Home
XHD6801+ Broadcast-Quality Up/Cross/Down Converter, Edition E
Contents
1. In accordance with this EU Directive companies selling electric or electronic devices in the EU are affixing labels that indicate such products must be properly recycled See our website for more information Contact your local sales representative for information on returning these products for recycling Equipment that complies with the EU directive is marked with a WEEE compliant emblem as shown in Figure P 2 Figure P 2 WEEE Compliance Emblem XHD6801 Installation and Operation Manual xi Preface Safety Carefully review all safety precautions to avoid injury and prevent damage to this product or any products connected to it If this product is rack mountable it should be mounted in an appropriate rack using the rack mounting positions and rear support guides provided 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 Safety Terms and Symbols in this Manual xii WARNING A Statements identifying conditions or practices that may result in personal injury or loss
2. The module does not seem to work Solutions e Ensure the correct frame is powered up e Verify that all appropriate rear connections are secure e Gently push the module into its slot in the frame to ensure it is seated properly e Ensure the back module does not have bent pins by following this procedure a Unplug the front module b Unscrew and remove the back module c Inspect the spring connector at the bottom of the back module Figure A 1 and verify the connector does not have any slightly bent or pressed pins d Carefully reposition any bent pins if this is not possible contact Customer Support XHD6801 Installation and Operation Manual 73 Appendix A Communication and Control Troubleshooting Tips 74 XHD6801 Installation and Operation Manual A Active Format Description AFD 40 51 AFD ARC alignment 40 Alarms list 61 Applications for the module 5 Aspect Ratio Conversion ARC 37 51 Audio configuration 53 55 controls 53 embedding and demuxing 53 55 gain bypass and delay 54 muting 54 proc amp 54 routing 53 status parameters 55 Australian TV closed captioning 52 Back module 8 9 Bank Select LEDs 34 Bypass control 43 54 C CC Embed parameter 52 CCS applications 32 33 refreshing and discovering modules 32 troubleshooting 70 73 Closed captioning 52 Copyright information ii Correcting failed upgrades 21 23 XHD6801 Installation and Operation Manual Index D Defaul
3. Monitoring LEDs Figure 4 1 Location of XHD6801 LEDs XHD6801 Installation and Operation Manual 59 Chapter 4 Parameters LEDs and Alarms Table 4 1 Status and Monitoring LEDs LED Description Color Indication Status There is no power to the module the module is not None off operational The module is receiving power and is operating Green properly The module detects an alarm condition or the module s Solid Red initialization has failed The module has detected a significant hardware Flashing Red firmware fault contact your Customer Service representative The module is undergoing configuration Amber 50 59 Indicates the frame rate for the input video e Green 59 standard e Off 50 525 Indicates the input standard is 525 Green 525 input standard is detected 625 Indicates the input standard is 625 Green 625 input standard is detected 720p Indicates the input standard is 720p Green 720p input standard is detected 1080i Indicates the input standard is 1080i Green 1080i input standard is detected 1080p Indicates the input standard is 1080p Green 1080p input standard is detected Audiol Reports the presence of audio group in the input Green Group 1 audio is present video stream Audio2 Reports the presence of audio group 2 in the input Green Group 2 audio is present video stream Audio3 Reports the presence of audio group 3 in the input Green Group
4. Aspect Ratio Processing sseeseseesessreessreererrererresterssrererrnerreserrsrsresenee 37 Enhanced Aspect Ratio Conversion Control ssssseeeseeesereeeree 37 Enhanced AFD WSS VI Inzerton eee ceeceeceseeeeeeeeeeeeees 37 Selecting a Standard Aspect Ratio wo eee eeceeeeeeeeeneeseeeneeeaes 38 Selecting a Custom Aspect Ratio 2 eee eseseceecsseeseceseeeeeeeeeees 39 Selecting Aspect Ratio Control Following AFD VI WSS 39 Setting a Custom Aspect Ratio i e eee eeceeeeeeeereeseecneeseeeneenaes 40 Active Format Description 00 0 eee eeeceecsceeseceeceseeseeeeeeeeeeeeeseesaeeneenaes 40 AFD ARC Alignment orones EEE E 40 AFD VI and WSS Detection cccccccsccccessssscceceessaececeeesaeeeees 42 AFD VI and WSS Code Insertion 0 cccccccecsesseccesesssececesenseeeee 43 AFD VI WSS Based Aspect Ratio Control sessseeseeeeeeeseeeseeees 44 AFD VI WSS Custom Mapping Configuration ee 44 Advanced Controls i ses cesccisee sei cesthe cvessndete le eaen nie s 44 AFD Descriptions sesinin inn scien ENEE EE 45 Closed Captioning and DVB Teletext Captioning eee 52 Setting Closed Captioning and Teletext 0 eee eeeeeeeeereeeee 52 Audio Configuration ssesessseesseseeeseesrsrestrrreeresseetesreresrerersrerensreersrees 53 Audio Controls errei o a ER eae ies 53 iv XHD6801 Installation and Operation Manual Contents Amdio ROUTINE eege Eed d e 53 Audio Proc AMP s ssscesceseseisesssscssssesseesscsses
5. WSS and VI to insert any AFD WSS and VI code GPI triggers make it possible to switch between standard mapping and custom mapping for each conversion mode separately Selecting a Standard Aspect Ratio 38 To select a standard aspect ratio for the output image set ARC Control found at Video gt Processing gt ARC gt ARC Control to one of the following selections e Anamorphic e 4 3 Pillar Box e 14 9 Pillar Box e 16 9 Cut e 4 3 gt 21 9 Ltr e 16 9 Letter Box e 14 9 Letter Box e 4 3 Cut e 16 9 gt 21 9 Ltr e PixelTrue Pixel True performs no scaling to the input video Instead each input pixel is mapped directly to one output pixel You can use this preset to transport an SD picture embedded inside an HD stream XHD6801 Installation and Operation Manual Chapter 3 Configuration and Operation Selecting a Custom Aspect Ratio To select a pre defined custom aspect ratio for the output image use one of the options found at Other gt GPI Input gt ARC Control e Custom Up ARC1 to Custom Up ARCS5 e Custom Down ARCI1 to Custom Down ARC5 e Custom Cross ARC1 to Custom Cross ARC5 e Custom SD ARC1 to Custom SD ARC5 Only five options are exposed at one time based on the mode selected Selecting Aspect Ratio Control Following AFD VI WSS An XHD6801 module can automatically change the aspect ratio based on the incoming AFD WSS or VI control codes Set the ARC Control parameter to one of the following s
6. read the 6800 Series Safety Instructions and Standards Manual shipped with every frame installation and operation manual This information is also available on our website The safety manual contains important information about the safe installation and operation of 6800 series products See your frame installation and operation manual for information about installing and operating an FR6802 frame and its components XHD6801 Installation and Operation Manual 11 Chapter 2 Installation Maximum 6800 Frame Power Ratings The power consumption for one XHD6801 module is 17 5 W Table 2 1 shows the maximum allowable power ratings for 6800 series frames Note the given maximums before installing any 6800 modules in your frame Due to high levels of heat dissipation XHD6801 modules should not be installed in frames without fans The modules cannot be installed in FR6802 DM and 6800 7000 series frames SA Note To maintain proper temperatures ensure that the front panel is closed at all times and that the fan module is fully operational Table 2 1 Maximum Power Ratings for 6800 Frames Max Frame Max Number of Max Power 6800 Frame Type Power XHD6801 Dissipation for Dissipation Modules Three Slots FR6802 QXF 120 W 6 18 W frame with AC or DC power supply FR6802 XF 120 W 6 18 W frame with AC power supply FR6802 XF48 105 W 5 15 75 W frame with DC power supply FR6822 FR6822 Q
7. refresh the control connection between your 6800 frame and PC To refresh the connection from the Pilot Lite menu bar select File gt Refresh For information about controlling a device using Pilot Lite see your Pilot Lite User Manual 32 XHD6801 Installation and Operation Manual Chapter 3 Configuration and Operation Discovering an XHD6801 Module To discover your module your Pilot or Navigator software must be in Build mode Follow these steps 1 If the Discovery window is not open click Tools gt Discovery in the main menu A Discovery window opens most likely in the bottom left corner of the screen Click Options and then click Add Enter the IP address of the frame that contains your module the frame that contains your ICE6800 module or the frame that contains a 6800 ETH module that provides access to your module Click OK to close the Add IP address window and then OK again to close the Discovery Options window Click Start This triggers Pilot or Navigator to run a discovery When your discovery is complete Discovery Completed is displayed in the Discovery window To continue click Save to save the contents of your discovery to the Discovery folder of the Navigation pane You can now switch to Control mode by selecting Operational Mode gt Control Double click XHD6801 in the Navigation pane The Control window opens and displays the module s controls Changing Parameter Settin
8. 16 9 1011 14 9 P 16 9 1101 4 3 P A 14 9 16 9 1110 16 9 A 14 9 16 9 1111 16 9 A 4 3 Illustration ina 16 9 coded frame Se d C E O E Description Image with aspect ratio greater than 16 9 as a vertically centered letterbox in a 16 9 coded frame Image is full frame with an aspect ratio that is the same as the 16 9 coded frame Image with a 4 3 aspect ratio as a horizontally centered pillarbox image in a 16 9 coded frame Image is full frame with a 16 9 aspect ratio and with all image areas protected Image with a 14 9 aspect ratio as a horizontally centered pillarbox image in a 16 9 coded frame Image with a 4 3 aspect ratio and with an alternative 14 9 center as a horizontally centered pillarbox image in a 16 9 coded frame Image with a 16 9 aspect ratio and with an alternative 14 9 center in a 16 9 coded frame Image with a 16 9 aspect ratio and with an alternative 4 3 center in a 16 9 coded frame Figure 3 8 Available AFD Select Options when OutAspectRatio is Set to 16 9 XHD6801 Installation and Operation Manual 47 Chapter 3 Configuration and Operation WSS name 100 16 9 Top 010 14 9 Top 000 4 3 Full 011 16 9 CNTR 001 14 9 CNTR 110 4 3 A 14 9 Not applicable Not applicable AFD and VI Select parameter options 4 3 0010 16 9 Top 4 3 0011 14 9 Top 4 3 0100 GT 16 9 4 3 10
9. 3 Available License Keys License Key Order Number Feature Upgrade XHD68014 D UCD Downconverter upgraded to full up cross downconversion capability XHD6801 UC UCD Up crossconverter upgraded to full up cross downconversion capability To enter a license key you must use a NUCLEUS control panel or a CCS software application such as CCS Pilot Lite Pilot or Navigator See page 36 for information about entering license keys XHD6801 Installation and Operation Manual 17 Chapter 2 Installation Upgrading Module Firmware Firmware upgrading is a routine procedure that you must perform to install newer versions of software on 6800 modules CCS Pilot Co Pilot or Navigator software version 3 1 1 or later is required for this procedure The frame must contain or be connected to another frame that contains an ICE6800 or a 6800 ETH module During the upgrade procedure the affected modules are automatically rebooted In the unlikely event that the upgrade fails because of such situations as network interruptions power failures etc the module may not respond to controls and will appear to be non functional In that event follow the procedures described in Correcting a Failed Upgrading Procedure on page 21 Upgrading the Firmware You can upgrade your 6800 module s firmware using the Software Upgrade tool This tool is included with CCS Pilot Co Pilot or Navigator software version
