Ethan Frome
Contents
1. 23 2 5 RS422 CONNECTOR OF THE REMOTE CONTROL PANEL i riti mt 24 Issue XTnano Version 10 05 Hardware Technical Reference 10 05 C EVS Broadcast Equipment SA J uly 2011 2 6 AUDIO CONFIGURATIONS 25 Dal MOOD ACEO Pee lO S t ERU A 25 2 6 2 PIN ASSIGNMENT ON DB 15 CONNECTORS 25055 t hi po babct 25 21 ASIGABIT NETWORK ucaciteazetdhtas dedisti ta ast tre tni dc quito dat eo oe uota phil 21 2I Functional O VelVIBWC cte caede erit sc 21 2 7 2 Important Rules About Gigabit NGDWOTKS ss br da eee tia 28 2 153 S WICE S nubes root o a cte cu ne 0 28 3 HARDWARE DESCRIPTION rrr 30 3 1 BOARDS AND SLOT CONFIGURATIONS ltr tede a 30 3 1 1 Slot Configuration with COHXnano Boards tardus Gerente catena ve dove 30 3 1 2 Slot Configuration with V3Xnano e 31 3 2 VIDEO AND REFERENCE BOARDS mu asc Fes ats Gad 31 221 COMANG NO Secession teat ke Pod 31 222 V3Xnano Boards Dual PDWOFP 5 36 3 2 32. 44 33 SAU DIO CODEC BOARD 45 3 4 RAID CONTROLLER BOARDS 2 46 46 3 4 2 RTCL Board on SCSI Disk Array with HCTX sta cata arian anal 49 343 Board on SAS Disk Array with HO TX ue rete p oc Hb oid rrt tached 51 3 9 MJERE BOARD pte auo oO tatio nen 53 35532 des sata ar dri dot 53 3 527 PZ IAA BOGATU d V RF a age 54 3 5 3 Memory Hole exits ate tet tunc e is o Luo tt a aie 56 XTnano Version 10 05 Hardware Technical Reference Manual Issue EVS Broadcast Equipment SA J uly 2011 10 05 C What s New The changes linked to new features in version 10 05 are listed in the table below Click the section number in the table to jump directly to the corresponding section In the user manual the icon has been added on left margin to highlight information on new and updated features 1 7 4 SAS Disk support on XTnano e Update of recording capacities 1 7 4 New 900 GB HDD available on internal or external storage 3 4 3 SAS Disk support on XTnano e New section on RTCL board on SAS Disk Arrays The content of the sectio
3. Aa a 11 1 7 3 Video Codecs amp Bitrates 12 1 7 4 Recording Capacity for XTnano Ser Velo uo box inita Los exer em 13 1 7 5 Supported SMPTE S TANGO 13 17565 Maximum Bitrate ead 14 1 51 A 14 1 7 8 14 2 GABLING a direc CREER ERE d De D ER n Fo 17 2 1 XTNANO REAR HEN MUR QUSS 17 2 1 1 XTnano with COHXnano BoardS IN REN CE ari 17 2 1 22__ with V3Xnano BoardS tic veces ceras dtd tr ids ace prid roa dts 18 2 2 SG PIMINECON NE CTION S neos dan 20 2 21 Relay gt Opto Inputs on the XTnano Server Inputs 1 2 3 4 20 2 2 2 Relay gt TTL Inputs on the XTnano Server Inputs 5 6 7 8 20 2 23 TTL TTL Inputs on the XTnano Server Inputs 5 6 7 8 21 DS GPLOUT CONNECTIONS atentado e hada en ect ear e ntes 21 244 GPO CONNEC POR a foi Ue 22 2 4 1 GPIO Connector SUB D 25 pin Male s tots 22 2452 GPIO HardWare 5 seda ed
4. the MULTIVIEWER SD SDI connector on the rear panel of the server DB15 The DB15 connector of the multiviewer board is connected to the MULTI DB15 connector on the rear panel of the server LED INFORMATION Internal EVS information BOARD CONFIGURATION HPOL VPOL and ENVS are used to configure the composite sync generator used in LSM TV mode no effect if LSM is only used with a VGA monitor The HPOL jumper inverts or not the VGA HS signal Horizontal Sync to generate the composite output signal TV mode The VPOL jumper inverts or not the VGA VS signal Vertical Sync to generate the composite output signal TV mode The ENVS jumper enables or not the presence of the VGA VS signal Vertical Sync in the composite output signal TV mode If the LSM TV mode is used these jumpers must be set up according to EVS recommendations which depend on LSM software version and CPU board model revision With MPTC board A2 A3 or A2 A4 set up the jumpers as follows e HPOL Off ENVS REMOTE RESET jumpers are available to designate the remote s REsET from which the RESET command can be sent ERE 1 2 This command resets the whole system PC and video hardware In standard configuration only remote one on RS 422 port 1 is allowed to reset the system 7 Important This jumper should be removed if the device connected to
5. SDI program output HD SDI program output OUT SD identical to J 6 HD identical to 6 J8 SDI input HD SDI input IN SD HD J9 Alternate SDI input Used for loop in SD for hardware loop Alternate HD SDI input HD for hardware loop The switch between SDI and CVBS J1 is done by a software Configuration menu Setting in the EVS Note The loops of the input signal are not genlocked XTnano Version 10 05 Hardware Technical Reference Manual EVS Broadcast Equipment SA J uly 2011 Layout of Connector Positions and Assignments SD Mode SD SDI Loop of Input 3 SD SDI SD SDI Input 2 Clean Output PGM 2 2 REC 2 PLAY SD SDI Input 1 ODEC o pcm TEM SD SDI Clean outputecms AE m CHAR SD 1 CHAR OUT OUT UT 1802 CHAR OUT QUT UT 2809 IN 3B CHAR OUT CHAR OUT SD SDI uc Character Out NA CVBS SD SDI N A 50 501 Loop of Input 3 Loop of Input 2 SD SDI Character OUT Character OUT Loop of Input 3 3 REC 1 PLAY Character OUT 3 REC 1 PLAY SD SDI Monitoring Output PGM 2 Character Out 2 REC 2 PLAY HD Mode HOSDI Loop of Input 3 3REC 1PLAY HD SDI Input 3 HD SDI HD SDI Input 2 Clean Output PGM 2 2 REC 2 PLAY HD SDI Input 1 CODES OUT 1 IN2 IN 1B 5 HD SDI Clean Output MI CHAR SD J1 CHAR OUT OUT
6. 2 12 XTNANO WITH V3XNANO BOARDS The following drawing represents a rear panel of an XTnano fitted with V3Xnano boards The digital audio inputs are multi pin connectors but can also be BNC connectors as represented on the drawing of the XTnano rear panel with COHXnano boards FULL VIEW 152082 CUGE DIGITAL AUDIO INPUTS 1 CETT CHAR our gu m CHAR OUT our n LE E CHAR QUT GIGABIT ETHERNET DIGITAL AUDIO OUTPUTS AN A y Y J D gt 6 NOS WS 18 XTnano Version 10 05 Hardware Technical Reference Manual EVS Broadcast Equipment SA J uly 2011 CONNECTORS UTI 1 0000000 CHAR OUT QUT 1B us SD HD CHAR SD J1 2 J8 CHAR OUT our 2803 IN3B IN 2BUS CHAR OUT DHD CHAR SD J1 CHAR SD J1 SD HD GIGABIT ETHERNET ANALOG VIDEO 12 34 ANALOG AUDIO OUTPUTS CODEC 3 IN 1B 5 CHAR OUT SD HD Issue 10 05 C DIGITAL AUDIO INPUTS 12 34 56 78 CHAR SD J1 9 10 1142 1344 15 6 DIGITAL AUDIO OUTPUTS 12 34 S6 7 8 9 10 1142 13 44 15 6 1 5 6 7 8 KEYBOARD 19 Issue 10 05 C 2 2 2 2 1 2 2 2 XTnano Version 10 05 Hardware Technical Reference EVS Broadcast Equipment SA J uly 2011 GPI IN CONNECTIONS Refer to the Multicam user manuals for the alloc
7. 1 7 8 14 XTnano Version 10 05 Hardware Technical Reference EVS Broadcast Equipment SA J uly 2011 Vertical Ancillary Data SMPTE 334M Mapping of Audio Metadata SMPTE 2020 into Vertical Ancillary data MAXIMUM BITRATE VALUES Those maximum values are valid for servers running Multicam version 10 03 or higher They guarantee a smooth play and a browse at 100 speed on all channels simultaneously 2ch 4ch PAL 50 50 DVCPro 50 NTSC 50 50 PAL 100 100 DVCPro HD NTSC 100 100 RAID LEVEL 3 The Video Raid uses striping process across 5 disk drives The video and audio data is striped over the first 4 drives while the parity information is saved on the fifth drive If one drive is damaged the Video Raid can use the parity information to recover the missing information so that operation can continue seamlessly without bandwidth loss For more information on online rebuild refer to the section dedicated to this Subject in the XTnano Technical Reference manual INTERPOLATION The playing back of smooth slow motion pictures carries specific issues since some fields must be repeated at regular interval to provide the video at the playback speed required by the operator parity violation appears regularly on the output video signal This issue is specific to interlaced formats 525i 625i and 1080i and does not concern progressive formats 720p If o and E represent respectiv
