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EAS6800+High Quality CompositeVideo Encoder/Synchronizerand Analog Audio Demultiplexer
Installation and Operation Manual
Edition B175-000292-00
Edition B June 2009
EAS6800+ High Quality Composite Video Encoder/Synchronizer and Analog Audio Demultiplexer
Installation and Operation Manual
Copyright InformationCopyright © 2006-2009 Harris Corporation, 1025 West NASA Boulevard, Melbourne, Florida 32919-0001 U.S.A. All rights reserved. This publication supersedes all previous releases. Printed in Canada.
This product and related documentation are protected by copyright and are distributed under licenses restricting their use, copying, distribution, and decompilation. No part of this product or related documentation may be reproduced in any form by any means without prior written authorization of Harris Corporation and its licensors, if any.
This publication could include technical inaccuracies or typographical errors. Changes are periodically added to the information herein; these changes will be incorporated into new editions of the publication. Harris Corporation may make improvements and/or changes in the product(s) and/or the program(s) described in this publication at any time.
Warranty InformationThe limited warranty policy provides a complete description of your warranty coverage, limitations, and exclusions, as well as procedures for obtaining warranty service. To view the complete warranty, visit our website.This publication is provided “as is” without warranty of any kind, either express or implied, including, but not limited to, the implied warranties of merchantability, fitness for a particular purpose, or non-infringement.
EAS6800+ Installation and Operation Manual iiiCopyright © 2006-2009, Harris Corporation
Contents
PrefaceManual Information ............................................................................................... vii
Purpose ........................................................................................................... viiAudience ......................................................................................................... viiRevision History ............................................................................................. viiWriting Conventions .....................................................................................viiiObtaining Documents ....................................................................................viii
Unpacking/Shipping Information ........................................................................... ixUnpacking a Product ....................................................................................... ixProduct Servicing ............................................................................................ ixReturning a Product ......................................................................................... ix
Restriction on Hazardous Substances (RoHS) Compliance .................................... xWaste from Electrical and Electronic Equipment (WEEE) Compliance ................ xSafety ...................................................................................................................... xi
Safety Terms and Symbols in this Manual ..................................................... xii
Chapter 1: IntroductionOverview ................................................................................................................. 1Product Description ................................................................................................. 2Module Descriptions ............................................................................................... 3
Front Module .................................................................................................... 3Back Connectors .............................................................................................. 5
Signal Flow .............................................................................................................. 6
Chapter 2: InstallationUnpacking the Module ............................................................................................ 7
Checking the Packing List ................................................................................ 8Setting Jumpers ....................................................................................................... 9
Setting Jumper CJ1 for Local or Remote Control ............................................ 9Setting Jumpers for Output Impedance .......................................................... 10Setting Jumpers for Audio Level ................................................................... 10
Maximum 6800+ Frame Power Ratings ............................................................... 13Installing 6800+ Modules ..................................................................................... 14
Required Frames and Back Connector Types ................................................ 14Installing and Removing EAS6800+ Modules .............................................. 14
Upgrading Module Firmware ................................................................................ 14
iv EAS6800+ Installation and Operation ManualCopyright © 2006-2009, Harris Corporation
Contents
Chapter 3: OperationOperating Notes ..................................................................................................... 15Q-SEE Compliant Thumbnails .............................................................................. 15Activating EAS6800+ Functions .......................................................................... 16
Analog Audio Output Level Offset ................................................................ 16Audio Test Tones ........................................................................................... 17Data I/O Output .............................................................................................. 17Using the Line Synchronizer .......................................................................... 17Fine Phase Enabling ....................................................................................... 18Color-Frame Locking in Delay Mode ............................................................ 18
Cross-Functional Parameter Changes .................................................................... 19Changing Parameter Settings ................................................................................ 21
On Screen Display .......................................................................................... 22Recalling Factory Default Parameter Settings ............................................... 22Reading Software and Hardware Versions .................................................... 22Setting EAS6800+ Control Parameters ......................................................... 23Setting EAS6800+ Remote Control Parameters ............................................ 36
LEDs and Alarms .................................................................................................. 38Monitoring LEDs ........................................................................................... 38Module Status LEDs ...................................................................................... 40Alarms ............................................................................................................ 41
Q-SEE Smart Alarms ............................................................................................ 43EAS6800+ Q-SEE Smart Alarm Parameters ................................................. 43EAS6800+ Q-SEE Smart Alarms .................................................................. 45EAS6800+ SDI Video Alarms ....................................................................... 46EAS6800+ SDI Embedded Audio Alarms .................................................... 48EAS6800+ SDI Data Alarms ......................................................................... 49
Chapter 4: SpecificationsOverview ............................................................................................................... 51Video Input ............................................................................................................ 52
Serial Digital Video ........................................................................................ 52AES Balanced Input (EAS6800+B2A4) ........................................................ 52AES Unbalanced Input (EAS6800+C2A4) ................................................... 53Reference Video Input ................................................................................... 53
Video Output ......................................................................................................... 54Serial Digital Output Video ............................................................................ 54Data I/O Output .............................................................................................. 54Composite Analog Output Video ................................................................... 55Analog Composite Monitoring Output .......................................................... 56
Analog Audio Output ............................................................................................ 57Propagation Delay ................................................................................................. 58Power Consumption .............................................................................................. 58Operating Temperature .......................................................................................... 58
Appendix A: Cross-Color Reduction FiltersOverview ............................................................................................................... 59
Filter Summary ............................................................................................... 59
EAS6800+ Installation and Operation Manual vCopyright © 2006-2009, Harris Corporation
Contents
Vertical High Pass Filter Frequency Response .............................................. 60Horizontal High Pass Filters .......................................................................... 61
Appendix B: Genlock and Output TroubleshootingOverview ............................................................................................................... 63Genlock Issues ....................................................................................................... 63Output Issues ......................................................................................................... 65
Appendix C: Communication and Control Troubleshooting Tips
General Troubleshooting Steps ............................................................................. 67Software Communication and Control Issues ....................................................... 68
+ Pilot Lite Fails to Communicate with Installed Modules ........................... 68+ Pilot Lite Does Not Find All Modules in Frame ........................................ 69+ Pilot Lite or CCS Software Application Not Responding .......................... 69+ Pilot Lite Cannot Control a Module Showing in the Control Window ................................................................................... 69+ Pilot Lite Status Bar Reports “Not Ready” ................................................ 70CCS Software Application or Remote Control Panel Does Not Communicate with Module ................................................................................................... 70Alarm Query Fails When a Device Reboots .................................................. 70
Hardware Communication and Control Issues ...................................................... 71Frames Fail to Communicate with the PC after a Power Failure ................... 71Module Does Not Seem to Work ................................................................... 71
Contacting Customer Service ................................................................................ 71Keywords ............................................................................................................... 73
vi EAS6800+ Installation and Operation ManualCopyright © 2006-2009, Harris Corporation
Contents
EAS6800+ Installation and Operation Manual viiCopyright © 2006-2009, Harris Corporation
Preface
Manual Information
PurposeThis manual details the features, installation, operation, maintenance, and specifications for the EAS6800+ High Quality Composite Video Encoder/Synchronizer and Analog Audio Demultiplexer.
AudienceThis manual is written for engineers, technicians, and operators responsible for installation, setup, maintenance, and/or operation of the EAS6800+ High Quality Composite Video Encoder/Synchronizer and Analog Audio Demultiplexer.
Revision HistoryTable P-1. Revision History of Manual
Edition Date Comments
A May 2006 Initial Release
B June 2009 Addition of Q-SEE parameters and alarms, Q-SEE compliant thumbnails, analog audio output level offset, and updates to specifications
viii EAS6800+ Installation and Operation ManualCopyright © 2006-2009, Harris Corporation
Preface
Writing ConventionsTo enhance your understanding, the authors of this manual have adhered to the following text conventions:
Obtaining DocumentsProduct support documents can be viewed or downloaded from our website. Alternatively, contact your Customer Service representative to request a document.
Table P-2. Writing Conventions
Term or Convention Description
Bold Indicates dialog boxes, property sheets, fields, buttons, check boxes, list boxes, combo boxes, menus, submenus, windows, lists, and selection names
Italics Indicates E-mail addresses, the names of books or publications, and the first instances of new terms and specialized words that need emphasis
CAPS Indicates a specific key on the keyboard, such as ENTER, TAB, CTRL, ALT, or DELETE
Code Indicates variables or command-line entries, such as a DOS entry or something you type into a field
> Indicates the direction of navigation through a hierarchy of menus and windows
hyperlink Indicates a jump to another location within the electronic document or elsewhere
Internet address Indicates a jump to a Web site or URL
NoteIndicates important information that helps to avoid and troubleshoot problems
EAS6800+ Installation and Operation Manual ixCopyright © 2006-2009, Harris Corporation
Preface
Unpacking/Shipping InformationUnpacking a Product
This product was carefully inspected, tested, and calibrated before shipment to ensure years of stable and trouble-free service. 1. Check equipment for any visible damage that may have occurred during
transit. 2. Confirm that you have received all items listed on the packing list. 3. Contact your dealer if any item on the packing list is missing.4. Contact the carrier if any item is damaged.5. Remove all packaging material from the product and its associated
components before you install the unit.Keep at least one set of original packaging, in the event that you need to return a product for servicing.
Product ServicingExcept for firmware upgrades, EAS6800+ modules are not designed for field servicing. All hardware upgrades, modifications, or repairs require you to return the modules to the Customer Service center.
Returning a ProductIn the unlikely event that your product fails to operate properly, please contact Customer Service to obtain a Return Authorization (RA) number, then send the unit back for servicing. Keep at least one set of original packaging in the event that a product needs to be returned for service. If the original package is not available, you can supply your own packaging as long as it meets the following criteria:• The packaging must be able to withstand the product’s weight.• The product must be held rigid within the packaging.• There must be at least 2 in. (5 cm) of space between the product and the
container.• The corners of the product must be protected.Ship products back to us for servicing prepaid and, if possible, in the original packaging material. If the product is still within the warranty period, we will return the product prepaid after servicing.
x EAS6800+ Installation and Operation ManualCopyright © 2006-2009, Harris Corporation
Preface
Restriction on Hazardous Substances (RoHS) Compliance
Directive 2002/95/EC—commonly known as the European Union (EU) Restriction on Hazardous Substances (RoHS)—sets limits on the use of certain substances found in electrical and electronic equipment. The intent of this legislation is to reduce the amount of hazardous chemicals that may leach out of landfill sites or otherwise contaminate the environment during end-of-life recycling. The Directive takes effect on July 1, 2006, and it refers to the following hazardous substances: • Lead (Pb)• Mercury (Hg)• Cadmium (Cd)• Hexavalent Chromium (Cr-V1)• Polybrominated Biphenyls (PBB)• Polybrominated Diphenyl Ethers (PBDE)According to this EU Directive, all products sold in the European Union will be fully RoHS-compliant and “lead-free.” (See our website for more information on dates and deadlines for compliance.) Spare parts supplied for the repair and upgrade of equipment sold before July 1, 2006 were exempt from the legislation. Equipment that complies with the EU directive will be marked with a RoHS-compliant emblem, as shown in Table P-1.
Figure P-1. RoHS Compliance Emblem
Waste from Electrical and Electronic Equipment (WEEE) Compliance
The European Union (EU) Directive 2002/96/EC on Waste from Electrical and Electronic Equipment (WEEE) deals with the collection, treatment, recovery, and recycling of electrical and electronic waste products. The objective of the WEEE Directive is to assign the responsibility for the disposal of associated hazardous waste to either the producers or users of these products. Effective August 13, 2005, producers or users will be required to recycle electrical and electronic equipment at end of its useful life, and may not dispose of the equipment in landfills or by using other unapproved methods. (Some EU member states may have different deadlines.)
EAS6800+ Installation and Operation Manual xiCopyright © 2006-2009, Harris Corporation
Preface
In accordance with this EU Directive, companies selling electric or electronic devices in the EU will affix labels indicating that such products must be properly recycled. Contact your local Sales representative for information on returning these products for recycling. Equipment that complies with the EU directive will be marked with a WEEE-compliant symbol, as shown in Table P-2.
Figure P-2. WEEE Compliance Emblem
SafetyCarefully review all safety precautions to avoid injury and prevent damage to this product or any products connected to it. If this product is rack-mountable, it should be mounted in an appropriate rack using the rack-mounting positions and rear support guides provided. It is recommended that each frame be connected to a separate electrical circuit for protection against circuit overloading. If this product relies on forced air cooling, it is recommended that all obstructions to the air flow be removed prior to mounting the frame in the rack. If this product has a provision for external earth grounding, it is recommended that the frame be grounded to earth via the protective earth ground on the rear panel.IMPORTANT! Only qualified personnel should perform service procedures.
xii EAS6800+ Installation and Operation ManualCopyright © 2006-2009, Harris Corporation
Preface
Safety Terms and Symbols in this ManualWARNINGStatements identifying conditions or practices that may result in personal injury or loss of life. High voltage is present.
CAUTIONStatements identifying conditions or practices that can result in damage to the equipment or other property.
