non-proprietary text, XML, or similar plain text files, and converts and inserts realistic human-voice audio into user-configured audio channels (typically an SAP channel pair intended for this playout). prioritization based on the organization's discretion (for example, severe weather alerts out-prioritizing school closings). Alert tones are inserted over the main program channels to alert the visually impaired that emergency content is to occur on the SAP channel. Alerts can be played a configurable number of times, and alerts with higher priority can interrupt current lists for breaking news. Once the interrupt message is broadcast, reverts to normal audio programming. Refer to +TTS Manual Supplement OPT-TTS-MS for detailed information and installation/setup instructions. This supplement is furnished with the option.
Audio Events Detect Function
Option +QC provides a Audio Detect Events user interface and an Event
Triggers
silence conditions . The the card as to the act io n to t ake upon an event (such as go t o a changed signal routing, activate a GPO, send an automated email, or go to a user-defined preset).
user interface for checking user-selected channels to detect audio
Event Triggers use r interf ace in turn al lows in structi ng
+TTS allows for
+TTS automatically

Control and Data Input/Output Interfaces

GPI Interface
Two independent ground-closure sensing GPI inputs (GPI 1 and GPI 2; each sharing common ground connection as chassis potential) are available. Associated with eac h GPI user contr ol is a sele ction of o ne of 32 user -d efi ned card presets in which GPI activation invokes a card control preset. Because the GPI closure invokes a user-defined preset, the resulting setup is highly flexible and totally user-defined. Invoking a user preset to effect a change involves card setup communication limited only to the items being changed.
GPI triggering can be user selected to consider the activity on discrete GPI ports, or combinations of logic states considering both GPI inputs, as well as be set for le vel or edge t riggering. This flexibility allows multistage, progressive actions to be invoked if desired. Indication is provided showing whenever a GPI input has been invoked.
GPO Interface
Two independent phototransistor non-referenced (floating) contact pairs (
GPO 1/1 and GPO 2/2) are available. A GPO can be in voked by sett ing a GPO
to be enabled when a card preset is in turn applied (i.e., when a preset is invoked (either manually or via event-based loading), the GPO is correspondingly also activated.
1-16 9922 - FS PRODU C T MAN UAL 9922FS-OM (V1. 8)
Page 21
Introduction 9922-FS Functional Description
Serial (COMM) Ports
The 9922-FS is equipped with two, 3-wire serial ports (COM 1 - Serial Port 1,
COM 2 - Serial Port 2). The ports pr ovide for SMPTE 2020 de-embe dding to an
output port, and provide RS-485 LTC I/O (when licensed with option Either port can be con fi gur ed as RS-23 2 Tx/ R x or RS- 4585 non- dupl exed Tx or Rx.
+SCTE104 Insertion
Option +SCTE104 provides generation and insertion of SCTE 104 messages into baseband SDI. Message send can be triggered from automation GPI or other event action modes. The option can also execute card actions based on SCTE 104 messages received by the card, as well as send triggered SCTE 104 packets to other downstream systems.
The user interface is based on common SCTE 104 operations: Splice Start Normal, Sp lice Start Intermediate, Splice End Normal, Splic e End Intermediate, and Splice Cancel (splice_request_data variants), offering full control of splice start, end, and cancel as well as pre-roll and break duration offsets. (A Manual Supplement is planned for this option. Please check product web page.)
+LTC).

Alarm Function

The card can be set to moni tor in put vi deo/a udio f or i nput error s suc h as inp ut LOS, frozen or black frame, loss of re ference, clo sed captioni ng ancillary data loss, and/or per -channel audio absence s. Th ese alarms can be propagated as a card general error or warning message, and can be downloaded as basic .txt logs or via a Syslog function.
User setup tables configure the alarm severity escalation as well as trigger holdoff/release and other thresholds as applicable.
9922FS-OM (V1.8) 9922-FS PRODUCT MANUAL 1-17
Page 22
1 9922-FS Functional Description

User Control Interface

Figure 1-6 shows the user control interface options for the 9922-FS. These options are individually described below.
Note: All user control interfaces described here are cross-compatible and can oper-
ate together as desired. Where applicable, any control setting change made using a particular user interface is reflected on any other connected interface.
DashBoard User Interface Using DashBoard, the 9922-FS
and other cards installed in openGear®
1
frames can be controlled
from a computer and monitor. DashBoard allows users to view all frames on a network with
control and monitoring for all populated slots inside a frame. This simplifies the setup and use of numerous modules in a large installation and offers the ability to centralize monitoring. Cards define their controllable parameters to DashBoard, so the control interface is always up to date.
The DashBoard software can be downloaded from the Cobalt Digital Inc. website: www.cobaltdigital.com
(enter “DashBoard” in the search window). The DashBoard user interface is described in Chapter 3,Operating Instructions”.
Cobalt
®
OGCP-9000 and OGCP-9000/CC Remote Control
Panels – The OGCP-9000 and OGCP-9000/CC Remote Control
Panels conveniently and intuitively provide parameter monitor and control of the 992 2-F S and other video an d audi o proc essin g ter mina l equipment meeting the open-architecture Cobalt
®
cards for
openGear standard. In addition to circumventing the need for a computer to monitor and
control signal processing cards, the Control Panels allow quick and intuitive access t o hundre ds of cards in a faci lity, an d can monitor an d allow adjustment of multiple parameters at one time.
The Remot e Control Pan els are tota lly compatible with the openGear control software DashBoard; any changes made with either system are reflected on the other. The Remote Control Panel user interf ace is descr i bed in Chapter 3,Operating Instructions”.
1. openGear® is a registered trademark of Ross Video Limited. DashBoard is a trademark of Ross Video Limited.
1-18 9922 - FS PRODU C T MAN UAL 9922FS-OM (V1. 8)
Page 23
Introduction 9922-FS Functional Description
OGCP-9000 Control Panel
OGCP-9000/CC Control Panel
9922-FS Card
or
Remote Control Panel
Using the Control Panel, 9922-FS card can be remotely controlled over a LAN
LAN
20-Slot Frame with Network Controller Card
DashBoard Remote Control
Using a computer with DashBoard installed, 9922-FS
Computer with NIC
Note: To communicate with DashBoard or a Remote Control Panel, the frame must have a Network Controller Card installed
in the frame.
DashBoard and the Remote Control Panels provide network control of the 9922-FS as shown. The value displayed at any time on the card, or via DashBoard or a Control Panel is the actual value as set on the card, with the current value displayed being the actual value as effected by the card. Parameter changes made by any of these means are universally accepted by the card (for example, a change made using the DashBoard controls will change the setting displayed on a Control Panel).
card can be remotely controlled over a LAN
In conjunction with a frame equipped with a Network Controller Card, 9922-FS card can be remotely controlled over a LAN
Figure 1-6 9922-FS User Control Interface
Note: If network remote control is to be used for the frame and the frame has not yet
been set up for remote control, Cobalt
®
reference guide Remote Control
User Guide (PN 9000RCS-RM) provides thorough information and
step-by-step instructions for setting up network remote control of Cobalt cards using DashBoard. (Cobalt
®
OGCP-9000 and OGCP-9000/CC Remote Control Panel product manuals have complete instructions for setting up remote control using a Remote Control Panel.)
Download a copy of this guide by clicking on the Support>Reference Documents link at www.cobaltdigital.com and then select DashBoard Remote Control Setup Guide as a download, or contact Cobalt
®
as listed in
Contact Cobalt Digital Inc. (p. 1-24).
®
9922FS-OM (V1.8) 9922-FS PRODUCT MANUAL 1-19
Page 24
1 Technical Specifications

9922-FS Rear I/O Modules

The 9922-FS physically interfaces to system video connections at the rear of its frame using a Rear I/O Module.
All inputs and outputs shown in the 9922-FS Functional Block Diagram (Figure 1-1) enter and exit the card via the card edge backplane connector. The Rear I/O Module breaks out the 9922-FS card edge connections to BNC and other connectors that interface with other components and systems in the signal chain.
The full assortment of 9922-FS Rear I/O Modules is shown and described in 9922-FS Rear I/O Modules (p. 2-4) in Chapter 2, Installation and Setup”.

Technical Specifications

Table 1-1 lists the technical specifications for the 9922-FS 3G/HD/SD-SDI Frame Sync with Audio/Video Processing, AES/Analog Audio Embedding/ De-Embedding, CVBS I/O, and Dual-Channel Option (+2FS) card.
Table 1-1 Technical Specifications
Item Characteristic
Part number, nomenclature 9922-FS 3G/HD/SD-SDI Frame Sync with Audio/Video
Processing, AES/Analog Audio Embedding/De-Embedding, CVBS I/O, and Dual-Channel Option (+2FS)
Installation/usage environment Intended for installation and usage in frame meeting openGear
modular system definition Power consumption < 18 Watts maximum Installation Density Up to 20 cards per 20-slot frame Environmental:
Operating temperature:
Relative humidity (operating or storage): Frame communication 10/100 Mbps Ethernet with Auto-MDIX Indicators Card edge display and indicators as follows:
Serial Digital Video Input Number of Inputs:
32° – 104° F (0° – 40° C) < 95%, non-condensing
4-character alphanumeric display
Status/Error LED indicator
Input Presence LED indicators
Up to (4), with manual select or failover to alternate input.
Data Rates Supported:
SMPTE 424M, 292M, SMPTE 259M-C
1-20 9922 - FS PRODU C T MAN UAL 9922FS-OM (V1. 8)
Page 25
Introduction Technical Specifications
Table 1-1 Technical Specifications — continued
Item Characteristic
Serial Digital Video Input (Cont) Impedance:
75 terminating
Return Loss:
> 15 dB up to 1.485 GHz > 10 dB up to 2.970 GHz
Analog Video Input Number of Inputs:
One SD analog CVBS
Impedance:
75
AES Audio Inputs Standard:
SMPTE 276M
Number of Inputs:
Up to 16 unbalanced; AES-3id
Impedance:
75
Analog Audio Inputs Number of Inputs:
Up to four balanced using 3-wire removable Phoenix connectors; 0 dBFS => +24 dBu
Input Select/Auto-Changeover Failover (option +QC)
Post-Processor Serial Digital Video Outputs
Failover to alternate input on loss of target input. Failover invoked upon LOS and/or (with option +QC) user configurable parametric criteria such as black/frozen frame or audio silence.
- Black frame trigger configurable for black intensity threshold and persistence time.
- Frozen frame trigger configurable for frozen percentage difference and persistence time.
Number of Outputs:
Up to four 3G/HD/SD-SDI BNC
Impedance:
75
Return Loss:
> 15 dB at 5 MHz – 270 MHz
Signal Level:
800 mV ± 10%
DC Offset:
0 V ± 50 mV
Jitter (3G/HD/SD):
< 0.3/0.2/0.2 UI
9922FS-OM (V1.8) 9922-FS PRODUCT MANUAL 1-21
Page 26
1 Technical Specifications
Table 1-1 Technical Specifications continued
Item Characteristic
Post-Processor Serial Digital Video Outputs (Cont)
Analog Video Output Number of Outputs:
Embedded Audio Output 16-ch embedded. User crosspoint allows routing of any embedded
AES Audio Outputs Standard:
Analog Audio Outputs Number of Outputs:
Minimum Latency (frame sync disabled):
SD: 127 pixels; 9.4 us 720p: 330 pixels; 4.45 us 1080i: 271 pixels; 3.65 us 1080p: 361 pixels; 2.43 us
One SD analog CVBS
Impedance:
75
channel to any embedded channel output. Multi-frequency tone generator for each audio output. Master delay control; range of -33 msec to +3000 msec.
SMPTE 276M
Number of Outputs:
Up to 16 unbalanced; AES-3id
Impedance:
75
Up to four balanced using 3-wire removable Phoenix connectors; 0 dBFS => +24 dBu
Frame Reference In put Number of Inputs:
Two, REF 1 and REF 2 from frame with selectable failover
Standards Supported:
SMPTE 170M/318M (black burst”) SMPTE 274M/296M (“tri-level”)
Return Loss:
> 35 dB up to 5.75 MHz
GPIO (2) GPI; (2) GPO; opto-isolated
GPO Specifications: Max I: 120 mA Max V: 30 V Max P: 120 mW GPI Specifications: GPI LO @ Vin < 1.5 V GPI HI @ Vin > 2.3 V Max Vin: 9 V
1-22 9922 - FS PRODU C T MAN UAL 9922FS-OM (V1. 8)
Page 27
Introduction Warranty and Service Information

Warranty and Service Information

Cobalt Digital Inc. Limited Warranty

This product is warranted to be free from defects in material and workmanship for a period of five (5) years from the date of shipment to the original purchaser, except that 4000, 5000, 6000, 8000 series power supplies, and Dolby material and workmanship for a period of one (1) year.
Cobalt Digital Inc.'s (Cobalt) sole obligation under this warranty sh all be limited to, at its option, (i) the repair or (ii) replacement of the produc t, and the det ermination of whether a defect is covered under this limited warranty shall be made at the sole discretion of Cobalt.
This limited warrant y appl ies on ly t o the origi nal end-pu rchaser of the produ ct, and i s not assign able o r transferrable therefrom. This warr ant y i s li mited to defects in material and work ma nship, and shall not apply to acts of God, accidents, or negligence on behalf of the purchaser, and shall be voided upon the misuse, abuse, alteration, or modification of the product. Only Cobalt authorized factory representatives are authorized to make repairs to the product, and any unauthorized attempt to repair this product shall immediately void the warranty. Please contact Cobalt Technical Support for more information.
®
modules (where applicable) are warranted to be free from defects in
To facilitate the resolut ion of warranty related issues, Cobalt recommends registering the product by completing and returning a product registration form. In the event of a warrantable defect, the purchaser shall notify Cobalt with a descripti on of t he p r oble m, an d Cobalt shall provide the pur ch aser with a Re turn Mate rial Auth oriz ation (“RMA”). For retu rn, defective product s should be double boxed, and sufficiently protecte d, in the original packa ging, or equivalent, a nd shipped to the Coba lt Factory Service Center, postage prepaid and insured for the purchase price. The purchaser should include the RMA number, description of the problem encountered, date purchased, name of dealer purchased from, and serial number with the shipment.
Cobalt Digital Inc. Factory Service Center
2506 Galen Drive Office: (217) 344-1243 Champaign, IL 61821 USA Fax: (217) 344-1245 www.cobaltdigital.com Email: info@cobaltdigital.com
THIS LIMITED WARRANTY IS EXPRESSLY IN LIEU OF ALL OTHER WARRANTIES EXPRESSED OR IMPLIED, INCLUDING THE WARRANTIES OF MERCHANTABILITY AND FITNESS FOR A PARTICULAR PURPOSE AND OF ALL OTHER OBLIGATIONS OR LIABILITIES ON COBALT'S PART. ANY SOFTWARE PROVIDED WITH, OR FOR USE WI TH, THE PRODUCT IS PROVIDED AS IS. THE BUYER OF THE PRODUCT ACKNOWLEDGES THAT NO OTHER REPRESENTATIONS WERE MADE OR RELIED UPON WITH RESPECT TO THE QUALITY AND FUNCTION OF THE GOODS HEREIN SOLD. COBALT PRODUCTS ARE NOT AUTHORIZED FOR USE IN LIFE SUPPORT APPLICATIONS .
COBALT'S LIABILITY, WHETHER IN CONTRACT, TORT, WAR RANTY, OR OTHERWISE, IS LIMITED TO THE REPAIR OR REPLACEMENT, AT ITS OPTION, OF ANY DEFECTIVE PRODUCT, AND SHALL IN NO EVENT INCLUDE SPECIAL, INDIRECT, INCIDENTAL, OR CONSEQUENTIAL DAMAGES (INCLUDING LOST PROFITS), EVEN IF IT HAS BEEN ADVISED OF THE POSSIBILITY OF SUCH DAMAGES.
9922FS-OM (V1.8) 9922-FS PRODUCT MANUAL 1-23
Page 28
1 Contact Cobalt Digital Inc.