10. The Directive which took effect on July 1 2006 refers to the following hazardous substances e Lead Pb e Mercury Hg e Cadmium Cd e Hexavalent Chromium Cr V1 e Polybrominated Biphenyls PBB e Polybrominated Diphenyl Ethers PBDE According to this EU Directive all products sold in the European Union will be fully RoHS compliant and lead free See our website for more information Spare parts supplied for the repair and upgrade of equipment sold before July 1 2006 are exempt from the legislation Equipment that complies with the EU directive is marked with a RoHS compliant emblem as shown in Figure P 1 RoHS Compliant Figure P 1 ROHS Compliance Emblem XHD6801 Installation and Operation Manual Preface Waste from Electrical and Electronic Equipment WEEE Compliance The European Union EU Directive 2002 96 EC on Waste from Electrical and Electronic Equipment WEEE deals with the collection treatment recovery and recycling of electrical and electronic waste products The objective of the WEEE Directive is to assign the responsibility for the disposal of associated hazardous waste to either the producers or users of these products As of August 13 2005 producers or users are 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
11. Video Processing e 10 bit up down cross and aspect ratio conversion with motion adaptive de interlacing e Color space conversion between SD SDI 601 and HD SDI 709 e User configurable aspect ratio conversion H V size and position for picture resizing with eight selectable internally generated color ARC backgrounds e Variable aspect ratio conversion with five user presets and fixed preset aspect ratios that include 16 9 anamorphic 16 9 middle cut 14 9 4 3 and pixel true e Aspect ratio adjustment according to embedded WSS VI AFD information e User selectable video frame delay of up to 12 frames e Clean cut transition during aspect ratio change XHD6801 Installation and Operation Manual 3 Chapter 1 Introduction ANC Processing e Enhanced WSS VI and AFD decoding processing and encoding capabilities e Automatic correction of AFD codes if incoming AFD information is incorrect e Fully configurable AFD VI WW embedding on AFD loss 24 bit audio processing e Embedded audio processing demultiplexing from SDI delay sync sample rate conversion and remultiplexing into SDI e Support for 4 groups 16 channels of embedded audio e Support for compressed and linear PCM audio data in the same audio group e Mono level swapping of audio channels e Handling of any embedded compressed audio with fixed delay e Audio delay that matches video propagation plus additional user delay of up to 1 2 seconds Stor
12. another application is not using that COM port Pilot Lite and CCS software see the frame but do not find all of the modules Solutions e Remove any legacy 6800 series products e Plug your modules in before starting the discovery e Start your discovery after the frame and all modules have fully powered up e Refresh Pilot Lite File gt Refresh and ensure that the installed modules are fully powered up first before discovery Pilot Lite and CCS Pilot Navigator do not respond after they have been launched Solution Close either Pilot Lite or CCS Pilot Navigator Both programs cannot be running at the same time on the same PC Pilot Lite and CCS software show a module in the control window but cannot control it Solution 1 Set the module s Local Remote jumper to Remote 2 Ensure the module name in the Control window matches the module type in the frame 3 Gently push the module into its slot in the frame to ensure it is seated properly and powered up 4 Verify that the Control window indicates the device is ready XHD6801 Installation and Operation Manual Appendix A Communication and Control Troubleshooting Tips Hardware Communication Problems After a power failure the frames and PC do not communicate Solution 1 Wait four minutes for the frames to recover from the power failure 2 Close the Pilot Lite or CCS software and then restart the PC 3 Restart the software application
13. applications to monitoring e Remote Allows remote or local card edge configuration operation and monitoring of the XHD6801 See page 14 for more information on jumpers XHD6801 Installation and Operation Manual Chapter 1 Introduction Back Module SDI IN 1 F DI PROGRAM OUT g DI MONITOR OUT H Wa AUD DELAY 6 Hz RECLOCKED OUT mem et Figure 1 2 XHD6801 4 Back Module Figure 1 3 GPI In Out Pinouts 8 XHD6801 Installation and Operation Manual Chapter 1 Introduction Table 1 2 describes each back module connector Table 1 2 Back Module Connector Descriptions Back Module Label Description SDI In Inputs HD SD SDI video for up down or cross conversion or reclocking HD SD SDI signals can also be input for reclocking SDI DA Out 4 Outputs SD or HD reclocked video output signals video from these outputs by passes the module s scalar processor configurable for either reclocked or frame sync outputs SDI Program Out 2 Outputs HD SD SDI converted video Audio Delay 6 HZ Outputs the output audio delay signal SDI Program Monitor Out 2 Outputs a program signal for monitoring purposes an on screen display of XHD6801 control parameters can be enabled on these outputs Reference In Inputs a bi level NTSC PAL B or tri level sync 1080i 1080p external video reference source that can be internally terminated using a jumpe
14. c Imagine Installation and Operation Manual Selenio 6800 XHD6801 Broadcast Quality Up Cross Downconverter Edition E 175 000517 00 Publication Information 2014 Imagine Communications Corp Proprietary and Confidential Imagine Communications considers this document and its contents to be proprietary and confidential Except for making a reasonable number of copies for your own internal use you may not reproduce this publication or any part thereof in any form by any method for any purpose or in any language other than English without the written consent of Imagine Communications All others uses are illegal This publication is designed to assist in the use of the product as it exists on the date of publication of this manual and may not reflect the product at the current time or an unknown time in the future This publication does not in any way warrant description accuracy or guarantee the use for the product to which it refers Imagine Communications reserves the right without notice to make such changes in equipment design specifications components or documentation as progress may warrant to improve the performance of the product Trademarks SelenioTM and 6800 TM are trademarks of Imagine Communications or its subsidiaries Microsoft and Windws are registered trademarks of Microsoft Corpoation HD BC is a trademark of Amphenol Corporation All other trademarks and trade names are the property of their resp
15. currently active A user selectable ARC setting is provided in the event that AFD WSS or VI code disappears For example if upconversion is set to follow AFD but the AFD data isn t available the user can choose which ARC to implement in its place Enhanced AFD WSS VI Insertion Enhanced Monitoring GPI triggers can affect the insertion mode and insert specific codes for AFD WSS and VI Each control is separate and independent from the other GPI outputs on the XHD6801 can perform the following e Monitor for specific input AFD WSS and VI codes e Separately monitor the ARC setting for each conversion mode e Report the current AFD WSS or VI insertion mode in use for a particular type of conversion XHD6801 Installation and Operation Manual 37 Chapter 3 Configuration and Operation Enhanced User ARC Settings Custom Code Map Each user setting includes default AFD WSS and VI code associated with it A Live View mode makes it possible to see custom ARC adjustments in real time With the custom code map you have the ability to precisely specify the ARC setting and code insertion for each input AFD WSS and VI code including reserved codes You can override only the code insertion the ARC setting or both In addition you can override specific AFD WSS or VI codes and leave the remainder as default The map can be used to create custom AFD In to AFD Out mappings as well as custom translation from any incoming AFD
16. end of the parameter list see Control Parameters on page 58 These parameters appear in the on screen display and in CCS software applications XHD6801 Installation and Operation Manual 35 Chapter 3 Configuration and Operation Entering License Keys 36 Optional license keys are available to add new capabilities to your existing module Contact your product sales representative for details Before you purchase a license key you must obtain your module s serial number Select Other gt Serial Number The module s current capabilities are shown when you select Other gt Options Table 3 2 lists the available XHD6801 upgrade license keys Table 3 2 Available Upgrade License Keys Module Type After Upgrade Module Type Before Upgrade XHD6801 UCT Up cross downconversion XHD6801 UCDT XHD68 UC UG UCD XHD6801 DT Up cross downconversion XHD6801 UCDT XHD68 D UG UCD License Key Upgrade You can use a CCS software application such as CCS Pilot Lite Pilot and Navigator as well as NUCLEUS control panels to enter license keys Additionally you can enter the license keys with a web browser if your module is in a frame with or connected to a frame with a 6800 ETH HTTP module License keys cannot be entered at the module s card edge but you can view the License Key parameter if the On Screen Display parameter is enabled Using CCS you can enter your license key by selectin
17. entry or something you type into a field Indicates the direction of navigation through a hierarchy of menus and windows hyperlink Indicates a jump to another location within the electronic document or elsewhere Internet address Indicates a jump to a website or URL FA Note Indicates important information that helps to avoid and troubleshoot problems Obtaining Documents Product support documents can be viewed or downloaded from our Web site Alternatively contact your Customer Service representative to request a document viii XHD6801 Installation and Operation Manual Preface Unpacking Shipping Information Unpacking 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 Confirm that you have received all items listed on the packing list Contact your dealer if any item on the packing list is missing Contact the carrier if any item is damaged hae An it 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 Servicing Except for firmware upgrades XHD6801 modules are not designed for field servicing All hardware upgrades modifications or repairs
18. features installation operation maintenance and specifications for the XHD6801 broadcast quality up cross down converter Audience This manual is written for engineers technicians and operators responsible for installation setup maintenance and or operation of the XHD6801 broadcast quality up cross downconverter Revision History Table P 1 Revision History of Manual Edition Date Comments A June 2008 Initial release B August 2009 Addition of propagation delay specs miscellaneous corrections C March 2010 Addition of ARC and GPI improvements September 2011 Addition of a third video processing mode E November 2012 Changes to product feature list XHD6801 Installation and Operation Manual vii Preface Writing Conventions To enhance your understanding the authors of this manual have adhered to the following text conventions 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