EAS6800+ Installation and Operation Manual 1Copyright © 2008-2009, Harris Corporation
Chapter 1
Introduction
OverviewThe EAS6800+ High Quality Composite Video Encoder/Synchronizer and Analog Audio Demultiplexer is a compact module for NTSC, PAL-B, and PAL-M encoding. Supporting 4:2:2 serial digital inputs, the unit may be used as either a quality broadcast encoder or as a monitoring encoder. Digital audio can be source-selected from external AES or de-embedded from the video stream prior to digital-to-analog conversion of four analog output channels. The EAS6800+ also offers video and audio synchronization and cross-color reduction. Two options of the EAS6800+ are available:• EAS6800+B2A4 with two balanced AES audio inputs• EAS6800+C2A4 with two unbalanced (coaxial) AES inputsThe following topics are described in this chapter:• “Product Description” on page 2 • “Module Descriptions” on page 3• “Signal Flow” on page 6
2 EAS6800+ Installation and Operation ManualCopyright © 2008-2009, Harris Corporation
Chapter 1: Introduction
Product DescriptionThe EAS6800+ High Quality Composite Video Encoder/Synchronizer and Analog Audio Demultiplexer is part of the 6800+ series of processing and conversion modules and has the following features:• One SD-SDI SMPTE 259M-C 270Mbps input• One reference analog video input (Genlock) - from frame only• Two balanced AES inputs for EAS6800+B2A4 option• Two unbalanced AES inputs for EAS6800+C2A4 option• Up to two composite analog video outputs with 12-bit resolution
over-sampled at 54 MHz (one is parameter selectable)• On Screen Display (OSD) graphics on up to two monitoring quality
composite analog video outputs• One serial digital reclocked output SMPTE 259M-C 270Mbps• Analog audio output
• Two stereo pairs (4 mono channels) • Jumper-selectable 66Ω (low impedance) or 600Ω output impedance • Jumper-selectable audio level (0 dBFS) for each channel
• 66Ω: 16, 18, 20, 22, 24, 26, and 28 dBu • 600Ω: 10, 12, 14, 16, 18, 20, and 22 dBm
• Data I/O audio tracking output (parameter selectable) • Up to 24 bit audio de-embedding • Encoding of 4:2:2 digital video into a composite analog signal; supports
NTSC, PAL-B and PAL-M output video formats • Active video setup (with adjustable starting line) • Vertical blanking field/line/mode control • Color-frame locking from genlock • Shadowed and restored settings when switching video standards (NTSC,
PAL-M, PAL-B)• Card-edge or remote control • Video processing with controls for black level, luminance gain,
chrominance gain, chrominance phase, and SCH offset • Frame synchronization to reference video input • Line synchronization within a three-line window of input video • Force-freeze capability (field 1/field 2/frame) • Selectable loss of video mode control (pass/black/freeze) • Cross color reduction (two dimensional) • Timing controls - vertical, horizontal, fine phase (from genlock) • Video test pattern generator • Audio processing amplifier with controls for delay, gain, invert, channel
multiplexing, and dithering • 16, 20 or 24-bit audio processing (selectable word length in channel pairs)
EAS6800+ Installation and Operation Manual 3Copyright © 2008-2009, Harris Corporation
Chapter 1: Introduction
• Audio test tone generator • Programmable audio delays (up to 1.32 s per input channel)
Module Descriptions
Front ModuleFigure 1-1 is a generic top-front view of a typical 6800+ module and shows the general location of standard LEDs, controls, and jumpers.
Figure 1-1. Typical 6800+ Module
Table 1-1 on page 4 briefly describes generic 6800+ LEDs, switches, and jumpers. See “Operation” on page 15 for more information on specific EAS6800+ module controls, LEDs, and jumpers.
NoteBefore connecting the EAS6800+ connector to primary power, check and, if necessary, set the input voltage selector switch on the rear panel to match the local line voltage.
Module status LEDs
Hex switch (Mode select rotary switch)
Navigation toggle switch
Monitoring LEDs
Remote/local control jumper
Extractor handle
Control LEDs
4 EAS6800+ Installation and Operation ManualCopyright © 2008-2009, Harris Corporation
Chapter 1: Introduction
Table 1-1. Generic 6800+ Module Features
Feature DescriptionModule status LEDs
Various color and lighting combinations of these LEDs indicate the module state. See ““Monitoring LEDs” on page 38 for more information.
Mode select rotary switch
This switch selects between various control parameters.
Navigation toggle switch
This switch navigates up and down through the available control parameters:• Up: Decrease• Down: Increase
Control LEDs Various lighting combinations of these control LEDs (sometimes referred to as “Bank Select LEDs”) indicate the currently selected bank. See Table 3-4 on page 21 for more information.
Monitoring LEDs
Each 6800+ module has a number of LEDs assigned to indicate varying states/functions. See “Monitoring LEDs” on page 38 for a description of these LEDs.
Local/Remote control jumper
• Local: Locks out external control panels and allows card-edge control only; limits the functionality of remote software applications to alarm monitoring
• Remote: Allows remote or local (card-edge) configuration, operation, and monitoring of the EAS6800+
EAS6800+ Installation and Operation Manual 5Copyright © 2008-2009, Harris Corporation
Chapter 1: Introduction
Back ConnectorsEAS6800+ Back Connector for FR6802+ FrameFigure 1-2 and Figure 1-3 show the double-slot back connectors used by the EAS6800+ when installed in an FR6802+ frame.
Figure 1-2. EAS6800+B2A4 Back Connector
Figure 1-3. EAS6800+C2A4 Back Connector
ANALOG AUDIO OUT
DATA I/O / MNTR
CPST 2
SDI RCLKD
AES IN 1
1A
1B
2A
2B
SDI IN
GND +–
GND +–
GND +–
GND +–
GND +–
GND +–
AES IN 2
CPST 1/ MNTR
ANALOG AUDIO OUT
DATA I/O / MNTR
CPST 2
SDI RCLKD
AES IN 1
1A
1B
2A
2B
SDI IN
GND +–
GND +–
GND +–
GND +–
AES IN 2
CPST 1/ MNTR
6 EAS6800+ Installation and Operation ManualCopyright © 2008-2009, Harris Corporation
Chapter 1: Introduction
Signal FlowFigure 1-4 shows the signal flow for the EAS6800+ module:
Figure 1-4. EAS6800+ Signal Flow Diagram
MidplaneI/O CCS and Q-SEE
remote monitoring and control
- GND +
- GND +
- GND +
- GND +
- GND +
- GND +
SD-SDI in
AES in 1
AES in 2
SD-SDI out (reclocked)
SD-SDI monitoring out/DATA I/O
Composite video out 1/SD-SDI monitoring out
Composite video out 2
Analog audio out 1A
Analog audio out 1B
Analog audio out 2A
Analog audio out 2B
Equalizer & de-serializer
On screen display
Audiode-embedder
Sample rate conversion
Audio tone generator
Monitoring encoder
GenlockReference video in(from frame)
Frame/line synchronizer
Video encoder/proc
AES in 1
AES in 2
Audio delay/sync/procB2A4D version
C2A4D version
EAS6800+ Installation and Operation Manual 7Copyright ©2006-2009, Harris Corporation
Chapter 2
Installation
Unpacking the ModuleBefore you install the EAS6800+, perform the following:
NoteContact your customer service representative if parts are missing or damaged.
• Check the equipment for any visible damage that may have occurred during transit.
• Confirm receipt of all items on the packing list. See “Checking the Packing List” for more information.
• Remove the anti-static shipping pouch, if present, and all other packaging material.
• Retain the original packaging materials for possible re-use.See “Unpacking/Shipping Information” on page ix for information about returning a product for servicing.
8 EAS6800+ Installation and Operation ManualCopyright ©2006-2009, Harris Corporation
Chapter 2: Installation
Checking the Packing ListTable 2-1. Available Product Packages
Ordered Product Content DescriptionEAS6800+ • One EAS6800+ front module
• One EAS6800+ Installation and Operation Manual
EAS6800+B2A4D • One EAS6800+ front module• One double-slot back connector with balanced
AES inputs• One EAS6800+ Installation and Operation
Manual
EAS6800+C2A4D • One EAS6800+ front module• One double-slot back connector with
unbalanced AES inputs• One EAS6800+ Installation and Operation
Manual
EAS6800+B2A4DR One double-slot back connector with balanced AES inputs
EAS6800+C2A4DR One double-slot back connector with unbalanced AES inputs
EAS6800+ Installation and Operation Manual 9Copyright ©2006-2009, Harris Corporation
Chapter 2: Installation
Setting Jumpers The EAS6800+ module has 13 jumpers that you need to set:• “Setting Jumper CJ1 for Local or Remote Control” on page 9• “Setting Jumpers for Output Impedance” on page 10• “Setting Jumpers for Audio Level” on page 10
Figure 2-1. Jumper Locations
Setting Jumper CJ1 for Local or Remote Control
NoteYou need to configure modules for local or remote operation prior to power-up. To change the configuration, first remove power from the module, reset the jumper, and then reapply power. The white triangle near the jumper pins on the module indicates pin 1.
Follow this procedure to set the CJ1 jumper for either local or remote control:1. Locate jumper CJ1 on the module (behind the hex switch).
Figure 2-1 shows the location of the CJ1 jumper.2. Place a jumper on pins 1 and 2 to set the module for Remote control, or pins
2 and 3 to set the module for Local control. See Figure 2-2.
Figure 2-2. CJ1 Settings for Local and Remote Control
Output impedance jumpers
Audio level jumpers
CJ1 jumper
Remote control setting Local control setting
3 2 1 3 2 1
10 EAS6800+ Installation and Operation ManualCopyright ©2006-2009, Harris Corporation
Chapter 2: Installation
Setting Jumpers for Output ImpedanceA pair of jumpers on the EAS6800+ determine the impedance level for each of the four channels. To select 66Ω (low impedance) or 600Ω impedance, you must set the JK, JL, JM, JN, JV, JW, JX, and JY jumpers, following these steps: 1. Locate the jumpers.
See Figure 2-1 on page 9 for the location of the jumpers.2. Place a jumper on pins 1 and 2 to set the channel for 66Ω analog impedance
input, or pins 2 and 3 to set the channel for 600Ω input.Do this for all channel jumpers. Table 2-2 outlines the jumper positions that will determine the impedance for all four channels.
Setting Jumpers for Audio Level There are twelve jumper positions, JD, JE, JF, JG, JH, JJ, JP, JQ, JR, JS, JT, and JU for determining the output audio level. By placing four jumper caps, you will set the maximum audio levels for all channels corresponding to a 0 dBFS input. Follow these steps: 1. Locate the jumpers.
See Figure 2-1 on page 9 for the location of the jumpers.
NoteTo set the impedance for each audio output level, see “Installing 6800+ Modules” on page 14 66Ω: 16, 18, 20, 22, 24, 26, and 28 dBu 600Ω: 10, 12, 14, 16, 18, 20, and 22 dBm
2. Review the tables below.
Table 2-2. Jumper Settings for Output Impedance
Output Number Jumpers Channel Pin
Numbers Setting
1 JK and JL Left (1A) 1 and 2 600Ω
2 and 3 66Ω
2 JM and JN Right (1B) 1 and 2 600Ω
2 and 3 66Ω
3 JV and JW Left (2A) 1 and 2 600Ω
2 and 3 66Ω
4 JX and JY Right (2B) 1 and 2 600Ω
2 and 3 66Ω
EAS6800+ Installation and Operation Manual 11Copyright ©2006-2009, Harris Corporation
Chapter 2: Installation
For each audio channel there are three jumpers. If a jumper top is required for the desired output audio level in an audio channel, place it on pins 1 and 2 or on pins 2 and 3.
Table 2-3. Analog Audio Output 1A Level
Level (600Ω / 66Ω) Jumper JD
Jumper JE
Jumper JF
10 dBm / 16 dBu Open Open Open
12 dBm / 18 dBu Open Open 1 and 2
14 dBm / 20 dBu Open 1 and 2 Open
16 dBm / 22 dBu 1 and 2 Open Open
18 dBm / 24 dBu 2 and 3 Open Open
20 dBm / 26 dBu Open 2 and 3 Open
22 dBm / 28 dBu Open Open 2 and 3
Table 2-4. Analog Audio Output 1B Level
Level (600Ω / 66Ω) Jumper JG
Jumper JH
Jumper JJ
10 dBm / 16 dBu Open Open Open
12 dBm / 18 dBu Open Open 1 and 2
14 dBm / 20 dBu Open 1 and 2 Open
16 dBm / 22 dBu 1 and 2 Open Open
18 dBm / 24 dBu 2 and 3 Open Open
20 dBm / 26 dBu Open 2 and 3 Open
22 dBm / 28 dBu Open Open 2 and 3
Table 2-5. Analog Audio Output 2A Level
Level (600Ω / 66Ω) Jumper JP
Jumper JQ
Jumper JR
10 dBm / 16 dBu Open Open Open
12 dBm / 18 dBu Open Open 1 and 2
14 dBm / 20 dBu Open 1 and 2 Open
16 dBm / 22 dBu 1 and 2 Open Open
18 dBm / 24 dBu 2 and 3 Open Open
20 dBm / 26 dBu Open 2 and 3 Open
22 dBm / 28 dBu Open Open 2 and 3
12 EAS6800+ Installation and Operation ManualCopyright ©2006-2009, Harris Corporation
Chapter 2: Installation
3. Do this for all channel jumpers. There should be a maximum of four jumpers tops positioned on the twelve Audio Level jumper pins when you are done.