8. Conducted and radiated emission limits for a Class A digital device pursuant to the Code of Federal Regulations CFR Title 47 Telecommunications Part 15 Radio Freguency devices subpart B Unintentional Radiators Issue 10 05 1 5 3 1 5 4 XTnano Version 10 05 Hardware Technical Reference EVS Broadcast Equipment SA J uly 2011 EMC WARNING Changes or modifications not expressly approved by the manufacturer for compliance could void the user s authority to operate the equipment This equipment has been tested and found to comply with the limits for a Class B digital device pursuant to Part 15 of the FCC Rules These limits are designed to provide reasonable protection against harmful interference in a residential installation This equipment generates uses and can radiate radio frequency energy and if not installed and used in accordance with the instructions may cause harmful interference to radio communications However there is no guarantee that interference will not occur in a particular installation If this equipment does cause harmful interference to radio or television reception which can be determined by turning the equipment off and on the user is encouraged to try to correct the interference by one or more of the following measures e Reorient or relocate the receiving antenna e Increase the separation between the equipment and receiver e Connect the equipment into an outlet on a circuit different fro
9. It should be connected to 1 if SD monitoring CVBS or SDI is required in SD or HD mode Apply caution if you need to move the corresponding cable between 1 and 5 connectors on the V3Xnano module do not apply excessive traction or pressure and make sure pressure or traction is applied in the correct alignment of the connectors never sideways e The 3 connector which was previously either a loop through of the SD input or a SD down converted version of an HD input is the output for the left eye when working in 3D Dual Link formats from Multicam 10 04 39 Issue 10 05 C 40 XTnano Version 10 05 Hardware Technical Reference Connector Assignments in SD and HD Modes EVS Broadcast Equipment SA J uly 2011 Connector SD mode HD mode Connector label J1 5 are factory wired to the backplane instead CHAR SD of J1 You can connect 1 instead of J 3 5 if monitoring CVBS or SDI is required in SD or HD mode SDI CVBS SDI CVBS monitoring monitoring output output SD down SD converted J2 SDI monitoring output SDI monitoring output Not wired to the SD SD down converted backplane Used for onboard multiviewer input 13 Loop through for the Loop through for the SDI OUT B SDI input signal input signal SD SD down converted 14 SDI monitoring output 501 monitoring output CHAR OUT SD HD SD SD HD J5 N A N A IN B J6 SDI program output HD SDI program output OUT SD HD
10. 1 only when the HCTX board is used with previous video codec boards SD CODEC6 COHD COHU This jumper is automatically detected by the software application and an error message is generated if it is not properly set ST1 2 ST1 3 and 5 1 4 on controller module are not used No jumper must be installed on these ST1 on CPU module rear corner left for EVS internal tests only used to reset the board Never install that jumper or the board will be in a permanent reset state LEDs LEDs on the CTL controller module centre from left to right LED 1 Lights red when an error occurs while booting the HCTX board LEDs 2 to 8 Display the boot sequence of the HCTX board cfr note below DSP led Blinks green to show DSP activity LEDs on the GBE Gigabit module left from left to right LEDs Indicate that the processor is running The LEDs blink 1 2 alternately every 250 milliseconds Other LEDs The six other LEDs are for EVS internal use 41 Issue XTnano Version 10 05 Hardware Technical Reference 10 05 C EVS Broadcast Equipment SA J uly 2011 When booting the HCTX board LEDs 1 to 8 will light according to the following sequence Hardware reset gt All LEDs on 1 red 2 to 7 green Setup of CPU basic EZ LED 2 on green registers Check of CPU PC gt If error LED 1 on red DPRAM LED 8 on green gt if check is successful LED 3 on green Polling for PC gt LED 4
11. 1Bux CHAR OUT QUT2Bu IN3B N2BUS CHAR OUT CHAR OUT HD SDI CHAR SD J1 DHO CHAR SD J1 CHAR SD J1 SOHO 0 6 Character Out u SD SDI Clean Output PGM1 SD SDI HD SDI Loop of Input 3 Loop of Input 2 Loop of Input 3 REC 1 PLAY Character OUT Character OUT 3 REC 1 PLAY 50 50 Clean Output PGM 2 HD SDI 2 REC 2 PLAY Monitoring Output PGM 2 Character Out 2 REC 2 PLAY Issue 10 05 C N A SD SDI Loop of Input 1 Character OUT N A HD SDI Loop of Input 1 Character OUT 41 Issue 10 05 42 Version 10 05 Hardware Technical Reference EVS Broadcast Equipment SA J uly 2011 CONNECTIVITY ON THE V3XNANO COD A AND COD B MODULES FOR 3D DUAL LINK Connector Assignments Connector 3D mode Connector label 11 CHAR SD J2 SDI monitoring output Not wired to the SD down converted backplane Used for onboard multiviewer input 13 HD SDI program output for right eye 3D OUT B HD 14 SDI monitoring output for left eye 3D CHAR OUT SD HD HD SD J5 HD SDI input for right eye 3D IN B HD J6 HD SDI program output for left eye 3D OUT HD HD SDI program output for left eye 3D OUT HD identical to 6 18 HD SDI input for left eye 3D IN HD 19 Alternate HD SDI input Not wired to the HD for hardware loop backplane Used for loop in a Note The loops of the input signal are not genlo
12. TTL compatible level 012 74HCT245 23 Issue 10 05 C 2 5 24 XTnano Version 10 05 Hardware Technical Reference EVS Broadcast Equipment SA J uly 2011 RS422 CONNECTOR OF THE REMOTE CONTROL PANEL Controller DB9PM DB9PM 3 Twisted pair 8 3 8 5 5 RESET 2 7 Tx B Tx A Twisted pair 7 1 4 6 9 1 4 6 9 Shell _ Shell The RS 422 cable of the Remote control panel must be wired PIN TO PIN following the above diagram Use shielded cable to avoid electromagnetic interference on long distances Important The Reset command from the Remote is sent through the Pin n 5 of RS 422 connector This function should be disabled when the controller on RS 422 1 is not an EVS controller refer to the section MTPC Board on page 53 of this manual The technical specifications for the RS 422 connector are the following e 19200 bauds e No parity e 8 data bits e 1 stop bit XTnano Version 10 05 Hardware Technical Reference Manual Issue EVS Broadcast Equipment SA J uly 2011 10 05 C 2 6 AUDIO CONFIGURATIONS 2 6 1 CODA FOR XTNANO Internal Audio Module Embedded AES EBU Analogue Balanced e Embedded Audio 24 stereo channels input or output e AES EBU Audio 8 stereo inputs 8 stereo outputs 110 Ohm balanced on SUB DB15 breakout cable with 4 XLR IN OUT available optionally OR 75 Ohm unbalanced on BNC e Analogue Balanced audio 4 ster