Contact Cobalt Digital Inc.

Feel free to contact our thorough and professional suppo rt repr es entatives for any of the following:
Name and address of your local dealer
Product information and pricing
Technical support
Upcoming trade show information
Phone: (217) 344-1243 Fax: (217) 344-1245 Web: www.cobaltdigital.com General Information: info@cobaltdigital.com Technical Support: support@cobaltdigital.com
1-24 9922 - FS PRODU C T MAN UAL 9922FS-OM (V1. 8)
Page 29

Chapter 2 Installation and Setup

Overview

This chapter contains the following information:
Installing the 9922-FS Into a Frame Slot (p. 2-1)
Installing a Rear I/O Module (p. 2-3)
Setting Up 9922-FS Network Remote Control (p. 2-10)

Installing the 9922-FS Into a Frame Slot

CAUTION
Heat and power distribution requirements within a frame may dictate specific slot placement of cards. Cards with many heat-producing compon ents should be arranged to avoid areas of excess heat build-up, particularly in frames using only convection cooling. The 9922-FS has a moderate power dissipation (<18 W). As such, avoiding placing the card adjacent to other cards with similar dissipation values if possible.
Chapter 2
CAUTION
This device contains semiconductor devices which are susceptible to serious damage from Electrostatic Discharge (ESD). ESD damage may not be immediately apparent and can affect the long-term reliability of the device.
Avoid handling circuit boards in high static environments such as carpeted areas, and when wearing synthetic fiber clothing. Always use proper ESD handling precautions and equipment when working on circuit boards and related equipment.
Note: If installing the 9922-FS in a slot with no rear I/O module, a Rear I/O
Module is required before cabling can be connected. Refer to Installing a
Rear I/O Module (p. 2-3) for rear I/O module installation procedure.
CAUTION
If required, make certain Rear I/O Module(s) is installed before installing the 9922-FS into the frame slot. Damage to card and/or Rear I /O Module c an occu r if module installation is attempted with card already installed in slot.
9922FS -OM (V1.8) 9922-FS PRODUCT MANUAL 2-1
Page 30
2 Installing the 9922-FS Into a Frame Slot
Note: Check the packaging in which the 9922-FS was shipped for any extra items
such as a Rear I/O Module connection label. In some cases, this label is shipped with the card and to be installed on the Rear I/O connector bank cor­responding to the slot location of the card.
Install the 9922-FS into a frame slot as follows:
1. Determine the slot in which the 9922-FS is to be installed.
2. Open the frame front access panel.
3. While holding the card by the card edges, align the card such that the
plastic ejector tab is on the bottom.
4. Align the card with the top and bottom guides of the slot in which the
card is being installed.
5. Gradually slide the card into the slot. When resistance is noticed, g ently
continue pushing the card until its rear printed circuit edge terminals engage fully into the rear I/O module mating connector.
CAUTION
If card resists fully engaging in rear I/O module mating connector, check for alignment and proper insertion in slot tracks. Damage to card and/or rear I/O module may occur if improper card insertion is attempted.
Verify that the card is fully engaged in rear I/O module mating
6.
connector.
7. Close the frame front access panel.
8. Connect the input and output cables as shown in 9922-FS Rear I/O
Modules (p. 2-4).
9. Repeat steps 1 through 8 for other 9922-FS cards.
Note: The 9922-FS BNC inputs are internally 75-ohm terminated. It is not
necessary to terminate unused BNC inputs or outputs.
External frame sync reference signals are received by the card over a reference bus on the card frame, and not on any card rear I/O module connectors. The frame has BNC connectors labeled REF 1 and REF 2 which receive the reference signal from an external source such as a house distribution.
T o rem ove a ca rd, pres s do wn on the ej ec tor tab to u nseat the card from the rear I/O module mating connector. Evenly draw the card from its slot.
10. If network remote control is to be used for the frame a nd the frame has
not yet been set up for remote contro l, pe rf orm set up in accordance with Setting Up 9922-FS Network Remote Control (p. 2-10).
2-2 9922-FS PROD UCT MANUAL 9922FS-OM (V1.8)
Page 31
Installation and Setup Installing a Rear I/O Module
Note: If installing a card in a frame already equipped for, and connected to
DashBoard, no network setup is required for the card. The card will be dis­covered by DashBoard and be ready for use.

Installing a Rear I/O Module

Note: This procedure is applicable only if a Rear I/O Module is not currently
installed in the slot where the 9922-FS is to be installed.
If installing the 9922-FS in a slot already equipped with a suitable I/O mod-
ule, omit this procedure.
Install a Rear I/O Module as follows:
1. On the frame, determine the slot in which the 9922-FS is to be installed.
2. In the mounting area corresponding to the slot location, install
Rear I/O Module as shown in Figure 2-1.
Align and engage mounting tab on Rear I/O Module with the module seating slot
1
on rear of frame chassis.
Hold top of Rear I/O Module flush against frame chassis and start the captive screw.
2
Lightly tighten captive screw.
Figure 2-1 Rear I/O Module Installation
9922FS-OM (V1.8) 9922-FS PRODUCT MANUAL 2-3
Page 32
2 Installing a Rear I/O Module

9922-FS Rear I/O Modules

Table 2-1 shows and describes the full assortment of Rear I/O Modules specifically for use with the 9922-FS.
Notes: Rear I/O Modules equipped with 3-wire Phoenix connectors are supplied with
removable screw terminal block adapters. For clarity, the adapters are omit­ted in the drawings below.
Table 2-1 9922-FS Rear I/O Modules
9922-FS Rear I/O Module Description RM20-9922-FS-A/S Split Rear Module. Provides each of the following
connections for two 9922-FS cards:
Two 3G/HD/SD-SDI coaxial input BNCs (SDI IN A and SDI IN C)
Three 3G/HD/SD-SDI Video Out BNCs (SDI OUT 1 thru SDI OUT 3)
1937S
RM20-9922-FS-B Provides the following conne cti on s:
One 3G/HD/SD-SDI coaxial input BNC (SDI IN A)
One analog video CVBS coaxial input BNC
(CVBS IN)
Two analog balanced audio inputs (AN-AUD IN 1
and AN-AUD IN 2)
One AES input BNC (AES IN)
One processed coaxial output BNC (SDI OUT)
One analog video CVBS coaxial output BNC
(CVBS OUT)
Two analog balanced audio outputs
(AN-AUD OUT 1 and AN-AUD OUT 2)
One AES output BNC (AES OUT)
1913
2-4 9922-FS PROD UCT MANUAL 9922FS-OM (V1.8)
Page 33
Installation and Setup Installing a Rear I/O Module
Table 2-1 9922-FS Rear I/O Modules — continued
9922-FS Rear I/O Module Description RM20-9922-FS-C Provides the following connections:
Four 3G/HD/SD-SDI video input BNCs (SDI IN A thru SDI IN D)
Four 3G/HD/SD-SDI video output BNCs
(RCK/PROC 1 thru RCK/PROC 4; each GUI selectable as processed out, selected-input reclocked, or wings/key-fill preview where available)
One relay-protected SDI processed output BNC (RLY BYP B; outputs a copy of SDI OUT 1 under normal conditions, or passive outputs the SDI input on SDI IN B as a relay failover if card power is lost)
COMM/GPIO RJ-45 connector
Note: Refer to GPIO, Serial (COMM), and Analog
Audio Connections (p. 2-10) for connector pinouts and important information regarding GPO electrical limits.
1914
RM20-9922-FS-D Provides the following connections:
Two 3G/HD/SD-SDI video inputs (VIDEO IN A and VIDEO IN B)
One CVBS video input (CVBS IN)
Two analog balanced audio inputs (AN-AUD IN 1
and AN-AUD IN 2)
Eight AES audio inputs (AES IN 1 thru AES IN 8)
Two 3G/HD/SD-SDI video outputs (VIDEO OUT 1
and VIDEO OUT 2)
One CVBS video output (CVBS OUT)
Two analog balanced audio outputs
(AN-AUD OUT 1 and AN-AUD OUT 2)
Eight AES audio outputs (AES OUT 1 thru
AES OUT 8)
Note: Available equipped with High-Density BNC
(HDBNC) or DIN1.0/2.3 connectors as: RM20-9922-FS-D-HDBNC or RM20-9922-FS-D-DIN, respectively.
1929D
9922FS-OM (V1.8) 9922-FS PRODUCT MANUAL 2-5
Page 34
2 Installing a Rear I/O Module
Table 2-1 9922-FS Rear I/O Modules continued
9922-FS Rear I/O Module Description RM20-9922-FS-E Pr ov id es the fol lowin g conne cti on s:
Four 3G/HD/SD-SDI video inputs (SDI IN A thru SDI IN D)
Eight AES audio inputs (AES IN 1 thru AES IN 8)
Four 3G/HD/SD-SDI video outputs; selectable as
processed or input reclocked out (SDI PROC/RCK OUT 1 thru SDI PROC/RCK OUT 4)
Eight AES audio outputs
(AES OUT 1 thru AES OUT 8)
Note: Available equipped with High-Density BNC
(HDBNC) or DIN1.0/2.3 connectors as: RM20-9922-FS-E-HDBNC or RM20-9922-FS-E- DIN, re sp ectiv el y.
1930D
RM20-9922-FS-F Provides the following conne cti on s:
Two 3G/HD/SD-SDI video input BNCs (SDI IN A and SDI IN B)
Three 3G/HD/SD-SDI video output BNCs
(SDI OUT 1A thru SDI OUT 4B; each GUI selectable as selected-input reclocked or processed out)
One relay-protected SDI processed output BNC (RLY BYP A/B OUT)
Two opto-isolated GPI inputs (terminals GPI 1-G
and GPI 2-G)
Two opto-coupled GPO (GPO 1/G and GPO 2/G)
Note: Refer to GPIO, Serial (COMM), and Analog
Audio Connections (p. 2-10) for connector pinouts and important information regarding GPO electrical limits.
1928
2-6 9922-FS PROD UCT MANUAL 9922FS-OM (V1.8)
Page 35
Installation and Setup Installing a Rear I/O Module
Table 2-1 9922-FS Rear I/O Modules — continued
9922-FS Rear I/O Module Description RM20-9922-FS-H Provides the following connections:
Two 3G/HD/SD-SDI video input BNCs (SDI IN A and SDI IN B)
One SDI/CVBS video input; selectable as 3G/HD/ SD-SDI or CVBS (D/CVBS IN)
Four analog balanced audio inputs (AN-AUD IN 1
thru AN-AUD IN 4)
Two AES audio inputs (AES IN 1 and AES IN 2)
Three 3G/HD/SD-SDI video outputs, selectable as
processed or reclocked input (SDI OUT 1 thru SDI OUT 3)
3G/HD/SD-SDI video output pair, selectable as processed or reclocked input as a pair (SDI OUT 4a and SDI OUT 4b)
Four analog balanced audio outputs
(AN-AUD OUT 1 thru AN-AUD OUT 4)
Note: Refer to GPIO, Serial (COMM), and
Analog Audio Connections (p. 2-10) for connector pinouts and important information regarding GPO electrical limits.
Two AES audio outputs (AES OUT 1 and
AES OUT 2)
One GPI / 6Hz coaxial input (GPI 1)
One coaxial GPO with isolated return (GPO 1)
Note: Available equipped with High-Density BNC
(HDBNC) or DIN1.0/2.3 connectors as: RM20-9922-FS-H-HDBNC or RM20-9922-FS-H-DIN, respectively.
1933D
RM20-9922-FS-J Provides the following connections:
Two 3G/HD/SD-SDI video input BNCs (SDI IN A and SDI IN B)
One SDI/CVBS video input; selectable as 3G/HD/ SD-SDI or CVBS (D/CVBS IN)
Four analog balanced audio inputs (AN-AUD IN 1
thru AN-AUD IN 4)
Two AES audio inputs (AES IN 1 and AES IN 2)
Four 3G/HD/SD-SDI video outputs, selectable as
processed or reclocked input (SDI OUT 1 thru SDI OUT 4)
One CVBS video output (CVBS OUT)
Four analog balanced audio outputs
(AN-AUD OUT 1 thru AN-AUD OUT 4)
Two AES audio outputs (AES OUT 1 and
AES OUT 2)
Note: Refer to GPIO, Serial (COMM), and
Analog Audio Connections (p. 2-10) for connector pinouts and important information regarding GPO electrical limits.
One GPI / 6Hz coaxial input (GPI 1)
One coaxial GPO with isolated return (GPO 1)
Note: Available equipped with High-Density BNC
(HDBNC) or DIN1.0/2.3 connectors as: RM20-9922-FS-J-HDBNC or RM20-9922-FS-J-DIN, respectively.
9922FS-OM (V1.8) 9922-FS PRODUCT MANUAL 2-7
Page 36
2 Installing a Rear I/O Module
Table 2-1 9922-FS Rear I/O Modules continued
9922-FS Rear I/O Module Description RM20-9922-FS-K Provides the following conne cti on s:
Four 3G/HD/SD-SDI video inputs (SDI IN A thru SDI IN D; IN D-to-OUT 1 as passive RLY bypass)
SIx AES audio inputs (AES IN 1 thru AES IN 6)
Two analog balanced audio inputs (AN-AUD IN 1
and AN-AUD IN 2)
Four 3G/HD/SD-SDI video outputs (SDI OUT 1 thru SDI OUT 4)
Four AES audio outputs (AES OUT 1 thru
AES OUT 4)
COMM/GPIO RJ-45 connector
Note: Refer to GPIO, Serial (COMM), and Analog
Audio Connections (p. 2-10) for connector pinouts and important information regarding GPO electrical limits.
Available equipped with High-Density BNC (HDBNC) or DIN1.0/2.3 connectors as: RM20-9922-FS-K-HDBNC or RM20-9922-FS-K-DIN, respectively.
1934D
RM20-9922-FS-L Provides the following conne cti on s:
Four 3G/HD/SD-SDI video inputs (
SDI IN D
CVBS video input (CVBS IN)
Eight 3G/HD/SD-SDI video outputs (
SDI OUT 4B; 1x2 DA output of each crosspoint
thru output)
CVBS video output (
CVBS OUT)
COMM/GPIO RJ-45 connector
ETHERNET 100/1000 BaseT Ethernet connector
Note: Available equipped with High-Density BNC
(HDBNC) or DIN1.0/2.3 connectors as: RM20-9922-FS-K-HDBNC or RM20-9922-FS-K-DIN, respectively.
1934D
SDI IN A thru
SDI OUT 1A
2-8 9922-FS PROD UCT MANUAL 9922FS-OM (V1.8)
Page 37
Installation and Setup Installing a Rear I/O Module
Table 2-1 9922-FS Rear I/O Modules — continued
9922-FS Rear I/O Module Description RM20-9922-FS-M/S Split Rear Module. Provides each of the following
connections for two 9922-FS cards:
Four 3G/HD/SD-SDI coaxial input BNCs (SDI IN A and SDI IN D)
Six 3G/HD/SD-SDI Video Out BNCs (SDI OUT 1A thru SDI OUT 4B)
Note: Available equipped with High-Density BNC
(HDBNC) or DIN1.0/2.3 connectors as: RM20-9922-FS-M/S-HDBNC or RM20-9922-FS-M/S-DIN, respectively.
1934D
RM20-9922-FS-N Double-width rear modules provides the following
connections:
Four 3G/HD/SD-SDI video inputs (SDI IN A
thru
SDI IN D
CVBS video input (CVBS IN)
Four analog balanced audio inputs (AN-AUD IN 1
thru AN-AUD IN 4)
Eight AES audio inputs (AES IN 1 thru AES IN 8)
Four 3G/HD/SD-SDI video outputs (SDI OUT 1B
thru
SDI OUT 4B (OUT 1B with relay bypass
protect)
CVBS video output (CVBS OUT)
Four analog balanced audio outputs
(AN-AUD OUT 1 thru AN-AUD OUT 4)
Eight AES audio outputs (AES OUT 1 thru AES OUT 8)
COMM/GPIO RJ-45 connector
ETHERNET 100/1000 BaseT Ethernet connector
Note: Available equipped with High-Density BNC
(HDBNC) or DIN1.0/2.3 connectors as: RM20-9922-FS-N-HDBNC or RM20-9922-FS-N-DIN, respectively.
1934D
9922FS-OM (V1.8) 9922-FS PRODUCT MANUAL 2-9
Page 38
2 GPIO, Serial (COMM), and Analog Audio Connections

GPIO, Serial (COMM), and Analog Audio Connections

Figure 2-2 shows connect ions to the c ard multi-pin t erminal block c onnectors. These connectors are used for card serial comm, GPIO, and balanced analog audio connections.
Note: It is preferable to wire connections to plugs oriented as shown in
Figure 2-2 that the orientation of rear module 3-wire audio connectors is not necessarily consistent within a rear module, or between different rear modules. If wiring is first connected to plug oriented as shown here, the electrical orientation will be correct regardless of rear module connector orientation.