Table 2-6. Analog Audio Output 2B Level
Level (600Ω / 66Ω) Jumper JS
Jumper JT
Jumper JU
10 dBm / 16 dBu Open Open Open
12 dBm / 18 dBu Open Open 1 and 2
14 dBm / 20 dBu Open 1 and 2 Open
16 dBm / 22 dBu 1 and 2 Open Open
18 dBm / 24 dBu 2 and 3 Open Open
20 dBm / 26 dBu Open 2 and 3 Open
22 dBm / 28 dBu Open Open 2 and 3
EAS6800+ Installation and Operation Manual 13Copyright ©2006-2009, Harris Corporation
Chapter 2: Installation
Maximum 6800+ Frame Power RatingsThe power consumption for the EAS6800+ module is 12 W. Table 2-7 and Table 2-8 describe the maximum allowable power ratings for 6800+ frames. Note the given maximums before installing any 6800+ modules in your frame.
Table 2-7. Maximum Power Ratings for 6800+ Frames When Using an AC Power Supply
6800+ Frame Type
Max. Frame Power Dissipation
Number of Usable Slots
Max. Power Dissipation Per Slot
FR6802+DM(frame without fans)
50 W 10 5 W
FR6802+DMF(frame with fans)
120 W 10 12 W
FR6802+X(frame without fans)
50 W 20 2.5 W
FR6802+XF(frame with fans)
120 W 20 6 W
Table 2-8. Maximum Power Ratings for 6800+ Frames When Using a DC Power Supply
6800+ Frame Type
Max. Frame Power Dissipation
Number of Usable Slots
Max. Power Dissipation Per Slot
FR6802+DM48(frame without fans)
50 W 10 5.0 W
FR6802+DMF48(frame with fans)
105 W 10 10.5 W
FR6802+X48(frame without fans)
50 W 20 2.5 W
FR6802+XF48(frame with fans)
105 W 20 5.25 W
14 EAS6800+ Installation and Operation ManualCopyright ©2006-2009, Harris Corporation
Chapter 2: Installation
Installing 6800+ Modules
Required Frames and Back Connector TypesThe EAS6800+ modules have double-width back connectors that can be installed in an FR6802+X(F). See the FR6802+ Frame Installation and Operation Manual for details on installing back connectors in an FR6802+ frame.
Installing and Removing EAS6800+ ModulesThese modules require no specialized installation or removal procedures. However, if installing both front and rear modules, ensure that the back module is installed first before plugging in the front module. When removing both the front and rear modules, ensure that the front module is unplugged from the frame first, before removing the rear module. • See the FR6802+ Frame Installation and Operation Manual for
information about installing and operating an FR6802+ frame and its components.
• See the 6800+ Safety Instructions and Standards Manual for important information about safely installing your module.
Once you have installed your EAS6800+ modules, you can connect them to the appropriate input and outputs.See Figure 1-2 on page 5 and Figure 1-4 on page 6.
Upgrading Module FirmwareThis module’s firmware can be updated using CCS Pilot, CoPilot, or Navigator version 3.1.1 or higher, or the HTTP software upgrade tool. In order to perform these upgrades, your frame must be equipped with a 6800+ETH module. See your frame manual for more information.
EAS6800+ Installation and Operation Manual 15Copyright © 2006-2009, Harris Corporation
Chapter 3
Operation
Operating NotesWhen setting the control parameters on the EAS6800+, observe the following:• If you make changes to certain parameters, other related parameters may
also be affected. See “Audio Test Tones” on page 17 for more information.• When you change a parameter, the effect is immediate. However, the
module requires up to 30 seconds to save the latest change. After 30 seconds, the new settings are saved and will be restored if the module loses power and must be restarted.
Q-SEE Compliant ThumbnailsWhen installed in an FR6822+ or FR6802+QXF frame that also contains a 6800+ETH resource module, EAS6800+ module control windows have an extra Streaming tab in CCS Pilot and Navigator (version 3.2.1 or later). There you can view output video from the module. In addition, video from the EAS6800+, displayed at up to three frames per second, can be displayed on the 6800+ETH’s control page, and (for CCS Navigator only) on Graphical Navigation pages. For more information on Q-SEE compliant thumbnails, see your FR6802+QXF Frames Installation and Operation Manual.
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Chapter 3: Operation
Activating EAS6800+ FunctionsThe following sections provide information about the EAS6800+ special functions: • “Analog Audio Output Level Offset” on page 16• “Audio Test Tones” on page 17• “Data I/O Output” on page 17• “Using the Line Synchronizer” on page 17• “Fine Phase Enabling” on page 18• “Color-Frame Locking in Delay Mode” on page 18
Analog Audio Output Level OffsetEAS6800+ can attenuate all analog audio outputs simultaneously. This allows you to achieve additional analog audio output levels beyond what can be achieved using the analog level jumpers (see “Setting Jumpers for Audio Level” on page 10). This output level adjustment is achieved by the Output Level Offset parameter, which has a range of -5.0 to 0.0 dB in 1.0 dB steps.
NoteFor information on using card-edge controls, please refer to your FR6802+ Installation and Operation Manual.
For example, to set an analog output level of +15 dBu for a digital input audio level of 0 dBFS, use a combination of analog audio level jumper settings and adjustment of the OP Level Offset parameter.1. Set jumpers to set the analog audio output level to +16 dBu (see“Setting
Jumpers for Audio Level” on page 10). For this setting, refer to “CJ1 Settings for Local and Remote Control” on page 9.
2. Adjust the OP Level Offset parameter to -1.0 dB. Use either a remote control application (Pilot or Navigator) or card-edge control to adjust the parameter to this setting.
The combination of these two settings will achieve an analog audio output level of +15 dBu for a digital input audio level of 0 dBFS.
EAS6800+ Installation and Operation Manual 17Copyright © 2006-2009, Harris Corporation
Chapter 3: Operation
Audio Test TonesTable 3-1 describes the frequency and levels of each audio output test tone, available as a selection from each of the Output Audio Channel Source parameters:
Data I/O OutputThe Data I/O output provides timing reference signals for 6800+ audio tracking modules and reference video color-frame locking information for VAM6800+ modules. This output can drive up to four chained Data I/O receiver modules over coaxial cable up to 985 ft (300 m) long. If you wish to connect to more than one Data I/O receiver module, the use of T-connectors is recommended.
Using the Line Synchronizer The Line Synchronizer is a special mode of the Synchronizer Mode parameter that enables synchronization of the composite output video with the reference video. For the Line Synchronizer to function correctly, the following conditions must be met:• Reference video must be present and locked• Input SD-SDI video must be frequency locked to the reference video• Output video must be within a three-line window of the input video
Line Synchronizer in Window IndicationThe EAS6800+ provides a status parameter called Line Sync in Window. Through a remote control application, this read-only parameter indicates if the input video is within the three-line window for line synchronization. Table 3-2 summarizes this functionality.
Table 3-1. Audio Test Tones
Test Tone Frequency LevelTest Tone 1 400 Hz -20 dBFS
Test Tone 2 1 kHz -20 dBFS
Test Tone 3 2 kHz -20 dBFS
Test Tone 4 4 kHz -20 dBFS
Table 3-2. Line Synchronizer in Window Indication
EventParameter State (Line Sync in Window)
Major Alarm State (Out of Three-Line Window)
Input video within three-line window
Yes De-activates
Input video out of three-line window
No Activates
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Chapter 3: Operation
Aligning the Output Video Using the Line SynchronizerTo align the output video to the desired position with respect to the reference video, follow these steps:1. Adjust the VPhase, HPhase, and FPhase parameters.2. Observe the Line Sync in Window status parameter from a remote control
application to ensure that the input video is within the three-line window of the output video.
If necessary, repeat steps 1 and 2 until the desired alignment is achieved.
Fine Phase EnablingWhen the Synchronizer Mode parameter is set to Delay mode, the Fine Phase parameter is disabled by default. However, it is possible to enable this control using the Fine Phase Enable parameter if the following conditions are met:• Reference video must be present and locked• Input SD-SDI video must be frequency locked to the reference videoIf the above two conditions are met and the Fine Phase Enable parameter is set to Enable, then the Fine Phase parameter will become enabled and can be adjusted. If the Reference video is not locked, then the Fine Phase Enable parameter is automatically disabled.The Fine Phase parameter is always enabled when the Synchronizer Mode parameter is set to either Frame Sync mode or Line Sync mode.
Color-Frame Locking in Delay ModeWhen the Synchronizer Mode parameter is set to Delay mode, the EAS6800+ will attempt to color-frame lock the composite output video with the reference video. In order to achieve correct color-frame locking when the module is in Delay mode, ensure the following conditions are met:• Reference video must be present and locked• Reference video standard must match the module's composite video output
standard• Input SD-SDI video must be frequency locked to the reference videoIf composite output color-frame locking is not desired when the module is in Delay mode, and the input SD-SDI is not frequency locked to the reference video, you may see distortion in the output picture. To resolve this, take one of the following steps:• Remove the reference video from the module
or• Set the Genlock Lock Mode parameter to Freerun
EAS6800+ Installation and Operation Manual 19Copyright © 2006-2009, Harris Corporation
Chapter 3: Operation
Cross-Functional Parameter ChangesWhen you configure certain parameters, you force a change in other associated parameters. Table 3-3 lists the secondary changes that occur when you make these parameter selections.
Table 3-3. Cross-Functional Parameter Changes
Parameter Option Affected Parameter ChangeSD-SDI Video Standard 525 Horizontal Phase Range is 0-63.518 µs
Vertical Phase Range is 0-524 Ln
Active Video Setup Enabled
Setup Starting Line Enabled NTSC: 10-22 lines PAL-M: 9-22 lines
VBI field 1 Lines NTSC: 6-9 Disabled PAL-M: 6-8 Disabled
VBI field 2 Lines NTSC: 6-9 Disabled PAL-M: 6-7 Disabled
Video Output Standard Set • NTSC• PAL-M
Chrominance Phase Enabled
XCR Function Enabled
XCR Filter Select Enabled
XCR Enable Enabled
625 Horizontal Phase Range is 0-63.963 µs
Vertical Phase Range is 0-624 Ln
Active Video Setup Disabled
Setup Starting Line Disabled
VBI Lines 6, 7, 8, and 9 Enabled
Video Output Standard Set PAL-B
Chrominance Phase Disabled
XCR Function Disabled
XCR Filter Select Disabled
XCR Enable Disabled
OSD VU1 Vertical Position Range is 0 to 192
OSD VU2 Vertical Position Range is 0 to 192
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Chapter 3: Operation
Synchronizer Mode Delay Fine Phase Depends on FinePhaseEn parameter (see “Fine Phase Enabling” on page 18)
Frame Sync Fine Phase Enabled
Line Sync Fine Phase Enabled
XCR Block Remove XCR Enable, XCR Filter Disabled
Insert XCR Enable, XCR Filter Enabled
Input Pair 1 Select AES 1 Output Audio Channel 1A Source, Output Audio Channel 1B Source
• AES 1A • AES 1B • AES 1 Sum • Test Tone 1 - 4
AES 2 Output Audio Channel 1A Source, Output Audio Channel 1B Source
• AES 2A • AES 2B • AES 2 Sum • Test Tone 1 - 4
Deembedded Audio
Output Audio Channel 1A Source, Output Audio Channel 1B Source
• Ch01 - Ch16• Pair 1 Sum - Pair 8 Sum• Test Tone 1 - 4
Input Pair 1 Select AES 1 Output Audio Channel 2A Source, Output Audio Channel 2B Source
• AES 1A• AES 1B• AES 1 Sum• Test Tone 1 - 4
AES 2 Output Audio Channel 2A Source, Output Audio Channel 2B Source
• AES 2A• AES 2B• AES 2 Sum• Test Tone 1 - 4
Deembedded Audio
Output Audio Channel 2A Source, Output Audio Channel 2B Source
• Ch01 - Ch16• Pair 1 Sum - Pair 8 Sum• Test Tone 1 - 4
Table 3-3. Cross-Functional Parameter Changes (Continued)
Parameter Option Affected Parameter Change
EAS6800+ Installation and Operation Manual 21Copyright © 2006-2009, Harris Corporation
Chapter 3: Operation
Changing Parameter SettingsFollow these steps to change the EAS6800+ parameter settings:1. Rotate the hex switch (mode select rotary switch) to “0.”2. Once the hex switch is set to “0,” toggle the navigation switch up or down
to select a bank. View the two control LEDs next to the navigation toggle switch to see which bank is currently selected. (See Table 3-4.)See “Card-Edge Parameter Options—EAS6800+ Modules” on page 23 to view the various banks, hex switch positions, and corresponding parameter options and values.
3. Rotate the hex switch to the parameter number (1 to 9) or letter (A to F) of the option you want to set.
NoteFor best results, use the available 6800+ software control options (serial/local or Ethernet/remote) to aid in viewing, setting, and confirming parameter values.
4. Toggle the navigation switch to select and set the value of the chosen parameter.
5. Rotate the hex switch to another parameter number/letter in the current bank, and then repeat step 4.orRotate the hex switch to “0” again to select a different bank, and then repeat steps 3 and 4.