13. XT Access is used as a gateway between the XTnano and the IT world Moreover the XTnano is not able to directly send commands to the XTAccess Consequently a backup tool called Xtract is used as the interface to send commands to the XTAccess for file transfer operations and wrapping Archive XTnano gt E XT gt Video Feeds Apple Final Cut Pro Xtract XTAccess Gigabit Ethernet XT Access is directly connected to the XTnano servers through the Gigabit network It runs on an XP workstation and is controlled in this context by Xtract via XML files 21 Issue 10 05 C 2 7 2 2 7 3 28 XTnano Version 10 05 Hardware Technical Reference EVS Broadcast Equipment SA J uly 2011 The Gigabit connection fulfills the following functions in relation with the XTnano Servers e Backup of clips from an XTnano Server e Restore of clips to an XTnano server Please refer to the Xtract user manual for more information on the backup from and restore of clips to the XTnano using the Gigabit network in combination with Xtract and XTAccess IMPORTANT RULES ABOUT GIGABIT NETWORKS Gigabit networks including EVS servers need to abide by the following rules e The hardware used on GigE networks with EVS servers need to support jumbo frames Both GigE ports of an EVS server need to be defined on different sub networks e Teaming between the GigE1 and GigE2 ports is not possible e This
14. on green commands Switching to enhanced gt LED 5 on green mode Executing PC gt LED 6 on green commands until execution requests end Jump to SDRAM and execute microcode GIGABIT CONNECTORS The two Gigabit connectors of the card are connected to the two Gigabit ports of the backplane The Gigabit connectors must be on a network that supports Jumbo Frames of at least 9014 bytes Ethernet frames One of the tested switches belongs to the Cisco 3750 G family for example the WS C3750G 24T S For more information refer to the Software Technical Reference manual for setting up the IP addresses 48 XTnano Version 10 05 Hardware Technical Reference Manual Issue EVS Broadcast Equipment SA J uly 2011 10 05 C 3 42 BOARD ON SCSI DISK ARRAY WITH Disk arrays on systems with HCTX boards have a controller on the disk array board D A 3 0 9599 VB 2 4 48 8 LEDs 0 A 1 B 2 C 3 D 4 E between the 2nd and 3rd disk from left in front These LEDs match the position of the disks on the board i e 0 RTCL 3 D 2 A E 49 Issue 10 05 50 Disk LEDs Off XTnano Version 10 05 Hardware Technical Reference EVS Broadcast Equipment SA J uly 2011 The corresponding disk is not star
15. the RS 422 port is NOT an EVS controller Maximum voltage on pin 5 of an RS 422 port of the XTnano server should not exceed 5 Volt when the corresponding jumper is engaged Applying a higher voltage on pin 5 when the corresponding jumper is engaged will result in permanent electronic damage to the board 55 Issue XTnano Version 10 05 Hardware Technical Reference 10 05 C EVS Broadcast Equipment SA J uly 2011 3 5 3 MEMORY HOLE ACTIVATION The memory hole is disabled and the BIOS parameters are automatically adapted to the hardware 56 XTnano Version 10 05 Hardware Technical Reference Manual Issue EVS Broadcast Equipment SA J uly 2011 10 05 C Notes 57 SU Instant Tapeless Technology HW EVS Broadcast Equipment Li ge Science Park 16 rue Bois St Jean B 4102 Ougr e Belgium Corporate North amp Latin America Headquarters Headquarters 32 4 361 7000 1 973 575 7811 Asia amp Pacific Other regional offices Headquarters available on 852 2914 2501 www evs tv contact ys To learn more about EVS go to www evs tv
16. 5 C EVS Broadcast Equipment SA J uly 2011 XTnano Version 10 05 Hardware Technical Reference Manual Issue EVS Broadcast Equipment 5 J uly 2011 10 05 C Table of Contents TABLE OF CONTENTS lll WHATES NEW Ci RB QU n 1 OVERVIEWL oculi Orc inh ci D a cna Va rur c c a ecl ar ccc 1 ld XTNANO HIGH RESOLUTION SERVER ert eerta An tetti pet oh 1 LS UNPACKING sistit drca 2 L3 DIMENSION S cocos dle taa oa at a 2 13 1 Video disk recorder Main frame 19 inches 2 13 2 Remote koi Bate Dane tete ute daba e Raetia 5 E33 m een aca 5 1 4 INSTALLATION EE 6 1 5 SAFETY COMPLIANCE AND OPERATING CONDITIONS 6 NET AE A EA A 6 1 52 EME Standard AA 7 fen ac a 8 15 4 CE Marking A tua cl 8 15 5 9 1 6 VENTILATION amp RACK MO UNTING enti ete REDI end e t ur re cim 10 1 7 XTNANO SERVER MAIN SPECIFICATIONS aat ade eia e Hr tet 11 Is Video S pecimCalOrS2 dG pa hea eee Pao deae nd 11 17 2 5 deva
17. CODEC board is the audio interface between the COHXnano boards and the HCTX board VIDEO CODEC and AUDIO CODEC boards are tied to the HCTX board with one bus connector on the front side Different audio configurations are available with the AUDIO CODEC board For more information see the section2 6 Audio configurations on page 25 ANALOG AES EBU 1 LD1 LD2 LD3 LED INFORMATION AND CONNECTOR LD1 3 Internal EVS information only LD 4 transfer activity to from the HCTX board 45 Issue 10 05 C XTnano Version 10 05 Hardware Technical Reference EVS Broadcast Equipment SA J uly 2011 3 4 RAID CONTROLLER BOARDS 3 4 1 HCTX BOARD The HCTX board is actually divided in 4 parts 3 in front 1 in the back Front left GBE module Front centre CTL controller module Front right not installed Back CPU module LLL CPU 46 XTnano Version 10 05 Hardware Technical Reference Manual Issue EVS Broadcast Equipment SA J uly 2011 10 05 C J UMPERS ST1 1 on controller module front centre jumper must be installed on ST1
18. EDS ON THE V3XNANO COD A AND COD B MODULES FROM LEFT TO RIGHT CPU Blinks green To indicate CPU activity On steady When there is a problem with the processor of the COD module green PLAY On green When the COD module is set by the software in play mode Off When the COD module is set in record mode XTnano Version 10 05 Hardware Technical Reference Manual Issue EVS Broadcast Equipment SA J uly 2011 10 05 C PVID on green When a valid video signal has been detected on the J 8 connector SD HD SDI input whether the COD module is in play or record mode TF transfer Blinks green While data transfers occur between the COD module and the HCTX board 1 M2 M3 Not currently used GENERAL CONNECTIVITY ON THE V3XNANO COD A AND COD B MODULES This section describes the connector assignments and layout for the video Standards SD 525i SD 625i HD 1080i and HD 720p The specific connectivity for HD 3D Dual Link is described in a dedicated section Changes in Connector Assignments from Multicam 10 04 On XTnano servers equipped with DualPower V3Xnano video codec boards the assignment of video connectors on the rear panel has been modified to reflect the new configurations available from Multicam 10 04 Consequently the following changes are applied to the connectors e The IN 1B IN 2B IN 3B connectors on the rear panel can be connected to either the J 1 or 3 5 connector on the V3Xnano module
19. HXnano or V3Xnano video boards The board configuration will Slightly vary depending on the type of video board used Important It is not allowed to mix COHXnano and V3Xnano boards on the same EVS server SLOT CONFIGURATION WITH COHXNANO BOARDS Slot SD HD Ready HD SD 6 MT5D board 5 HCTX 4 CODA Audio Codec 3 COHXnano 2 2 COHXnano 1 Genlock 1 MTPC XTnano Version 10 05 Hardware Technical Reference Manual Issue EVS Broadcast Equipment 5 J uly 2011 10 05 C 3 1 2 3 2 3 2 1 SLOT CONFIGURATION WITH V3XNANO BOARDS Slot XTnano SD HD Ready HD SD 6 MT5D board or RSAS 5 HCTX 4 CODA Audio Codec 3 V3Xnano SD HD 2 2 V3Xnano SD HD 1 Genlock 1 MTPC VIDEO AND REFERENCE BOARDS COHXNANO BOARDS DESCRIPTION The COHXnano board is divided in 3 parts COHXnano base centre front and back COD A module front left and COD B module front right COD A and COD B modules are the actual CODEC modules each of them being able to be configured by software either as an encoder for a record channel or as a decoder for a play channel There are 3 hardware versions of COD modules SD only HD only or HD SD They are clearly identified by the sticker at the front of the board There are 2 versions of the COHXnano base one with genlock one without genlock The genlock model can easily be identified by the presence of 3 quartz synthesizer at the back of the