Setting Up 9922-FS Network Remote Control

Perform remote control setup in accordance with Cobalt® reference guide Remote Control User Guide (PN 9000RCS-RM).
rather than assessing orientation on rear module connectors. Note
Note: • If network remote control is to be used for the frame and the frame has not
yet been set up for remote control, Cobalt Control User Guide (PN 9000RCS-RM) provides thorough information and step-by-step instructions for setting up network remote control of Cobalt cards using DashBoard. (Cobalt Remote Control Panel product manuals have complete instructions for setting up remote control using a Remote Control Panel.)
Download a copy of this guide by clicking on the Support>Reference Documents link at www.cobaltdigital.com and then select DashBoard Remote Control Setup Guide as a download, or contact
®
Cobalt
If installing a card in a frame already equipped for, and connected to DashBoard, no network setup is required for the card. The card will be dis­covered by DashBoard and be ready for use.
as listed in Contact Cobalt Digital Inc. (p. 1-24).
®
®
reference guide Remote
OGCP-9000 and OGCP-9000/CC
®
2-10 9922 - FS PRODU C T MAN UAL 9922FS-OM (V1. 8)
Page 39
Installation and Setup Setting Up 9922-FS Network Remote Control
GPI Port Connections
(Phoenix Connector)
21G
Rear module
PCB connector
GPI 2
IN 2
IN 1
G
G
Removable Phoenix plug
view oriented with top
(screw terminals) up
GPI 1
COMM and GPIO Connections (RJ-45 Connector)
Pin Function
1GPI IN 1 2GPI IN 2 3 GPO RTN 4GPO OUT 1 5GPO OUT 2 6 UART_TX 7UART_RX 8 COMM GND
GPI GND connections should be c onnected to pin 8 – COMM GND, which is chassis GND.
Pin 1
Note: View is “looking into
connector from unterminated (user-facing) side.
Rear module
PCB connector
GPO 1
Pin 8
GPO Port Connections
(Phoenix Connector)
12G
OUT 2
OUT 1
GPIO uses equivalent opto-isolated circuits shown below.
GPO Specifications:
Max I: 120 mA Max V: 30 V Max P: 120 mW
Pullup R >500 resistor is recommended when using 5V control.
GPI Specifications:
GPI LO @ Vin < 1.5 V GPI HI @ Vin > 2.3 V Max Vin: 9 V
GPO from
card control
V+
GPI to
card control
+3.3V
G
G
10 k
GPO 2
GPO GPO COM
GPI
+- G
Balanced Analog Audio Port Connections
Rear module
PCB connector
Note: Unbalanced connections can be
connected across the + and G terminals. Note that this connection will experience a 6 dB voltage gain loss. Adjust gain for these connections accordingly.
+
G
Figure 2-2 COMM, GPIO, and Analog Audio Connector Pinouts
9922FS-OM (V1.8) 9922-FS PRODUCT MANUAL 2-11
Removable Phoenix plug view oriented with top (screw terminals) up
Page 40
This page intentionally blank
2-12 9922 - FS PRODU C T MAN UAL 9922FS-OM (V1. 8)
Page 41

Overview

Chapter 3

Chapter 3 Operating Instructions

This chapter contains the following information:
If you are already familiar with
using DashBoard or a Cobalt
Remote Control Panel to control
Cobalt cards, please skip to
9922-FS Function Menu List and
Descriptions (p. 3-10).
Control and Display Descriptions (p. 3-1)
Accessing the 9922-FS Card via Remote Control (p. 3-6)
Checking 9922-FS Card Information (p. 3-8)
Ancillary Data Line Number Locations and Ranges (p. 3-9)
9922-FS Function Menu List and Descriptions (p. 3-10)
Troubleshooting (p. 3-70)

Control and Display Descriptions

This secti on describes the user interface controls, indicators, and displays for using the 9922-FS card. The 9922-FS functions can be accessed and controlled using any of the user interfaces described here.
The format in which the 9922- FS functional controls , ind ic ators, and displays appear and are used varies depending on the user interface being used. Regardless of the user interface being used, access to the 9922-FS functions (and the controls, indicators, and displays related to a particular function) follows a general arrangement of Function Menus under which related controls can be accessed ( as descri bed in Functi on Menu/Paramet er Overvie w below).
Note: When a setting is changed, settings displayed on DashBoard™ (or a Remote
Control Panel) are the settings as effected by the card itself and reported back to the remote control; the value displayed at any time is the actual value as set on the card.
9922FS -OM (V1.8) 9922-FS PRODUCT MANUAL 3-1
Page 42
3 Control and Display Descriptions

Function Menu/Parameter Overview

The functions and related parameters available on the 9922-FS card are organized into function menus, which consist of parameter groups as shown below.
Figure 3-1 shows how the 9922- FS card and i ts menus are orga nized, and also provides an overview of how navig ation is performed be tween cards, func tion menus, and parameters.
If using DashBoard or a Remote Control Panel, the desired 9922-FS card is first selected.
9922-FS
Menu a Menu b
Individual Parameters
Each menu consists of groups of parameters related to the function menu. Using the “Framesy nc” function menu example, the individual parameters for this function consist of various framesync parameters such as line offset, delay, and so on.
Figure 3-1 Function Menu/Parameter Overview
The desired function menu is next selected. Function Menus consist of parameter groups related to a particular 9922-FS card function (for example, “Framesync”).
Menu z
3-2 9922-FS PROD UCT MANUAL 9922FS-OM (V1.8)
Page 43
Operating Instructions Control and Display Descriptions

DashBoard User Interface

(See Figure 3-2.) The card function menus are organized in DashBoard using tabs. When a tab is selected, each parametric control or selection list item associated with the function is displayed. Scalar (numeric) parametric values can then be adjusted as desired using the GUI slider controls. Items in a list can then be selected using GUI drop-down lists.
Typical Selection List Typical Status Display
DashBoard Tabs
Typical Parametr ic Co ntrolTypical Button Control
Figure 3-2 Typical DashBoard Tabs and Controls
9922FS-OM (V1.8) 9922-FS PRODUCT MANUAL 3-3
Page 44
3 Control and Display Descriptions
G

Cobalt® Remote Control Panel User Interfaces

(See Figure 3-3.) Similar to the function menu tabs using DashBoard, the Remote Control Panels have a Select Submenu key that is used to display a list of function submenus. From this list, a control knob on the Control Panel is used to select a function from th e list of displa yed functio n submenu items.
When the desired function submenu is selected, each parametric control or selection list item associated with the function is displayed. Scalar (numeric) parametric values can then be adjusted as desired using the control knobs, which act like a potentiometer. Items in a list can then be selected using the control knobs which cor respo ndingl y act li ke a r otary switch . (In t his man ner, the setting effected using co ntr ols and selection lists displayed on t h e Co ntr ol Panel are comparable to t he submenu i tems acce ssed and committed u sing the 9922-FS card edge controls.)
Figure 3-3 shows accessing a function submenu and its parameters (in this example, Video Proc) using the Control Panel as compared to using the card edge controls.
Video Proc function (among others) is accessed using the Control Panel Select Submenu key. Video Proc function is selected from the list of functions (submenu items)
When the Video Proc function submenu is selected, its related parameters are now displayed.
Note: Refer to “OGCP-9000 Remote Control Panel User Manual (PN
OGCP-9000-OM) or OGCP-9000/CC Remote Control Panel User Manual (PN OGCP-9000/CC-OM) for complete instructions on using the Control Panels.
3396B_3346B.JPG
In this example, Color Gain (saturation) is adjusted using the control knob adjacent to
Color Gain
Figure 3-3 Remote Control Panel Setup of Example Video Proc Function Setup
9922-FS_3370_3372B.JP
3-4 9922-FS PROD UCT MANUAL 9922FS-OM (V1.8)
Page 45
Operating Instructions Control and Display Descriptions

Web HTML5 User Interface

(See Figure 3-4.) When equipped with a rear I/O module having an Ethernet port, the 9922-FS control s can be access ed via a web networ k connection with no additional remote control software needed. The web GUI shows the same tabs, controls and status displays as those accessed using DashBoard. This allows very convenient control access to the card, even if using a computer without DashBoard remote con trol or in cas e the frame netwo rk connecti on is down.
The card can be accessed in a web browser by entering the card IP addr es s as set in the card IP Address) (p. 3-63) for more info rmation.)
Note: Card must be equipped with a rear I/O module with an Ethernet port to use
html access. The card address is entirely independent of, and requires no association with, the frame openGear IP address.
Admin tab. (See Admin (Log Status/Firmw are Update - Card
Typical web GUI Menu tabs Typical web GUI controls and status displays
The card edge alphanumeric display, along with card model ID, shows a scrolling message showing current card IP address (in this example, 10.99.11.119)
I
P
:
Figure 3-4 Typical Web GUI Tabs and Controls
9922FS-OM (V1.8) 9922-FS PRODUCT MANUAL 3-5
1
0.
9
9.
1
1.
1
1
9
Page 46
3 Accessing the 9922-FS Card via Remote Control

Accessing the 9922-FS Card via Remote Control

Access the 9922-FS card using DashBoard or Cobalt® Remote Control Panel as described below.

Accessing the 9922-FS Card Using DashBoard

1. On the computer connected to the frame LAN, open DashBoard™.
2. As shown below, in the left side Basic View Tree locate the Network
Controller Card asso ciate d with th e frame c ontain ing the 9922-FS ca rd to be accessed (in this example, MFC-8320-N SN: 00108053”).
3. As shown below, expand the tree to access the cards within the frame.
Click on the card to be accessed (in this example, Slot 6: 9922-FS”).
.
As shown on the next page, when the card is accessed in DashBoard its function menu screen showing tabs for each function is displayed. (The particular menu scr een di splaye d i s the previo usly di splay ed s creen from the last time the card was accessed by DashBoard™).
3-6 9922-FS PROD UCT MANUAL 9922FS-OM (V1.8)
Page 47
Operating Instructions Accessing the 9922-FS Card via Remote Control
Card Access/Navigation
Tree Pane
Card Info
Pane
Card Function Menu and
Controls Pane

Accessing the 9922-FS Card Using a Cobalt® Remote Control Panel

Press the Select Device key and select a card as shown in the exa mp le bel ow.
This display shows the list order number of the device that is ready for selection
9922FS-OM (V1.8) 9922-FS PRODUCT MANUAL 3-7
This display shows the devices assigned to the Control Panel.
Rotate any knob to select from the list of devices. The device selected using a knob is displayed with a reversed background (in this example,
1 9922 - Receiver 21 Input Processing”).
Directly enter a device by entering its list number using the numeric
keypad, and then pressing Enter or pressing in any knob).
Page 48
3 Checking 9922-FS Card Information

Checking 9922-FS Card Information

The operating status and software version the 9922-FS card can be checked using DashBoard or the card edge control user interface. Figure 3-5 shows and describes the 9922-FS card information screen using DashBoard and accessing card information using the card edge control user interface.
Note: Proper operating status in DashBoard™ is denoted by green icons for the sta-
tus indicators shown in Figure 3-5. Yellow or red icons respectively indicate an alert or failure condition. Refer to Troubleshooting (p. 3-70) for corrective action.
The Tree View shows the cards seen by DashBoard. In this example, Network Controller Card is hosting a 9922-FS card in slot 18.
Status Display
This displays shows the status and format of the signals being received by the 9922-FS, as well as card status.
Card Info Display
This displays (alternately selected in the Card Info pane) shows the the card hardware and software version info, as well as a Cobalt code number for the currently installed rear module.
Figure 3-5 9922-FS Card Info/Status Utility
3-8 9922-FS PROD UCT MANUAL 9922FS-OM (V1.8)
Page 49
Operating Instructions Ancillary Data Line Number Locations and Ranges

Ancillary Data Line Number Locations and Ranges

Table 3-1 lists typical default output video VANC line number locations for various ancillary data items that may be passed or handled by the card.
Table 3-1 Typical Ancillary Data Line Number Locations/Ranges
Default Line No. / Range
Item
SD HD
AFD 12 (Note 2) 9 (Note 2) ATC _ VITC 13 (Note 2) 9/8 (Note 2) ATC_LTC 10 (Note 2)
®
Dolby
Metadata 13 (Note 2) 13 (Note 2) SDI VITC Waveform 14/16 (Note 2) Closed Captioning 21 (locked) 10 (Note 2) Notes:
1. The card does not check for conflicts on a given line number. Make certain the selected line is available and carrying no other data.
2. While range indicated by drop-down list on GU I ma y a llo w a particular range of choices, the actual range is automatically c lampe d (limi ted) to cer tain ranges to pre vent in adver tent confli ct with activ e pict ure a rea depending on video format. Limiting ranges for various output formats are as follows:
Format Line No. Limiting Format Line No. Limiting Format Line No. Limiting
525i 12-19 720p 9-25 1080p 9-41 625i 9-22 1080i 9-20
Because line number allocation is not standardized for all ancillary items, consideration should be given to all items when performing set-ups. Figure 3-6 shows an example of improper and corrected VANC allocation within an HD-SDI stream.
ATC_VITC = 9/8 CC = 10 Dolby Meta data = 13
Card 1
ATC_VITC = 9/ 8 CC = 10 Dolby Metadata = 13
Card 1
AFD Insertion attempted usin g VANC line 9 (default)
AFD Insertion corrected to us e VANC line 18
ATC_VITC = 9/8 AFD = 9
CC = 10 Dolby Meta data = 13
Card n
ATC_VITC = 9/8
CC = 10 Dolby Metadata = 13
AFD = 18
Card n
Conflict between ATC_VITC and AFD both on VANC line 9
Conflict between ATC_VITC on line 9/8 and AFD (now on line 18) resolved
Figure 3-6 Example VANC Line Number Allocation Example
9922FS-OM (V1.8) 9922-FS PRODUCT MANUAL 3-9
Page 50
3 9922-FS Function Menu List and Descriptions