19. of life High voltage is present CAUTION Statements identifying conditions or practices that can result in damage to the equipment or other property XHD6801 Installation and Operation Manual Overview Chapter 1 Introduction XHD6801 modules offer broadcast quality HD SD SDI upconversion crossconversion and downconversion with aspect ratio conversion ARC and closed captioning support There are three basic varieties available e XHD6801 UCT up crossconverter e XHD6801 DT downconverter e XHD6801 UCDT up cross down converter XHD6801 UC and XHD6801 D and can be upgraded in the field to full up cross down converter functionality This chapter includes the following topics e Product Description on page 2 e Module Description on page 6 A Note XHD6801 modules must be installed in frames with fans FR6802 DM and 6800 7000 series frames also do not support these products XHD6801 Installation and Operation Manual 1 Chapter 1 Introduction Product Description Main Features XHD6801 modules provide conversion between SD SDI and HD SDI video They include aspect ratio conversion ARC capabilities and can accept both embedded audio and ANC data The SDI input has error monitoring capabilities in the SD mode EDH and in HD mode CRC and supports external or midplane genlock sources You can control XHD6801 modules using card edge controls and CCS enabled hardware and software control prod
20. parameters Remove No code is generated by the module The original input code is removed except for the following es WSS in line 23 e All codes in proc bypass mode Auto The module generates code automatically and inserts it The code can be generated in one of the following scenarios e A standard or custom aspect ratio is selected and the corresponding AFD VI or WSS code is inserted e The ARC Control parameter is set to AFD AFD ALTR VI VI ALTR WSS or WSS ALTR and the generated output code is based on input code according to the alternate implementations of the standard e The ARC Control parameter is set to AFD Custom Map VI Custom Map or WSS Custom Map and the output code is generated from the custom map settings e Custom AFD Map e Custom VI Map e Custom WSS Map The output code is generated according to the custom map table code list The actual code selected is inserted XHD6801 Installation and Operation Manual 43 Chapter 3 Configuration and Operation AFD VI WSS Based Aspect Ratio Control When you set the ARC Control parameter to follow the aspect ratio codes AFD AFD ALTR AFD Custom Map VI VI ALTR VI Custom Map WSS WSS ALTR and WSS Custom Map the aspect ratio control is based on input AFD VI or WSS code AFD Custom Map VI Custom Map and WSS Custom Map make it possible for you to perform automatic aspect ratio conversions based on the custom de
21. s New Transfer Tab 4 On the New Transfer tab click Add The Device Selection dialog box opens 5 Select one or more devices and then click OK to close the Add Device dialog box 4 Note You can only add one device from each IP address All items in a frame have the same IP address The selected devices appear in the table under Device Name These devices will receive the same upgrade package 6 Before proceeding with the firmware upgrade you can e Highlight the module s position in the Navigation window by clicking Find Device XHD6801 Installation and Operation Manual 19 Chapter 2 Installation e View the firmware version currently installed on the module by clicking Version Info 7 Press Browse to select the firmware upgrade package ZIP file A standard Windows File Selection dialog opens 8 Choose the upgrade ZIP file on a local or network drive The selected file s path name is displayed in the edit box to the left of the Browse button Note The extraction process of the ZIP file is handled as part of the upgrade process You do not need to extract the files yourself You can view the contents of the ZIP file by clicking Package Info 9 Press Submit Transfer A dialog box opens requesting confirmation that you want to proceed with the request If you have multiple devices selected multiple transfer tasks are submitted one per device The transfer now progresses You may minim
22. 00 4 3 Full 4 3 1010 16 9 L 4 3 1011 14 9 L 4 3 1101 4 3 A 14 9 4 3 1110 16 9 LA 14 9 4 3 1111 16 9 LA 4 3 4 3 to 16 9 conversion Illustration ina 4 3 coded frame Conversion Conversion Alternative see Figure 3 9 Available AFD Select VI Select and WSS Select Options When Converting from 4 3 to 16 9 48 XHD6801 Installation and Operation Manual Chapter 3 Configuration and Operation 4 3 to 4 3 conversion AFD and VI Select Illustration in a i Conversion eo nals parameter options 4 3 coded frame EES Alternative 100 4 3 0010 16 9 Top 16 9 Top 010 4 3 0011 14 9 Top 14 9 Top 4 3 0100 GT 16 9 4 3 1000 L E 4 3 Full 011 4 3 1010 16 9 CNTR 16 9L 14 9 CNTR 14 9L 001 4 3 1011 110 4 3 1101 4 3 A 14 9 4 3 A 14 9 Not 4 3 1110 applicable 16 9 LA 14 9 BE Not 4 3 1111 applicable 16 9 LA 4 3 S Figure 3 10 Available AFD Select VI Select and WSS Select Options When Converting from 4 3 to 4 3 XHD6801 Installation and Operation Manual 49 Chapter 3 Configuration and Operation 16 9 to 4 3 conversion AFD and VI Select Illustration in a Conversion WSSname parameter options 16 9 coded frame Conversion Alternative N
23. 3 1 1 or later N caution The File Transfer tab is not meant to be used for firmware upgrades Use the Software Upgrade tool to upgrade module firmware To upgrade your module s firmware follow these steps 1 Download the most recent appropriate upgrade package from our website or from your CD ROM 2 Ifthe affected module has not been discovered perform the Discovery operation CT Note You can find information about discovering modules in your CCS software application manual or online help If you cannot discover the device see Manually Adding a Device to the Discovery or Network Folder on page 22 18 XHD6801 Installation and Operation Manual Chapter 2 Installation 3 From the Tools menu select Software Upgrade The Software Upgrade window opens or is brought to the foreground Z Software Upgrade New Transfer Progress Log Select one or more devices of the same type to upgrade __ ___bevicetlame Location Add Slot 1 XHD6601 XHD6801 4 72 25 250 356 Remove Find Device 8 Version Info lists SR lt the firmware version Device Options cu E installed on the module Options Select upgrade package ZIP file XHD6801 firmware zip Browse Package Info Package Info includes a list of the DE components ubmit Transfer contained in the ZIP ile Transfer Submitted EP 172 25 98 103 1 5 9 7 136 XHD6801 zip Figure 2 5 Software Upgrade Tool
24. 3 audio is present video stream Audio4 Reports the presence of audio group 4 in the input Green Group 4 audio is present video stream CC Indicates the presence of closed captioning Green Closed captioning data is present Reference Indicates the presence of a valid reference signal Green Valid signal is present 60 XHD6801 Installation and Operation Manual Alarms Chapter 4 Parameters LEDs and Alarms The XHD6801 modules do not have any card edge alarms Instead the module Status LED on the corner of the module lights up red if an error is detected See Figure 1 1 on page 6 for the location of this LED Table 4 2 describes the specific alarms for XHD6801 modules You can only identify specific alarms using a software control application Table 4 2 XHD6801 Alarms Alarm Name Alarm Meaning cae SDI 1 Std Mismatch There is a mismatch between reference video and video standard Major SDI 1 Loss of Video The module detects a loss of video at the SDI 1 input Major Processing Bypass Active The Scalar Bypass switch Video gt Output gt Scalar Bypass is Minor turned on Reference Not Locked Loss of locked reference Major Teletext Parity Error The teletext input has a parity error Minor Teletext Frame Error The teletext input has a frame error Minor Master Mute On The master audio mute is enabled Minor PCM Vbit Mute On The PCM outputs are automatically muted when the V bit is set Minor
25. 801 modules can select up to eight channel pairs of embedded audio The Demux Group Present and Demux Channel Pairs Present parameters Audio gt Input gt Status gt Demux Group Present and Demux Channel Pairs Present indicate which groups and channel pairs have audio present in the video inputs See page 55 for more information about audio status parameters To manually configure the audio inputs you will need to select options in the Audio gt Input gt Routing section Set your options in the SRC1 to SRC8 Input Select parameters The default settings for the inputs follow this pattern e SRC1 Input Select SDI 1 Group 1 Channel 1 2 e SRC2 Input Select SDI 1 Group 1 Channel 3 4 e SRC3 Input Select SDI 1 Group 2 Channel 1 2 e SRC4 Input Select SDI Group 2 Channel 3 4 etc XHD6801 Installation and Operation Manual 53 Chapter 3 Configuration and Operation Output Audio Proc Amp 54 To manually configure the output of the audio select Enable in Mux Group 1 Enable to Mux Group 4 Enable This is found at Audio gt Output gt Embedder gt Mux Group 1 Enable to Mux Group 4 Enable Then set your options in the Routing section Audio gt Output gt Routing gt Mux Group x Channel x The default audio routing settings follow this pattern e Mux Group 1 Channel 1 SRC 1A e Mux Group 1 Channel 2 SRC 1B e Mux Group 2 Channel 1 SRC 2A e Mux Group 2 Channel 2 SRC 2B etc In addition to selecting a
26. 9 4 3 1111 16 9 LA 4 3 Illustration ina 4 3 coded frame Description Image with a 16 9 aspect ratio as letterbox at the top of a4 3 coded frame Image with a 14 9 aspect ratio as letterbox at the top of a 4 3 coded frame Image with aspect ratio greater than16 9 as a vertically centered letterbox in a 4 3 coded frame Image is full frame with an aspect ratio that is the same as the 4 3 coded frame Image with a 16 9 aspect ratio as a vertically centered letterbox in a 4 3 coded frame Image with 14 9 aspect ratio as a vertically centered letterbox in a 4 3 coded frame Image with a 4 3 aspect ratio and with an alternative 14 9 center in a 4 3 coded frame Image with a 16 9 aspect ratio and with an alternative 14 9 center as a vertically centered letterbox in a 4 3 coded frame Image with a 16 9 aspect ratio and with an alternative 4 3 center as a vertically centered letterbox in a 4 3 coded frame Figure 3 7 Available AFD Select Options when OutAspectRatio is Set to 4 3 46 XHD6801 Installation and Operation Manual WSS name Not applicable 111 Anamorphic Not applicable Not applicable Not applicable Not applicable Not applicable Not applicable Chapter 3 Configuration and Operation AFD 16 9 code and description AFD and VI Select parameter options 16 9 0100 GT 16 9 16 9 1000 16 9 Full 16 9 1001 4 3 P 16 9 1010 16 9 Prtctd
27. Configuration on page 53 GPT on page 56 Video Keying on page 56 XHD6801 Installation and Operation Manual 25 Chapter 3 Configuration and Operation Operating Notes When setting the control parameters on the XHD6801 observe the following e When you change a parameter the effect is immediate However the module requires up to 20 seconds to save the latest change After 20 seconds the new settings are saved and will be restored if the module loses power and must be restarted e For proper operation the output HD standard frame rate should match or double the reference standard frame rate e The manufacturer recommends that you terminate any unused coaxial output connectors with a 75Q connector 26 XHD6801 Installation and Operation Manual Chapter 3 Configuration and Operation Video Processing Modes The XHD6801 operates in three fundamental video processing modes These modes are available in all three XHD6801 versions XHD6801 UC XHD6801 D and XHD6801 UCD Note Some user controls such as input and output video standard phasing and LOV may operate differently between the processing modes Also there are some requirements on the video format on each of the outputs and these requirements vary between the processing modes Mode 1 Scaled Outputs with Re clocked Inputs Reclocked outputs Scalar and Se me audio ancillary Programi y processor and monitor outputs Figure 3 1 S