20. Level Sync Graphics board n a n a AUDIO SPECIFICATIONS AuDIO ANALOG AND DIGITAL CONFIGURATIONS ON XTNANO You can reguest one of the following configurations with XTnano servers Configuration 1 e 16 input and 16 output 8 pairs 8 pairs AES EBU or Dolby E on 16 BNC connectors AND e 8 input and 8 output analogue balanced channels on 4 DB15 connectors 11 Issue 10 05 C 1 7 3 12 XTnano Version 10 05 Hardware Technical Reference EVS Broadcast Equipment SA J uly 2011 Configuration 2 e 16 input and 16 output 8 pairs 8 pairs AES EBU or Dolby E on 4 DB15 connectors AND e 8 input and 8 output analogue balanced channels on 4 DB15 connectors OTHER AUDIO SPECIFICATIONS e Up to 64 channels embedded audio 16 audio per video e 4 additional analogue balanced output channels for monitoring e All audio connectors on mainframe AUDIO PROCESSING e Uncompressed audio e 24 bit processing and storage e Sample rate converter from 25 55 kHz to 48 kHz e Audio scrub e Audio mix VIDEO CODECS amp BITRATES The EVS XTnano server uses an intra frame video encoding technique The XTnano server supports natively the following video codecs Codec SD HD Code Protection DVCPro HD Y Code 8 DVCPro 50 Code 9 The target bitrate of the encoded video stream can be set by the user within the accepted range 8 to 100 Mbps for standard definition and DVCPro code
21. PLAY HD Mode HD SDI Loop of Input 3 3 REC 1 PLAY HD SDI Input 3 HD SDI Clean Output PGM 2 HDSDINput2 Cie rer HD SDI Input 1 HD SDI Clean Output PGM1 CVBS SD SDI HD SDI Monitoring Output PGM1 Loop of Input 1 Character Out Character OUT HD SDI Monitoring Output PGM1 HD SDI Character Out Loop of Input 3 Character OUT CVBS SD SDI Character OUT HD SDI Loop of Input 3 3 REC 1 PLAY Loop of Input 2 Character OUT Character OUT 3 REC 1 PLAY HD SDI Monitoring Output T CVBS SD SDI CVBS SD SDI Poe Loop of Input 2 Monitoring Output PGM 2 Character OUT Character OUT Character OUT 2 REC 2 PLAY 2 REC 2 PLAY 35 Issue 10 05 C 3 2 2 36 XTnano Version 10 05 Hardware Technical Reference EVS Broadcast Equipment SA J uly 2011 J Note Only front backplanes labelled BKP7 are compatible with COHXnano boards 4 slots for 4U frames and 7 slots for 6U frames The BKP7 backplanes compatible with COHXnano boards have 3 rows of soldering per slot while the backplanes compatible with 10 COHD or COHU boards have 2 rows of soldering per slot Note that the top slot of BKP7 backplanes must always be connected to the HCTX board V3XNANO BOARDS DUAL POWER Important It highly advised not to remove a V3Xnano board from the EVS server Should you have to do so manipulate the board very carefully making sure it is not exposed to mechanical or electric shocks DESC
22. RIPTION The V3Xnano board is divided in 3 parts a base board identified as COHXnano base rear section and center extension and two modules identified as COD A V3Xnano front left and COD B V3Xnano front right The COHXnano base is the Same as the COHXnano board whereas the COD A and COD B modules are specific to the new V3Xnano board The COD A V3Xnano and COD B V3Xnano modules are the actual CODEC modules each of them being able to be configured by software either as an encoder for a record channel or as a decoder for a play channel The COD V3Xnano modules are SD and HD capable From Multicam 10 04 they support the following new feature e Full resolution 3D HD on a single V3Xnano module Dual Link HD 501 There are 2 versions of the V3Xnano board one with genlock one without genlock The genlock model can easily be identified by the presence of 3 quartz synthesizer at the back of the COHXnano base board on the right hand side and by the presence of the GLK and PSU OK LEDs on either side of the DIN connector at the centre front of the board Note that a V3Xnano board with genlock must be installed as V3Xnano 1 in first position slot 2 in an XTnano server A V3Xnano board with genlock can never be installed in any other slot and thus cannot be used instead of V3Xnano 2 Doing so will result in conflicting electrical signals inside the system XTnano Version 10 05 Hardware Technical Reference Manual Issue EVS Bro
23. Technical Reference Hardware Version 10 05 July 2011 Production amp Playout Server XTnano Version 10 05 Hardware Technical Reference Manual Issue EVS Broadcast Equipment SA J uly 2011 10 05 C COPYRIGHT EVS Broadcast Equipment Copyright 2010 2011 All rights reserved DISCLAIMER The information in this manual is furnished for informational use only and subject to change without notice While every effort has been made to ensure that the information contained in this user manual is accurate up to date and reliable EVS Broadcast Equipment cannot be held responsible for inaccuracies or errors that may appear in this publication IMPROVEMENT REQUESTS Your comments will help us improve the quality of the user documentation Do not hesitate to send improvement requests or report any error or inaccuracy on this user manual by e mail to doc evs tv REGIONAL CONTACTS The address and phone number of the EVS headquarters are usually mentioned in the Help gt About menu in the user interface You will find the full list of addresses and phone numbers of local offices at the following page on the EVS website http www evs tv contacts USER MANUALS ON EVS WEBSITE The latest version of the user manual if any and other user manuals on EVS products can be found on the EVS download center on the following webpage http www evs tv downloadcenter Issue XTnano Version 10 05 Hardware Technical Reference 10 0
24. adcast Equipment SA J uly 2011 10 05 BLOCK DIAGRAM COHX base J UMPERS ON THE COHXNANO BASE OF A V3XNANO BOARD ST1 ST2 These 2 jumpers must be installed on the last V3Xnano board of the server i e on V3Xnano 1 or 2 if there are respectively 1 or 2 V3Xnano boards installed in the server 513 SPARE parking for jumpers for STI and ST2 when these are not used ST4 only on V3Xnano with genlock It must be set to HiZ or not installed Note that the Genlock Loop connector on the back panel of the XTnano server must always be terminated with a 75 Ohm load if itis not used 37 Issue 10 05 38 XTnano Version 10 05 Hardware Technical Reference EVS Broadcast Equipment SA J uly 2011 ST5 It defines the position of the board inside the server It must be set to 1 for a V3Xnano with genlock and to 2 for a V3Xnano board without genlock LEDS ON THE COHXNANO BASE OF A V3XNANO BOARD WITH GENLOCK GLK Off When the genlock module is not initialized Blinks green When the genlock module is properly initialized but not valid genlock signal is detected On steady When the module is initialized and a valid genlock signal is green detected Red When there is a genlock problem intermittent Red steady When a resync is needed PSU OK On green When all voltages are present and in the allowed range otherwise the led is off L