9922-FS Function Menu List and Descriptions

T able 3-2 in dividuall y lists and des cribes eac h 9922-FS functi on menu and its related list selections, controls, and parameters. Where helpful, examples showing usage of a function are also provided. Table 3-2 is primarily based upon using DashBoard to access each function and its corresponding menus and parameters.
Note: For any DashBoard tabs on card not appearing in this
manual, this indicates the function is an option and covered in a separate Manual Supplement. Please refer to card web page Product Downloads for pdf Manual Supplements covering these options.
When licensed with option +2FS (dual-channel framesync), this cards becomes a 9922-2FS card. Refer to 9922-2FS Product Manual for 2FS control descriptions and usage.
On DashBoard itself and in Table 3-2, the function menu items are organized using tabs as shown below.
Some functions use sub-tabs to help maintain clarity and organization. In these instances, Table 3-2 shows the ordinate tab along with its sub-tabs. Highlighted sub-tabs indicate that controls described are found by selecting this sub-tab (in this example, the SDI Output Routing sub-tab on the Outp ut Video page).
The table below provides a quick-reference to the page numbers where each function menu item can be found.
Function Menu Item Page Function Menu Item Page
Input Video Controls 3-11 Moving Box Insertion 3-46 Timecode 3-12 Y/C Alignment Controls 3-47 Reticules 3-17 Wings Insertion 3-48 Output Video Mode Controls 3-20 Keyer 3-49 Framesync 3-21 Ancillary Data Proc Controls 3-52 Input Audio Status 3-24 COMM Ports Setup Controls 3-55 Input Audio Routing/Controls 3-25 Presets 3-57 Video Quality Events 3-30 GPO Setup Controls 3-58 Audio Detect Events Setup
Controls
3-31 Event Setup Controls 3-59
Closed Captioning 3-32 Admin (Log Status/Firmware Update -
Card IP Address) Video Proc/Color Correction 3-33 User Log 3-65 Output Audio Routing/Controls 3-36 Alarms Setup Controls 3-66 Character Burner 3-41
3-10 9922 - FS PRODU C T MAN UAL 9922FS-OM (V1. 8)
3-63
Page 51
Operating Instructions 9922-FS Function Menu List and Descriptions
Table 3-2 9922-FS Function Menu List
Allows manual or failover selection of card SDI program video inputs and displays status and raster

Input Video Controls

format of received SDI video.
Input Video Source Selects the input video source to be applied to the cards program video
Input Video Status Displays input status of each video input, along with elapsed time of
input.
SDI A and SDI B choices allow forced manual selection of correspondingly SDI IN A or S D I IN B .
Failover A to B sets main path preference of SDI IN A.
- If SDI IN A goes invalid, then SDI IN B is selected.
- If SDI IN A goes valid again, failover automatically reverts to
SDI IN A.
Failover B to A sets main path preference of SDI IN B.
- If SDI IN B goes invalid, then SDI IN A is selected.
- If SDI IN B goes valid again, failover automatically reverts to
SDI IN B.
SDI C and SDI D choices allow forced manual selection of correspondingly SDI IN C or SDI IN D without failover choices.
• CVBS – select CVBS input as the program video input.
Note: Failover criteria via this control is simple signal presence.
signal acquire.
SDI A thru SDI D and CVBS Status show raster/format for all card inputs. If signal is not present or is invalid, Unlocked is displayed. (These status indications are also propagated to the Card Info pane.)
Input Format Disabled by User indicates raster size and/or frame rate has been rejected from being passed by card (as described below in Input SDI Raster Size / Frame Rate Filtering).
Note: Status display shows maximum card input complement. Input
complement is determined by rear I/O module used.
Input SDI Raster Size / Frame Rate Filtering
The controls shown below allow user filtering to exclude selected raster or rate formats from being received by a card input.
Default settings have all raster sizes and frame rates “checked”, thereby providing no filtering (exclusion.)
In the example below, only 720p and 29.97 are checked, filtering allowed input to only be 720p 29.97 (720p half-rate”).
Note: Rates shown in selector are frame rates and not field rates.
9922FS-OM (V1.8) 9922-FS PRODUCT MANUAL 3-11
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3 9922-FS Function Menu List and Descriptions
Table 3-2 9922-FS Function Menu List continued
Provides timecode data extraction from various sources, and provides formatting and re-insertion

Timecode

Shown below is an example in which received 525i 5994 SDI video with VITC waveform timecode is being processed to output ATC_VITC timecode. To re-format and insert the timecode data, the following can be performed using the Timecode function. Each Timecode control is fully described on the pages that follow.
controls for inserting the timecode into the output video.
525i 5994
w/ VITC
9922-FS
Waveform
A
Noting that the incoming video contains VITC
525i 5994 w/ ATC_VITC
waveform timecode data (as shown in the status display), set the Source Priority drop-down lists to include VITC Waveform timecode data (SDI VITC) as a choice. This extracts VITC Waveform timecode data from the incoming video.
In this example, it is desired to provide SDI ATC_VITC
B
timecode data in the processed output video. As such, set SD ATC VITC Insertion to Enabled.
In the example here, the line numbers are set to the default SMPTE 12M-2-2008 recommended values.
Reference VITC
Detect/Extract
525i SDI
w/ VITC
Waveform
SDI VITC
Detect/Extract
A
A
Priority/
Select
Buffer/
Format
SDI VITC
Timecode
Proc/Embed
ATC_VITC
Timecode
Proc/Embed
B
SDI ATC_VITC
Detect/Extract
ATC_LTC
Timecode
Line Number Control
Proc/Embed
ATC_VITC Insertion = Enabled ATC_VITC = Line 13 (default SMPTE 12M-2)
525i SDI w/ATC_VITC
SDI ATC_LTC
Detect/Extract
Free Run
(Internal Count)
Audio LTC
Detect/Extract
Insert
Control
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Operating Instructions 9922-FS Function Menu List and Descriptions
Table 3-2 9922-FS Function Menu List continued
(continued)
allows audio LTC from an audio channel to be used as a timecode source, with conversion to a selected SMPTE 12M format on the output video.
Timecode Source Status Displays Displays the current status and contents of the four supported external
LTC Input Control
Mute LTC Control Allows LTC audio or RS-485 output to mute upon loss of selected
Audio LTC controls described below only appear on cards with +LTC licensed optional feature. This feature
timecode formats shown to the left.
If a format is receiving timecode data, the current content (timecode running count and line number) is displayed.
If a format is not receiving timecode data, Not Present is displayed.
Selects source to be used by card to receive LTC as listed below .
RS-485 over COM1 or COM 2
Audio LTC over Emb Ch 1 thru Ch 16
Audio LTC over AES Ch 1 thru Ch 16
Audio LTC over Analog audio Ch 1 thru Ch 4
Note: Audio LTC Source must be appropriately set for card to receive
and process received LTC.
If COM 1 or COM 2 is used for LTC receive, the port function must be set for LTC. See COMM Ports Setup Controls (p. 3-55) for more information.
Card audio inputs will not center inputs with DC offset. If input has DC offset, the source may need to be capacitively coupled to remove the offset.
timecode inputs.
When set to Enabled and input timecode is lost:
RS-485 LTC output goes to frozen state.
Audio LTC output mutes.
When set to Disabled and input timecode is lost:
RS-485 LTC output keeps counting, with count value being free-run
count.
Audio LTC output is not muted, with count value being free-run count.
Note: If muting upon loss of a particular input format is desired, set all Source Priority 1 thru 4 to that particular input format. If this is not done,
the card failover timecode selection may substitute another format choice for the format not being received.
Incoming ATC Packet Removal Control Enables or disables removal of existing input video ATC timecode
9922FS-OM (V1.8) 9922-FS PRODUCT MANUAL 3-13
packets from the output. This allows removal of undesired existing timecodes from the output, resulting in a clean slate where only desired timecodes are then re-inserted into the output. (For example, if both SDI ATC_VITC and ATC_LTC are present on the input video, and only ATC_LTC is desired, using the Removal control will remove both timecodes from the output. The ATC_LTC timecode by itself can then be re-inserted on the output using the other controls discussed here.)
Note: Set this cont r o l to Enabled if Free-Run timecode is to be used. If incoming packets are not removed, output embedded SMPTE timecode may alternate between free-run and embedded SMPTE timecode values.
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3 9922-FS Function Menu List and Descriptions
Table 3-2 9922-FS Function Menu List continued
(continued)
Source Priority Selects the priority assigned to each of the four supported external formats, and internal Free Run in the event the preferred source is unavailable.
Source Priority 1 thru Source Priority 4 select the preferred format to be used in descending order (i.e., Source Priority 2 selects the second-most preferred format, and so on. See example below.)
HD/SD
525i
Input VITC
(1st priority)
Reference VITC
(2nd priority)
In this example, Inpu t VI TC 1st priority selection selects SDI VITC (received on SDI input) over reference VITC (received on frame reference) regardless of video input material source to be processed by the card.
The selected timecode source is embedded on the SDI video output (in this example, 720p) using the selected line numbe r. In this ex ample, if t he SDI VITC on the SDI input becomes unavailable, the card then uses the reference VITC data received on the frame reference.
SDI IN
TC
FRAME REF
SDI OUT
720p (w/ ATC_VITC)
Note: Set Incoming ATC Packet Removal Control to Enabled if Free-Run
timecode is to be used. If incoming packets are not removed, output embedded SMPTE timecode may alternate between free-run and embedded SMPTE timecode values.
Disable Output setting should be used with care. If Disable Output is selected with alternate intended format(s) set as a
lower priority, t he card will indeed disable all timecode output should the ordinate preferred format(s) become unavailable. Typically, choices other than Disable should be used if a timecode output is always desired, with Disable only being used
to remove all timecode data.
In this example, even though and ATC_LTC could be available to substitute for ATC_VITC not being present, the card will revert to no
The choices shown here will allow ATC_LTC to out-prioritize Disable Output if ATC_VITC is
not available. timecode output since the choice of Disable Output out-prioritizes ATC_LTC with these settings.
Offset Contr ols Allows the current timecode count to be advanced or delayed on the output video.
Offset Advance or Delay selects offset advance or delay.
Offset Field delays or advances or delays timecode by one field.
Offset Frame delays or advances or delays timecode by up to 5
frames.
Note: Default settings are null, with both controls set at zero as shown.
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Operating Instructions 9922-FS Function Menu List and Descriptions
Table 3-2 9922-FS Function Menu List continued
(continued)
Output Status Display Displays the current content and source being used for the timecode data
Audio LTC Output A udio LTC output is routed to desired embedded, AES, or analog audio
Note: • Although the output line drop-down on the controls described below will allow a particular range of choi ces, the actual
range is automatically clamped (limited) to certain ranges to prevent inadvertent conflict with active picture area depending on video format. See Ancillary Data Line Number Locations and Ranges (p. 3-9) for more information.
The card does not check for conflicts on a given line number. Make certain the selected line is available and carrying no other data.
as follows:
Output status OK (in this example, SDI VITC timecode received and outputted).
Timecode Insertion button set to Disabled; output insertion disabled.
Note: If timecode is not available from Source Priority selections
performed, timecode on output reverts to Free Run (internal count) mode.
Because the 1s digit of the display Frames counter goes from 0 to 29, the fractional digit (along with the 1s digit) indicates frame count as follows:
0.0 Frame 0
0.1 Frame 1
1.0 Frame 2
1.1 Frame 3
29.1 Frame 59
outputs using the Output Audio Routing/Controls (p. 3-28). Whatever timecode is displayed on the Output Status is converted to audio LT C and available as an LTC audio output.
SD VITC Waveform Insertion Controls For SD output, enables or disables SD VITC waveform timecode
SD ATC Insertion Control For SD output, enables or disables SD ATC_VITC timecode insertion into
9922FS-OM (V1.8) 9922-FS PRODUCT MANUAL 3-15
insertion into the output video, and selects the VITC1 and VITC2 line numbers (6 thru 22) where the VITC waveform is inserted.
Note: • If only one output line is to be used, set both controls for the same
line number.
SD VITC Waveform Insertion control only affects VITC waveforms inserted (or copied to a new line number) by this function. An existing VITC waveform on an unscaled SD SDI stream is not affected by this control and is passed on an SDI output.
the output video, and selects the line number for ATC_VITC.
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3 9922-FS Function Menu List and Descriptions
Table 3-2 9922-FS Function Menu List continued
(continued)
HD ATC_LTC Insertion Control For HD output, enables or disables AT C_LTC timecode insertion into the
HD ATC_VITC Insertion Control
ATC_VITC Legacy Support Control When enabled, accommodates equipment requiring ATC_VITC packet in
Free Run Timecode Controls Allows an initial (starting) count to be applied to output video timecode
output video, and selects the line number for ATC_LTC timecode data.
For HD output, enables or disables ATC_VITC timecode insertion into the output video, and selects the line number for ATC_VITC1 and ATC_VITC2.
both fields as a field 1 packet (non-toggling). Note: Non-toggling VITC1 and VITC2 packets do not conform to
SMPTE 12M-2-2008 preferences. As such, ATC_VITC Legacy Support should be enabled only if required by downstream equipment.
when Free Run insertion is enabled. Note: • Initialization can only be applied when card is outputting Free
Run timecode (as shown by Output Status displaying Free Run”).
If failover to Free Run occurs due to loss of external timecode(s), the Free Run count assumes its initial count from the last valid externally supplied count.
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Operating Instructions 9922-FS Function Menu List and Descriptions
Table 3-2 9922-FS Function Menu List continued
Allows Safe Act ion an d/ or Sa fe T it le over lays and ot her static markers to be added to the output video image.

Reticules

Typical Reticule/Overlay Marker Insertions
The 9922-FS allows any combination of the reticule/overlay markers to be applied to the output video. Sizing and other characteristics for each type of marker can be set as described below.
Safe Action Area (SAA) Reticule
Safe Title Area (STA) Reticule
Graticule
Center Cross
Note: • Overlay markers using this function are for setup only. When enabled, these markers are embedded in the output
video and will appear in the image. Use this function only on preview video and not on-air video. Make certain any overlay tools are turned off when no longer needed.
Multiple overlay markers described below can be simultaneously enabled as desired.
Insertion Master Enable/Disable Provides independent master enable/disable for card SDI and CVBS
Safe Action Area (SAA) Controls
outputs.
When enabled, any combination of reticules or other markers described below can be inserted.
When disabled, insertion of all reticules or other markers is disabled.
SAA provides enable/disable of safe action area graticule insertion.
SAA Height and SAA Width control height and width of insertion (from
0% to 100% of 4:3 outputted image area).
Note: Reticule Size control is locked to Custom for this card, with safe
action area size control as described above.
9922FS-OM (V1.8) 9922-FS PRODUCT MANUAL 3-17
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3 9922-FS Function Menu List and Descriptions
Table 3-2 9922-FS Function Menu List continued
(continued)
Safe Title Area (STA) Controls
STA provides enable/disable of safe title area graticule insertion.
STA Heigh t and STA Width control height and width of insertion (from
0% to 100% of 4:3 outputted image area).
Overlay Color Controls
Overlay Color selects from white or black colors.
O pacity sets the opacity of the overlay for both white/black and inverse
color modes.
White overlay color Black overlay color
Provides insertion and sizing controls for custom graticules and other markers. Also provides NTSC legacy 4:3 master reticule sizing.
Note: Color attributes of markers described below are set using the master Overlay Color Controls described above.
Graticule Controls
Graticule provides enable/disable of user graticule insertion.
Graticule Height and Width control height and width of insertion (from
0% to 100% of 4:3 outputted image area).
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Operating Instructions 9922-FS Function Menu List and Descriptions
Table 3-2 9922-FS Function Menu List continued
(continued)
Center Cross Controls
Center Cross provides enable/disable of center cross insertion.
Cross Height and Width control height of vertical line and width of
horizontal line (from 0% to 100% of 4:3 outputted image area).
Horizontal Line Controls
Horizontal Line provides enable/disable of horizontal line insertion.
Horizontal Line Size controls the width of the horizontal line (from 0%
to 100% of 4:3 outputted image area).
Horizontal Line Pos controls the vertical positioning of the horizontal
line (from 0% to 100% of 4:3 outputted image area).
Vertical Line Controls
Vertical Line provides enable/disable of vertical line insertion.
Vertical Line Size controls the height of the vertical line (from 0% to
100% of 4:3 outputted image area).
Vertical Line Pos controls the horizontal positioning of the line (from
0% to 100% of 4:3 outputted image area).
NTSC Legacy Reticule Fixed Control When set to enable, provides fixed-size safe action area 4:3 reticule suited for CRT-based displays.
9922FS-OM (V1.8) 9922-FS PRODUCT MANUAL 3-19
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3 9922-FS Function Menu List and Descriptions
Table 3-2 9922-FS Function Menu List continued
Allows selection of each of the four video output coaxial connectors as processed SDI out or reclocked SDI out. Also provides CVBS parameter controls and test