28. DI 4 3 SD SDI 4 3 E 16 9 sA Postage stam Fa J Down g P Full frame Pillarbox ZEN 7 S Full frame Using active format description the original image information is maintained HD 169 _ throughout the entire conversion creating the best Using active format possible viewing area description best result SD SDI 4 3 lt Full frame 16 9 Letterbox mN Without active format description undesirable result Postage stamp Figure 3 4 AFD Non AFD Comparisons XHD6801 Installation and Operation Manual 41 Chapter 3 Configuration and Operation Figure 3 5 shows different applications of AFD insertion and decoding Insertion of AFD SD HD SDI No aro e XHD6801 somosoi AFD in VANC gt Detection and signaling of ARC SDIHD SDI AFD in VANC XHD6801 SD HD SDI AFD in VANC gt SD SDI WSS VI XHD6801 HD SDI AFD in VANC gt HD SDI AFD in VANC XHD6801 SD SDI WSS V gt Figure 3 5 AFD Block Diagram The AFD feature of the XHD6801 includes nine possible SD SDI configurations and eight possible configurations in HD SDI Figure 3 9 on page 48 describes the SD SDI AFD configurations Figure 3 10 on page 49 describes the HD SDI AFD configurations AFD VI and WSS Detection AFD VI and WSS data that is embedded in the incoming video can be detected by the XHD6801 and read from the following input parameters that are found in
29. EE compliant thumbnails 30 R Recalling default parameter settings 35 Reference termination jumper 15 Refreshing a module with Pilot Lite 32 Removing and installing modules 17 Returning a product ix Revision history of the manual vii RoHS compliance x S Safety precautions xii Sample rate converter 53 54 Scaled outputs with re clocked inputs 27 28 SD HD SDI reclocked video output specifications 66 video input specifications 64 Setting jumpers 14 16 Shipping and unpacking a product ix Signal flow diagram 10 XHD6801 Installation and Operation Manual Software license keys 17 36 upgrading 18 23 version number 35 Specifications 63 67 SRC Input Select parameters 53 Standards RoHS compliance x SMPTE 52 WEEE compliance xi Streaming 30 Support documents viii T Teletext system 52 Thumbnails 30 Tone generators 54 Troubleshooting 69 73 XHD6801 Installation and Operation Manual Index U Unpacking and shipping a product ix Unpacking the module 13 Upgrading module software 18 23 V Video Index VI 40 51 Video keying 56 Video processing modes 27 29 Video streaming 30 W Warranty information ii WEEE compliance xi Wide Screen Signaling WSS 40 51 World System Teletext 52 Writing conventions viii 77 Index 78 XHD6801 Installation and Operation Manual Customer Service Support 1 888 534 8246 BCDService harris com Harris is a registered trademark of Harris Corporatio
30. Loss of AFD The incoming AFD signal is disrupted Major XHD6801 Installation and Operation Manual 61 Chapter 4 Parameters LEDs and Alarms 62 XHD6801 Installation and Operation Manual Overview Chapter 5 Specifications The following specification tables appear in this chapter SD HD SDI Video on page 64 Genlock on page 65 SDI Video Outputs on page 66 Audio Delay Data Out on page 67 Performance on page 67 Specifications and designs are subject to change without notice XHD6801 Installation and Operation Manual 63 Chapter 5 Specifications Inputs SD HD SDI Video Table 5 1 SD HD SDI Video Input Specifications Item HD SDI Specification SD SDI Specification Number of inputs 1 Standards SMPTE 292M 1 485 1 485 1 001 SMPTE 259M C 270 Mbps 525 625 Gbps component video e 1080i 50 59 94 Hz Se 486i 59 94 Hz e 720p 50 59 94 Hz e 576i 50 Hz e 1080p 23 98 29 97 25 Hz Connector BNC per IEC 169 8 BNC per IEC 169 8 Impedance 75Q 75Q Return loss gt 15 dB typical from 5 MHz to 1485 MHz gt 15 dB typical from 5 MHz to 270 MHz Equalization Adaptive cable equalization for up to Adaptive cable equalization for up to 700 ft 328 ft 100 m typical of Belden 230 m typical of Belden 8281 co axial 1694A coaxial cable at 1 485 Gbps cable 64 XHD6801 Installation and Operation Manual Genlock Chapter 5
31. Specifications Table 5 2 Genlock Input Specifications Item Specification Connector BNC per IEC 169 8 Impedance 75Q Return loss gt 40 dB 25 Hz to 30 MHz SMPTE 318M 1999 Common mode range e 5 5 V pk to pk Input level e NTSC PAL B 1 V pk to pk 4 5 dB to 6 0 dB e 300 mV 4 5 dB to 6 0 dB for Tri Level Sync 1080i 59 94 50 1080p 29 97 25 Locking range 6 ppm sync lock only no burst lock Signal type e NTSC PAL B analog composite e 300 mV Tri Level Sync Standard SMPTE 170M NTSC ITU R BT 470 6 PAL B SMPTE 274M 1080i 1080p XHD6801 Installation and Operation Manual 65 Chapter 5 Specifications Outputs SDI Video Outputs Table 5 3 SD HD SDI Reclocked Output Specifications Item HD SDI Specification SD SDI Specification Number of outputs 8 Standards SMPTE 292M 1 485 1 485 1 001 SMPTE 259M C 270 Mbps 525 625 Gbps component video Connector BNC per IEC 169 8 BNC per IEC 169 8 Impedance 75Q 75Q Return loss gt 15 dB typical from 5 MHz to 1485 gt 15 dB typical from 5 MHz to 270 MHz MHz DC offset 0 0 V0 5 V 0 0 V 0 5 V Signal level 800 mV 10 800 mV 10 Rise and fall time lt 270 ps 20 to 80 400 to 1500 ps 20 to 80 Overshoot lt 10 of amplitude all outputs lt 10 of amplitude all outputs terminated terminated Jitter e Timing lt 1 UI pk to pk lt 0 2 UI pk to
32. XFE 120 W 6 18 W Each front module requires three slots Although XHD6801 modules require more than 15 75 Watts over three slots the actual consumption is considered acceptable if no more than 5 modules are installed Ae ution Heat sinks on the XHD6801 require extra clearance To prevent damage to components ensure that you do not insert the front module in slots 6 14 19 or 20 12 XHD6801 Installation and Operation Manual Chapter 2 Installation Unpacking the Module Preparing the Product for Installation Before you install the XHD6801 perform the following e Check the equipment for any visible damage that may have occurred during transit e Confirm receipt of all items on the packing list See Checking the Packing List below for more information A Note Contact your Customer Service representative if parts are missing or damaged e Remove the anti static shipping pouch if present and all other packaging material e Retain the original packaging materials for possible re use See Unpacking Shipping Information on page ix for information about returning a product for servicing Checking the Packing List Table 2 2 Available Product Packages Ordered Product Content Description e XHD6801 UC und crossconverter e XHD6801 D downconverter e XHD6801 UCD up cross downconverter e One front module e One back module e One XHD6801 Broadcast Quality Und Cross Downconver
33. as of January 11 2007 you must ensure you have enabled the standard by following this path Video gt Output gt Embedder gt SD Out VI with AFD default setting is Yes At this time Bar Data and Pan Scan for VI and AFD are not supported XHD6801 Installation and Operation Manual Chapter 3 Configuration and Operation AFD Descriptions In the following pages Figures 3 7 to 3 12 show the different AFD code descriptions Comparable WSS and VI templates are included in the SD SDI descriptions Gray regions indicate areas of the picture Bounding box represents that may be cropped by the receiver the coded frame without significant loss to the viewer The smallest rectangle enclosing Black regions indicate areas the white regions indicates the area of the picture that do not of essential picture information contain useful information and should be cropped by the receiver where appropriate Figure 3 6 Explanation of AFD Diagrams XHD6801 Installation and Operation Manual 45 Chapter 3 Configuration and Operation WSS name 100 16 9 Top 000 4 3 Full 011 16 9 CNTR 001 14 9 CNTR Not applicable Not applicable AFD 4 3 code and description AFD and VI Select parameter options 4 3 0010 16 9 Top 4 3 0011 14 9 Top 4 3 0100 GT 16 9 4 3 1000 4 3 Full 4 3 1010 16 9 L 4 3 1011 14 9 L 4 3 1101 4 3 A14 9 4 3 1110 16 9 LA 14
34. ation Problems on page 73 XHD6801 Installation and Operation Manual 69 Appendix A Communication and Control Troubleshooting Tips Software Communication Problems The frame is powered up but the module does not communicate with Pilot Lite or CCS Pilot Navigator Solutions 70 Ensure you have specified the proper module slot See your Frame Installation and Operation Manual for more information about slot identification Verify whether you need an ICE6800 or 6800 ETH module installed in the frame not required for FR6822 e FR6802 frames only use ICE6800 modules to communicate with CCS software and hardware e FR6802 QXF frames use ICE6800 or 6800 ETH modules to communicate with CCS software and hardware Remove any legacy 6800 series product that is in the frame Pilot Lite and CCS software cannot communicate with legacy 6800 series products even though these modules may operate with card edge controls in an FR6802 frame Legacy 6800 products do 66 99 not have the symbol on their extractor handles Check for bent pins on the back module by following this procedure a Unplug the front module b Unscrew and remove the back module c Inspect the 20 or 30 pin spring connector at the bottom of the back module Figure A 1 on page 71 and verify that the connector does not have any slightly bent or pressed pins d Carefully reposition any bent pins if this is not possible contact Cus
35. avigation Properties n Alarm Filtering J Access Rights for Control Must be set to 1 Frame number 0 Slot number 17 Figure 2 8 Navigation Properties Box A caution Do not make changes in the last field located above and to the right of the Set Default button If you do you will need to begin the process of adding devices to the Discovery or Network folder again 22 XHD6801 Installation and Operation Manual Chapter 2 Installation 4 In the third field enter 1 0 slotnumber where for example 1 0 5 would refer to the module in slot 5 of the frame number 0 5 Close the window 6 You can now continue your firmware upgrade as described in Upgrading the Firmware begining with step 3 on page 18 XHD6801 Installation and Operation Manual 23 Chapter 2 Installation 24 XHD6801 Installation and Operation Manual Chapter 3 Configuration and Operation Overview This chapter describes how to operate the XHD6801 using card edge controls or CCS software and hardware controls The following topics are discussed in this chapter Operating Notes on page 26 Video Processing Modes on page 27 Q SEE Compliant Thumbnails on page 30 Changing Parameter Settings on page 32 Entering License Keys on page 36 Aspect Ratio Processing on page 37 Active Format Description on page 40 Closed Captioning and DVB Teletext Captioning on page 52 Audio