Table 3-4. Selected Bank as Indicated by Control LEDs
LED BS1 LED BS2 LED BS3 Bank Number
Off Off Off 0
Off Off On 1
Off On Off 2
Off On On 3
On Off Off 4
On Off On 5
On On Off 6
On On On 7
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Chapter 3: Operation
On Screen DisplayThe EAS6800+ offers On Screen Display (OSD) graphics on the composite monitoring output. The OSD graphics allow for instant status of the output audio levels, prior to conversion to analog. There are two audio level meters, one for each audio output pair. Within each meter, the level display uses color-coded bars (green, yellow, red) to reflect the operating level.The output audio level meters have the following customization options: • Select the audio level display type with the parameters OSD VU1 Bar
Display Type and OSD VU2 Bar Display Type, and the options are VU (Volume Unit), PPM (Peak Program Meter), VU and PPM, and Off (this deactivates the feature entirely).
• Set the opaqueness of the level scale with parameters OSD VU1 Bar Opaqueness and OSD VU2 Bar Opaqueness.
• Set the vertical and horizontal position in the video frame with parameters OSD VU1 Bar Vertical Position, OSD VU1 Bar Horizontal Position, OSD VU2 Bar Vertical Position, and OSD VU2 Bar Horizontal Position.
• Adjust the green bar top level (default is –18 dBFS) with parameters OSD VU1 Green Bar Top Position and OSD VU2 Green Bar Top Position.
• Adjust the yellow bar top level (default is –6 dBFS) with parameters OSD VU1 Yellow Bar Top Position and OSD VU2 Yellow Bar Top Position.
Recalling Factory Default Parameter Settings“Card-Edge Parameter Options—EAS6800+ Modules” on page 23 describes all of the parameter settings for the EAS6800+, including the original factory defaults. To return this module to its factory default settings, you can either reset each parameter individually or do a global recall following this procedure:1. Rotate the hex switch to “0.”2. Toggle the navigation switch to the bank number “0.”
Use the control LEDs to verify which bank you have selected, or use an available 6800+ software control option (serial/local or Ethernet/remote) to aid in confirming your bank selection.
3. Rotate the hex switch to the global recall parameter “F.”4. Toggle the navigation switch to “On.”
Use an available 6800+ software control option to aid in viewing, setting, and confirming the parameter value.
Reading Software and Hardware VersionsThe current software version of your EAS6800+ module can only be viewed using a CCS-enabled control panel or a CCS software application, such as Pilot or +Pilot Lite. See your RCP-CCS-1U Installation and Operation Manual, CCS software application user manual, or CCS software application online help for information on viewing software and hardware version numbers.
EAS6800+ Installation and Operation Manual 23Copyright © 2006-2009, Harris Corporation
Chapter 3: Operation
Setting EAS6800+ Control Parameters
NoteThe sequence of options listed in the Options column mirrors the sequence achieved when you move the Navigation Toggle switch up.
The following table lists all of the card-edge parameters and options for the EAS6800+. All parameters clip unless otherwise indicated.The On/Off combinations of the control LEDs on the card-edge indicate the active bank number. See “Cross-Functional Parameter Changes” on page 19 for more information.
LegendBold option=Indicates that this is the default setting for the parameter.[RO]=Indicates that parameters are read-only/feedback, and cannot be used to select controls.
Table 3-5. Card-Edge Parameter Options—EAS6800+ Modules
Bank, Rotary Switch
Parameter Name Function Options
X , 0 Bank Select Selects a bank 0 to 5
0, 1 SD-SDI Video Standard Selects the video standard input • 625• 525• Auto
0, 2 EDH Error Counter Clear Clears the error detection and handling (EDH) counter
• No• Yes
0, 3 Black Level Adjusts the black level of the output video
-7.5 to +7.5 IRE (0)
0, 4 Luma Gain Adjusts the luminance gain of the output video
-3.0 to +3.0 dB (0)
0, 5 Chroma Gain Adjusts the picture color saturation -3.0 to +3.0 dB (0)
0, 6 Chroma Phase Adjusts the chroma phase with respect to burst
-180 to +180 degrees (0)
0, 7 Video Output Standard Set Selects the output video standard • NTSC (for 525)• PAL-M• PAL-B (for 625)
0, 8 Active Video Setup Controls the addition of the SETUP (7.5 IRE) pedestal signal to the active video lines in 525 line standard for the analog video output
• Off• On
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Chapter 3: Operation
0, 9 Setup Starting Line Selects the start of the active video line where the SETUP (7.5 IRE) pedestal is being applied in 525 line standard for the analog video output
10-22 Ln(22 Ln)
0, A Picture Position Adjusts the picture position with respect to horizontal reference
-1184 ns to +1036 ns (0 ns)
0, B Fine Phase Adjusts the output timing in fine increments
-45 to +45 degrees (0)
0, C SCH Offset Controls the SCH offset for the composite video output to properly construct the color framing sequence
• PAL-M/B: 0°, 90°, 180°, 270°
• NTSC: 0°, 180°(0°)
0, D Reserved
0, E Genlock Mode Selects the Genlock mode • Free Run• Sync• Burst• Auto
0, F Factory Recall Recalls the factory settings
1, 1 Vertical Phase Adjusts the vertical timing • 0 to 524 Ln D1-525
• 0 to 624 Ln D1-625(0 ln)
(These parameters wrap)
1, 2 Horizontal Phase Adjusts the horizontal timing of the output video
525: 0 to 63.518 625: 0 to 63.963
1, 3 Front Porch Width Adjusts the horizontal picture end position
-592 to +518 nsec (0)
1, 4 Back Porch Width Adjusts the horizontal picture start position
-592 to +518 nsec (0)
1, 5 Synchronizer Mode Selects the operational mode of the video synchronizer
• Delay Mode • Line Sync Mode• Frame Sync Mode
1, 6 Freeze Type Selects the type of video freeze when Force Freeze is activated
• Field 1 • Field 2• Frame
1, 7 Freeze Enable Forces the output video to freeze • Disabled• Enabled
Table 3-5. Card-Edge Parameter Options—EAS6800+ Modules(Continued)
Bank, Rotary Switch
Parameter Name Function Options
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Chapter 3: Operation
1, 8 Loss of Video Output Selects the output video mode when the input video is disrupted
• Pass• Black• Freeze
1, 9 Test Signal Select Selects the internal test signal pattern • Color Bars (75%)• Modulated Ramp• Multiburst• Pulse & Bars
1, A Test Signal Enable Controls the activation of the internal test signal generator
• Off• On
1, B Chrominance Enable Enables chrominance in the output video
• Disable• Enable
1, C XCR Function Block Controls the insertion of the cross-color reduction circuit in the signal processing path (not applicable to PAL-B)
• Remove• Insert
1, D XCR Function Enable Controls the activation of cross-color reduction (not applicable to PAL-B)
• Disabled• Enabled
1, E XCR Filter Select Selects the type of cross-color reduction (not applicable to PAL-B)
• Filter 1• Filter 2• Filter 3
1, F Reserved
2, 1 VBI Field 1 Line 6 Mode Selects the processing mode for vertical blanking interval (VBI) field 1 line 6
• Pass• Chroma Only• Luma Only• Blank
2, 2 VBI Field 1 Line 7 Mode Selects the processing mode for VBI field 1 line 7
• Pass• Chroma Only• Luma Only• Blank
2, 3 VBI Field 1 Line 8 Mode Selects the processing mode for VBI field 1 line 8
• Pass• Chroma Only• Luma Only• Blank
2, 4 VBI Field 1 Line 9 Mode Selects the processing mode for VBI field 1 line 9
• Pass• Chroma Only• Luma Only• Blank
Table 3-5. Card-Edge Parameter Options—EAS6800+ Modules(Continued)
Bank, Rotary Switch
Parameter Name Function Options
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Chapter 3: Operation
2, 5 VBI Field 1 Line 10 Mode Selects the processing mode for VBI field 1 line 10
• Pass• Chroma Only• Luma Only• Blank
2, 6 VBI Field 1 Line 11 Mode Selects the processing mode for VBI field 1 line 11
• Pass• Chroma Only• Luma Only• Blank
2, 7 VBI Field 1 Line 12 Mode Selects the processing mode for VBI field 1 line 12
• Pass• Chroma Only• Luma Only• Blank
2, 8 VBI Field 1 Line 13 Mode Selects the processing mode for VBI field 1 line 13
• Pass• Chroma Only• Luma Only• Blank
2, 9 VBI Field 1 Line 14 Mode Selects the processing mode for VBI field 1 line 14
• Pass• Chroma Only• Luma Only• Blank
2, A VBI Field 1 Line 15 Mode Selects the processing mode for VBI field 1 line 15
• Pass• Chroma Only• Luma Only• Blank
2, B VBI Field 1 Line 16 Mode Selects the processing mode for VBI field 1 line 16
• Pass• Chroma Only• Luma Only• Blank
2, C VBI Field 1 Line 17 Mode Selects the processing mode for VBI field 1 line 17
• Pass• Chroma Only• Luma Only• Blank
2, D VBI Field 1 Line 18 Mode Selects the processing mode for VBI field 1 line 18
• Pass• Chroma Only• Luma Only• Blank
Table 3-5. Card-Edge Parameter Options—EAS6800+ Modules(Continued)
Bank, Rotary Switch
Parameter Name Function Options
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Chapter 3: Operation
2, E VBI Field 1 Line 19 Mode Selects the processing mode for VBI field 1 line 19
• Pass• Chroma Only• Luma Only• Blank
2, F VBI Field 1 Line 20 Mode Selects the processing mode for VBI field 1 line 20
• Pass• Chroma Only• Luma Only• Blank
3, 1 VBI Field 1 Line 21 Mode Selects the processing mode for VBI field 1 line 21
• Pass• Chroma Only• Luma Only• Blank
3, 2 VBI Field 1 Line 22 Mode Selects the processing mode for VBI field 1 line 22
• Pass• Chroma Only• Luma Only• Blank
3, 3 VBI Field 1 Line 23 Mode Selects the processing mode for VBI field 1 line 23
• Pass• Chroma Only• Luma Only• Blank
3, 4 VBI Field 2 Line 6 Mode Selects the processing mode for VBI field 2 line 6
• Pass• Chroma Only• Luma Only• Blank
3, 5 VBI Field 2 Line 7 Mode Selects the processing mode for VBI field 2 line 7
• Pass• Chroma Only• Luma Only• Blank
3, 6 VBI Field 2 Line 8 Mode Selects the processing mode for VBI field 2 line 8
• Pass• Chroma Only• Luma Only• Blank
3, 7 VBI Field 2 Line 9 Mode Selects the processing mode for VBI field 2 line 9
• Pass• Chroma Only• Luma Only• Blank
Table 3-5. Card-Edge Parameter Options—EAS6800+ Modules(Continued)
Bank, Rotary Switch
Parameter Name Function Options
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Chapter 3: Operation
3, 8 VBI Field 2 Line 10 Mode Selects the processing mode for VBI field 2 line 10
• Pass• Chroma Only• Luma Only• Blank
3, 9 VBI Field 2 Line 11 Mode Selects the processing mode for VBI field 2 line 11
• Pass• Chroma Only• Luma Only• Blank
3, A VBI Field 2 Line 12 Mode Selects the processing mode for VBI field 2 line 12
• Pass• Chroma Only• Luma Only• Blank
3, B VBI Field 2 Line 13 Mode Selects the processing mode for VBI field 2 line 13
• Pass• Chroma Only• Luma Only• Blank
3, C VBI Field 2 Line 14 Mode Selects the processing mode for VBI field 2 line 14
• Pass• Chroma Only• Luma Only• Blank
3, D VBI Field 2 Line 15 Mode Selects the processing mode for VBI field 2 line 15
• Pass• Chroma Only• Luma Only• Blank
3, E VBI Field 2 Line 16 Mode Selects the processing mode for VBI field 2 line 16
• Pass• Chroma Only• Luma Only• Blank
3, F VBI Field 2 Line 17 Mode Selects the processing mode for VBI field 2 line 17
• Pass• Chroma Only• Luma Only• Blank
4, 1 VBI Field 2 Line 18 Mode Selects the processing mode for VBI field 2 line 18
• Pass• Chroma Only• Luma Only• Blank
Table 3-5. Card-Edge Parameter Options—EAS6800+ Modules(Continued)
Bank, Rotary Switch
Parameter Name Function Options
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Chapter 3: Operation
4, 2 VBI Field 2 Line 19 Mode Selects the processing mode for VBI field 2 line 19
• Pass• Chroma Only• Luma Only• Blank
4, 3 VBI Field 2 Line 20 Mode Selects the processing mode for VBI field 2 line 20
• Pass• Chroma Only• Luma Only• Blank
4, 4 VBI Field 2 Line 21 Mode Selects the processing mode for VBI field 2 line 21
• Pass• Chroma Only• Luma Only• Blank
4, 5 VBI Field 2 Line 22 Mode Selects the processing mode for VBI field 2 line 22