Output Video Mode Controls

pattern output controls for card CVBS output.
Output Video Crosspoint For each SDI output port supported by the card, provides a crosspoint for routing program processed video or selected-input reclocked to an SDI output.
In this example, SDI OUT 1 and SDI OUT 3 are receiving Program (procesed) video out, with SDI OUT 2 providing SDI IN A reclocked input video.
Note: Choices shown here are examples only. Key preview available
only when equipped with +KEYER option.
Provides CVBS output parameter controls and test pattern output controls
CVBS Oversampling and Color Contr ols Oversampling enables or disables video DAC oversampling.
CVBS Test Pattern Generator Control Enables manual insertion (replacement) of CVBS output video to instead
Oversampling can improve rendering of motion for down-conversions to the CVBS SD analog output.
Color enables or disables chroma content in the CVBS output.
output 75% color bars.
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Operating Instructions 9922-FS Function Menu List and Descriptions
Table 3-2 9922-FS Function Menu List continued
Provides video frame sync/delay offset control and output control/loss of program video failover selection

Framesync

Framesync Enable/Disable Control Provides master enable/disable of all card framesync functions/controls.
controls.
Lock Mode Select Selects Frame Sync functions from the choices shown to the left and
Output Rate Select Allows frame rate to be outputted same as input video, or converted to
Initial Sta rtup Format Select Selects a synthesized frame sync format/rate to be invoked (from the
described below.
Lock to Reference: Output video is locked to selected external reference received on the frame reference bus. (External reference signal Ref 1 / Ref 2 are distributed to the card and other cards via the Ref 1 / Ref 2 buses on the frame.)
Note: If valid reference is not received, the
status portion of DashBoard, indicating invalid frame sync reference error.
Lock to Input: Uses the program video input video signal as the reference standard.
Note: If Lock to Input is used for framesync, any timing instability
on the input video will result in corresponding instability on the output video.
Free Run: Output video is locked to the cards internal clock. Output video is not locked to external reference.
from the choices shown to the left and described below.
Match Input Video
23.98/29.97/59.94 forces standard North American frame rates.
Can be used to convert 24/30/60 Hz camera frame rates to corresponding 23.98/29.97/59.94 standard North American frame rates.
24/30/60 forces 24/30/60 frame rates. Can be used to convert
23.98/29.97/59.94 Hz frame rates to corresponding 24/30/60 Hz frame rates.
choices shown to the left) in the time preceding stable lock to external reference.
Set this control to that of the intended external reference to help ensure smoothest frame sync locking. This control also sets the card test pattern format where the cards initial output at power-up is the internal pattern instead of program video.
indication appears in the Card Info
9922FS-OM (V1.8) 9922-FS PRODUCT MANUAL 3-21
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3 9922-FS Function Menu List and Descriptions
Table 3-2 9922-FS Function Menu List continued
(continued)
Program Video Output Mode Select Provides a convenient location to select between card program video
Loss of Input Signal Selection In the event of program input video Loss of Signal (LOS), determines
T est Pattern Select Prov ides a choice of standard technical patterns when Test Pattern is
output and other technical outputs from the choices shown to the left and described below.
Input Video card outputs input program video (or loss of signal choices described below).
Flat Field card outputs flat field.
Freeze – card outputs last frame having valid SAV and EAV codes.
Test Pattern card outputs standard technical test pattern (pattern
is selected using the Pattern drop-down described below).
Snow – card outputs synthesized snow multi-color pattern.
action to be taken as follows:
Disable Outputs: Disable program video SDI outputs.
Flat Field go to flat field on program video output.
Freeze – go to last frame having valid SAV and EAV codes on
program video output.
Test Pattern – go to standard technical test pattern on program video output (pattern is selected using the Pattern drop-down described below).
Snow – output synthesized snow multi-color pattern.
invoked (either by LOS failover or directly by selecting Test Pattern on the Program Video Output Mode Select control).
Flat Field Color Select Provides a choice of flat field colors when Flat Field is invoked (either by LOS failover or directly by selecting Flat Field on the Program Video Output Mode Select control).
3-22 9922 - FS PRODU C T MAN UAL 9922FS-OM (V1. 8)
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Operating Instructions 9922-FS Function Menu List and Descriptions
Table 3-2 9922-FS Function Menu List continued
(continued)
Output Video Reference Offset Controls
Frame Delay Control
Minimum Latency Frames Control
Video Delay Display
With framesync enabled, provides the following controls for offsetting the output video from the reference:
Vertical (Lines) – sets vertical delay (in number of lines of output video) between the output video and the frame sync reference.
(Positive values provide delay; negative values provide advance) (Range is -1124 thru 1124 lines; null = 0 lines.)
Horizontal (µs) – sets horizontal delay (in µs of output vid eo ) between the output video and the frame sync reference. (Positive values provide delay; negative values provide advance)
(Range is -64 thru 64 µsec; null = 0.000 µsec.)
Note: Offset advance is accomplished by hold-off of the
reference-directed release of the frame, thereby effectively advancing the program video relative to the reference.
When Framesync is enabled, specifies the smallest amount of latency delay (frames held in buffer) allowed by the frame sync. The frame sync will not output a frame unless the specified number of frames are captured in the buffer. The operational latency of the frame sync is
always between the specified minimum latency and minimum latency plus one frame (not one field).
Note: Due to card memory limits, the maximum available Minimum
Latency Frames is related to the output video format selected. When using this control, be sure to check the Report Delay
display to make certain desired amount of frames are delayed.
Displays the current input-to-output video delay (in msec units) as well as in terms of Frames/fractional frame (in number of lines).
Status display shows total input-to-output video delay, along with any framesync delay.
Framesync Lock Status Display Displays the current framesync status and reference source.
Note: Audio timing offset from video is performed using the delay controls on the Input Audio Routing/Controls tab. Refer to
Input Audio Routing/Controls (p. 3-25) for these controls.
9922FS-OM (V1.8) 9922-FS PRODUCT MANUAL 3-23
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3 9922-FS Function Menu List and Descriptions
Table 3-2 9922-FS Function Menu List continued
Displays signal status and payload for embedded and

Input Audio Status

Individual signal status and peak level displays for embedded audio input pairs, and AES/analog input pairs as described below.
Absent: Indicates embedded channel or AES pair does not contain recognized audio PCM data.
Present - PCM: Indicates AES pair or embedded channel contains recognized audio PCM data.
Dolby E: Indicates embedded channel or AES pair contains Dolby
Dolby Digital: Indicates embedded channel or AES pair contains Dolby Note: Dolby status disp lays occur only for valid D olb y
AES Dolby-encoded inputs that are routed directly to card are directed via a special path that automatically bypasses
SRC. However, AES inputs to other destinations (e.g., AES embedding) are first applied through SRC. These paths disable SRC if Dolby-encoded data is detected. To avoid a possible Dolby noise burst if an input on these paths changes from PCM to Dolby, it is recommended to set the AES SRC control for the pair to SCR Off for an AES input that is expected to carry a Dolby signal.
discrete audio received by the card.
®
E encoded data.
®
®
signals meeting SMPTE 337M standard.
Digital encoded data.
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Operating Instructions 9922-FS Function Menu List and Descriptions
Table 3-2 9922-FS Function Menu List continued
Provides audio routing, gain, per-channel/bulk audio delay controls, and audio meters. These controls route selected audio sources onto the card 16-channel

Input Audio Routing/Controls

internal bus (which is used for all audio processing).
Input Audio
Emb Ch 1 – 6
AES Ch 1-2
9922FS-OM (V1.8) 9922-FS PRODUCT MANUAL 3-25
Crosspoint
Silence or Mute
Bus Ch 1 Bus Ch 2 Bus Ch 3 Bus Ch 4 Bus Ch 5 Bus Ch 6
Bus Ch 7 Bus Ch 8
Bus Ch 9 Bus Ch 10
Bus Ch 16
Card 16-Ch Internal Bus
(Gain, Mute, Bulk and
Channel Delay Controls)
All audio inputs are transferred through the card via the 16-channel Internal Bus (Bus Ch 1 thru Bus Ch 16).
The example above shows various Source selections that direct Emb Ch 1 thru Ch 6 and AES Ch 1 and Ch 2 onto the card internal bus (unused bus channels can be set to Silence or Mute).
Each bus channel provides Gain, Mute, and Invert controls.
The source-to-destination correlation shown here is only an example; any of the sources described on the following pages can route to any of the internal bus channels.
Page 66
3 9922-FS Function Menu List and Descriptions
Table 3-2 9922-FS Function Menu List continued
(continued)
Note:
Default factory preset routing routes embedded Ch 1 thru Ch 16 to bus channels Audio Bus Ch 1 thru Ch 16.
Bus Ch 2 thru Bus Ch 16 have controls identical to the controls described here for Bus Ch 1. Therefore, only the
Bus Ch 1 controls are shown here.
Bus Channel Source Using the Source drop-down list, selects the audio input source to be
Channel Mute/Phase Invert/Gain Controls
and Peak Level Display
routed to the card bus channel from the following choices:
Embedded input channel 1 thru 16 (Emb C h 1 thr u Emb Ch 16)
AES input channel 1 thru 16 (AES Ch 1 thru AES Ch 16)
Analog input channel 1 thru 16 (Analog Ch 1 thru Analog Ch 4)
Input flex mix summed mix output nodes Flex Bus A thru P
Note: AES pair and analog channel count are dependent on rear I/O
module used. Current rear modules may not support full input complement.
Provides Mute and phase Invert channel controls, as well as peak level meter for each output channel. (Meter shows level as affected by Level control.)
Gain controls allow relative gain (in dB) control for the corresponding destination Embedded Audio Group channel.
(-80 to +20 dB range in 1.0 dB steps; unity = 0 dB)
®
Note: Although the card can pass non-PCM data such as Dolby
AC-3, setting the gain control to any setting other than default 0 will corrupt Dolby data.
E or
Audio Delay – Provides bulk (all four groups/master) and individual card audio bus channel delay offset controls and delay parametric displays.
Bulk (Master) Audio/Video Delay Control Bulk Delay control adds bulk (all four groups) audio delay from any video
••
delay (net audio delay offset setting adds delay in addition to any delay included by other actions). This control is useful for correcting lip sync problems when video and audio paths in the chain experience differing overall delays. (-33 to +3000 msec range in 0.01-msec steps; null = 0 msec).
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Operating Instructions 9922-FS Function Menu List and Descriptions
Table 3-2 9922-FS Function Menu List continued
(continued)
Per-Channel Audio/Vi de o De la y Offset Controls
Offset control adds or reduces (offsets) channel audio delay from the matching video delay (audio delay offset setting adds
or removes delay in addition to any delay included by other actions). This control is useful for correcting lip sync problems when video and audio paths in the chain experience differing overall delays.
(-800.0 to +800.0 msec range in 0.02 msec steps; null = 0.0 msec)
Delay Status shows current delay from video for the corresponding audio channel. Note: Maximum advance/delay offset is dependent on video format.
Where a Dolby pair is present, adjustment of either channel control results in a matching delay setting for the other channel in the pair.
Dolby E Alignment – Provides selectable Dolby E alignment for embedded Dolby E to position the bitstream utilizing the Dolby E guard band. This helps prevent frame errors that may occur in a bitstream upon switching or editing.
Dolby E Embedding Alignment Control For incoming Dolby E data routed to the audio bus (either over embedded channels or via AES embedding to the bus), aligns the embedded Dolby data corresponding to selection. Alignment line as a result of selection is shown in E Alignment status display.
Note: Where a frame reference is available, it is recommended to use the
Align to Reference selection. This helps ensure that the correct
alignment is achieved even if the video is user delayed or output format is changed.
Refer to Preferred Alignment for Dolby E in HD Systems (http://www.dolby.com/about/news-events/ newsletters-dtvaudio-dolby-e-alignment.html) for more information regarding Dolby E alignment.
9922FS-OM (V1.8) 9922-FS PRODUCT MANUAL 3-27
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3 9922-FS Function Menu List and Descriptions
Table 3-2 9922-FS Function Menu List continued
Input Flex Mix – Provides a 16-channel mixer in which each of the inputs can be mixed onto up to 16 independent output summing nodes. Each input channel has independent gain and mute controls.
Input Flex Mix
In this example four, 4-input mono mixers are provided by selecting Flex Mixer Bus A for the Flex Mix 1 thru Flex Mix 4 inputs, and Flex Mixer Bus B for the next four inputs, and so on as shown.
Emb Ch 1 - Ch 16
AE S Ch 1 - C h 16
Anlg Ch 1- Ch 4
Emb Ch 1
Emb Ch 2
Emb Ch 3
Emb Ch 4
Emb Ch 5
Emb Ch 6
Emb Ch 11
Emb Ch 12
Flex Mix 1
Flex Mix 2
Flex Mix 3
Flex Mix 4
Flex Mix 5
Flex Mix 6
Flex Mix 7
Flex Mix 8
Flex Mix A
Flex Mix B
To Audio Bus Input Routing
Emb Ch 13
Emb Ch 14
Emb Ch 15
Emb Ch 16
Anlg Ch 1
Anlg Ch 2
Anlg Ch 3
Anlg Ch 4
Flex Mix 9
Flex Mix 10
Flex Mix 11
Flex Mix 12
Flex Mix 13
Flex Mix 14
Flex Mix 15
Flex Mix 16
Flex Mix C
Flex Mix D
In this example three, 2-input mono mixers are provided by selecting Flex Mixer Bus A for the Flex Mix 1 and Flex Mix 2 inputs, and Flex Mixer Bus B for the next two inputs, and so on as shown.
Emb Ch 1 - C h 16
AES Ch 1 - Ch 16
Anlg Ch 1- Ch 4
Emb Ch 1
Emb Ch 2
Flex Mix 1
Flex Mix 2
Flex Mix A
AES Ch 1
AES Ch 2
Anlg Ch 1
Anlg Ch 2
Flex Mix 3
Flex Mix 4
Flex Mix 5
Flex Mix 6
Flex Mix B
Flex Mix C
To Audio Bus Input Routing
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Operating Instructions 9922-FS Function Menu List and Descriptions
Table 3-2 9922-FS Function Menu List continued
(continued)
Note:
Flex Mix input channels Flex Mix 2 thru Flex Mix 16 have controls identical to that described here for Flex Mix 1.
Therefore, only the Flex Mix 1 controls are shown here.
For each Flex Mix input channel, its source should be considered and appropriately set. Unused input channels should
be set to the Silence selection.
Flex Mix Input Channel Source/Bus
Assignment
Gain / Mute Control Provides relative gain (in dB) control and a channel Mute checkbox.
Using the Source drop-down list, selects the audio input source to be directed to the corresponding bus channel from the choices listed below.
Silence
Embed Ch 1 thru Embed Ch 16
AES Ch 1 thru AES Ch 16
Analog Ch 1 thru Analog Ch 4
The Flex Bus drop-down selects the bus (A thru P) to which the input is assigned to.
Note: See the examples on the previous page showing various types of
mixers using multiple flex buses.
(-80 to +20 dB range in 0.1 dB steps; unity = 0.0 dB)
Clean and Quiet Switching (o ptio n +CQS only) – Allows SDI input selection to be changed from one source to another while ducking audio during controlled input video switching transitions to provide silence between input switches.
Input Flex Mix
Note: Clean audio switching is assured only for intentional, controlled switches via user control. Clean audio switching cannot
be assured for failover switches.
Clean switching requires that both SDI signals (switch from and switch to) be stable and present.
Clean audio switching function is designed for PCM audio. This function does not assure clean decoded audio when
switching from/to Dolby or other non-PCM audio.
Switching Enabled check box enables Clean and Quiet Switching. Duration sets the attack and decay ramp intervals (300 msec is recommended for typical use).
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(Option +QC only) Sets quality check screening and thresholds for video quality event alerts. When a quality events occur, the event(s) can be used by the Presets function to invoke input routing or other changes.
Note: Inputs B thru Input D have controls identical to the controls described here for Input A sub-tab. Therefore, only the
Input A controls are shown here. Set controls for other inputs using the respective sub-tab.
Event Status Indicator Displays event status (based on criteria set below) for signal condition to be considered OK (green), or signal condition considered to be a quality alert event (red) due the condition exceeding the criteria threshold(s) set below.