36. caled Outputs with Re clocked Inputs This mode is active when you select Reclock in Video gt Output gt DA Output Select Four re clocked outputs of the input video with four scaled outputs are available in this mode This makes it possible to configure the XHD6801 as a combined four output DA and a four output up cross downconverter The following special features and limitations apply to this video processing mode e The input video standard control Video gt Input gt SDI Input Standard Set applies to the video frame synchronizer only and has no effect on the re clocked outputs If the input video format does XHD6801 Installation and Operation Manual 27 Chapter 3 Configuration and Operation not match the input standard control setting or if the input video is lost both frame synchronizer and the scalar processor will operate in LOV mode e The output video standard of the scalar is selectable through the scalar output video standard control Video gt Output gt Output Video Standard Select However the video format of the re clocked outputs is not controllable and is always the same as the input video format e The horizontal and vertical phasing controls will apply to both video frame synchronizer and scalar processing as a single block The phasing controls Video gt Processing gt Synchronizer have no effect on the re clocked outputs e Ifthe input video format does not match the input standard control set
37. e and recall of ARC presets through SNMP and CCS enabled hardware and software controls Loss of video LOV modes including pass freeze and black Built in HD SD SDI test generator containing white black frequency sweep cross hatch pattern color bars signal and Safe Area Graticles SAG key Support for Q SEE compliant thumbnails when installed in a FR6802 QXF frame Soft edge rectangle key output of non picture area Software Key Options The following software option keys are available XHD68 D UG UCD software key converts a XHD6801 DT to a full XHD6801 UCDT up cross down converter XHD68 UC UG UCD software key converts a XHD6801 UCT to a full XHD6801 UCDT up cross down converter XHD6801 Installation and Operation Manual Applications Chapter 1 Introduction The XHD6801 modules are suitable for the following applications Final conversion to a high or standard definition output regardless of input format Bridging between high definition and standard definition installations in a mixed signal facility Bridging between 720p and 1080p high definition installations Transitioning small market broadcasters requiring high quality conversion Ingestion of high definition or standard definition signal into a facility running either video standard XHD6801 Installation and Operation Manual 5 Chapter 1 Introduction Module Description Front Module Figure 1 1 shows the position of the LEDs and module co
38. ectie companies Contact Information Imagine Communications has office locations aound the world For locations and contact information see http ww imaginecommunications om contact us Support Contact Information For support contact information see e Support Contacts http www imaginecommunications com services technical support eCustomer Portal http support imaginecommunications com 2014 Imagine Communications Corp Proprietary and Confidential XHD6801 Broadcast Quality Up Cross Downconverter Installation and Operation Manual Edition E November 2012 Contents Preface Manual Information cccccccssccesesceeessecessceceesececesaeceseeeeceseeeeseaeeeeneaees vii Unpacking Shipping Information ix Restriction on Hazardous Substances RoHS Compliance 0 x Waste from Electrical and Electronic Equipment WEEE Compliance xi Safety EE xii Chapter 1 Introduction OCVEEVIEW iniia e Eao Ee EREE EEE S EN Eo E EK E EE E EE 1 Product DESCriptioniss ceed siidoeds hese thts coewe eae sive REENEN 2 Maiti Features anen a EA E N A E R S 2 Software Key Opn msiri o E Adieren Ad 4 Applications Eed a ae ee ees a ea e a 5 Mod le Description sninn non neee e o EEEE EEEE e EEE EE 6 Front Module mssi a E A E E EE 6 Back Mod le narenn a E Son AE EAA AA AERE 8 KEREN 10 Chapter 2 Installation OVEIVIEW eet dee bied EEN en deed Eed dree 11 Maximum 6800 Frame Power Ratings 00 0 0 cece ee eeeeee
39. ed e Control Parameters on page 58 e LEDs and Alarms on page 59 XHD6801 Installation and Operation Manual 57 Chapter 4 Parameters LEDs and Alarms Control Parameters For a complete list of the XHD6801 parameters see the separate XHD6801 Parameter List and the XHD6801 On Screen parameter List that accompany this manual The parameters are listed in the order that they appear in CCS Pilot and Navigator If you are using Pilot Lite some parameters in the list may not appear in the order as they appear in the software Also because of space limitations some rarely used parameters will not appear in the OSD list On Screen Display Monitoring 58 If you are using card edge controls to configure your XHD6801 module you can use the OSD Monitoring feature to view the current parameter selections When the On Screen Display parameter is turned on the current parameter selections are displayed on module s monitoring outputs For information on enabling OSD Monitoring see Enabling On Screen Display on page 35 To view the list of card edge parameters see the XHD6801 On Screen Display Parameters document available on the 6800 CD ROM XHD6801 Installation and Operation Manual Chapter 4 Parameters LEDs and Alarms LEDs and Alarms LEDs The module LEDs are located on the card edge of the front module see Figure 4 1 Table 4 1 on page 60 describes the meanings of the LEDs and their colors
40. eeeeeeeeeneeeeeenees 12 Unpacking the Module aere AH 13 Preparing the Product for Installation eee ee ee cee eeeeeeeeeeene 13 Checking the Packing List wo eee ceeeseeeeceeeeseeeneeseecaeceenseees 13 Setting Jumpers ssop re eiior areir sheesesteg ckpecesbes EE EE E E 14 Installing XHD6801 Modules AAA 17 XADOSO lf License E 17 XHD6801 Installation and Operation Manual iii Contents Upgrading Module Firmware 2 0 0 0 cscesscescecsecesseceseeceeeeeeeceeeeeaeeeneeeee 18 Upgrading the Firmware cescesseceeecseceeseceeeeceaeceaeceeeeesaeceeeeee 18 Correcting a Failed Upgrading Procedure 0 0 ceeeeeeeeeereeeee 21 Chapter 3 Configuration and Operation OVERVIEW E EEN 25 Operating Notes iensen no E E EEEE teeters 26 Video Processing Modes AA 27 Mode 1 Scaled Outputs with Re clocked Tuuten 27 Mode 2 Frame Sync and Scalar Outputs eee eee eeeeeeeee 28 Mode 3 Discrete Frame Sync and Scalar Outputs 0 30 Q SEE Compliant Thumbnails AAA 30 Changing Parameter Settings 0 eee csesecsecseeseeeeceseeeeeeeeeeeseneenees 32 Changing Parameters Using CCS Software 0 ec eeeeeeeeeeeeee 32 Changing Parameter Settings Using Card Edge Controls 33 Enabling On Screen Display 0 0 0 ec eeeseseceeceseeseeeeeeeeeeeseneeaee 35 Recalling Default Parameter Settings 000 0 eee ee eeeeeeeeeeeeeeee 35 Reading Software and Hardware Versions csseseeseeseeeeeees 35 Entering License Keys etl deen teat A anette 36
41. elections some options are not available depending upon the selected conversion mode s AFD e AFD ALTR e AFD Custom Map e VI e VI ALTR e VI Custom Map e WSS e WSS ALTR e WSS Custom Map The AFD WSS and VI selections follow standard ARC recommendations For instance selecting AFD causes the module to set the ARC setting according to the incoming AFD code ALTR selections use the alternate ARC method and Custom Map follows the user defined ARC settings for each individual code See Active Format Description on page 40 for more details about custom mapping XHD6801 Installation and Operation Manual 39 Chapter 3 Configuration and Operation Setting a Custom Aspect Ratio You can scale and pan the output image to any size and location by using the various parameters of the custom aspect ratio settings These parameters include Horizontal Offset Vertical Offset Horizontal Scale Vertical Scale Crop Left Crop Right Crop Top and Crop Bottom These parameters can be individually modified or batch modified by recalling a standard aspect ratio or a pre defined custom aspect ratio Setting Live Edit View to On will actually make the custom aspect ratio settings take effect immediately on the output This is useful when trying to visually align the various parameters Custom aspect ratios are configured by choosing a custom aspect ratio name from Save ARCs selections All of the related controls can be f
42. fined mapping table The other options set the ARC to an existing standard When the input code is missing the ARC behavior is defined by Loss of AFD ARC Loss of VI ARC or Loss of WSS ARC Only one of these options can be enabled at any one time Though they are not widely used some AFD VI or WSS codes recommend cropping part of the image When this type of cropping is enabled the module will take longer to change ARC modes To create faster ARC transitions you can disable the cropping using the AFD Crop Enable parameter Video gt Processing gt ARC gt ARC Control When the ARC is based on AFD VI or WSS and the output standard is SD SDI you must set the output aspect ratio either 4 3 or 16 9 to ensure that the correct mapping table is used Follow Video gt Processing gt ARC gt ARC Control gt SD Out Aspect Ratio AFD VI WSS Custom Mapping Configuration Using the controls in Video gt Processing gt ARC gt AFD VI WSS Custom Map you can define a special mapping table other than the one specified by a standard Given any input AFD VI or WSS code you can define the aspect ratio behavior and output AFD VI and WSS code independently Advanced Controls 44 The de embedding line controls for VI and WSS are at Video gt Input gt De embedder The embedding line number controls for AFD VI and WSS are at Video gt Output gt Embedder If you are using VI according to the SMPTE Proposed RP 186 standard
43. g Other gt License Key To confirm that your license key has been accepted and activated select Other gt Options Note Before you can enter and activate your upgrade license key you must either Refresh or Discover your XHD6801 module as described in Refreshing Your Module Using Pilot Lite on page 32 and Discovering an XHD6801 Module on page 33 XHD6801 Installation and Operation Manual Chapter 3 Configuration and Operation Aspect Ratio Processing The XHD6801 offers a highly configurable and comprehensive feature set for processing aspect ratio codes and determining ARC settings ARC control and AFD WSS VI code insertion control can track but can also operate independently from each other In addition user defined mapping makes it possible to have complete control over what ARC and code is inserted for any given input of AFD WSS or VI code The aspect ratio features described here require a 6800 ETH resource module firmware of at least version 4 2 Enhanced Aspect Ratio Conversion Control GPI triggers can modify the aspect ratio conversion control for each mode of operation separately In other words you can change the ARC for upconversion without affecting the ARC for down or crossconversion For example if the XHD6801 is in upconversion mode the GPI can only change the upconversion ARC setting This capability makes it possible to control the ARC control for any mode regardless of which mode is
44. gs Using Card Edge Controls Using the module s rotary and navigation switches you can change XHD6801 parameter settings at the card edge You can view and confirm your changes using the On screen display feature see Enabling On Screen Display on page 35 Follow these steps to change the parameter settings at the card edge 1 Rotate the mode select rotary switch hex switch to 0 XHD6801 Installation and Operation Manual 33 Chapter 3 Configuration and Operation 34 2 Once the hex switch is set to 0 toggle the navigation switch up or down to select a bank View the control LEDs next to the navigation toggle switch A lit LED indicates which bank is currently selected Table 3 1 Bank Select LEDs Bank Bank 0 LED Bank 1 LED Bank 2 LED Bank 3 LED Number ffp Ps fopLeD LED LED 0 Off Off Off Off 1 On Off Off Off 2 Off On Off Off 3 On On Off Off 4 Off Off On Off 5 On Off On Off 6 Off On On Off 7 On On On Off 8 Off Off Off On 9 On Off Off On 10 Off On Off On 11 On On Off On 12 Off Off On On 13 On Off On On 14 Off On On On 15 On On On On 3 Rotate the hex switch to the parameter number 1 to 9 or letter A to F of the option you want to set 4 Toggle the navigation switch to select and set the value of the chosen parameter XHD6801 Installation and Operation Manual Chapter 3 Configuration and Operatio