25. ation of your XTnano server GPI triggers RELAY OPro INPUTS ON THE XTNANO SERVER GPI INPUTS 1 2 3 4 RELAY TTL INPUTS ON THE XTNANO SERVER GPI INPUTS 5 6 7 8 26969 6962 690969 The relay must be connected between the ground and the corresponding TTL input on the DB25 XTnano Version 10 05 Hardware Technical Reference Manual Issue EVS Broadcast Equipment SA J uly 2011 10 05 C 2 2 3 TTL gt TTL INPUTS ON THE XTNANO SERVER GPI INPUTS 5 6 7 8 TTL 1 TTL2 TTL3 Mies amp OGGOQQOO0 6903626969 9 69 6009 905 Each TTL input the DB25 is directly connected to the pin of the TTL connector on the device triggering the The ground must be common between the DB25 connector of the XTnano and the external device IN GPI5 IN GPI6 IN GPI7 IN GPI8 Grou 23 GPIOUT CONNECTIONS The user can define the functions types and settings associated to the outs in the following applications e Setup menu of the Remote Panel pages 8 3 amp 8 4 e Director settings and Auxiliary Track tab GPI GPI OUT 4 0073 OUT2 GPI OUT 1 3265699900 656963626909 0969 21 Issue XTnano Version 10 05 Hardware Technical Reference 10 05 C EVS Broadcast Equipment SA J uly 2011 2 4 MTPC GPIO CONNECTOR 2 4 1 GPIO CONNECTOR SUB D 25 MALE 1 Relay Out 4 14 Relay Out 4 2 Relay Out 3 15 Relay Ou
26. board on the right hand side and by the presence of the GLK and PSU OK LEDs on either side of the DIN connector at the centre front of the board Note that a COHXnano board with genlock must be installed as COHXnano 1 in first position slot 2 in an XTnano system A COHXnano board with genlock can never be installed in any other slot and thus can not be used instead of COHXnano 2 Doing so will result in conflicting electrical signals inside the system 3l Issue XTnano Version 10 05 Hardware Technical Reference 10 05 C EVS Broadcast Equipment SA J uly 2011 BLOCK DIAGRAM COHX base BOARD 1 BOARD Z BOARD 3 BOARD 4 J UMPERS ON THE COHXNANO BASE MODULE ST1 512 These 2 jumpers must be installed on the COHXnano 2 board of the server ST3 SPARE parking for jumpers for ST1 and ST2 when these are not used ST4 only on It must be set to HiZ or not installed COHXnano with Note that the Genlock Loop connector on the back panel of the genlock XTnano server must always be terminated with a 75 Ohm load if itis not used ST5 It defines the position of the board inside the server It must be set to 1 fora COHXnano with genlock and to 2 fora COHXnano board without genlock 32 XTnano Version 10 05 Hardware Technical Reference Manual Issue EVS Broadcast Equipment SA J uly 2011 10 05 LEDS ON THE COHXNANO BASE MODULE WITH GENLOCK GLK Off When the genl
27. cked XTnano Version 10 05 Hardware Technical Reference Manual Issue EVS Broadcast Equipment SA J uly 2011 10 05 C Layout of Connector Positions and Assignments 3D Mode Dual Link HD SDI Loop of Input 3 Left eye 3REC 1PLAY Input3 Left eye HD SDI Input 2 Left eye Output PGM 2 Left eye 2 REC 2 PLAY Input 1 Ld CODEC 2 1 CODEC 3 CODEC OUT 1 OUT 2 IN3 IN 2 NBO HD SDI Right eye TTE se 0 0 0 0 CHAR SD J1 CHAR OUT 1802 CHAR OUT our 2B un BITTE IN 2805 CHAR OUT CHAR OUT CHAR SD J1 SDIHD SD HD HD SDI HD SDI 0 0 0 en Character Out JA E J5 J J Character OUT HD SDI Right eye Right eye Right eye Output PGM1 Input3 Input 2 HD SDI Left Right eye Input 3 Left eye Input 2 eft eye Inpu REC 1 PLAY Character OUT Character OUT _ eee ree REC 1 PLAY HD SDI Right eye Output PGM 2 HD SDI 2 REC 2 PLAY Left eye Output PGM 2 Character Out 2 REC 2 PLAY 43 Issue 10 05 C 3 2 3 44 XTnano Version 10 05 Hardware Technical Reference EVS Broadcast Equipment SA J uly 2011 CHANNEL ASSIGNMENT XTnano Server 4 ch Upper Codec SLOT 3 CAM B CAMA or or i PGM 3 4 PGM4 Lower Codec SLOT 2 CAM D CAM C or or 4 1 i PGM2 XTnano Version 10 05 Hardware Technical Reference Manual Issue EVS Broadcast Equipment SA J uly 2011 10 05 C 3 3 AUDIO CODEC BOARD The AUDIO
28. cs defined bitrates for high definition The code protected codecs are solely available when the corresponding code is valid Both these codecs are available by default XTnano Version 10 05 Hardware Technical Reference Manual Issue EVS Broadcast Equipment SA J uly 2011 10 05 C 1 7 4 1 7 5 RECORDING CAPACITY FOR XTNANO SERVERS DISK STORAGE The maximum internal disk storage available on XTnano on SCSI or SAS disks is as follows e 5 x 300 GB or 900 GB SCSI disks e 6 x 300 GB or 900 GB SAS disks RECORDING CAPACITY FIGURES The following table shows the recording capacity in hours for DVCPro 50 and DVCPro HD for e 1 record channel that is 1 video 4 stereo audio tracks in SD 1 video 8 stereo audio tracks in HD e with the Operational Disk Size parameter set to 100 SCSI 441 and SAS 5 1 Disk Raid Configuration in 50 Hz 59 94 Hz Disks Disks size Usable Capacity DVCPro 50 50Mbps DVCPro HD 100Mbps 9 3 disks 81 3 hours 5 300 4 1200 48 23 6 300 5 1500 60 29 5 900 4 3600 144 69 6 900 5 4500 180 87 SUPPORTED SMPTE STANDARDS The following standards are supported SD SDI SMPTE 259M 525i 625i HD SDI SMPTE 292M 720p 50 and 59 94 1080i 50 and 59 94 Embedded audio HD SMPTE 299M AES EBU audio SMPTE 272M LTC SMPTE 12M D VITC SMPTE 266M Ancillary TC in HD RP 188 13 Issue 10 05 C 1 7 6 1 7 7
29. ed for the upper series of disks in case of one internal array of 2x6 disks LEDs correspond to the disks as schematized as followed upper 7 12 lower 1 6 upper 8 9 10 11 lower 2 3 4 5 Disk LEDs off the corresponding disk is not started not spinning on fast blinking the corresponding disk is starting spinning green on steady green the corresponding disk is started and used in the RAID array on slowly blinking the corresponding disk is started but not used in the RAID green array STS on green when RCTL RAID controller is properly booted ERR lights red when errors occur during the data transfer between the RAID controller and the disks XTnano Version 10 05 Hardware Technical Reference Manual Issue EVS Broadcast Equipment SA J uly 2011 10 05 C 35 MTPC BOARD 3 5 1 INTRODUCTION The function of the PC board is mainly the control of the video hardware via the software and the interfacing of the peripheral equipment i e remote controller with the video hardware Two types of MTPC boards can be used e A2 A4 with COMMEL HS870 motherboard and a new time code management module with bootable USB In standard configuration the PC hardware is composed of e One mounting PC board with serial ports LTC reader and generator controlled by the motherboard e IDE System Hard disk the IDE disk drive is used for storing the EVS software and the DOS operatin
30. ely the odd and even fields of a standard video signal 50 60 Hz we have The original video signal The output video signal at 50 speed 00 XTnano Version 10 05 Hardware Technical Reference Manual Issue EVS Broadcast Equipment SA J uly 2011 10 05 C The output video signal at 33 speed The output video signal at 25 speed 0000 0 Fields with parity violation are shown in bold underlined letters As it appears from the above table whatever the playback speed with the exception of the normal 100 playback speed a number of fields violate the normal parity of the output signal This parity violation induces a 1 line shift of the field resulting in a vertical jitter of the picture The jitter frequency depends upon the chosen playback speed To avoid this phenomenon and provide a stable output picture EVS developed 2 types of line interpolator the 2 line and 4 line interpolators The interpolation process can be enabled or disabled by the operator on all EVS slow motion systems 2 LINE INTERPOLATOR The 2 line interpolator actually generates a new field when the original field is in parity violation Each line of this new field is calculated by a weighted average of the 2 neighboring lines This process solves the problem of parity violation and vertical jitter but the drawback is a reduction of the ve