Video Quality Events

Position and Width Controls Position and Width controls set the area of concern to be screened by the Quality Event function.
X and Y Position controls set the origin point for the area of concern
Origin (0,0)
y= 100%
X and Y Width controls set the size for the area of concern
x and y @ 20%
x= 100%
x and y @ 80%
Threshold and Event Type Controls
Sets the thresholds for black frame and event type to be considered. Also provides holdoff controls for event trigger engagement and disengagement.
Noise Immunity sets the relative noise levels that are rejected in the course of black event assessment (Low, Medium, or High).
Engagement Holdoff sets the time (in msec) where, when time is exceeded, an event is to be considered a valid alert event.
Disengagement Holdoff sets the time (in msec) where, when event time is has ceased, an alert event is cleared.
Event Type sets the type of event(s) to be considered by the event screening (Disabled, Frozen frame, Black frame, or either Black or Frozen frame).
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(Option +QC only) Sets audio level screening and thresholds for audio silence/presence event alerts on embedded and/or AES discrete audio in. When an audio events occur, the event(s) can be used by the

Audio Detect Events Setup Controls

Any combination of embedded and AES input channels can be selected to be screened for silence or presence. In the example here, Audio Detect Event 1 is set to trigger if audio on any of channels Emb Ch 1 thru Ch 6 fall below the selected threshold for an interval exceeding the selected threshold. Status indicators for each channel show silence (S) / presence (P) status based on the configured thresholds.
Up to eight independent audio silence/presence events can be set to be screened (with descending priority of consideration from Event 1 down to Event 8). This status here can be propagated to the Presets > Event Triggers sub-tab controls to issue a GPO, preset engage, or other command when audio silence events are detected.
Presets function to invoke input routing or other changes.
Audio Failover Thre shold sets the dBFS level at which channel content is considered to be silent, and correspondingly also a transition back to an untriggered condition with resumption of audio for the selected embedded channels. If the selected channels maintain levels above the selected Audio Failover Threshold, no triggering is invoked.
Trigger Holdoff sets the period of time in which selected channel silence must occur before an Audio Silence Event trigger
goes true.
Release Holdoff control sets the time in which the trigger is revoked upon an event false condition.
Note:Default threshold and holdoff settings shown here are recommended for typical use.
•“Dont Care setting may be labeled as Dont Care, DC, or DSBL (disabled). All notations mean ignoring the channel from event triggering.
Selections other than Dont Care work as an AND function. Where multiple selections are set, a true (trigger) condition is not propagated unless all selected channels experience the configured criteria. (In the example shown above, both channels Emb Ch 1 and Emb Ch 2 need to experience a Silence event for a trigger to be propagated.)
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Provides support for closed captioning setup. Also provides controls for setting closed captioning absence and presence detection thresholds.

Closed Captioning

Closed Captioning Input Status Displays incoming Closed Captioning status as follows:
If closed captioning is present, a message similar to the example shown is displayed.
If no closed captioning is present in the video signal, Not Present or Disabled is displayed.
Note: Packet closed captioning status Captioning Rejected Due To
message can appear due to the items described below. The closed captioning function assesses cdp_identifier, cdp_frame_rate, ccdata_present, and caption_service_active items contained in the packet header to make the determinations listed below. Refer to CEA-708-B for more information.
Message Description
Unsupported Frame Rate
Data Not Present
No Data ID Packet from closed captioning source
Film rate closed-captioning (either as pass-through or up/down conversion) is not supported by the card.
Packet is marked from closed captioning source external to the card that no data is present.
external to the card is not properly identified with 0x9669 as the first word of the header (unidentified packet).
caption service is marked as inactive display indicates bit in packet from upstream source may inadvertently be set as inactive. In this case, closed captioning data (if present) is still processed and passed by the card as normal.
The closed captioning function does not support PAL closed captioning standards.
Closed Captioning Remove/Regenerate
and HD Insertion Line Controls
Presence/Absence Check Controls Displays CC presence and/or absence event status. This status can be
Allows removal of closed captioning packets and regeneration of packets. This is useful where closed captioning must be moved to a different line than that received on.
Note: • Although the output line drop-down will allow any choice within
the 9 thru 41 range, the actual range is automatically clamped (limited to) certain ranges to prevent inadvertent conflict with active picture area depending on video format. See Ancillary Data Line Number Locations and Ranges (p. 3-9) for more information.
The card does not check for conflicts on a given line number. Make certain selected line is available and carrying no other data.
propagated to the Presets > Event Triggers tab controls to issue a card GPO or other command when CC presence/absence events are detected.
Controls for both presence and absence provide for a holdoff time (in seconds) where, when time is exceeded, an event is to be considered a valid alert event.
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Table 3-2 9922-FS Function Menu List continued
Provides the following Video Proc and Color Correction parametric controls.
Video Proc Video Proc (Enabl e / Dis a ble) provides master on/off control of all Video
Reset to Unity Reset to Unity provides unity reset control of all Video Proc functions.
Luma Gain Adjusts gain percentage applied to Luma (Y channel).
Proc functions.
When set to Disable, Video Proc is bypassed.
When set to Enable, currently displayed parameter settings take effect.
When Confirm is clicked, a Confirm? pop-up appears, requesting confirmation.
Click Yes to proceed with the unity reset.
Click No to reject unity reset.
(0% to 200% range in 0.1% steps; unity = 100%)

Video Proc/Color Correction

Luma Lift Adjusts lift applied to Luma (Y-channel). (-100% to 100% range in 0.1% steps; null = 0.0%)
Color Gain Adjusts gain percentage (saturation) applied to Chroma (C-channel).
(0% to 200% range in 0.1% steps; unity = 100%)
Color Phase Adjusts phase angle applied to Chroma. (-360° to 360° range in 0.1° steps; null = 0°)
Gang Luma/Color Gain When set to On, changing either the Luma Gain or Color Gain controls
9922FS-OM (V1.8) 9922-FS PRODUCT MANUAL 3-33
increases or decreases both the Luma and Color gain levels by equal amounts.
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Provides color corrector functions for the individual RGB channels for the card pr ogram video path (option +COLOR).
Color Corrector Color Corrector (On/Off) provides master on/off control of all Color
Reset to Unity Reset to Unity provides unity reset control of all Color Corrector
Luma Gain R-G-B controls
Black Gain R-G-B controls
Corrector functions.
When set to Off, all processing is bypassed.
When set to On, currently displayed parameters settings take effect.
functions. When Confirm is clicked, a Confirm? pop-up appears, requesting
confirmation.
Click Yes to proceed with the unity reset.
Click No to reject unity reset.
Separate red, green, and blue channels controls for Luma Gain, Black Gain, and Gamma curve adjustment.
Gain controls provide gain adjustment from 0.0 to 200.0% range in 0.1% steps (unity = 100.0)
Gamma controls apply gamma curve adjustment in 0.125 to 8.000 range in thousandths steps (unity = 1.000)
Each of the three control groups (Luma, Black, and Gamma have a Gang Column button which allows settings to be proportionally changed across a control group by changing any of the groups controls.
Gamma Factor R-G-B controls
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Operating Instructions 9922-FS Function Menu List and Descriptions
Table 3-2 9922-FS Function Menu List continued
(continued)
Black Hard Clip Applies black hard clip (limiting) at specified percentage. (-6.8% to 50.0%; null = -6.8%)
White Hard Clip Applies white hard clip (limiting) at specified percentage. (50.0% to 109.1%; null = 109.1%)
White Soft Clip Applies white soft clip (limiting) at specified percentage. (50.0% to 109.1%; null = 109.1%)
Chroma Saturation Clip Applies chroma saturation clip (limiting) chroma saturation at specified percentage.
(50.0% to 160.0%; null = 160.0%)
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Provides an audio crosspoint allowing the audio source selection for each embedded audio output channel. Also provides Gain, Phase Invert, and Muting controls

Output Audio Routing/Controls

and peak level meters for each output channel.
Note: Embedded Ch 2 thru Embedded Ch 16 have controls identical to the Source, Gain, Mute, and Invert controls
described here for Embedded Ch 1. Therefore, only the Embedded Ch 1 controls are shown here.
For each channel, its source and destination should be considered and appropriately set. Unused destination
channels should be set to the Silence selection.
Group Enable/Disable Controls Allows enable/disable of embedded audio groups 1 thru 4 on card
Embedded Output Channel Source Using the drop-down list, selects the audio input source to be embedded
Channel Mute/Phase Invert/Gain Controls
and Peak Level Display
program video output to accommodate some legacy downstream systems that may not support all four embedded audio groups.
Note: Changing the setting of this control will result in a noise burst in all
groups. This control should not be manipulated when carrying on-air content.
in the corresponding embedded output channel from the following choices:
Card Audio Bus Ch 1 thru Ch 16
B uilt-in Tone generators Tone n
(-20 dBFS level tone generators with n being frequencies of 100, 200, 300, 400, 500, 600, 700, 800, 900, 1k, 2k, 4k, 6k, 8k, 12k, and 16k)
Flex Bus A thru P mixer sum node outputs
Audio LTC
Downmixer L
Downmixer R
Embedded Data L and R (SMPTE 337 non-PCM data
Provides Mute and phase Invert channel controls, as well as peak level meter for each output channel. (Meter shows level as affected by Level control.)
Gain controls allow relative gain (in dB) control for the corresponding destination Embedded Audio Group channel.
(-80 to +20 dB range in 1.0 dB steps; unity = 0 dB) Note: Although the 9922-FS can pass non-PCM data such as Dolby
or AC-3, setting the gain control to any setting other than default 0 will corrupt Dolby data.
embedding with option +ANC)
®
E
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Provides an audio crosspoint allowing the audio source selection for each AES audio output channel. Also provides Gain, Phase Invert, and Muting controls and peak level meters for each output channel.
Note: AES Out Ch 2 has controls identical to the Source, Gain, Mute, and Invert controls described here for AES Out
Ch 1. Therefore, only the AES Out Ch 1 controls are shown here.
For each channel, its source and destination should be considered and appropriately set. Unused destination
channels should be set to the Silence selection.
AES Output Channel Source Using the Source drop-down list, selects the audio input source to be
Channel Mute/Phase Invert/Gain Controls
and Peak Level Display
routed to the corresponding AES output channel from the following choices:
Card Audio Bus Ch 1 thru Ch 16
Built-in Tone generators Tone n
(-20 dBFS level tone generators with n being frequencies of 100, 200, 300, 400, 500, 600, 700, 800, 900, 1k, 2k, 4k, 6k, 8k, 12k, and 16k)
Flex Bus A thru P mixer sum node outputs
Audio LTC
Downmixer L
Downmixer R
Embedded Data L and R (SMPTE 337 non-PCM data
Provides Mute and phase Invert channel controls, as well as peak level meter for each output channel. (Meter shows level as affected by Level control.)
Gain controls allow relative gain (in dB) control for the corresponding destination AES output channel.
(-80 to +20 dB range in 1.0 dB steps; unity = 0 dB) Note: Although the 9922-FS can pass non-PCM data such as Dolby
or AC-3, setting the gain control to any setting other than default 0 will corrupt Dolby data.
embedding with option +ANC)
®
E
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Provides an audio crosspoint allowing the audio source selection for each analog audio output channel. Also provides Gain, Phase Invert, and Muting controls and peak level meters for each output channel.
Analog Output Channel Source Using the Source drop-down list, selects the audio input source to be
Channel Mute/Phase Invert/Gain Controls
and Peak Level Display
routed to the corresponding analog audio output channel from the following choices:
Card Audio Bus Ch 1 thru Ch 16
B uilt-in Tone generators Tone n
(-20 dBFS level tone generators with n being frequencies of 100, 200, 300, 400, 500, 600, 700, 800, 900, 1k, 2k, 4k, 6k, 8k, 12k, and 16k)
Flex Bus A thru P mixer sum node outputs
Audio LTC
Downmixer L
Downmixer R
Provides Mute and phase Invert channel controls, as well as peak level meter for each output channel. (Meter shows level as affected by Level control.)
Gain controls allow relative gain (in dB) control for each corresponding destination analog audio out channel.
(-80 to +20 dB range in 1.0 dB steps; unity = 0 dB)
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Provides audio down-mix audio routing selections that multiplexes any five audio channel sources into a stereo pair.
Downmixer Source Control s Left Channel Input thru Right Surround Channel Input select the five
Center Mix Ratio Control Adjusts the attenuation ratio of center-channel content from 5-channel
audio bus source channels to be used for the downmix. Downmix channels Downmixer L and Downmixer R are available as
sources for embedded, AES, or analog audio outputs using the Channel Source controls described above.
source that is re-applied as Lt and Rt content to the DM-L and DM-R stereo mix.
0 dB setting applies no ratiometric reduction. Center channel content is
restored as in-phase center-channel content with no attenuation, making center-channel content more predominate in the overall mix.
Maximum attenuation setting (-80 dB) applies a -80 dB ratiometric
reduction of center-channel content. Center-channel content is restored as in-phase center-channel content at a -80 dB ratio relative to overall level, making center-channel content less predominate in the overall
mix. (20 dB to -80 dB range in 0 dB steps; default = 0 dB) Note: Default setting is recommended to maintain center-channel
predominance in downmix representative to that of the original source 5-channel mix.
Surround Mix Ratio Control Adjusts the attenuation ratio of surround-channel content from 5-channel
9922FS-OM (V1.8) 9922-FS PRODUCT MANUAL 3-39
source that is re-applied as Lo and Ro content to the DM-L and DM-R stereo mix.
0 dB setting applies no ratiometric reduction. Surround-channel content
is restored with no attenuation, making Lo and Ro content more
predominate in the overall mix.
Maximum attenuation setting (-80 dB) applies a -80 dB ratiometric
reduction of surround-channel content. Surround-channel content is
restored at a -80 dB ratio relative to overall level, making
surround-channel content less predominate in the overall mix. (20 dB to -80 dB range in 0 dB steps; default = 0 dB) Note: Default setting is recommended to maintain surround-channel
predominance in downmix representative to that of the original source 5-channel mix.
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3 9922-FS Function Menu List and Descriptions
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Output Flex Mix – Provides a 16-channel mixer in which each of the inputs can be mixed onto up to 16 independent output summing nodes. The input sources are the card processed audio bus channels. Each input channel has independent gain and mute controls.
Output Flex Mix
Note: For each Flex Mix input channel, its source should be considered and appropriately set. Unused input channels should
be set to the Silence selection.
Flex Bus Input Channel Source/Bus Assignment
Gain / Mute Control Provides relative gain (in dB) control and a channel Mute checkbox.
Using the Source drop-down list, selects the audio input source to be directed to the corresponding bus channel from the choices listed below.
Silence
Audio Bus Ch 1 thru Ch 16
Tones (100 Hz thru 16 kHz)
Downmix L or Downmix R
The Flex Bus drop-down selects the bus (A thru P) to which the input is assigned to.
(-80 to +20 dB range in 0.1 dB steps; unity = 0.0 dB)
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Provides user-configurable burn-in of up to two text strings and timecode on output video.