• Pass• Chroma Only• Luma Only• Blank
4, 6 VBI Field 2 Line 23 Mode Selects the processing mode for VBI field 2 line 23
• Pass• Chroma Only• Luma Only• Blank
4, 7 Deembed Control Controls the audio option when the de-embedded group is present with an error
• Mute• Repeat
4, 8 DBN Error Reporting Controls the handling of Data Block Number error reporting
• Alert• Ignore
4, 9 V-Bit Mute Enable Enables audio channel muting upon detection of an incoming set V-Bit
• No• Yes
4, A Non-PCM Mute Enable Enables audio channel muting upon detection of a Non-PCM channel
• No• Yes
4, B Input Audio Channel 01 Delay Adjusts delay for de-embedded channel 01
0 to 1320 msec
4, C Input Audio Channel 02 Delay Adjusts delay for de-embedded channel 02
0 to 1320 msec
4, D Input Audio Channel 03 Delay Adjusts delay for de-embedded channel 03
0 to 1320 msec
4, E Input Audio Channel 04 Delay Adjusts delay for de-embedded channel 04
0 to 1320 msec
Table 3-5. Card-Edge Parameter Options—EAS6800+ Modules(Continued)
Bank, Rotary Switch
Parameter Name Function Options
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Chapter 3: Operation
4, F Output Audio Pair 1 Source Selects the input for audio pair 1 • AES 1• AES 2• De-embedded Audio
5, 1 Output Audio Pair 2 Source Selects the input for audio pair 2 • AES 1• AES 2• De-embedded Audio
5, 2 Output Audio Channel 1A Source
Selects the source for analog audio output channel 1A
• Ch01• Ch02• Ch03• Ch04• Ch05• Ch06• Ch07• Ch08• Ch09• Ch10• Ch11• Ch12• Ch13• Ch14• Ch15• Ch16• Pair 1 Sum• Pair 2 Sum• Pair 3 Sum• Pair 4 Sum• Pair 5 Sum• Pair 6 Sum• Pair 7 Sum• Pair 8 Sum• AES 1A• AES 1B• AES 2A• AES 2B• AES 1 Sum• AES 2 Sum• Test Tone 1• Test Tone 2• Test Tone 3• Test Tone 4
Table 3-5. Card-Edge Parameter Options—EAS6800+ Modules(Continued)
Bank, Rotary Switch
Parameter Name Function Options
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Chapter 3: Operation
5, 3 Output Audio Channel 1B Source
Selects the source for analog audio output channel 1B
• Ch01• Ch02• Ch03• Ch04• Ch05• Ch06• Ch07• Ch08• Ch09• Ch10• Ch11• Ch12• Ch13• Ch14• Ch15• Ch16• Pair 1 Sum• Pair 2 Sum• Pair 3 Sum• Pair 4 Sum• Pair 5 Sum• Pair 6 Sum• Pair 7 Sum• Pair 8 Sum• AES 1A• AES 1B• AES 2A• AES 2B• AES 1 Sum• AES 2 Sum• Test Tone 1• Test Tone 2• Test Tone 3• Test Tone 4
Table 3-5. Card-Edge Parameter Options—EAS6800+ Modules(Continued)
Bank, Rotary Switch
Parameter Name Function Options
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5, 4 Output Audio Channel 2A Source
Selects the source for analog audio output channel 2A
• Ch01• Ch02• Ch03• Ch04• Ch05• Ch06• Ch07• Ch08• Ch09• Ch10• Ch11• Ch12• Ch13• Ch14• Ch15• Ch16• Pair 1 Sum• Pair 2 Sum• Pair 3 Sum• Pair 4 Sum• Pair 5 Sum• Pair 6 Sum• Pair 7 Sum• Pair 8 Sum• AES 1A• AES 1B• AES 2A• AES 2B• AES 1 Sum• AES 2 Sum• Test Tone 1• Test Tone 2• Test Tone 3• Test Tone 4
Table 3-5. Card-Edge Parameter Options—EAS6800+ Modules(Continued)
Bank, Rotary Switch
Parameter Name Function Options
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5, 5 Output Audio Channel 2B Source
Selects the source for analog audio output channel 2B
• Ch01• Ch02• Ch03• Ch04• Ch05• Ch06• Ch07• Ch08• Ch09• Ch10• Ch11• Ch12• Ch13• Ch14• Ch15• Ch16• Pair 1 Sum• Pair 2 Sum• Pair 3 Sum• Pair 4 Sum• Pair 5 Sum• Pair 6 Sum• Pair 7 Sum• Pair 8 Sum• AES 1A• AES 1B• AES 2A• AES 2B• AES 1 Sum• AES 2 Sum• Test Tone 1• Test Tone 2• Test Tone 3• Test Tone 4
5, 6 Output Audio Channel 1A Gain Adjusts gain for analog audio output channel 1A
-18.0 to +18.0 dB (0)
5, 7 Output Audio Channel 1B Gain Adjusts gain for analog audio output channel 1B
-18.0 to +18.0 dB (0)
5, 8 Output Audio Channel 2A Gain Adjusts gain for analog audio output channel 2A
-18.0 to +18.0 dB (0)
5, 9 Output Audio Channel 2B Gain Adjusts gain for analog audio output channel 2B
-18.0 to +18.0 dB (0)
5, A Output Audio Channel 1A Invert
Invert control for analog audio output channel 1A
• No• Yes
Table 3-5. Card-Edge Parameter Options—EAS6800+ Modules(Continued)
Bank, Rotary Switch
Parameter Name Function Options
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5, B Output Audio Channel 1B Invert
Invert control for analog audio output channel 1B
• No• Yes
5, C Output Audio Channel 2A Invert
Invert control for analog audio output channel 2A
• No• Yes
5, D Output Audio Channel 2B Invert
Invert control for analog audio output channel 2B
• No• Yes
5, E Output Audio Channel 1A Mute
Enables forced muting for analog audio output channel 1A
• Off• On
5, F Output Audio Channel 1B Mute
Enables forced muting for analog audio output channel 1B
• Off• On
6, 1 Output Audio Channel 2A Mute
Enables forced muting for analog audio output channel 2A
• Off• On
6, 2 Output Audio Channel 2B Mute
Enables forced muting for analog audio output channel 2B
• Off• On
6, 3 Output Audio Pair 1 Resolution Adjusts the sample resolution for output audio channels 1A and 1B
• 24 bits• 20 bits• 16 bits
6, 4 Output Audio Pair 2 Resolution Adjusts the sample resolution for output audio channels 2A and 2B
• 24 bits• 20 bits• 16 bits
6, 5 Audio Fade Rate Controls the rate of audio fading when channels are swapped or muted
0.0 to 10.0 sec (1)
6, 6 Track Video For output audio, automatically tracks the delay introduced by the video synchronizer
• No• Yes
6, 7 Audio/Video Align Adds a fixed delay to the video processing path to align output video and audio
• No • Yes
6, 8 Monitoring Output / Composite Output Select
Selects either monitoring output or composite output for the Composite Output 1 BNC (See Figure 1-2 on page 5 and Figure 1-3 on page 5)
• Composite Output • Monitoring Output
6, 9 Monitoring Output / Data I/O Select
Selects either Data I/O output or monitoring output for the Data I/O / Mon Op BNC (See Figure 1-2 on page 5 and Figure 1-3 on page 5)
• Data I/O Output • Monitoring Output
Table 3-5. Card-Edge Parameter Options—EAS6800+ Modules(Continued)
Bank, Rotary Switch
Parameter Name Function Options
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Chapter 3: Operation
6, A OSD VU1 Bar Display Type Selects the on screen display VU meter type
• Off• VU• PPM• VU+PPM
6, B OSD VU1 Bar Opaqueness Controls the opaqueness of the on screen display VU meter
0 to 15 (5)
6, C OSD VU1 Bar Vertical Position
Controls the vertical position of the on screen display VU meter
525: 0 to 148 (74)625: 0 to 192 (96)
6, D OSD VU1 Bar Horizontal Position
Controls the horizontal position of the on screen display VU meter
0 to 162 (15)
6, E OSD VU1 Bar Green Bar Top Position
Adjusts the green bar top position of the on screen display VU meter
-40 to -3 dBFS (-18)
6, F OSD VU1 Bar Yellow Bar Top Position
Adjusts the yellow bar top position of the on screen display VU meter
-20 to -3 dBFS (-6)
7, 1 OSD VU2 Bar Display Type Selects the on screen display VU meter type
• Off• VU• PPM• VU+PPM
7, 2 OSD VU2 Bar Opaqueness Controls the opaqueness of the on screen display VU meter
0 to 15 (5)
7, 3 OSD VU2 Bar Vertical Position
Controls the vertical position of the on screen display VU meter
525: 0 to 148 (74)625: 0 to 192 (96)
7, 4 OSD VU2 Bar Horizontal Position
Controls the horizontal position of the on screen display VU meter
0 to 162 (147)
7, 5 OSD VU2 Bar Green Bar Top Position
Adjusts the green bar top position of the on screen display VU meter
-40 to -3 dBFS (-18)
7, 6 OSD VU2 Bar Yellow Bar Top Position
Adjusts the yellow bar top position of the on screen display VU meter
-20 to -3 dBFS (-6)
7, 7 Fine Phase Enable Enables the fine phase control • Disabled • Enabled
7, 8 Output Level Offset Applies attenuation to analog audio output levels
-5.0 to 0.0 db(steps of 1.0 dB)
Table 3-5. Card-Edge Parameter Options—EAS6800+ Modules(Continued)
Bank, Rotary Switch
Parameter Name Function Options
36 EAS6800+ Installation and Operation ManualCopyright © 2006-2009, Harris Corporation
Chapter 3: Operation
Setting EAS6800+ Remote Control ParametersThe following table lists all of the remote control parameters and options for the EAS6800+. To access these parameters, you must use + Pilot Lite or CCS control software such as Pilot or Navigator. See your software user manual for more information. All parameters clip unless otherwise indicated.
Table 3-6. EAS6800+ Parameters—Remote Control Only
Parameter Name1 Function Options or User Range
SD-SDI Input Video Standard Feedback
Reports the detected SD-SDI input video signal standard
• Unknown• 525• 625
SD-SDI Input Video Present Reports the presence of the SD-SDI input video signal
• No• Yes
EDH Present Reports the presence of EDH in the input SD-SDI signal
• No• Yes
EDH Error Counter Reports the number of occurred EDH errors 0 to 32767
Video Frozen Reports the output video frozen status • No• Yes
Line Sync In Window Reports if the input video is within a 3-line window of the output video (line-sync mode only)
• No• Yes
Genlock Video Standard Feedback Reports the detected reference video signal standard
• Unknown• NTSC• PAL-B• PAL-M
Genlock Video Present Reports the presence of the reference video signals
• No• Yes
Genlock Video Locked Reports the locked status of the reference video signal
• No• Yes
Genlock Burst Present Reports the presence of burst in the reference video signal
• No• Yes
Genlock SC/H Error Reports the detected SC/H relationship from the reference video signal
• No• Yes
Audio Group 1 Present Reports the presence of audio group 1 in the SD-SDI stream
• No• Yes
Audio Group 2 Present Reports the presence of audio group 2 in the SD-SDI stream
• No• Yes
EAS6800+ Installation and Operation Manual 37Copyright © 2006-2009, Harris Corporation
Chapter 3: Operation
Audio Group 3 Present Reports the presence of audio group 3 in the SD-SDI stream
• No• Yes
Audio Group 4 Present Reports the presence of audio group 4 in the SD-SDI stream
• No• Yes
Audio Group 1 DBN Error Reports if a data block number error has occurred in the audio group 1 de-embedder
• No• Yes
Audio Group 1 Checksum Error Reports if a checksum error has occurred in the audio group 1 de-embedder
• No• Yes
Audio Group 1 Parity Error Reports if a parity error has occurred in the audio group 1 de-embedder
• No• Yes
Audio Group 2 DBN Error Reports if a data block number error has occurred in the audio group 2 de-embedder
• No• Yes
Audio Group 2 Checksum Error Reports if a checksum error has occurred in the audio group 2 de-embedder
• No• Yes
Audio Group 2 Parity Error Reports if a parity error has occurred in the audio group 2 de-embedder
• No• Yes
Audio Group 3 DBN Error Reports if a data block number error has occurred in the audio group 3 de-embedder
• No• Yes
Audio Group 3 Checksum Error Reports if a checksum error has occurred in the audio group 3 de-embedder
• No• Yes
Audio Group 3 Parity Error Reports if a parity error has occurred in the audio group 3 de-embedder
• No• Yes
Audio Group 4 DBN Error Reports if a data block number error has occurred in the audio group 4 de-embedder
• No• Yes
Audio Group 4 Checksum Error Reports if a checksum error has occurred in the audio group 4 de-embedder
• No• Yes
Audio Group 4 Parity Error Reports if a parity error has occurred in the audio group 4 de-embedder
• No• Yes
AES 1 Input Present Reports the presence of the AES 1 input signal
• No• Yes
AES 2 Input Present Reports the presence of the AES 2 input signal
• No• Yes
1 These parameters are only available from a remote CCS software control application such as Pilot or Navigator.
Table 3-6. EAS6800+ Parameters—Remote Control Only (Continued)
Parameter Name1 Function Options or User Range
38 EAS6800+ Installation and Operation ManualCopyright © 2006-2009, Harris Corporation
Chapter 3: Operation
LEDs and Alarms
Monitoring LEDsThe EAS6800+ has 11 monitoring LEDs that serve as a quick monitoring reference. Figure 3-1 shows the location of the monitoring LEDs on an EAS6800+ module. Table 3-7 on page 39 describes each LED in more detail.