31. eo inputs 4 stereo outputs 110 Ohm balanced on SUB DB15 breakout cable with 4 XLR IN OUT available optionally OR XLR e Audio monitoring 4 analogue balanced mono outputs XLR 2 6 2 ASSIGNMENT ON DB 15 CONNECTORS 15 9 AES DB15 Connectors Pin DB 15 1 DB 15 2 DB 15 3 DB 15 4 Inputs 1 8 mono Inputs 9 16 mono Outputs 1 8 mono Outputs 9 16 mono 1 GND GND GND GND 2 AES input 1 2 AES input 9 10 AES output 1 2 AES output 9 10 3 GND GND GND GND 4 AES input 3 4 AES input 11 12 AES output 3 4 AES output 11 12 5 GND GND GND GND 6 AES input 5 6 AES input 13 14 5 output 5 6 AES output 13 14 1 GND GND GND GND 8 AES input 7 8 AES input 15 16 AES output 7 8 AES output 15 16 9 AES input 1 2 AES input 9 10 AES output 1 2 AES output 9 10 10 GND GND GND GND 11 AES input 3 4 AES input 11 12 AES output 3 4 AES output 11 12 12 GND GND GND GND 13 AES input 5 6 AES input 13 14 AES output 5 6 AES output 13 14 14 GND GND GND GND 15 AES input 7 8 AES input 15 16 AES output 7 8 AES output 15 16 25 Issue XTnano Version 10 05 Hardware Technical Reference 10 05 C EVS Broadcast Equipment SA J uly 2011 Analogue DB15 Connectors Pin DB 15 1 DB 15 2 DB 15 3 DB 15 4 Inputs 1 4 Inputs 5 8 Outputs 1 4 mono Outpu
32. erpolation this process will be automatically disabled when not necessary 100 playback for 50 60 Hz signal 33 and 100 playback for 150 180 Hz Signal 15 Issue 10 05 C 16 XTnano Version 10 05 Hardware Technical Reference EVS Broadcast Equipment SA J uly 2011 Note All professional VTRs use line interpolation in PlayVar mode to avoid vertical jitters Default value is interpolator off for all configurations except SuperLSM configuration in which 4 line interpolator mode is enabled XTnano Version 10 05 Hardware Technical Reference Manual Issue EVS Broadcast Equipment SA J uly 2011 10 05 C 2 Cabling 2 1 XTNANO REAR PANEL 2 1 1 XTNANO WITH COHXNANO BOARDS The following drawing represents a rear panel of an XTnano fitted with COHXnano boards The digital audio inputs are BNC connectors but can also be multi pin connectors as represented on the drawing of the XTnano rear panel with V3Xnano boards FULL VIEW m SOHO IN Crt Di PSU 2 PSU 1 Issue XTnano Version 10 05 Hardware Technical Reference 10 05 C EVS Broadcast Equipment SA J uly 2011 CONNECTORS LOOP DIGITALAUDIO INPUTS DIGITAL AUDIO OUTPUTS N CHARACTER OUTS CHARACTER OUTS CHARACTER OUTS CHARACTER OUTS CVBS SDI CVBS SD 508 CVSS SO CVBS SDI uo GIGABIT ETHERNET PC LAN 9 10 11 12 9 10 11 12 13 14 15 16 13 14 15 16 E Q 9 2 a ANALOG AUDIO OUTPUTS
33. g system Neither audio nor video data is saved on this disk The capacity of this drive may vary depending on market availability but the system partition is always set to 1 GB The remaining capacity of this drive is not used e 64 128 MB modified SDRAM The SDRAM used has been modified to suit the system requirements Please contact EVS support for RAMs upgrade Do not use standard PC RAM modules 53 Issue XTnano Version 10 05 Hardware Technical Reference 10 05 C EVS Broadcast Equipment SA J uly 2011 3 52 A A2 A4 BOARD 999999909909099 0000000000000 Header 26 DB15 MULTIVIEWER BOARD IN2 IN4 IN6 OUT 2 IN 1 5 OUT 1 HD Ses LLLULU 3V3 LED AHD FC SERIAL 123456 MULTIVIEWER The multiviewer board is an option on XTnano servers Connectors Description IN 2 connectors from the CODEC modules of the COHXnano board are connected to the IN connectors of the multiviewer board OUT1 HD The OUT HD connector of the multiviewer board is connected to the MULTIVIEWER HD SDI connector on the rear panel of the server 54 XTnano Version 10 05 Hardware Technical Reference Manual Issue EVS Broadcast Equipment SA J uly 2011 10 05 C Connectors Description OUT2 SD The OUT SD connector of the multiviewer board is connected to
34. ght 0 3 Kg 6 6 Lbs Ref Wacom CTF 430 Bamboo One Issue 10 05 C 1 4 1 5 1 5 1 XTnano Version 10 05 Hardware Technical Reference EVS Broadcast Equipment SA J uly 2011 INSTALLATION The main power switch is located at the front side lower right corner of the unit Before turning on the power open the front door of Video disk recorder unit to check that all boards are fitted into their guides If a board is out of its guides remove carefully the board and replace it properly in the same slot SAFETY COMPLIANCE AND OPERATING CONDITIONS SAFETY This equipment has been designed and tested to meet the requirements of the following EN 60950 European Safety of information technology equipment including business equipment IEC 950 Interna Safety of information technology equipment including tional business equipment In addition this equipment has been designed to meet the following UL 1950 USA USA Safety of information technology equipment including business equipment XTnano Version 10 05 Hardware Technical Reference Manual Issue EVS Broadcast Equipment SA J uly 2011 1 5 2 EMC STANDARDS EN 55022 European 10 05 Emission Standard EN 61000 3 2 EN 61000 3 3 EN 61000 4 3 EN 61000 4 4 EN 61000 4 5 European European European European European Electromagnetic Compatibility EMC Part 3 Limits Section2 limits for harmonic current emissions e
35. is not possible to implement failover through the GigE network e The GigE port available on the MTPC board PC LAN is a 100Base T port This is used for monitoring purposes or for the communication with other applications LinX This can be in the same sub network as the GigE port SWITCHES Supported Switches All switches used on the GigE networks of EVS systems need to support jumbo frames Ethernet frames with more than 1 500 bytes of payload Three models of 19 inch Gigabit switches have been validated for use with EVS workflows e HP Procurve 2510G 24 e Cisco Catalyst 2960G 24TC e Cisco Catalyst 3750E 24TD 3750E 48TD XTnano Version 10 05 Hardware Technical Reference Manual Issue EVS Broadcast Equipment SA J uly 2011 10 05 C Comparison The HP Procurve 2510G 24 and Cisco Catalyst 2960G 24TC can be used for small Setups where no inter VLAN routing is needed On larger setups both GigE ports of the XTnano servers or and several ports on the XF 2 are often used to increase the bandwidth or to allow redundancy Since both GigE ports of an XTnano server cannot be used on the same sub network virtual LANs need to be created To allow the transfer of packets between the virtual LANs layer 3 switches are required You need to select a layer 3 switch that is able to route jumbo frames A switch of the Cisco Catalyst 3750E series should be used on larger setups as they support jumbo frames allow traffic to be routed bet
36. m that to which the receiver is connected e Consult the dealer or an experienced radio TV technician for help This device with Part EVS XIn ano Server 15 ofthe FCC Rules Operation is subject to the following two 4 conditions 1 This device may ested to comply not cause harmful interference and 2 this device must accept any interference received including interference that may cause undesired operation With FCC Standards CE MARKING The CE marking is affixed to indicate compliance with the following directives e 89 336 EEC of 3 May 1989 on the approximation of the laws of the Members States to electromagnetic compatibility e 73 23 EEC of 19 February 1973 on the harmonization of the laws of the Members States relating to electrical equipment designed for use within certain voltage limits e 1999 5 EC of 9 March 1999 on radio equipment and telecommunications terminal equipment and the mutual recognition of their conformity XTnano Version 10 05 Hardware Technical Reference Manual Issue EVS Broadcast Equipment SA J uly 2011 10 05 C 1 5 5 POWER SUPPLY GENERAL DESCRIPTION The XTnano server is fitted with two auto switching and hot swappable power Supplies The secondary hot swappable power supply should be connected to mains to allow automatic power switching to the second power supply should the first one fail AY Important The protective earth must be connected to the ground before