45. ize the Software Upgrade window continue with other tasks or switch to the Progress tab to view the status of the transfers Z Note Closing the Software Upgrade window does not effect any of the transfer processes that may be running in the background If you try to log off or exit the CCS software while a transfer is underway a notification window will alert you that processes are still active and will ask if you want to terminate these processes 10 To monitor the progress of the firmware upgrade procedure click the Progress tab When the firmware upgrade is complete Completed is displayed in the Transfer Status column New Transfer Progress Log resno Deviename Device package Progress Transter Status Jh Stott xrDeeo Mem 21712 Loge zip Figure 2 6 Firmware Upgrade Complete 20 XHD6801 Installation and Operation Manual Chapter 2 Installation Correcting a Failed Upgrading Procedure Firmware upgrades may fail in the event of network interruptions power failures or if the wrong upgrade package was transferred to the module These problems can be corrected by upgrading the firmware while the module is in Boot Loader mode The upgrade won t work unless you put the module in Boot Loader mode If you have not already downloaded the most recent appropriate upgrade package from our website or from your CD ROM do so now Putting the Module in Boot Loader Mode Follow these steps to put your
46. n 5 Rotate the hex switch to another parameter number letter in the current bank and then repeat step 4 or Rotate the hex switch to 0 again to select a different bank and then repeat steps 3 and 4 Note Harris recommends that you use the software controls to aid in viewing setting and confirming parameter values Enabling On Screen Display You can use the On screen Display OSD monitoring feature to view the current parameter selections on your output display When the On Screen Display parameter is turned on the current parameter selections are displayed on the module s SDI Program Monitor Out 1 and SDI Program Monitor Out 2 outputs This features makes configuring the XHD6801 using the card edge controls much easier To enable OSD monitoring select Video gt Output gt Config gt On Screen Display To change the transparency of the OSD select Video gt Output gt Config gt OSD Transparency OSD can be turned On Off at the card edge using Bank 0 Switch 2 0 2 Recalling Default Parameter Settings You can use the module s Factory Recall parameter to return all of the module s parameters to factory default settings To return this module to its default settings select Other gt Factory Default gt Yes Reading Software and Hardware Versions You can see the current software and hardware versions of the XHD6801 by checking the Hardware Version and Firmware Version read only parameters near the
47. n Trademarks and tradenames are the property of their respective companies IS Broadcast Communications Division 4393 Digital Way Mason OH USA 45040 Tel 1 513 459 3400 www broadcast harris com assuredcommunications 2012 Harris Corporation
48. n Manual Chapter 3 Configuration and Operation Audio Status Parameters The read only Demux Group Present parameter in the Audio gt Input gt Status path indicates which groups are present in the video input see Figure 3 13 The indicates no audio is detected for a particular group while the letter P indicates the presence of audio For example P means the XHD6801 detects audio in Group 2 but no audio is detected in the other three groups Group 1 o Group 2 Group 3 Group 4 Figure 3 13 Demux Group Present and Demux Group Error The Demux Group Error parameter also in the Audio gt Input gt Status path displays errors in the same way In a string of signs the letter E indicates an error for that audio group Demux Channel Pair Present displays the eight channel pairs with the letter P indicating audio presence see Figure 3 14 o Channel Pair 2 Group 4 Channel Pair 1 Group 1 Channel Pair 2 Group 1 Channel Pair 1 Group 4 Channel Pair 1 Group 2 Channel Pair 2 Group 3 Channel Pair 2 Group 2 Channel Pair 1 Group 3 Figure 3 14 Demux Channel Pair Present Type Demux Channel Pair Type displays the eight channel pairs with the letter A indicating PCM audio and the letter D indicating non PCM data XHD6801 Installation and Operation Manual 55 Chapter 3 Configuration and Operation GPI GPI Input GPI Output Video Keying 56 The XHD6801 mod
49. nc and Scalar Outputs This mode is active when you select FS Mode 2 in Video gt Output gt DA Output Select In this mode there are four frame synchronized outputs of the input video and four scaled outputs available The scalar processor is not located after the video frame synchronizer on the same path Q SEE Compliant Thumbnails The OP TDMR 8 and OP TDMT 8 modules support Q SEE compliant thumbnails To use Q SEE compliant features you must install the modules in an FR6822 QXFE frame or an FR6802 QXF frame that also contains a 6800 ETH module When you open a Control window in CCS Pilot or Navigator for the 6800 ETH module all Q SEE compliant modules provide thumbnails on a Video Streaming tab In addition the OP TDMR 8 and OP TDMT 8 module Control windows have a Streaming tab where a thumbnail is displayed and updated at up to three frames per second Q SEE compliant thumbnails are available for all inputs but only one can be viewed at a time The following standards are supported 59 94 Hz Operation e 525 e 720p 59 e 1080i 59 30 XHD6801 Installation and Operation Manual Chapter 3 Configuration and Operation e 1080p 29 97 e 1080p 23 98 50 Hz Operation e 625 e 1080i 50 e 1080p 25 e 720p 50 For more information on Q SEE compliant thumbnails see your FR6802 OXF or FR6822 QXFE Frames Installation and Operation Manual XHD6801 Installation and Operation Manual 31 Chapter 3 Configuration a
50. nctionality External Reference Termination Jumper Follow this procedure to set the external Reference Input Termination jumper 1 Locate jumper J1 on the module Figure 2 1 on page 14 shows the location of the jumper 2 Place a jumper on pins 1 and 2 to set the module for 75Q Termination or pins 2 and 3 for No Termination see Figure 2 3 A A 75Q Termination No Termination Figure 2 3 Genlock Termination Settings XHD6801 Installation and Operation Manual 15 Chapter 2 Installation Input Output Audio Delay 6 Hz Jumper Follow this procedure to set the Input Output Audio Delay 6 Hz jumper 1 Locate jumper J3 on the module Figure 2 1 on page 14 shows the location of the jumper 2 Place a jumper on pins 1 and 2 to set the module for 6 Hz input or pins 2 and 3 to set input output audio delay output see Figure 2 3 A 6 Hz UO audio delay output Figure 2 4 Genlock Termination Settings 16 XHD6801 Installation and Operation Manual Chapter 2 Installation Installing XHD6801 Modules XHD6801 products have triple width back modules These products cannot be installed in frames without fans or in FR6802 DM and 6800 7000 series frames See the FR6802 Frames Installation and Operation Manual for information about installing and operating an FR6802 frame and its components XHD6801 License Keys Table 2 3 lists the available XHD6801 feature upgrade license keys Table 2
51. nd Operation Changing Parameter Settings There are two ways to change the parameters that control your module s operation CCS software applications and card edge controls Using CCS software applications such as Pilot Lite Pilot or Navigator you can view set and confirm your module s parameter settings from your computer s monitor Using the card edge controls you can set parameters using the module s rotary hex and navigation switches You can use the information in this chapter to configure and operate your XHD6801 using a CCS software application or the module s card edge controls For more information about setting parameters using CCS software application or by using the module s card edge control see Changing Parameters Using CCS Software on page 32 and Changing Parameter Settings Using Card Edge Controls on page 33 respectively A complete list of XHD6801 control parameters can be found in Chapter 4 Parameters LEDs and Alarms on page 57 Changing Parameters Using CCS Software Before using CCS software applications or hardware controls to change your module s parameter settings you must refresh Pilot Lite or discover Pilot and Navigator the module Refresh and Discovery are the processes by which your CCS software finds and then connects to your module Refreshing Your Module Using Pilot Lite When using Pilot Lite to change your XHD6801 control parameters you must
52. ning Although North America has dedicated standards for closed captioning of video EIA 608 and 708 many countries in Europe and elsewhere have not yet adopted formal standards For these countries closed captioning is part of the DVB Teletext System as described in ITU R BT 653 3 These specifications define all Teletext Systems Systems A B C D used in the world and are also known as the World System Teletext WST A Teletext system is made of several pages of various data information and CC data is described in one these pages System B is used in Australia the UK and Germany among other countries Australian closed captions are inserted on line 21 334 in analog PAL broadcast signals as per the ITU R BT 653 3 When analog PAL is produced or converted to SDTV 625 digital a digitized version of the closed captioning appears on line 21 334 in the same way line 21 on NTSC signals is digitized and appears on the line 21 of SD SDI signals The ITU R BT 653 3 document proposed by Free TV Australia indicates how to carry this CC data into the VANC area of SD and HD SDI signals by use of the SMPTE 334M VANC embedding protocol For digital broadcasting Australia intends to use the ETSI EN 300 472 standard that specifies the conveyance of ITU R System B Teletext in DVB bit streams Setting Closed Captioning and Teletext 52 To make changes to the default CC and Teletext settings use the Closed Captioning Teletext Embed and Closed Ca
53. ntrols on the front of the XHD6801 modules Status LED Mode select rotary a fe switch Navigation Ge j Ser age pg E switch Control LEDs Monitoring LEDs Remote local control jumper Extractor Pa handle Figure 1 1 XHD6801 Module Table 1 1 on page 7 briefly describes generic 6800 LEDs switches and jumpers 6 XHD6801 Installation and Operation Manual Chapter 1 Introduction Table 1 1 Generic 6800 Module Features Feature Description Status LED Various color and lighting combinations of these LEDs indicate the module s state and activities See LEDs and Alarms on page 59 for more information Mode select rotary switch This switch selects between various control and feedback parameters Navigation toggle switch This switch navigates up and down through the available control parameters e Down Moves down through the parameters e Up Moves up through the parameters Control LEDs Various lighting combinations of these Control LEDs sometimes referred to as Bank Select LEDs indicate the currently selected bank See Bank Select LEDs on page 34 for more information Monitoring Each 6800 module uses LEDs to indicate varying LEDs states and functions See page 59 for details Local remote e Local Locks out external control panels and allows control jumper card edge control only limits the functionality of remote software