Figure 3-1. Location of EAS6800+ LEDs
Figure 3-2. Monitoring LED Positions
Monitoring LEDsModule status LEDs
FRZ
GLCK
EDH
625
AUTO
525
BS1
BS2
BS3
TSG
AUD GRP1
AUD GRP2
AUD GRP3
AUD GRP4
STATUS
EAS6800+ Installation and Operation Manual 39Copyright © 2006-2009, Harris Corporation
Chapter 3: Operation
Table 3-7. Monitoring LEDs
LED Color Indications Meaning525 Off Selected input standard is not D1-525
Flashing Green Selected output standard is NTSC; valid D1-525 input video is not detected
Green Selected output standard is NTSC; valid D1-525 input video is present
Flashing Orange-Red Selected output standard is PAL-M; valid D1-525 input video is not detected
Orange-Red Selected output standard is PAL-M; valid D1-525 input video is present
Auto Off Auto detection of the SD-SDI input standard is not active
Green Auto detection of the SD-SDI input standard is active
625 Off Selected input standard is not D1-625
Flashing Green Selected output standard is PAL-B; valid D1-625 input video is not present
Green Selected output standard is PAL-B; valid D1-625 input video is present
EDH Off EDH is not present
Green EDH is present
Genlock Off Either the Genlock Mode parameter is set to Free Run or the Frame Sync Mode parameter is set to Delay Mode
Flashing Green Frame Sync Mode is set to Sync Mode and Genlock Mode is not set to Free Run, but the module’s output is not locked to reference video
Green The module’s output is locked to reference video
Freeze Off The module’s output is not frozen
Green The module’s output is frozen
TSG Off The module’s test signal generator is not active
Green The module’s test signal generator is active
40 EAS6800+ Installation and Operation ManualCopyright © 2006-2009, Harris Corporation
Chapter 3: Operation
Module Status LEDsThe EAS6800+ modules do not have any card-edge alarms. Instead, module status LEDs on the corner of the module light up if an error is detected. See Figure 3-1 on page 38 for the location of these LEDs, and Table 3-8 for a definition of the LED colors.
NoteIf the LED is flashing red, please contact your customer service representative.
AUD GRP 1 Off Group 1 audio is not detected in the SD-SDI stream
Green Group 1 audio is detected in the SD-SDI stream
AUD GRP 2 Off Group 2 audio is not detected in the SD-SDI stream
Green Group 2 audio is detected in the SD-SDI stream
AUD GRP 3 Off Group 3 audio is not detected in the SD-SDI stream
Green Group 3 audio is detected in the SD-SDI stream
AUD GRP 4 Off Group 4 audio is not detected in the SD-SDI stream
Green Group 4 audio is detected in the SD-SDI stream
BS1See Table 3-4 on page 21BS2
BS3
Table 3-7. Monitoring LEDs (Continued)
LED Color Indications Meaning
Table 3-8. Module Status LED Descriptions
LED Color Sequence MeaningOff There is no power to the module; the module is not operational.
Green There is power to the module; the module is operating properly.
Red There is an alarm condition.
Flashing red The module has detected a hardware/firmware fault.
Amber The module is undergoing configuration.
EAS6800+ Installation and Operation Manual 41Copyright © 2006-2009, Harris Corporation
Chapter 3: Operation
AlarmsIf a major or minor alarm is triggered within your EAS6800+ module, the Status LED will light red. Alarms are usually logged and monitored within available software control applications (for example, + Pilot Lite or Pilot). You can only differentiate between major and minor alarms within a software control application. See the appropriate software control user manual or online help for more information. Table 3-9 describes the specific alarms for the EAS6800+. You can only identify specific alarms using a software control application.
Table 3-9. Alarm Definitions
Alarm Name Alarm Description Alarm Level
SD-SDI input missing
Indicates SD-SDI video input is missing Major
Output Video Frozen
Indicates the output video is frozen Minor
Line Sync Out of 3-Line Window
Indicates the output video is not within the three-line window of the input video in Line Sync Mode
Major
Mismatched Output/Ref Standards
Indicates if the composite output video standard does not match the reference video input standard
Major
Ref Video Missing Indicates that the reference input video is missing
Major
Ref Not Locked Indicates that the module is not locked to the reference video input
Major
Ref Burst Missing Indicates that the burst signal is not detected in the reference video input.
Major
Ref SC/H Error Indicates that a subcarrier-to-horizontal sync error is detected in the reference video input
Major
Embedded audio group 1 missing
Indicates the presence of embedded audio group 1 is not detected
Minor
Embedded audio group 2 missing
Indicates the presence of embedded audio group 2 is not detected
Minor
Embedded audio group 3 missing
Indicates the presence of embedded audio group 3 is not detected
Minor
Embedded audio group 4 missing
Indicates the presence of embedded audio group 4 is not detected
Minor
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Chapter 3: Operation
DMX group 1 DBN error
Indicates that a data block number error has occurred in the group 1 de-embedder
Minor
DMX group 2 DBN error
Indicates that a data block number error has occurred in the group 2 de-embedder
Minor
DMX group 3 DBN error
Indicates that a data block number error has occurred in the group 3 de-embedder
Minor
DMX group 4 DBN error
Indicates that a data block number error has occurred in the group 4 de-embedder
Minor
DMX group 1 checksum error
Indicates that a checksum error has occurred in the group 1 de-embedder
Minor
DMX group 2 checksum error
Indicates that a checksum error has occurred in the group 2 de-embedder
Minor
DMX group 3 checksum error
Indicates that a checksum error has occurred in the group 3 de-embedder
Minor
DMX group 4 checksum error
Indicates that a checksum error has occurred in the group 4 de-embedder
Minor
DMX group 1 parity error
Indicates that a parity error has occurred in the group 1 de-embedder
Minor
DMX group 2 parity error
Indicates that a parity error has occurred in the group 2 de-embedder
Minor
DMX group 3 parity error
Indicates that a parity error has occurred in the group 3 de-embedder
Minor
DMX group 4 parity error
Indicates that a parity error has occurred in the group 4 de-embedder
Minor
AES 1 Missing Indicates the presence of AES input 1 is not detected
Minor
AES 2 Missing Indicates the presence of AES input 2 is not detected
Minor
Table 3-9. Alarm Definitions (Continued)
Alarm Name Alarm Description Alarm Level
EAS6800+ Installation and Operation Manual 43Copyright © 2006-2009, Harris Corporation
Chapter 3: Operation
Q-SEE Smart Alarms
NoteQSEE smart alarms require CCS Pilot or Navigator version 3.2 or later.
Q-SEE smart alarms monitor the health of the video and embedded audio inputs to your EAS6800+ modules. Q-SEE smart alarms overcome many of the limitations of previous monitoring systems. Alarms can be enabled or disabled, so you can choose which alarms to monitor. Each alarm is configurable with the following features:• A priority setting determines whether the alarm is major or minor.• A Trigger setting determines how long an alarm condition must exist for
before it is reported.• A Clear setting determines how long the condition must cease to exist for
before the alarm is deactivated.A Global Alarm Priority can be set for EAS6800+ modules, and for each input to the module. (With Pilot or Navigator in Build mode, right click on the module or input and choose Configuration. The Report Alarms with Priority Greater Than: setting is on the Device tab.) If an alarm’s priority is at or above this setting, that alarm displays when it is triggered. Some alarms also have an associated tolerance parameter, which allows you to adjust the level above or below which an alarm is triggered.Each alarm has an option for acknowledgement, so you can let other users on the network know that the alarm situation has been addressed. When a Q-SEE smart alarm appears in an EAS6800+ module, the card-edge Module Status LED will turn red. Q-SEE smart alarm names, thresholds and other controls appear in Pilot and Navigator software only.
For more information, see the following topics: • “EAS6800+ Q-SEE Smart Alarm Parameters” on page 43• “EAS6800+ Q-SEE Smart Alarms” on page 45
EAS6800+ Q-SEE Smart Alarm Parameters For each input to an EAS6800+ module, there are parameters that can be set to trigger various alarms. Table 3-10 lists the parameters for each Q-SEE smart alarm input.
44 EAS6800+ Installation and Operation ManualCopyright © 2006-2009, Harris Corporation
Chapter 3: Operation
LegendBold option=Indicates that this is the default setting for the parameter.Rows of the table that are in grey are read-only parameters. All parameters clip unless otherwise indicated.
Table 3-10. Q-SEE Parameters
Parameter Name Parameter Description RangeSDI Expected Video Format Selects the expected format. When the format deviates from
this format, one of the OperationSDI Format Changed to 525 alarms triggers.
• 525 • 625
Luminance Low Threshold Chooses the limit below which the SDI Luma Low alarm is triggered
-6.8% to +15% of nominal 100% level (7.5%)
Luminance Peak Threshold When the luminance level meets or exceeds the value chosen here, the SDI Luma Peak alarm is triggered
90% to 108% of nominal 100% level (102%)
Chrominance Low Threshold Chooses the limit below which the SDI Chroma Low alarm is triggered
0% to +15% of nominal 100% level (0%)
Chrominance Peak Threshold When the chrominance level meets or exceeds the value chosen here, SDI Chroma Peak alarm is triggered
90% to 108% of nominal 100% level (102%)
Video Black Threshold Chooses the limit below which the SDI Video Black alarm is triggered
0% to 10% of nominal 100% level (5.5%)
Peak Audio Threshold Determines the threshold above which SDI Embedded Ch01 Peaked to SDI Embedded Ch16 Peaked alarms are triggered
-20 to 0 dBFS (-2 dBFS)
Low Audio Threshold Determines the threshold below which SDI Embedded Ch01 Low Audio to SDI Embedded Ch16 Low Audio alarms are triggered
-80 to -30 dBFS (-60 dBFS)
Loss of Sound Threshold Determines the threshold below which SDI Embedded Ch01 Loss of Sound to SDI Embedded Ch16 Loss of Sound alarms are triggered
-100 to -60 dBFS (-90 dBFS)
Audio Average Level Restart Restarts audio level averaging for all 16 audio channels simultaneously (When you activate this parameter, it switches to On for a moment, and then returns to the Off position)
• Off • On
Audio Average Level Reporting
Enables audio average level reporting • Disable • Enable
D-VITC Line Select Selects the line for D-VITC presence and continuity reporting
525: 1 - 525 (14) 625: 1 - 625 (19)
SDI Embedded Audio Ch (1–16) Average Level
Sixteen instances of this parameter display the embedded audio average level for each channel.
-60 to 0 dBFS
EAS6800+ Installation and Operation Manual 45Copyright © 2006-2009, Harris Corporation
Chapter 3: Operation
EAS6800+ Q-SEE Smart AlarmsQ-SEE smart alarms are divided into three groups: • “EAS6800+ SDI Video Alarms” on page 46• “EAS6800+ SDI Embedded Audio Alarms” on page 48• “EAS6800+ SDI Data Alarms” on page 49Unless otherwise indicated, the following settings can be made for each Q-SEE smart alarm within Pilot or Navigator software.
Table 3-11. Alarm Options
Alarm Option EffectEnable/Disable This option toggles between Enabled and Disabled. If the alarm
is Enabled, an alarm condition will generate an alarm; but if it is Disabled, the alarm condition will be ignored.
Alarm priority This setting determines whether a triggered alarm will be reported as major or minor. The range is 1 - 10. A priority of 6 or higher is a major alarm (red in CCS software such as Navigator), and a priority of 5 or lower is a minor alarm (yellow in CCS software).
Trigger (s) This option determines how long an alarm condition must exist (in seconds) before the alarm is triggered. If the alarm level is reached for less time than the Trigger duration, then the alarm will not trigger. Choose any duration from 0 to 7200 (or two hours). If this option is set to 0 and the alarm condition exists for any period of time, then the alarm will trigger.
Clear (s) Determines the amount of time the alarm condition must be in abate in order for the alarm to be turned off. Choose any duration from 0 to 7200 seconds (or two hours). If this option is set to 0 and the alarm condition ceases for any period of time, then the alarm will clear.
Ack When an alarm is active, click here to allow other users on the network to see that you have acknowledged the alarm.
46 EAS6800+ Installation and Operation ManualCopyright © 2006-2009, Harris Corporation
Chapter 3: Operation
EAS6800+ SDI Video AlarmsTable 3-12 lists the SDI video alarms.
Table 3-12. SDI Video Alarms
Alarm Name Alarm Description
Alarm Option Default Settings
Enable/Disable
Alarm priority (range: 1 - 10)
Trigger(Range: 1 - 7200 sec)
Clear (Range: 1 - 7200 sec)
SDI Format Changed to 525
This alarm is activated when the video input format deviates from the video input standard set by the SDI Expected Video Format parameter
Enabled 1 2.0 2.0
SDI Format Changed to 625
This alarm is activated when the video input format deviates from the video input standard set by the SDI Expected Video Format parameter
Enabled 1 2.0 2.0
SDI EDH Error Reports recurring EDH errors in the standard definition video signal
Enabled 1 2.0 2.0
SDI Loss of Video Reports that active video has not been present for a period in excess of the duration setting.
Enabled 6 2.0 2.0
SDI CC EIA/CEA-608-B Missing
(525 only)
Reports that the standard definition CC data on line 21 “field 1” is not detected for a period in excess of the duration setting
Enabled 1 240.0 2.0
SDI WSS Missing
(625 only)
Reports that the presence of Widescreen Signaling for Widescreen Format is not detected for a period in excess of the duration setting.