37. n condensing VENTILATION amp RACK MOUNTING Adequate ventilation is obviously required for optimum performance As result of this consideration ensure no other equipment is located close to the mainframe Important e Remember that fans are used to air cool the equipment and protect it from overheating e Do not block fans intakes during operations Having regard to the weight of the XTnano chassis Support guides are required for this unit into the rack mount The front ears of the XTnano unit are not designed to support its full weight Applying full weight on these might result in bending the metal plate XTnano Version 10 05 Hardware Technical Reference Manual EVS Broadcast Equipment SA J uly 2011 1 7 1 7 1 1 7 2 Issue 10 05 C XTNANO SERVER MAIN SPECIFICATIONS VIDEO SPECIFICATIONS Video formats XTnano Server Standard Definition High Definition 525i 59 94 fps NTSC 625i 60 fps PAL 720p 50 59 94 fps 1080i 50 59 94 fps Digital interface 10 bit 4 2 2 Serial SMPTE259M Full frame synchronizer at input 10 bit 4 2 2 Serial SMPTE292M Full frame synchronizer at input Number of 4 channels 4 channels channels reversible REC PLAY reversible REC PLAY Monitoring amp A ERR e MA 1 dedicated HD SDI output down converters select per channel with OSD with OSD per channel Reference Analogue Black Burst Analogue Black Burst and HD Tri
38. ns mentioned below has been improved in this user manual but no new features have been added 1 5 5 Electric consumption data for power supplies 1 7 2 Clear overview of available audio configurations XTnano Version 10 05 Hardware Technical Reference Manual EVS Broadcast Equipment SA J uly 2011 1 1 Issue 10 05 C 1 Overview Welcome in the EVS range of products and thank you for using an EVS XTnano server We will do our best to satisfy your video production needs and we look forward to continuing working with you SSSSSSys SSSSSSSSNNS SSSSSssS SSS SSSSsss The EVS XTnano servers are full digital in PAL 625i NTSC 525i 720p or 1080i standards These multi channel disk based video servers are ideal for a wide range of broadcast applications from sports and live production to playout and transmission XTNANO HIGH RESOLUTION SERVER The XTnano is a 4 channel HD SD slow motion replay server from EVS Optimized for multiple applications such as ingestion of audio video files live feed recording live slow motion and super motion clipping and playlist playout control XTnano offers a flexible configuration 2 cameras IN and 2 OUT for preview and program control or 3 IN and 1 PGM The new server natively supports DVCPRO HD and DVCPRO 50 codecs and with its GigE networking capabilities A V files can be played and simultaneously transferred to other EVS servers as well a
39. ock module is not initialized Blinks green When the genlock module is properly initialized but no valid genlock signal is detected On steady When the module is initialized and a valid genlock signal is green detected Red When there is a genlock problem intermittent Red steady When a resync is needed PSU OK On green When all voltages are present and in the allowed range otherwise the led is off LEDS ON THE COD A AND COD B MODULES FROM LEFT TO RIGHT CPU Blinks green To indicate CPU activity On steady When there is a problem with the processor of the COD module green PLAY On green When the COD module is set by the software in play mode Off When the COD module is set in record mode PVID On green When a valid video signal has been detected on the J 8 connector SD HD SDI input whether the COD module is in play or record mode 33 Issue XTnano Version 10 05 Hardware Technical Reference 10 05 C EVS Broadcast Equipment SA J uly 2011 TF transfer Blinks green During a data transfer between the COD module and the HCTX board M1 M2 Not currently used M3 M4 CONNECTORS ON THE COD A AND COD B MODULES Connector SD mode HD mode Connector label on rear panel JI SDI CVBS SDI CVBS monitoring Character Outs CVBS SDI monitoring output SD output SD down converted J2 SDI monitoring output SDI monitoring output Used for onboard SD SD down conve
40. powering up the unit Ensure the disk recorder unit is properly grounded at all times to avoid electrical shock hazard SPECIFICATIONS Connection to Supply Pluggable equipment Type A EN60950 1 2 5 Equipment which is intended for connection to the building power supply wiring via a non industrial plug and socket outlet or a non industrial appliance coupler or both Correct mains polarity must always be observed Do not use reversible power plugs with this equipment Class of equipment Class 1 equipment EN60950 8 1 2 5 electric shock protection by basic insulation and protective earth Electric Supply Rated voltage 115 to 240Vac single phase Rated frequency 47 63 Hz Related Current 8 A 100 to 120 Vac range 4 A 220 to 240 Vac range Input connector CEE22 IEC 320 3 pin male receptacle Electric Consumption Voltage 12 VDC max Electric Current 20 A max Electric Power 500 W Issue 10 05 C 1 6 10 XTnano Version 10 05 Hardware Technical Reference EVS Broadcast Equipment SA J uly 2011 ENVIRONMENTAL CONDITIONS Temperature 10 C to 50 50 F to 122 F ambient with free air flow Relative humidity 0 to 90 non condensing Cooling requirements Forced air cooling air flow from front to back Handling movement Designed for fixed use when in operation Storage and transportation temperature 0 C to 70 C 32 F to 158 F Storage and transportation relative humidity 0 to 90 no
41. quipment input current 16A per phase European Electromagnetic Compatibility EMC Part 3 Limits Section 3 limitation of voltage fluctuation and flicker in low voltage supply systems for equipment with rated current of 16 A European Electromagnetic Compatibility EMC Part 4 Limits Section 3 Testing and measurement techniques Radiated radio Frequency electromagnetic field immunity test European Electromagnetic Compatibility EMC Part 4 Limits Section 4 Testing and measurement techniques Electrical fast transient burst immunity test European Electromagnetic Compatibility EMC Part 4 Limits Section 5 Testing and measurement techniques Surge immunity test EN 61000 4 6 European European Electromagnetic Compatibility EMC Part 4 Limits Section 6 Testing and measurement techniques Immunity to conducted disturbances induced by radio frequency fields EN 61000 4 7 European European Electromagnetic Compatibility EMC Part 4 Limits Section 7 harmonics and interharmonics measurements and instrumentation for power supply systems and equipment connected thereto EN 61000 4 11 European European Electromagnetic Compatibility EMC Part 4 Limits Section 11 Voltage dips short interruptions and voltage variations immunity tests EN 50082 1 European European Generic Immunity Standard Part 1 Domestic commercial and light industry environment FCC USA