54. ot 16 9 0100 applicable GT 16 9 111 16 9 1000 Anamorphic 16 9 Full Not 16 9 1001 applicable 4 3 P Not 16 9 1010 applicable 16 9 Prtctd Not 16 9 1011 applicable 14 9 P Not 16 9 1101 applicable 4 3 P A 14 9 Not 16 9 1110 applicable 16 9 A 14 9 Not 16 9 1111 applicable 16 9A 4 3 Figure 3 11 Available AFD Select VI Select and WSS Select Options When Converting from 16 9 to 4 3 50 XHD6801 Installation and Operation Manual Chapter 3 Configuration and Operation 16 9 to 16 9 conversion AFD and VI Select Illustration in a f Conversion 16 9 coded frame Conversion Alternative WSSname parameter options Not 16 9 0100 applicable GT 16 9 111 16 9 1000 Anamorphic 16 9 Full Not 16 9 1001 applicable 4 3 P Not 16 9 1010 applicable 16 9 Prtctd Not 16 9 1011 applicable 14 9 P Not 16 9 1101 applicable 4 3 P A 14 9 Not 16 9 1110 applicable 16 9 A 14 9 Not 16 9 1111 applicable 16 9 A 4 3 Figure 3 12 Available AFD Select VI Select and WSS Select Options from 16 9 to 16 9 XHD6801 Installation and Operation Manual 51 Chapter 3 Configuration and Operation Closed Captioning and DVB Teletext Captio
55. ound at Video gt Processing gt ARC gt Custom ARC Active Format Description Active Format Description AFD transmits data in the VANC portion of the SDI signal enabling both 4 3 and 16 9 television monitors to optimally present video with preset ARC and safe area information Without AFD converted video may appear distorted or cut off when it appears on different monitors The XHD6801 can encode or decode AFD it can also encode or decode earlier Video Index VI and Wide Screen Signaling WSS formats The AFD feature of the XHD6801 complies with SMPTE 2016 and includes nine possible 4 3 configurations and eight possible configurations in 16 9 Figure 3 7 on page 46 describes the 4 3 AFD configurations Figure 3 8 on page 47 describes the 16 9 AFD configurations Figure 3 4 shows two comparisons of a signal that is encoded with AFD and without AFD AFD ARC Alignment 40 When you use AFD to select which aspect ratio to apply the XHD6801 ensures that the AFD codes and associated image will remain in sync For example during a hotswitch the new ARC will only be applied to the new image There are a few cases which could cause AFD ARC misalignment XHD6801 Installation and Operation Manual Chapter 3 Configuration and Operation e The ARC applied is reducing the image vertically such that the new image is less than 60 of the original image e The output standard is set to either 1080p 23 98 or 1080p 29 97 SD S
56. pk e Alignment lt 0 2 UI pk to pk 66 XHD6801 Installation and Operation Manual Miscellaneous Audio Delay Data Out Chapter 5 Specifications Table 5 4 Audio Delay Specifications Item Specification Number of outputs 1 Connector BNC per IEC 169 8 Impedance 759 Return loss gt 20 dB typical to 6 MHz Performance Table 5 5 Performance Specifications Item Specification Power consumption 17 5 W Operating temperature 41 to 113 F 5 to 45 C Propagation Delays Table 5 6 Minimum Propagation Delays 59Hz Input Output ms 525 720p59 1080159 1080p29 1080p23 525 33 4 33 4 33 4 50 1 33 4 720p59 16 7 16 7 16 7 16 7 16 7 1080159 33 4 33 4 33 4 33 4 33 4 1080p29 33 4 33 4 33 4 33 4 33 4 1080p23 41 7 41 7 41 7 41 7 41 7 XHD6801 Installation and Operation Manual 67 Chapter 5 Specifications Table 5 7 Minimum Propagation Delays 50Hz Input Output ms 625 720p50 1080i50 1080p25 625 40 40 40 60 720p50 20 20 20 20 1080i50 40 40 40 40 1080p25 40 40 40 40 68 XHD6801 Installation and Operation Manual Appendix A Communication and Control Troubleshooting Tips Overview Find the following troubleshooting information in this appendix e Software Communication Problems on page 70 e Hardware Communic
57. ptioning Teletext Embed Line parameters from the path Video gt Output gt Embedder path To verify the presence of the embedded CC use the Input Closed Captioning Teletext Present parameter Video gt Input gt De embedder path If you have purchased and enabled the XHD6801 closed captioning feature you can use the closed captioning parameters to enable and select the video line in which you want to embed closed captioning data Contact your product sales representative for information about obtaining a closed captioning license key If you have already purchased a license key but have not yet enabled the feature see Entering License Keys on page 36 XHD6801 Installation and Operation Manual Chapter 3 Configuration and Operation Audio Configuration Audio Controls Audio Routing Input XHD6801 modules process embedded audio The input embedded audio from SDI 1 is demultiplexed de embedded and synchronized to the video delayed to match the video processing delay processed and then remultiplexed re embedded into HD and SD SDI video output Up to four groups of audio can be embedded into the video stream XHD6801 modules can route audio from one of several sources to the outgoing SDI signal up to 8 channel pairs can be embedded The modules are capable of demultiplexing up to four groups of embedded audio from the primary video SDI stream and embedding up to four groups into the output SDI stream XHD6
58. r see page 65 for the video standards supported GPI In Out Provides four GPI inputs and two GPI outputs for automation these are open collector style inputs with approximately 10 KQ pull ups to 5V that can use contact closure to ground switches XHD6801 Installation and Operation Manual Chapter 1 Introduction Signal Flow HD SD SDI reclocked out 1 HD SD SDI reclocked out2 HD SD SDI teclocked out3 HD SD SDI reclocked out4 Thumbnail Thumbnails streaming HD SD SDI prog out1 AFD WSS VI EEE EEEE EEEE detection Closed captioning demux HD SD SDI prog out2 WE Audio AFD VI w audio in WSS CC Motion adapt See P de interlacer program oun On screen HD SD SDI display monitor Horizontal program out2 amp vertical resizer Video test generator Audio Audio Audio Reference de mux proc sync delay in CPU vi Monitoring and CES Frame reference Figure 1 4 XHD6801 Signal Flow Diagram 10 XHD6801 Installation and Operation Manual Overview Chapter 2 Installation This chapter describes the XHD6801 installation process including the following topics Maximum 6800 Frame Power Ratings on page 12 Unpacking the Module on page 13 Setting Jumpers on page 14 Installing XHD6801 Modules on page 17 XHD6801 License Keys on page 17 Upgrading Module Firmware on page 18 pee Before installing this product
59. require you to return the modules to the Customer Service center Returning a Product In the unlikely event that your product fails to operate properly please contact Customer Service to obtain a Return Authorization RA number then send the unit back for servicing Keep at least one set of original packaging in the event that a product needs to be returned for service If the original package is not available you can supply your own packaging as long as it meets the following criteria e The packaging must be able to withstand the product s weight e The product must be held rigid within the packaging e There must be at least 2 in 5 cm of space between the product and the container e 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 XHD6801 Installation and Operation Manual ix Preface Restriction on Hazardous Substances RoHS Compliance Directive 2002 95 EC commonly known as the European Union EU Restriction on Hazardous Substances ROHS sets limits on the use of certain substances found in electrical and electronic equipment The intent of this legislation is to reduce the amount of hazardous chemicals that may leach out of landfill sites or otherwise contaminate the environment during end of life recycling
60. s lost both the frame synchronizer and the scalar processor will operate in the LOV mode The output format of the scalar is selectable through the scalar output video standard control Video gt Output gt Output Video Standard Select However the output video format of the frame synchronized outputs is controlled by the input video standard control The horizontal and vertical phasing will apply to both video frame synchronizer and scalar processing as a single block Video gt Processing gt Synchronizer In other words you cannot adjust the phase relationship between the frame synchronizer outputs and the scalar outputs The scalar outputs will always lag the frame synchronizer outputs by a fixed number of video frames the amount of propagation delay through the scalar processor If the input video format does not match the input standard control setting or if the input video is lost the program and monitor outputs will either be frozen undetermined pass mode black or test pattern according to the LOV mode setting Video gt Output gt Primary LOV Mode The frame synchronizer outputs will also either be frozen undetermined pass mode or black XHD6801 Installation and Operation Manual 29 Chapter 3 Configuration and Operation Mode 3 Discrete Frame Sync and Scalar Outputs Sync sync outputs SDI input Scalar and audio ancillary Program and processor monitor outputs Figure 3 3 Discrete Frame Sy
61. ssescasessseantnseesgeescd eksisteeri 54 Audio Status Parameters sseseeseesesseseseeeeseesestsrsreereresrrrrssesresesreees 55 GPT eian e ara A R EA Re EM Re He E sate E saps 56 GPL Input m i tei eal GE ee a 56 EIB EE 56 Video Keying ics ssctacseescsvag cape ari SEENEN ee Dee 56 Chapter 4 Parameters LEDs and Alarms OVEIVIEW EE Rn tt eee 57 Control PaA E T e e O a E EE ES 58 On Screen Display Monitoring sseeesseeessereersrerrsrrerrrrerrersseeresreresre 58 LEDsa d Alarms nrn e ERE EE E e raa 59 WEDS EEEE te EEEE eege ee E 59 rane EEEE E EE E S 61 Chapter 5 Specifications OVERVIEW A E E deg ed Me cia 63 nt e Ee ease Ee ees ies E Adie ein E 64 SD HD SDIP Video veces ads ahs hl is ee i es ne 64 Genlock ode bale MER Aa Aa RA as 65 Ett egene Eeer EAR ere 66 SDI Video Outputs ienasi reee ena es 66 MUA Eo E E E E ete 67 Audio Delay Data Out ee eeeeescecereeeseceneeceneecseceneeceseecseeeeneceneees 67 Performance ee EAE E SA E 67 Propagation Delays ricine a a n diane 67 Appendix A Communication and Control Troubleshooting Tips L VEER 69 Software Communication Problems ccccceeeesesesescseceseseceeeeeceseseeees 70 Hardware Communication Problems cccccececeseesesesesesssceeeesecevees 73 Index Keywords a r dE 75 XHD6801 Installation and Operation Manual v Contents vi XHD6801 Installation and Operation Manual Preface Manual Information Purpose This manual details the
62. t parameter settings 35 Demux error parameters 55 Demux parameters 53 55 Detection of AFD VI and WWS 42 Discovering a module 33 DVB Teletext captioning 52 E Errors in demux 55 External reference termination jumper 15 F Firmware upgrading 18 23 Frame power ratings 12 Frame sync and scaled outputs 28 29 Free TV Australia closed captioning 52 Front module 6 G Gain bypass and delay for audio 54 Genlock specifications 65 GPI inputs and outputs 56 pinouts 8 H HD SDI video input and output specifications 66 75 Index Input output audio delay jumper 16 Installing and removing modules 17 J Jumper settings 14 16 K Keying feature 56 L LEDs 6 7 59 60 License keys 17 36 Local Remote jumper 14 15 Loss of video LOV mode 27 29 Main features 2 Manual information vii vili Module back 8 9 front 6 installation and removal 17 status LEDs 60 Mux group parameters 54 N Navigating the parameter list 58 Navigation Properties box 22 O On Screen display OSD 35 58 Operating notes 26 P Packing list 13 76 Parameter changes at card edge 33 58 settings 32 35 Parameters CC Embed 52 demux error 55 Demux Group and Channel Pairs 53 Mux Group 54 On Screen Display 35 SRC Input Select 53 Pilot Lite troubleshooting 70 73 Pinouts GPI 8 Power ratings frames 12 Precautions safety xii Proc amp audio 54 Processing modes 27 29 Product servicing ix Q Q S