Enabled 1 240.0 2.0
SDI Luma Peak Reports that the luma component has exceeded the threshold defined by the Luminance Peak Threshold parameter
Enabled 1 240.0 2.0
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Chapter 3: Operation
SDI Luma Low Reports that the luma component remains below the threshold defined by the Luminance Low Threshold parameter
Enabled 1 240.0 2.0
SDI Chroma Peak Reports that the chroma component has exceeded the threshold defined by Chrominance Peak Threshold parameter
Enabled 1 240.0 2.0
SDI Chroma Low Reports that the chroma component remains below the threshold defined by the Chrominance Low Threshold parameter
Enabled 1 240.0 2.0
SDI Video Black Reports that the video level does not exceed the level defined by the Video Black Threshold parameter
Enabled 1 240.0 2.0
SDI CC/XDS Data Missing
(525 only)
Reports that the CC/Extended data services on line 21 field 2 is not detected
Enabled 1 240.0 2.0
SDI VChip Data Missing
(525 only)
Reports that VChip data is not present on Line 21 Field 2
Enabled 1 240.0 2.0
Table 3-12. SDI Video Alarms (Continued)
Alarm Name Alarm Description
Alarm Option Default Settings
Enable/Disable
Alarm priority (range: 1 - 10)
Trigger(Range: 1 - 7200 sec)
Clear (Range: 1 - 7200 sec)
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Chapter 3: Operation
EAS6800+ SDI Embedded Audio AlarmsTable 3-13 lists EAS6800+ embedded audio alarms:
Table 3-13. SDI Embedded Audio Alarms
Alarm Name Alarm Description
Alarm Option Default Settings
Enable/Disable
Alarm priority (range: 1 - 10)
Trigger(Range: 1 - 7200 sec)
Clear (Range: 1 - 7200 sec)
SDI Embedded Ch01 Peaked..SDI Embedded Ch16 Peaked
Reports that the peak audio level meets or exceeds the limit set in the Peak Audio Threshold parameter
Enabled 1 30.0 2.0
SDI Embedded Ch01 Low Audio..SDI Embedded Ch16 Low Audio
Peak audio sample stays below the level set in the Low Audio Threshold parameter
Enabled 1 30.0 2.0
SDI Embedded Ch01 Loss of Sound..SDI Embedded Ch16 Loss of Sound
Peak amplitude has fallen below the limit set in the Loss of Sound Threshold parameter
Enabled 1 30.0 2.0
SDI Embedded Ch01 Vbit Set..SDI Embedded Ch16 Vbit Set
The V-Bit alarm occurs when a set V-Bit is detected in the embedded audio source
Enabled 1 1.0 2.0
SDI Embedded Ch01 Missing..SDI Embedded Ch16 Missing
Reports if the SDI embedded audio channel is missing.
Enabled 1 1.0 2.0
SDI Embedded Audio Group 1 Missing..SDI Embedded Audio Group 4 Missing
Four occurrences -- one for each audio group
Reports that the audio in the specified group is not present
Enabled 1 1.0 2.0
EAS6800+ Installation and Operation Manual 49Copyright © 2006-2009, Harris Corporation
Chapter 3: Operation
EAS6800+ SDI Data AlarmsTable 3-14 lists the EAS6800+’s data alarms:
Table 3-14. Data Alarms
Alarm Name Alarm Description
Alarm Option Default Settings
Enable/Disable
Alarm priority (range: 1 - 10)
Trigger(Range: 1 - 7200 sec)
Clear (Range: 1 - 7200 sec)
SDI VITC Missing This alarm is triggered when the D-VITC signal is not detected on the line defined by the D-VITC Line Select parameter
Enabled 1 30.0 2.0
SDI ATC Missing This alarm reports that ATC packet information is not present
Enabled 1 30.0 2.0
50 EAS6800+ Installation and Operation ManualCopyright © 2006-2009, Harris Corporation
Chapter 3: Operation
EAS6800+ Installation and Operation Manual 51Copyright © 2006-2009, Harris Corporation
Chapter 4
Specifications
OverviewThe following specification tables appear in this chapter:• “Video Input” on page 52• “Video Output” on page 54• “Analog Audio Output” on page 57• “Propagation Delay” on page 58• “Power Consumption” on page 58• “Operating Temperature” on page 58Specifications and designs are subject to change without notice.
52 EAS6800+ Installation and Operation ManualCopyright © 2006-2009, Harris Corporation
Chapter 4: Specifications
Video Input
Serial Digital Video
AES Balanced Input (EAS6800+B2A4)
Table 4-1. Serial Digital Video Input
Item SpecificationsStandard SMPTE 259M-C, 270 Mbps, 525/625
component
Connector BNC per IEC 169-8
Impedance 75Ω
Return loss >18 dB to clock frequency
Signal level 800 mV ±10%
CMR voltage 30 V pk-to-pk, up to 60 Hz
Equalization Automatic up to: >23 dB, 259M-C (typical)
Table 4-2. AES Balanced Input (EAS6800+B2A4 Only)
Item SpecificationStandard AES 3
Type Balanced, transformer coupled
Connector 3 pin WECO
Sensitivity <200 mV
Impedance 110Ω ± 20% (0.1 to 6 MHz)
Common mode rejection 0 V to 7 V (0 kHz to 20 kHz)
Input audio rate PCM input: 32 to 108 kHz
Bits 16, 20, or 24
EAS6800+ Installation and Operation Manual 53Copyright © 2006-2009, Harris Corporation
Chapter 4: Specifications
AES Unbalanced Input (EAS6800+C2A4)
Reference Video Input
Table 4-3. AES Unbalanced Input (EAS6800+C2A4 Only)
Item SpecificationStandards AES 3, SMPTE 276M
Type Unbalanced, AC coupled
Connector BNC (IEC169-8)
Sensitivity <100 mV
Impedance 75Ω
Return loss > 25 dB, 0.1 to 6 MHz
Input audio rate PCM input: 32 to 108 kHz
Bits 16, 20, or 24
Table 4-4. Reference Video Input
Item SpecificationLevel 1 V pk-to-pk
Signal type Analog composite NTSC/PAL-B/PAL-M
Connector BNC (frame input)
Impedance 75Ω
Return loss >40 dB (typical) to 6 MHz
Input SC/H error reporting ≥ ±45° (typical)
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Chapter 4: Specifications
Video Output
Serial Digital Output Video
Data I/O Output
Table 4-5. Serial Digital Output Video
Item SpecificationStandard SMPTE 259M-C, 270 Mb/s, 525/625
component
Connector BNC per IEC169-8
Impedance 75Ω
Return loss >18 dB to clock frequency
Signal level 800 mV ± 10%
Jitter < 0.2 UI (740 ps) pk-to-pk
DC offset 0 V ±0.5 V
Rise and fall times 0.75 ns to 1.5 ns
Table 4-6. Data I/O Output
Item SpecificationOutput ports 1
Connector BNC per IEC 169-8
Impedance 75Ω
EAS6800+ Installation and Operation Manual 55Copyright © 2006-2009, Harris Corporation
Chapter 4: Specifications
Composite Analog Output Video
Table 4-7. Composite Analog Video Output
Item SpecificationsStandards NTSC, PAL-B, PAL-M
Impedance 75Ω
Return loss >40 dB to 6 MHz
Quantizing 12 bits
Frequency response ±0.15 dB to 6 MHz
Differential gain <1% (typically <0.5%)
Differential phase <1° (typically <0.5°)
DC offset < ±50 mV
Chroma/luma delay <1.5 ns
Chroma/luma gain ±1.5%
Transient response <0.5% K factor
Line time distribution 0.1%
Luma non-linearity <1.5%
Signal to noise >60 dB rms with bandwidth 10 kHz to full
Adjustable vertical blanking
• 10 to 21 lines for NTSC for both fields (Field 2: 272 to 283)
• 6 to 23 lines for PAL for both fields (Field 2: 318 to 335)
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Chapter 4: Specifications
Analog Composite Monitoring Output
Table 4-8. Analog Composite Monitoring Output
Item SpecificationQuantization 10-bit
DAC resolution 12-bit
Connector BNC
Number of outputs Up to 2
Type NTSC, PAL-M, PAL-B
Impedance 75Ω
Return loss >40 dB to 6 MHz
S/N ratio >54 dB RMS
DC offset ±100 mV
Differential gain <1.5%
Differential phase <1.5°
Chrominance/luminance delay ±10 nsec
Frequency response ±0.5 dB to 5 MHz
EAS6800+ Installation and Operation Manual 57Copyright © 2006-2009, Harris Corporation
Chapter 4: Specifications
Analog Audio Output
Table 4-9. Analog Audio Output
Item SpecificationConnector 3-Pin WECO connector (male)
Type Electronic, balanced
Number 4 mono channels (2 stereo pairs)
Output level setting range +16 dBu to +28 dBu in 2 dB steps (66Ω)+10 dBm to +22 dBm in 2 dB steps (600Ω)
Maximum output level 0 dBFS = +28 dBu (66Ω)0 dBFS = +22 dBm (600Ω)
Output impedance Jumper selectable: 66Ω or 600Ω
THD+N 85 dB @ 1 kHz, -1 dBFS = +23 dBu or -1 dBFS = +17 dBm (600Ω) (typical)
Crosstalk > 95 dB, 20 Hz to 20 kHz (typical)
Frequency response < ±0.1 dB @ 0 dBFS, 20 Hz to 20 kHz (typical)
SNR > 100 dB @ 0 dBFS (typical)
Linearity < ±0.3 dB up to -100 dBFS (typical)
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Chapter 4: Specifications
Propagation Delay
Power Consumption
Operating TemperatureThe operating temperature for EAS6800+ modules is 41° to 113°F (5° to 45°C).
Table 4-10. NTSC/PAL-M Propagation Delay
Item XCR Filter Inserted
XCR Filter Removed
Audio/video align enabled 4.015 msec 3.950 msec
Audio/video align disabled 75.9 μsec 11.40 μsec
Table 4-11. PAL-B Propagation Delay
Item DelayAudio/video align enabled 3.977 msec
Audio/video align disabled 11.2 μsec
Table 4-12. Power Consumption
Module Power ConsumptionEAS6800+ 12 W (6 W on +6.8 V supply,
6 W on -6.8 V supply)
EAS6800+ Installation and Operation Manual 59Copyright © 2006-2009, Harris Corporation
Appendix A
Cross-Color Reduction Filters
OverviewThis section describes the cross-color reduction filters that are available for the EAS6800+ module. The filter responses and characteristics are implemented by a 15-tap folded FIR with 12-bit coefficients. The Cross Color Reduction Filter has three parameters associated with its operation: XCR Function Block, XCR Function Enable and XCR Filter Select. • Use XCR Function Block to insert or remove the cross color reduction
circuit into or out of the video processing signal path. If set to Insert, the cross color reduction block can be enabled or disabled with the XCR Function Enable parameter. When set to Insert, the cross color reduction circuit will add 1 line and 1 μsec of video processing delay.
• Use XCR Filter Select to select the type of filter used by the cross color reduction circuitry. See “Filter Summary” on page 59 for details.
• Use XCR Function Enable to selectively enable or disable the cross color reduction circuitry. When set to Enabled, the circuit performs as described in the remainder of this section. When set to Disabled, the cross color reduction circuit is removed and an equivalent video delay is inserted to compensate for the delay that would have been introduced by the cross color reduction circuit. The net effect is an equivalent amount of video processing delay if this parameter is set to Enabled or Disabled.
Filter SummaryThe implementation of each Cross Color Reduction filter consists of two filters: a vertical high pass filter and a horizontal high pass filter. The frequency response of the vertical high pass filter is fixed and is non-programmable, while the horizontal high pass filter is programmable.
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Appendix A: Cross-Color Reduction Filters
Table A-1 summarizes the selectable horizontal high pass filters. The values are the approximate bandwidths for the application. Examine the filter plots for greater detail.
Vertical High Pass Filter Frequency Response
Figure A-1. XCR Vertical High Pass Filter Frequency Response
Table A-1. Bandwidth of Cross-Color Reduction Filters
Horizontal Pass Filters Cutoff FrequencyFilter 1 6.0 MHz
Filter 2 5.8 MHz
Filter 3 5.0 MHz
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Appendix A: Cross-Color Reduction Filters
Horizontal High Pass FiltersFilter 1
Figure A-2. XCR Filter 1 High Pass Filter Frequency Response
Filter 2
Figure A-3. XCR Filter 2 High Pass Filter Frequency Response
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Appendix A: Cross-Color Reduction Filters
Filter 3
Figure A-4. XCR Filter 3 High Pass Filter Frequency Response
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Appendix B
Genlock and Output Troubleshooting
OverviewThe following checklists will help you solve some of the most commonly seen issues.It is split into the following two sections: • “Genlock Issues” on page 63• “Output Issues” on page 65For best results, use + Pilot Lite software to check settings and parameters if housed inside an FR6802+ frame. + Pilot Lite software is installed on a PC that connects to the frame via the serial port connector at the rear of the frame, and can be downloaded from our website. Use a null modem RS-232 cable to connect between the PC and the frame.
Genlock IssuesIf the EAS6800+ cannot lock to genlock, proceed through the following checklist:1. Check that the Genlock Lock Mode parameter is not set to Free Run mode.
If this parameter is set to Free Run it will not synchronize the video to the genlock reference.
2. Check that the Synchronizer Mode parameter is not set to Delay mode. If this parameter is set to Delay mode it will not synchronize the video to the genlock reference.
3. Check that the SD-SDI Video Standard parameter is set to the correct standard for current video input. This parameter is normally left in Auto mode where it will automatically switch to 525 or 625 SD-SDI video standards as the input changes. However if this is forced into 525 or 625 then the genlock input must also match the chosen standard. For example, if 625 mode is selected but an NTSC reference is present on the genlock input, the unit will not genlock or synchronize.