Character Burner

Note: Ident 1 and Ident 2 sub-tabs provide identical, independent controls for inserting two independent text (identification)
burn-in overlays on the output video. Ident 2 has controls identical to the controls described here for Ident 1. Therefore, only the Ident 1 controls are shown here.
Ident Insertion Controls Selects the rules for identification text burn-in overlay insertion into output
Display Type (Format) Select Selects the type of data to be displayed as burn-in text from choices
Display (Ident) Text Entry Field Dialog entry box that allows entry of desired ident text string. Enter
Ident Text Attributes Controls Sets burn-in size/position attributes as follows:
video. Note: If ident text insertion is desired for input LOS conditions, the
Framesync On Loss of Video control must be set to provide a raster (from one of the choices shown) to support the text insertion.
If this co n tr o l is set to Disable Outputs, no raster or text insertion
will be present on the output video under input LOS conditions. See Framesync (p. 3-21) for more information.
shown.
User text allows user text to be entered using field described below.
Video type insert s an overlay showing the video format of the input
being used for processing.
desired text as click Update when done to input the text string. Note: • All normal keyboard alphanumeric characters are supported, in
addition to ASCII characters (Windows ALT+nnnn).
Up to 126 characters can be entered.
Character Size sets character size (in pixels).
Text Justification selects from left, right, or center-aligned justification
within the text box overlay.
Character Color selects text color.
Character Opacity sets text opacity from 0% (least opacity) to 100%
(full opacity).
Ident Text Background Attributes Controls Provides independent controls for setting the color and opacity of the
9922FS-OM (V1.8) 9922-FS PRODUCT MANUAL 3-41
burn-in text and its background.
Color drop-down sets background color from multiple choices.
Opacity control sets background opacity from 0% (least opacity) to
100% (full opacity).
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(continued)
Ident Position Select Sets the location of the ident text insertion from choices shown or custom.
Ident Text Positioning Controls With Custom selected, sets burn-in position attributes as follows:
(When Custom is selected, position is configured using the Ident Text Positioning C o ntrols described below.)
Example: Ident 1 text using Top Left position
Example: Ident 1 text using Center position
Note: For SD usage, burn-ins can impinge on and corrupt line 21
closed-captioning waveform if positioned too close to the upper right of the raster.
Horizontal Position sets horizontal position (in percentage of offset from left of image area). (Range is 0 thru 100%)
Vertical Position sets vertical position (in percentage of offset from top of image area, top justified). (Range is 0 thru 100%)
Note: Horizontal and Vertical Position controls are functional only when
Custom Position is selected.
Character sizing and positioning for a given raster format may not be appropriate for another format (especially if transitioning from HD to SD). Set size and position for a balanced appearance (e.g., do not place text too close to margins or set larger than necessary) that accommodates both HD and SD raster formats if multiple format use is required.
Positioning with H and V controls at zero (origin) (Size = 3)
Positioning with H and V controls both at 50 (Size = 3)
Origin (0,0)
y= 100%
x= 100%
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(continued)
Text Box Si zing Controls Provides controls for setting the size of the burn-in text background box.
Auto allows text box to proportionally size with selected text size.
Custom allows override of proportional sizing and allows text V and H
dimensions to be set as desired.
Text Box Width and Height allow manual sizing when set to Custom.
Custom allows override of proportional sizing and allows text V and H
dimensions to be set as desired.
Horizontal and Vertical Padding allow fine adjustment of V and H dimensions to be set when Auto is selected.
Text Box Border Enable When set to Enabled, applies a white hairline border to the text box edges.
Provides controls for burn-in of timecode on output video.
Note: This status display mirrors the same display in the Timecode tab. Device must be set to output a timecode in order for
timecode burn-in to function. See Timecode (p. 3-12) for information on using timecode controls.
Timecode Insertion Control Selects the rules for timecode burn-in overlay insertion into output video. Note: If timecode insertion is desired for input LOS conditions, the
Framesync On Loss of Video control must be set to provide a raster (from one of the choices shown) to support the timecode insertion.
If this co n tr o l is set to Disable Outputs, no raster or timecode
insertion will be present on the output video under input LOS conditions. See Framesync (p. 3-21) for more information.
Timecode Format Display Selector Selects the format of timecode string burn-in overlay insertion into output video from choices shown.
9922FS-OM (V1.8) 9922-FS PRODUCT MANUAL 3-43
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(continued)
Timecode Attributes Controls Sets burn-in size/position attributes as follows:
Character Size sets character size (in pixels).
Text Justification selects from left, right, or center-aligned justification
within the text box overlay.
Character Color selects text color.
Character Opacity sets text opacity from 0% (least opacity) to 100%
(full opacity).
Timecode Background Attributes Controls Provides independent controls for setting the color and opacity of the
Timecode Position Select Sets the location of the timecode insertion from choices shown or
burn-in text and its background.
Color drop-down sets background color from multiple choices.
Opacity control sets background opacity from 0% (least opacity) to
100% (full opacity).
custom. (When Custom is selected, position is configured using the
Timecode Positioning Controls described below.)
Example: Timecode burn-in using Bottom Center position
Example: Timecode
burn-in using Top Left position
Timecode Positioning Controls With Custom selected, sets burn-in position attributes as follows:
Horizontal Position sets horizontal position (in percentage of offset from left of image area). (Range is 0 thru 100%)
Vertical Position sets vertical position (in percentage of offset from top of image area, top justified). (Range is 0 thru 100%)
Note: Horizontal and Vertical Position controls are functional only when
Custom Position is selected.
Character sizing and positioning for a given raster format may not be appropriate for another format (especially if transitioning from HD to SD). Set size and position for a balanced appearance (e.g., do not place text too close to margins or set larger than necessary) that accommodates both HD and SD raster formats if multiple format use is required.
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Table 3-2 9922-FS Function Menu List continued
(continued)
Positioning with H and V controls at zero (origin) (Size = 3)
Positioning with H and V controls both at 50 (Size = 3)
Origin (0,0)
y= 100%
Text Box Si zing Controls Provides controls for setting the size of the burn-in background box.
Text Box Border Enable When set to Enabled, applies a white hairline border to the text box
x= 100%
Auto allows text box to proportionally size with selected text size.
Custom allows override of proportional sizing and allows text V and H
dimensions to be set as desired.
Text Box Width and Height allow manual sizing when set to Custom.
Custom allows override of proportional sizing and allows text V and H
dimensions to be set as desired.
Horizontal and Vertical Padding allow fine adjustment of V and H dimensions to be set when Auto is selected.
edges.
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Provides a moving box graphic insertion (overlay) on the output video.

Moving Box Insertion

Moving-box insertion can serve as a dynamic raster confidence check even in cases wher e the inp ut vid eo image is static or lost.
Moving-box insertion provides dynamic display even on static video. Attributes such as box size, color, vertical movement speed, and horizontal movement speed are all user configurable.
Moving box can be set to insert continuously, or only upon loss of input.
Moving Box Insertion Controls Selects the rules for moving-box overlay insertion into output video. Note: If moving-box insertion is desired for input LOS conditions, the
Framesync On Loss of Video cont rol must be set to provide a raster (from one of the choices shown) to support the moving-box insertion.
If this control is set to Disable Outputs, no raster or moving-box insertion will be present on the output video under input LOS conditions. See Framesync (p. 3-21) for more information.
Moving Box Size Controls Sets size of box image burn-in as follows:
Moving Box Width set s the width (as a percentage of maximum
available raster width. (Range is 0% thru 40%)
Moving Box Height sets the height (as a percentage of maximum
available raster height. (Range is 0% thru 40%)
Note: • Moving box sizing for a given raster format may not be
appropriate for another format (especially if transitioning from HD to SD). Set size and position for a balanced appearance that accommodates both HD and SD raster formats if multiple format use is required.
Fo r SD usage, moving box can impinge on and corrupt line 21 closed-captioning waveform if positioned too close to the upper right of the raster.
Moving Box Speed Controls Sets speed of motion for moving box image burn-in as follows:
Moving Box Horizontal Speed sets the X-axis speed from choices shown.
Moving Box Vertical Speed set s the Y-axis speed from choices shown.
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(continued)
Moving Box Attributes Controls Provides independent controls for setting the color and opacity of the moving-box insertion.
Color drop-down sets box color from multiple choices shown.
Opacity controls sets box opacity from 0% (least opacity) to 100% (full
opacity).
Provides controls for correcting upstream misalignment

Y/C Alignment Controls

SMPTE color bars showing Y/C misalignment (as
evidenced by poor transitions at the color borders)
of Y and C phase.
SMPTE color bars showing proper Y/C alignment (as
evidenced by crisp transitions at the color borders)
Y/C misalignment is typically introduced by upstream analog-to-digital conversion, especially where the Y and chroma paths may experience differing characteristics.
Y/C Alignment Controls Provides the following Y/C alignment controls:
Enable control turns on alignment.
C Phase Adjustment Relative to Y provides a -8
of C phase from Y phase.
9922FS-OM (V1.8) 9922-FS PRODUCT MANUAL 3-47
° to +7°phase offset
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3 9922-FS Function Menu List and Descriptions
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Provides wings insertion/width controls and displays insertion status.

Wings Insertion

Wings Source Control Selects the card SDI input video port to serve as the cards wings source. Note: SDI inputs selected must be used with Rear I/O Module
correspondingly equipped with intended input ports.
Wings Insertion Enable Control Enables or disables wings insertion into the output video.
Note: For conditions where wings is not intended to be inserted, make
certain this control is set to Disabled.
Wings Wid th Control Allows symmetrical L/R wings insertion width, from none to widths
Wings Sta tus Displays
extending into active image area if desired. (0 to 300 pixel range; null = 0)
Displays wings timing status (on both Wings tab and Card Status displays) as described below.
Note: Wings timing is a function of the wings frame sync card/
device. Ideal wings timing is within 0 to 200 samples early of output video timing. Wings timing cannot be controlled on host card wings inserter.
Error in wings timing will result in loss of wings (however, program video image will not be corrupted).
Wings insertion within target 0-200 samples early
Wings insertion late
Wings insertion too early
Wings video wrong/mismatched format
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Provides key/fill insertion controls and displays insertion status.

Keyer

requires a Rear Module that accommodates separate key/fill video inputs. Note that on cards also licensed with +KEYER, Wings and Keyer controls appear on the same tab.
Key/Fill Source Controls
Key Mode Control Selects key mode as follows:
Key/Fill Insertion Enable Control
Key/fill controls described below only appear on cards with +KEYER licensed optional feature. This feature
Selects the card SDI input video ports to serve as the cards key and fill
sources.
Note: SDI inputs selected must be used on Rear I/O Module
correspondingly equipped with intended input ports.
Alpha Ramp setting is used when typical key/fill is provided by key/fill generator with separate key and fill outputs.
Alpha Threshold or Reverse Alpha Threshold setting is used to provide keying using a combined key/fill signal derived from a simple graphic source.
Key Enable control sets up key/fill for insertion. When enabled, key preview is available on Key Preview output.
When key preview shows desired results, Apply Key T o Program can be enabled to apply the key/fill to the program video output.
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(continued)
Key/Fill Status Displays
Key Alpha/Threshold Controls When keying is set to Alpha Threshold or Reverse Alpha Threshold mode
Displays keyer timing status (on both Keyer tab and Card St atus displays) as described below.
Note: K ey/ fill timing is a function of the respective key and fill signal
frame sync card/device(s). Ideal timing is within 0 to 200 samples early of output video timing. Key/fill timing cannot be controlled on +KEYER host card.
Error in key/fill timing will result in loss of keying (however, program video image will not be corrupted).
Key/fill insertion OK, within target 0-200 samples early
Key or fill inse rtion late e rror (in t his example, late key vi deo as shown by “wrap-around” line 749 lines early offset)
Key or fill video missing/mismatched format
sets luma thresholds, when crossed, allow key/fill onto program video image.
Key Alpha setting, when increased, increases the opacity of the key/fill.
Key Threshold setting, when reduced, more readily allows the key/fill
input to assert itself over more variations of program video luma levels.
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Alpha Threshold keying allows cost-effective luminance keying from low-cost generic file-based graphic sources. With the graphic source applied to both the card Key and Fill inputs, the card Key Alpha and Key Threshold controls can be set to easily optimize the key/fill as shown below.
Key Threshold setting, when reduced, more readily allows the key/fill input to assert itself over more variations of program video luma levels. In the example to the right, progressively reducing the threshold setting allows more of the key/fill to assert iteslf over the program video.
Key Alpha setting, when increased, increases the opacity of the key/fill. In the example to the right, progressively increasing the alpha setting increases the key/fill opacity.
When both settings are optimized, the key/fill appears consistent in opacity and free from edge distortions or graphic bleed lines appearing in the image.
Alpha Threshold mode setting is suited for graphic sources using black backgrounds.
Reverse Alpha Threshold mode setting is suited for graphic sources using
white backgrounds.
When using either alpha threshold modes, set the Key Source and Fill Source to use the same source (in this example, SDI input D).
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Provides controls for VANC/HANC ancillary data de-embedding and embedding to and from program video stream. Data can be extracted and inserted within the card (Bridge mode), or inserted and/or extracted to and from external interfaces via serial or IP