63. ter Installation and Operation Manual XHD6801 Installation and Operation Manual 13 Chapter 2 Installation Setting Jumpers The XHD6801 module has the following jumper settings e Local Remote Jumper on page 14 e External Reference Termination Jumper on page 15 e Input Output Audio Delay 6 Hz Jumper on page 16 Figure 2 1 shows the location of the jumpers Jumper J1 External reference termination Local Remote Jumper J3 jumper Input Output Audio Delay 6 Hz Figure 2 1 XHD6800 Jumpers Local Remote Jumper Follow this procedure to set the LOC REM jumper for either local or remote control 1 Locate the LOC REM control jumper on the module beside the mode select rotary switch Figure 2 1 on page 14 shows the standard location of the LOC REM jumper Mo XHD6801 Installation and Operation Manual Chapter 2 Installation 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 A Remote control Local control Figure 2 2 Remote Local Control Settings P Note You must 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 See Table 1 1 on page 7 for more information on local remote control jumper fu
64. the Processing gt ARC gt Status path es AFD Present s VI Scan Present Use the VI Detect Line Field 1 and VI Detect Line Field 2 parameters to determine where in the video signal to look for VI information es VI AFD Present e WSS Present Use the WSS Detect Line parameter to determine where in the video signal to look for WSS information 42 XHD6801 Installation and Operation Manual Chapter 3 Configuration and Operation AFD VI and WSS Code Insertion AFD VI and WSS data can be passed from input to output or it can be generated manually or automatically by the XHD6801 module This function is controlled by the AFD Insert VI Insert and WSS Insert parameters located in the Video gt Processing gt ARC gt AFD VI WSS Insertion path Table 3 3 lists the function of each of the available options some options are not available in all conversion modes You can also remove WSS from the input video stream To do this follow Video gt Input gt De embedder gt Input WSS Remove Table 3 3 AFD VI and WSS Code Insertion Option Details Pass The incoming AFD VI or WSS code is inserted unmodified This option is only supported in SD ARC and crossconversion modes In up or downconversion modes the Pass option is equivalent to a loss of code even when an input code is present When a loss of code occurs the module will insert your selection from the AFD Pass on Loss VI Pass on Loss or WSS Pass on Loss
65. the module in Boot Loader mode 1 Remove the affected module from the 6800 frame Hex switch mode seh Hen toggle select rotary switch switc Figure 2 7 Buttons on a Typical Card Edge 2 Set the hex switch to F 3 While pressing the Navigation toggle switch down reinsert the module into the frame If your device is listed in the Discovery or Network folder you can continue the firmware upgrade as described in Upgrading the Firmware begining with step 3 page 18 If not you must manually add the device to the Discovery or Network folder To do this see the next section XHD6801 Installation and Operation Manual 21 Chapter 2 Installation Manually Adding a Device to the Discovery or Network Folder If your device is not listed in the Discovery or Network folder you must manually add it to these folders After you add the device you can use the Software Upgrade dialog box to continue with the module firmware upgrade To manually add a device to the Discovery or Network folder follow these steps 1 Enter Build mode and then drag or copy and paste the module s device icon from the Catalog folder into the Network or Discovery folder Right click the device icon and then select Properties On the Device tab of the Navigation Properties box enter the IP address of the frame that holds the module See Figure 2 8 Enter frame IP address here Do not make changes in this field N
66. ting or if the input video is lost the program and monitor outputs will either be frozen undetermined pass mode or black according to the LOV mode setting Video gt Output gt Primary LOV Mode However the LOV mode does not apply to re clocked outputs The re clocked outputs will be undetermined if the input video format is not supported or if the input video is lost Mode 2 Frame Sync and Scalar Outputs Frame sync outputs Scalar and audio ancillary Program and processor monitor outputs Figure 3 2 Frame Sync and Scalar Outputs This mode is active when you select FS Mode 1 in Video gt Output gt DA Output Select 28 XHD6801 Installation and Operation Manual Chapter 3 Configuration and Operation In this mode there are four frame synchronized outputs of the input video and four scaled outputs available The scalar processor is located after the video frame synchronizer on the same path However putting both the frame synchronizer and the scalar on the same path prevents you from changing the phase relationship between the frame synchronized outputs and the scalar outputs The following special features and limitations apply to this video processing mode The input video standard control applies to both the video frame synchronizer and the scalar processor Video gt Input gt SDI Input Standard Set If the input video format does not match the input standard control setting or if the input video i
67. tomer Support XHD6801 Installation and Operation Manual Appendix A Communication and Control Troubleshooting Tips Figure A 1 Typical Back Module Spring Connector The frame is powered up but Pilot Lite does not communicate with the module Solutions e Ensure you have installed the correct cables between the PC and the frame e A null modem serial cable must be used between a PC and an FR6802 frame not a straight through cable At minimum this requires that pins 2 and 3 are crossed but pin 5 ground is straight through to pin 5 e A USB cable must be used between a PC and an FR6802 QXF frame e Verify whether you need an ICE6800 or 6800 ETH module installed in the frame e Pilot Lite control is disabled if an ICE6800 or 6800 ETH control module is installed in the frame e Set the Frame ID DIP switch settings correctly the Frame ID DIP switch is located at the rear of the frame e If only one frame is connected set the DIP switch to 00 e If multiple frames are used in a daisy chain set the DIP switch numbers consecutively to the following XHD6801 Installation and Operation Manual 71 Appendix A Communication and Control Troubleshooting Tips 72 e 00 frame 1 e 01 frame 2 e 10 frame 3 es 11 frame 4 See your FR6802 Frame Installation and Operation Manual for more information about frame ID switch settings e Check that the correct COM port is configured in Pilot Lite and that
68. ucts Additionally you can use SNMP control systems and HTTP Internet browsers if you purchase the required licenses Contact your Customer Service representative for more details XHD6801 features include the following e Upconversion of SD SDI video to broadcast quality HD SDI video XHD6801 UCT and XHD6801 UCDT e Crossconversion of HD SDI video XKHD6801 UCT and XHD6801 UCDT e Downconversion of HD SDI video to SD SDI video XHD6801 DT and XHD6801 UCDT s Inputs e Auto sensing HD SD SDI input with embedded audio data error monitoring VANC data such as WSS VI AFD and optional closed captioning and teletext e Analog composite genlock input with support for tri and bi level sync XHD6801 Installation and Operation Manual Chapter 1 Introduction e Outputs e Four equalized and reclocked HD SD SDI outputs of the SDI input that can be configured to be frame synchronized e Two HD SD SDI outputs carrying the converted program signal with e Embedded audio e Video Ancillary Data Space VANC data including Wide Screen Signalling WSS Video Index VI and Active Format Description AFD e ETJA608 EIA708 closed captioning transfer and transcoding between formats e Teletext capabilities e Two configurable HD SD SDI outputs carrying either the converted program signal or the key or monitor signal with OSD for displaying control parameter settings e User selectable input output standards and formats e
69. udio sources from the video groups four custom tone generators are available as well as Mute and SMPTE RP155 and EBU R68 tones To set the four custom tones follow the path to Audio gt Other gt Tones gt Tone Generators 1 to 4 Level Gain bypass and delay controls are available for the left and right side of each of the processed audio channels You can individually adjust the gain and delay of the left and right sides of each channel using the control parameters in the Gain and Delay sections Audio gt Processing gt Gain or Delay The audio can contain non PCM audio data In this case the sample rate converter must be bypassed to ensure audio integrity You must individually indicate which sample rate converter or gain to bypass using the SRCx Gain Bypass parameters Audio gt Input gt Bypass gt SRCx Gain Bypass Select Manual in the SRC Gain Bypass Mode to enable these individual controls If you set SRC Gain Bypass Mode to Auto the audio will be monitored and if non PCM audio data is detected the sample rate converter for that side of the channel will be bypassed In addition to the mute controls that control audio pairs individually a Master Mute control mutes all of the audio channel pairs Audio gt Processing gt Gain gt Master Mute Also if the audio source for either side of a given audio channel does not have any incoming audio the signal will be automatically muted XHD6801 Installation and Operatio
70. ule provides four GPI inputs and two GPI outputs for automation These are open collector style inputs with approximately 10 KQ pull ups to 5V This means that you can use contact closure to ground switches to control these GPI inputs The GPI input actions are controlled by parameters in Video gt Other gt GPI Input GPI inputs make it possible to control the ARC being used for a particular conversion mode as well as the AFD WSS or VI code to be inserted The read only GPI Input Status parameter provides current information All GPI events occur in the order they are triggered and will override older events The GPI output actions are controlled in the Video gt Other gt GPI Output path GPI outputs can reflect the state of the current ARC being used or can be triggered on a specific input AFD WSS or VI code The current GPI output active status can be read from the GPO Output Status parameter The video keying feature is activated by following the Video gt Output gt Config gt Video Keying path When enabled the key image appears on the SDI Program Monitor Out feed The On Screen Display feature Video gt Output gt Config gt On Screen Display also appears on the SDI Program Monitor Out feed when it is enabled XHD6801 Installation and Operation Manual Chapter 4 Parameters LEDs and Alarms Overview This chapter describes the parameters LEDs and alarms used on the XHD6801 The following topics are cover
Download Pdf Manuals
Related Search
Related Contents
SYBA SD-PEX15011 peripheral controller CD-S500CMD100 Emerson CS800 Drawings & Schematics U1083A Product Security Features & Certificate of Volatility Medidor de Potencia Agilent E4419B Westcott Halo & Apollo 1055 User's Manual Samsung GT-C3560 Керівництво користувача SMtools User Manual Table of Contents Data sheet FP-X Series - Panasonic Electric Works Copyright © All rights reserved.