4. If items 1 to 3 have been checked and determined correct, check the back module.a. Unplug the front module first.
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Appendix B: Genlock and Output Troubleshooting
b. Unscrew and remove the back module.c. Check that the 20-pin spring connector at the bottom of the back
module does not have any bent or pressed in pins. (See Figure B-1.) Even a slightly depressed or bent pin may cause genlock issues.
Figure B-1. Back Module to Front Module Connector
NoteBent pins may also cause communications issues with + Pilot Lite, Pilot or Navigator.
d. If there are bent pins, carefully reposition them to their correct positions.
e. If this is not possible, you can exchange the back module for a new one. (Order part number EAS6800+DR.)
5. If the EAS6800+ can still not be genlocked, attempt doing a Factory Recall on the module.
20-pin connector
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Appendix B: Genlock and Output Troubleshooting
Output IssuesIf the composite output has issues such as no output, unstable output, or frozen output, proceed with the following checklist.1. Check that the Video Output Standard Set parameter is set correctly. If a
525 SD-SDI input is present, then the valid output standard choices are NTSC or PAL-M. If PAL-M is chosen but NTSC desired the unit will not pass good video.
2. If the Synchronize Mode parameter is set to Delay mode and the reference video is present, but the input SD-SDI is not frequency locked to the reference video, the composite output video may be distorted. To resolve this, either remove the reference video from the module, or set the Genlock Lock Mode parameter to Freerun.
3. If the video output appears to be frozen, check that the Freeze Enable parameter is not set to Enabled. By turning this on it will freeze the last video frame or field that was received.
4. If the video output appears to be stuck on a test pattern, check that the Test Signal Enable parameter is not set to Enabled.
5. If Closed Captioning on Line 21 does not appear to be picked up by CC decoders or is intermittent, ensure that the Line 21 VBI parameters are set to Luma Only. This bypasses any cross color artifacts that may occur.• Go to the VBI Field 1 Line 21 Mode parameter and select Luma Only.• If there is Closed Caption 2 (CC 2) on Field 2 then also go to the VBI
Field 2 Line 21 Mode parameter and select Luma only.If the CC decoder still has problems decoding the closed captioning, check that there is no setup on Line 21. Go to the Setup Starting Line parameter and set it to 22 so that setup is not added to Line 21.
6. If the output is still not valid, try doing a Factory Recall.7. Check the Module Status LED on the card edge. If it is flashing red it
indicates there is a likely hardware or firmware fault. Contact customer service.
If, after going through this checklist, the EAS6800+ module still does not operate as expected contact Customer Service for further assistance.
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Appendix B: Genlock and Output Troubleshooting
Appendix C
Communication and ControlTroubleshooting Tips
General Troubleshooting StepsFollow these steps in troubleshooting 6800+ product problems:1. Review the “Software Communication and Control Issues” on page 68
outlined in this chapter.2. Search this product manual and other associated documentation for answers
to your question.Product documentation (including manuals, online help, application notes, erratas, product release notes, and more) can be found on our website (Support section), along with technical support information, training information, product downloads, and a product knowledge base.
3. Contact your Customer Service representative if, after following these initial steps, you cannot resolve the issue.To contact Customer Service, see “Contacting Customer Service” on page 71.
NoteAssociated documentation for 6800+ series products can generally be found in the product-specific manual that accompanies every module, in the FR6802+ Frame Installation and Operation Manual, and in the 6800+ Safety Instructions and Standards Manual.
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Appendix C: Communication and Control Troubleshooting Tips
Software Communication and Control Issues• “+ Pilot Lite Fails to Communicate with Installed Modules” on page 68• “+ Pilot Lite Does Not Find All Modules in Frame” on page 69• “+ Pilot Lite or CCS Software Application Not Responding” on page 69• “+ Pilot Lite Cannot Control a Module Showing in the Control Window”
on page 69• “+ Pilot Lite Status Bar Reports “Not Ready”” on page 70• “CCS Software Application or Remote Control Panel Does Not
Communicate with Module” on page 70• “Alarm Query Fails When a Device Reboots” on page 70
+ Pilot Lite Fails to Communicate with Installed ModulesConfirm that the following items are not the reason for the communication failure:• Proper module slot has not been specified (+ Pilot Lite is not
communicating with the appropriate slot). See your FR6802+ Frame Installation and Operation Manual for more information on slot identification.
• COM port is used elsewhere (Check that the correct COM port is configured in + Pilot Lite and that another application is not using that COM port).
• Actual frame ID does not match with the two DIP switch settings in the back of the frame (+ Pilot Lite is not communicating with the proper frame). See your FR6802+ Frame Installation and Operation Manual for more information on frame ID switch settings.
• Null modem cable is not being used. Between the PC running + Pilot Lite and the FR6802+ frame, there should be a null RS-232 modem cable. At minimum, this requires that pins 2 and 3 are crossed and 5 to 5 for ground.
• ICE6800+ module is installed in the frame (+ Pilot Lite control is disabled if an ICE6800+ module is installed in the frame; ICE6800+ modules are used for CCS control).
• A legacy 6800 series product is in the frame. + Pilot Lite cannot communicate with legacy 6800 series products. They will not be discovered or controlled by + Pilot Lite, although they can be installed in the FR6802+ frame and work using card edge controls. The module must be from the 6800+ product family.
• Check that the back module does not have any bent pins, following this procedure:a. Unplug the front module. b. Unscrew and remove the back module.
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Appendix C: Communication and Control Troubleshooting Tips
c. View the 20-pin spring connector at the bottom of the back module.(See Figure C-1.)
Figure C-1. Back Module to Front Module Connector
This connector should not have any bent or pressed pins. Even a slightly depressed or bent pin may cause genlock issues.
d. If there are bent pins, carefully reposition them to their correct positions. If this is not possible, you can exchange the back module for a new one (order part number EAS6800+DR).
+ Pilot Lite Does Not Find All Modules in FrameIf a discovery is started too soon after frame power-up, + Pilot Lite will not find all the installed modules. Refresh + Pilot Lite (File > Refresh), and ensure that installed modules are fully powered-up first before discovery.If a module is plugged into the frame after a discovery, + Pilot Lite does not automatically detect the module. Refresh + Pilot Lite (File > Refresh) to discover the newly installed module.If a Legacy 6800 series product is in the frame, + Pilot Lite will not detect it. + Pilot Lite cannot communicate with legacy 6800 series products. They will not be discovered or controlled by + Pilot Lite although they can be installed in the FR6802+ frame and work using card edge controls. For + Pilot Lite to find a module, it must be from the 6800+ product family.
+ Pilot Lite or CCS Software Application Not Responding+ Pilot Lite and CCS applications such as Navigator or Pilot cannot run on the same PC at the same time. Both applications can be installed, but only one can be opened at a time.
+ Pilot Lite Cannot Control a Module Showing in the Control Window
Consider these questions:
20-pin connector
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Appendix C: Communication and Control Troubleshooting Tips
• Did you physically set the jumper for local control? If so, set this jumper to the REM position for remote control.
• Does the card name in the control window physically match the card type in the frame?
• Is the module properly seated in the frame? Check the positioning of the module in its slot in the frame.
• Does the Control window indicate the device is “ready”? The device may be powered off or disconnected from the network.
+ Pilot Lite Status Bar Reports “Not Ready”+ Pilot Lite reports each device’s connection status in the status bar. If the connection status message reads “Not Ready,” check the following:• Is the module properly seated in the frame? Check the position of the
module in the frame.• Is the frame connected to the network? Check the device’s network
connection.If the status bar still reports no status or “Not Ready” for the frame or device, try restarting + Pilot Lite.
CCS Software Application or Remote Control Panel Does Not Communicate with Module
CCS software applications (such as Pilot, CoPilot, and Navigator) and remote control panels require the purchase and installation of an ICE6800+ module in an FR6802+ frame in order to communicate remotely via Ethernet.
Alarm Query Fails When a Device RebootsWhen you reboot a device connected to your PC, the alarm traffic hitting the network may cause an alarm query request to time out and fail. While the query does not automatically retry, it will post an “Alarm query failed” message to the Diagnostics window.To clear an “Alarm query failed” message, right-click inside the Diagnostics window, and then select Refresh from the resulting context menu.
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Appendix C: Communication and Control Troubleshooting Tips
Hardware Communication and Control Issues• “Frames Fail to Communicate with the PC after a Power Failure” on
page 71• “Module Does Not Seem to Work” on page 71
Frames Fail to Communicate with the PC after a Power FailureYou must exit the software and restart after the frame recovers from its power failure. To restore communications between the PC and the frames, ensure that the frames have three or more minutes to recover from the power failure before you exit the application and restart the PC.
Module Does Not Seem to WorkAlthough the following troubleshooting tips may seem obvious, please take the time to ensure the following:• All appropriate rear connections are securely made• The board is securely installed (with no bent pins)• The frame is turned on
Contacting Customer ServiceWe are committed to providing round-the-clock, 24-hour service to our customers around the world. Visit our website for information on how to contact the Customer Service team in your geographical region.
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Appendix C: Communication and Control Troubleshooting Tips
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Index
Keywords
AActive bank number 23Active video setup 23Adjustable vertical blanking 55Alarms 38, 41
alarm query failed 70Aligning output video 17Analog composite video input 53Application not responding 69Associated parameters 19Audio
output level 10test tone 17tracking 17
Audio leveljumper 10
Available parameters 23
BBack connector 5, 8
installing 14BNC connector 52
CCC decoder 65CCS application 69Changing parameters 21CJ1 jumper 9Clipping 23, 36Closed captioning 65CMR voltage 52Color-frame locking 18Communication failure, frame 71Composite analog video output 55Composite Encoder filter 59Connections 5
internal 14Control LEDs 3, 4, 21
Control problems 69Controls, card edge 3CoPilot 69Cross-color reduction 25Cross-functional parameter changes 19
DData I/O 17, 58Default parameter settings 22Delay mode 18, 39Description, product 2Discovery failure 69
EEDH 39Equalization 52External genlock 63Extractor handle location 3
FFactory recall 64
parameter 24Filter responses 59Filter summary 59Filters
cross-color reduction 59horizontal high pass 61vertical high pass 60XCR 19, 25
Fine phase 20, 24enable 18
Firmware updating, modules 14FR6802+ frames 14Frame Sync mode 20, 39Free Run 39Freeze enable 65Frequency response 55Front module 8, 14
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Index
GGenlock
lock mode 18mode 24, 39troubleshooting 63
Genlock lock mode 18
HHardware version 22High impedance 10Horizontal (H) phase 19Horizontal high pass filter 60, 61
IImpedance 52
jumpers for setting 10Inputs 2, 5
level 53signal type 53standards 39
Installation 14Installed modules 69
JJumpers 3, 9
audio level 10CJ1 9local/remote control 9output impedance 10
LLEDs 38
locations 3module status 40monitoring 38positions on module 38
Line synchronizer 17Line time distribution 55Local control 69
jumper for setting 9Local/remote control jumper 4Lock reference video 39Low impedance 10Luma Only 65
MManual information viiMaximum allowable power ratings 13Mode 20Mode select rotary switch 3, 4
Modesdelay 18, 39frame sync 39genlock 18, 39, 63, 65line sync 36, 41output video 25synchronizer 17, 20, 24, 63, 65vertical blanking interval 25, 65
Module not found 69Module state 4Module status LEDs 3, 4, 40, 65Monitoring LEDs 3, 4, 38, 39
Nnavigation switch 21navigation toggle switch 4Navigator 69Network connection 70Not ready status 69
OOperating notes 15Operating temperature 58Outputs 2, 5
audio channel source 17impedance 10standard 39test tone 17timing 24video alignment 17
PPacking list 8PAL-B Pass Filter 59Parameters
changes 19defaults 23, 44read-only 36settings 21
Pedestal 23Pilot 69Pilot Lite 63, 68Power
consumption 13, 58dissipation 13frame ratings 13
Power failure 71Precautions, safety xiProduct description 2Product servicing ixPropagation delay 58
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Index
QQ-SEE compliant thumbnails 15
RReboot device 70Recalling default parameter settings 22Reference lock 18Reference video input 53Remote control 9, 69Remote/local control jumper 3Required frames 14Return loss 52Returning a product ixRevision history of the manual viiRoHS-compliance xRotary switch 3, 21
SSafety precautions xi, xiiSCH offset 24SD-SDI video standard 19, 63Serial digital video 52
output 57Setup 19
pedestal signal 23starting line 19, 24
Shipping and unpacking a product ixShipping information ixSignal flow 6Signal level 52Signal to noise 55Software module upgrading 14Software version 22Specifications 51Standards
RoHS compliance xvideo 52WEEE compliance x
Status not ready 69Summary, filter 59Support documents viiiSynchronizer mode 18, 20, 63
TTemperature 58Test signal enable 65Test tone frequencies 17Thumbnails, Q-SEE compliant 15Transient response 55Troubleshooting 67–71
communication 68control 70installation 71output 65
UUnpacking 7Unpacking and shipping a product ixUnpacking information ixUsable slots 13
VV Phase 19VBI Field 1 Line 21 Mode 65VBI lines 19VBI processing parameters 25Vertical high pass filter frequency response 60Video
frozen 65input 52input connector 52output 54output standard set 65reference lock 39standard 52
WWEEE compliance xWriting conventions viii
XXCR block 20XCR filter 61
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Index