Ancillary Data Pr oc Controls

Eight individual Ancillary Data Processors (ADPs) provide for insertion, extraction, or bridging ancillary data to and from the card program video SDI stream.
interfaces.
Mode controls select the type of ANC processing:
Bridge extracts ANC from the deserialized input video and re-inserts in the output video, thereby allowing full control of specialized ANC packets
Insert and Extract modes respectively allow insertion to the output stream or extraction from the input stream between external interfaces
Interface controls select either card IP or serial data (COM 1) interface where Mode is set to insertion or extraction Note: COM1 is available for ADP Proc 1 only; all other ADPs use IP only for external import/export insertion/extraction.
DID and SDID controls select the desired packet to be handled by the corresponding ANC Data Processor
Insertion controls allow special insertions in HANC or the C-channel, as well as removal of incoming packets
Line Number co ntr ols sele ct the VANC location of packet insertion/extraction
In the example above, ADP Proc 1 is set to extract ATC timecode at DID60h / SDID 60h. Depending on the interface used to carry the extraction (COM or IP), status is displayed as shown below.
When set to extract to COM interface, displays rate and dropped data (if any)
When set to extract to IP interface, displays rate and total amount transferred
Note: DashBoard versions 4.1 and earlier display DID and SDID numbers in decimal; newer DashBoard versions display DID and SDID numbers in
hexadecimal. Hexadecimal notation is denoted by the “0x” preceding the val ue.
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IP Port Setup sub-tab provides IP setup for card UDP IP communications.
Card IP Receive Setup/Status Shows card receiving IP address/status and sets port as follows:
Card Active IP: Shows the card IP address. (IP address is set using Admin tab Networking settings; see Admin (Log Status/ Firmware Update - Card IP Address) on page 3-61).
Card Port: Sets card IP receive port.
Insertion / Rx Status: Shows card IP re ceive/Rx inse rtion status.
- Stopped (with yellow indicator) means no data is being received.
- Green indicator means data is being received and inserted. Data
rate is also shown.
Card IP Transmit Setup/Statu s Provides setup for destination IP address and shows card transmit status as follows:
Extraction / Tx Status: Shows card extraction from stream to Tx status.
- Stopped (with yellow indicator) means no data is being sent.
- Green indicator means data is being extracted and sent. Data rate
is also shown.
Destinati on IP/Port: Allows setting destination IP address and port.
Extraction Mode: Sets the IP data sent to consist of only payload, or send as formatted packets.
Notes: • Packets received must be sized to fit in a native ancillary data packet (i.e., payloads that span multiple ancillary packets need to be broken down by the
sending controller before they are sent to the device).
Device can be configured to send back ACK packets each time data is inserted. The ACK packet is sent immediately after the data is actually inserted. Packets need to be broken down by the sending controller before they are sent to the device. Device can also be configured to send out "heartbeat" packets every two seconds as an additional safeguard.
Packet formatting for insertion/extraction, ACK, and heartbeat is as follows:
Packet formatti ng used for insert ion/extractio n: ACK Packet Format Heart beat Packets
Bytes Field Bytes Field Bytes Field
3:0 Packet Type (0xF5AB02ED) 3:0 Packet Type (0xAC73B938) 3:0 Packet Type (0x20120831) 5:4 Packet size 5:4 Received packet size 31:4 Reserved
6 DID 6 Received DID 7 SDID 7 Received SDID
Line number for In ser ti on. If set to 0, us e the
9:8
11:10 Payload size 11:10 Received payload size 15:12 User packet ID 15:12 Received user packet ID
N:16 Payload 31:16 Reserved
line number set by softwar e .
9:8
Line number on which the received
packet was inserted
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Data-Over-Audio sub-tab provides controls that allow SMPTE 337/338/339 non-PCM data to be embedded and de-embedded on embedded audio pairs, offering a very convenient self-contained transport within the program stream physical media .
Shown below is an example setup where serial data is embedded as SMPTE 337 non-PCM data on a sending embedded pair, and then extracted on a receiving pair and converted back to serial data using two cards/devices with the +ANC option.
Embedding
(Sending)
Card/Device
SDI IN
Data
A
The COM Routing tab and appropriate
A
sub-tab is set to receive serial data, noting bit rate and parity settings to conform to the received serial data. (See COMM Ports Setup Controls (p. 3-55))
The received serial data is then directed to
B
an embedded audio output channel pair by setting a pair to Embedded Data using the Output Audio Routing/Contr ols tab (in this example, Emb pair 7/8).
COM
Insert
Routing
De-Embedding
(Receiving)
B
Card/Device
C
SDI OUT
COM
Extract
Routing
The embedded data pair on the receiving end is then
C
selected using the De-Embed Source select drop-down on the Data-Over-A udio Setup sub-tab (in this example, Emb Pair 4 (channels 7/8) as correspondingly set on the sending card).
On the COM Routing tab, select Audio Data Extractor
D
to extract and route the received SMPTE 337 data to the desired COM port, noting bit rate, protocol, and parity settings. (See COMM Ports Setup Controls (p. 3-55))
Data
D
When data is successfully being de-embedded, the status display shows green and indicates the bit rate (bit rate is bit rate configured on sending end; typically SMPTE 337 data transfer is much faster than serial)
Notes: Embedded channel pair selected must be a standard boundary pair (e.g., 1/2, 3/4 and so on).
SMPTE 337/338/339 embedded pair carrying non-PCM data here is marked as Non-PCM Data Unknown. Any intermediate devices between
the Cobalt sending card/device and the Cobalt receiving card/device will transfer this data intact, as long as these devices can transfer in a bit-accurate manner. Most devices capable of carrying Dolby® streams are capable of this. However, any intermediate devices must have functions such as PCM level controls and SRC disabled.
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Provides controls for setting up the two COMM (serial) ports for LTC or ANC functions, and setting comm protocol for each port.

COMM Ports Setup Controls

Note: COM 1 and COM 2 sub-tabs provide independent controls for COM1 and COM2. Therefore, only the COM 1 controls
are described here.
Controls provided here allow highly detailed setup of serial communications. Control settings must be carefully
considered and set appropriately to correspond to both sending and receiving systems. Incorrectly set controls may result in loss of ANC serial comm.
COM 1 and COM 2 are multi-function interfaces and must be set f or ANC Data Extractor for port(s) is to be used here.
Set the port function as described in COM Routing in COMM Ports Setup Controls (p. 3-55).
COM Mode (Pro tocol)
COM Port Tx Routing Function
Rx/Tx Status Display Shows either no data received/sent, or where transfer is present shows
Selects serial comm protocol for the respective port as RS-232 or
RS-485. Note: P rotocol choices should consider the payload to be carried.
Typically, LTC is sent or received using only RS-485 serial protocol.
Selects port function for the respective port as LTC Encoder input or
output, or ANC Data Extractor / Audio (SMPTE 337) non-PCM input or output.
data rate (in kbit/sec).
Insertion Mode Control Where data is being inserted (received), sets the insertion as follows:
Insert Any Data Received: Insert all received data with no regard for packet size.
Fixed Length Packet: Sets receive to wait and accumulate
n-number of packet bytes (as set using Insertion Fixed Packet Size control) before inserting data.
Break-Defined Packet: Card receiver looks for character-defined break from source being received to define breaks.
Insertion Flow Control Allows communication between card receive and sending source to
9922FS-OM (V1.8) 9922-FS PRODUCT MANUAL 3-55
regulate data receive as follows:
No Flow Control: Data is received without buffering or checking to see if data is being received faster than it can be inserted.
XON / XOFF: The card UART Tx will tell the sending source whether it can or cannot accept data at current bit rate.
Hold Break: Card, if close to not being able to accept new data, tells the sending source to hold, and releases this hold when the card is again able to accept new data.
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(continued)
Insertion Sync Byte Control Allows use of a sync byte from card receiver back to sending source to
Extraction Mode Control Where data is being extracted from input video, sets the data to be sent
Extraction Flow Control Allows communication between card transmit and receiving destinations
synchronize communication between card receive and sending source as follows:
Disabled: No special synchronization.
Field Number at SOF: The card sends a single byte telling sending
source when start of field 1 or field 2 is occurring.
Ack on Insertion: Card sends a single byte back to sending source when data has been inserted.
as follows:
Payload Only: Sends payload only (for example, for closed captioning this would be only the ASCII character string representing the CC content).
Full Anc Data Packet: Sends the entire packet, including payload, DID, SDID, and any handling or marking characters.
to regulate data receive as follows:
No Flow Control: Data is transmitted without buffering or checking to see if data is being transmitted faster than it can be received.
XON / XOFF: The card UART Rx will acknowledge from the receiving system whether it can or cannot accept data at current bit rate.
Hold Break: Card, if receiving notification from the receiving system that it is close to not being able to accept new data, tells the card to hold. Card releases this hold when the receiving system removes the break command, indicating destination is now ready again to accept new data.
Bit Rate/ Parity Gen Control For both Rx and Tx, sets UART for bit rate and parity as follows:
Bit Rate: Sets Tx/Rx bit rate from 1 of 5 speeds ranging from 9600 to 230400 Baud.
Parity:Sets card Rx to expect odd or even parity from incoming data, and sets card Tx to generate a parity bit to satisfy selected parity. Where parity is set, incoming data not conforming to parity selection is rejected.
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Allows user control settings to be saved in a Preset and then loaded (recalled) as desir ed, and prov ide s a

Presets

Preset Layer Select
Allows selecting a functional layer (or area of concern) that the preset is concerned with. Limiting presets to a layer or area of concern allows for highly specific presets, and masks changing card settings in areas outside of the layer or area of concern.
Default All setting will “look” at all card settings and save all settings to the defined preset with no masking.
video proc setting in effect, and at a later time EAS audio routing is desired to be saved and invoked as a preset, selecting In Audio Routing here tells the preset save and load to not concern itself with video proc settings. In this manner, any video proc settings in effect when the EAS preset is invoked will not affect any video proc settings that might be currently in effect.
one-button restore of factory default settings.
Selecting a layer (in the example, In Audio Routing) will set the preset to only look at and touch audio routing settings and save these settings under the preset. When the preset is loaded (recalled), the card will only “touch” the audio routing layer.
Example: Since EAS audio routing can be considered independent of video proc settings, if normal audio routing was set up with a particular
Preset Enter/Save/Delete Locks and unlocks editing of presets to prevent accidental overwrite as
Protected state
changes locked out
Preset Save/Load Controls
Ready (open) state
changes can be applied
follows:
Protect (ready): This state awaits Protected and allows preset Save/ Delete button to save or delete current card settings to the selected preset. Use this setting when writing or editing a preset.
Protected: T oggle to this setting to lock down all presets from being inadvertently re-saved or deleted. Use this setting when all presets
are as intended.
Create New Preset: Field for entering user-defined name for the preset being saved (in this example, IRD Rcv122”).
Save: Saves the current card settings under the preset name defined above.
Select Preset: drop-down allows a preset saved above to be selected to be loaded or deleted (in this example, custom preset IRD Rcv122).
Load Selected Preset button allows loading (recalling) the selected preset. When this button is pressed, the changes called out in the preset are immediately applied.
Delete Selected Preset button deletes the currently selected preset.
Load Factory Defaults button allows loading (recalling) the factory default preset. When this button is pressed, the changes called out in the preset are immediately applied.
Note: Load Factory Defaults functions with no masking. The
Preset Layer Select controls have no effect on this control and will reset all layers to factory default.
Download Presets saving the preset files to a folder on the connected computer.
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(continued)
Download (save) card presets to a
network computer by clicking Download Presets Save at the bottom of the Presets page.
Browse to a desired save location (in this example, My
Documents\Cobalt Presets).
The file can then be renamed if desired (RCVR21 Presets in this example) before committing the save.

GPO Setup Controls

Upload (open) card presets from a network computer by clicking Upload at the bottom of DashBoard.
Browse to the location where the file was saved on the computer or drive (in this example, My
Documents\Cobalt Presets).
Select the desired file and click Open to load the file to the card.
Note: • Preset transfer between card download and file
upload is on a group basis (i.e., individual presets cannot be downloaded or uploaded separately).
A fter uploading a presets file, engagement of a desired preset is only assured by selecting and loading a desired preset as described on the previous page.
Provides controls for setting up the two GPO’s power-up states as well as forced manual or event action triggered.
Note: This tab has identical independent controls for GPO 1 and 2. Therefore, only the GPO 1 controls are described here.
Current State indicates GPO status regardless of any pre-setup.
Power-on State allows the power-up GPO state to be set
(initialized) upon power-up
Control Mode allows GPO manual asserted open or closed states, or hands over control to Event Action triggering.
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Provides event-based loading allowing a defined action to be automatically engaged upon various received signal status. Actions can be “canned” control commands or user-defined by going to a user preset.

Event Setup Con trols

Event based preset loading is not passive and can result in very significant and unexpected card control and signal processing changes if not properly used. If event based presets are not to be used, make certain the Event Based Loading button is set to Disabled.
Because event based preset loading can apply card control changes by invoking presets, loading conditions cannot be nested within a called preset (event-based loading settings performed here cannot be saved to presets, although the settings are persistent across power cycles).
Event triggers allow a variety of event screening criteria, and in turn provide an Event Action go to in response to the detected event(s). For each screened criteria, categories can be set as “Don’t Care or set to specific criteria to broaden or concentrate on various areas of concern.
The Event based loading button serves as a master enable/disable for the function.
Go-to Event Actions can be user-defined presets, canned (hard-coded) selections (such as GPO triggers or routing
changes), or automated E-mail alert to a respondent (see Email Alerts (p. 3-62) for setting up e-mail alerts).
Each Event (Event 1 thru Event 32) can be set to screen for any or several Definer criteria as shown in the example below. Up to 32 separate events can be defined.
Event 1 thru Event 32 are arranged with Event 1 having the highest priority, descending down to Event 32. Where multiple event screening is enabled, lower-priority events are serviced first, with the highest-priority event being the final event serviced and last action taken as well as last item logged in the Event History (see below). This helps ensure that a lower-priority event does not mask detection of higher-priority event(s).
The Status indicator and message shows the activation status of each Event. Green indicator means event is currently engaged.
Some columns in the DashBoard Event Setup table are present only when certain options are installed (for example, Video Quality column appears only with option +QC).
Event Definers
Each event can be uniquely set up for any of the condition types in these columns. Unless set to Don’t Care, all defined conditions will need to be true in order for the Event to be considered active
Note: Event criteria settings in any row comprise an AND function. Where multiple criteria are selected, a true (trigger) condition
is not propagated unless all specified criteria are true. To independently screen for multiple criteria, rows should be set up where each criteria is screened in its own Event row. Examples of this are shown on the following pages.
The Event History log shows any triggered events in groups of five most recent events (newest at the top).
In the example here, log shows Event 2 as the most recent event, and its user-selected action of GPO 1 Close.
Pressing the Force Event Refresh button updates the list.
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(continued)
In the example here for Event 1, the Video Quality Events tab is set to screen for frozen video on Input A. When detected, this status can be used here (Video Quality set to Input A Event Engaged indicating black or frozen video detected). Using the Event Action selector, go-to action of go to B can be invoked (which in this example is a user preset that changes card routing to use an alternate input source).
Conversely, to go back to the original source, an event could be set up with Video Quality here looking for Input A Event Disengaged and in turn invoke an event action returning routing to the original video source (in this example, user preset normal path A).
In the example here, Event 1 and Event 3 are respectively set for frozen video and closed captioning absence detection. Using separate Event rows for Video Quality and ANC Data (closed-captioning absence) screening allows these conditions to be independently detected and acted upon with user actions tailored to the event (when either of the conditions are detected, different actions can be taken as selected).
In this example, frozen video calls a preset using an input video routing change, while loss of closed captioning calls a preset to burn a no CC message on the raster. Both Events 1 and 3 have corresponding go-to actions to resume normal operation when the event ceases (in this example, a preset normal path A”).
Note: • Screened conditions are triggered upon start of event. Any event-based setup must be done in advance of the
triggering event in order for event to be detected.
If a desired user preset does not appear in the Event A ction drop-down, press the DashBoard Refresh button at the bottom of the page to update the list in the drop-down.
Loss of true conditions does not disengage an event-based triggering. A new set of true conditions must be defined and then occur to transition from one event-based trigger to another.
Time required to engage an event-based trigger depends upon complexity of the called preset. (For example, a preset that invokes a video change will take longer to engage than a preset involving only an audio routing change.)
Make certain all definable event conditions that the card might be expected to see are defined in any of the Event 1 thru Event 32 rows. This makes certain that the card will always have a defined “go-to” action if a particular event occurs. For example, if the card is expected to “see” a 720p5994 stream or as an alternate, a 525i5994 stream, make certain both of these conditions are defined (with your desired go-to presets) in any two of the Event 1 thru Event 32 condition definition rows.
Event Actions defined using user presets must be used with care to prevent conditions that could cause looping or the removal or “override” of de sired expected s ettings. When using presets, the P reset Layer s election should be used such that only required aspects are touched (for the example above, the preset “no-cc-msg” should be set to only touch the character burner layer to invok e a char acter burn ).
Where multiple event scr eening is set up, the e vent you cons ider to be the highest p riority should be s et as higher priority than lesser events (as shown in the exam ple above where Video Quality scre ening trumps CC absence). Also, this prioritization helps ensure that all desired ev ents are screened for before a significant change (such as input video source change) is effected.
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