42. rted multiviewer input 14 SDI monitoring output HD SDI monitoring output Character Outs SD HD SD HD J6 SDI program output HD SDI program output SD HD Out SD HD SDI program output HD SDI program output SD HD Out SD identical to 6 HD identical to 6 8 SDI input HD SDI input SD HD In SD HD J9 Alternate SDI input Alternate HD SDI input Used for loop in SD for hardware HD for hardware loop loop The switch between SDI and CVBS on J1 is done by software setting in the EVS Configuration menu 34 Note The loops of the input signal are not genlocked XTnano Version 10 05 Hardware Technical Reference Manual Issue EVS Broadcast Equipment SA J uly 2011 10 05 C LAYOUT OF CONNECTOR POSITIONS AND ASSIGNMENTS SD Mode SD SDI Loop of Input 3 3 REC 1 PLAY SD SDI Input 3 SD SDI Clean Output PGM 2 SD 2 REC 2 PLAY SD SDI Input 1 SD SDI Clean Output PGM1 CVBS SD SDI SD SDI Monitoring Output PGM1 Loop of Input 1 Character Out Character OUT SD SDI Monitoring Output PGM1 SD SDI Character Out Loop of Input 3 Character OUT CVBS SD SDI Character OUT SD SDI Loop of Input 3 3 REC 1 PLAY Loop of Input 2 Character OUT Character OUT 3 REC 1 PLAY SD SDI _ _ Monitoring Output CVBS SD SDI PCM 2 CVBS SD SDI Te Loop of Input 2 Monitoring Output PGM 2 Character OUT Character OUT Character OUT 2 REC 2 PLAY 2 REC 2
43. rtical resolution on the interpolated fields that appear unfocused Another by side effect is the alternation of original fields perfectly focused and interpolated fields unfocused resulting in a pumping video signal 4 LINE INTERPOLATOR The 4 line interpolator uses a more sophisticated calculation based on the 4 neighboring lines By using suitable coefficients for the weight of each line in the resulting calculation we apply this interpolation to all fields The final result is a permanently slightly unfocused picture The advantage is a stable output signal with no jitter and no pumping but the vertical bandwidth is even more reduced The interpolator is of course always disabled at 100 playback speed because there is no parity violation EVS uses the same techniques with the Super Slow Motion disk recorder working with all models of Super Motion cameras 150 180 Hz The only difference between the processing of Super Motion and normal scan 50 60 Hz signals is that the interpolator is always disabled at 33 playback speed because the Super Motion signal does not cause parity violation at this particular speed Whatever the choice the resulting picture is thus always a compromise between Stability and resolution With EVS systems the operator always has got the choice between any of the 3 above described techniques no interpolation 2 line interpolation or 4 line interpolation Even if the operator chooses to use the int
44. s all standard NLE and archive systems Issue 10 05 1 2 1 3 1 3 1 XTnano Version 10 05 Hardware Technical Reference EVS Broadcast Equipment SA J uly 2011 UNPACKING On receipt of the equipment examine packing for obvious signs of damage If damaged do not unpack and inform the carrier immediately Check thanks to the included packing list if all the items are present and if they show any mechanical damage If yes report damage or the missing parts to EVS or their appropriate representative DIMENSIONS VIDEO DISK RECORDER MAIN FRAME 19 INCHES RACK MOUNT 4U Weight 30 Kg 66 15 Lbs Dimensions The following schemas provide the dimensions in millimeters of the XTnano Server Front view 465 p p eO CN 31757 1 7 101 60 176 60 4 3221271 i H ms SJ Lt eee Issue 10 05 C XTnano Version 10 05 Hardware Technical Reference Manual SA July 2011 Left view Lune WG WG WG WW WwW WG Right view Issue XTnano Version 10 05 Hardware Technical Reference 10 05 C EVS Broadcast Equipment SA J uly 2011 00 Top view XTnano Version 10 05 Hardware Technical Reference Manual Issue EVS Broadcast Equipment SA J uly 2011 10 05 C 1 3 2 REMOTE CONTROL PANEL Weight 3 4 Kg 7 5 Lbs 1 3 3 KEYBOARD Weight 0 4 Kg 0 9 Lbs Wei
45. t 3 3 Relay Out 2 16 Relay Out 2 4 Relay Out 1 17 Relay Out 1 5 IN Opto 4 18 IN Opto 4 6 IN Opto 3 19 IN Opto 3 7 IN Opto 2 20 IN Opto 2 8 IN Opto 1 21 IN Opto 1 9 1 0 TTL 8 22 GND Return 1 0 8 10 1 0 TTL 7 23 GND Return 1 0 7 11 I O TTL 6 24 GND Return I O 6 12 I O TTL 5 25 GND Return 1 0 5 13 5 V 50 mA max 22 XTnano Version 10 05 Hardware Technical Reference Manual Issue EVS Broadcast Equipment SA J uly 2011 10 05 C 2 4 2 GPIO HARDWARE SPECIFICATION 4 X relay isolated output Normally open contact power off 2 open e Maximum 1 A Maximum 50 Volts Typical life time 100 000 000 switching 4 X opto isolated input e The input consists in an opto diode VF Q 1 1 Volt in series with a 470 ohm resistor e Typical switching point 1 4 mA for secure operation o 1 0 0 0 5 mA gt opto OFF i 2 5 to 30 mA gt opto o imax 30 e Direct connection to a TTL CMOS signal is possible pin opto to GND and pin opto to the TTL CMOS signal Typical switching point 1 6 Volts for secure operation o Vin 0 8 Volts gt opto OFF o Vin 2 2 Volts Q 2 mA gt opto ON o Vin max without external resistor 2 15 Volts 4 X CMOS input output Each pin can be individually configured as an output or an input Internal 4K7 pull up resistor to 5 V Low level Vi lt 1 5 Volt U12 74HC245 High level Vi gt 3 5 Volt 012 74HC245 Optional
46. ted not spinning On fast blinking green The corresponding disk is starting Spinning On steady green The corresponding disk is started and used in the RAID array On slowly blinking green The corresponding disk is started but not used in the RAID array TF just behind th On green STS between the On green e 5 disks LEDs When data is transferred between the RAID array and the HCTX board If the led is nearly permanently on it means that data is transferred almost all the time between the RAID array and the HCTX board thus being close to the maximum bandwidth of the system 1st and 2nd disk from left in front When RCTL RAID controller is properly booted ERR next to STS Lights red When errors occur during the data transfer between the RAID controller and the disks XTnano Version 10 05 Hardware Technical Reference Manual Issue EVS Broadcast Equipment SA J uly 2011 10 05 C 3 43 BOARD ON SAS DISK ARRAY WITH HCTX Disk Arrays on systems with HCTX Boards have a controller on the disk array board The SAS disk array contains 6 SAS disks eT gt d o b Ds Ic Q Q DD ada D 51 Issue 10 05 C 52 XTnano Version 10 05 Hardware Technical Reference EVS Broadcast Equipment SA J uly 2011 LEDS ON INTERNAL ARRAY LEDs 1 to 6 are used in case of one internal array of 6 disks LEDs 7 to 12 are us
47. ts 5 8 mono 1 GND GND GND GND 2 Analogue input 1 4 Analogue input5 Analogue output1 Analogue output 5 3 GND GND GND GND 4 Analogue input2 Analogue input6 Analogue output 2 Analogue output 6 5 GND GND GND GND 6 Analogue input3 Analogue input7 Analogue output3 Analogue output 7 7 GND GND GND GND 8 Analogue input4 Analogue input8 Analogue output 4 Analogue output 8 9 Analogue input 1 Analogue input 5 Analogue output 1 Analogue output 5 10 GND GND GND GND 11 Analogue input 2 Analogue input 6 Analogue output 2 Analogue output 6 12 GND GND GND GND 13 Analogue input 3 Analogue input 7 Analogue output 3 Analogue output 7 14 GND GND GND GND 15 Analogue input 4 Analogue input 8 Analogue output 4 Analogue output 8 26 XTnano Version 10 05 Hardware Technical Reference Manual Issue EVS Broadcast Equipment SA J uly 2011 10 05 C 2 7 GIGABIT NETWORK 2 7 1 FUNCTIONAL OVERVIEW The Gigabit connection makes it possible to transfer video and audio material from the XTnano server to external systems via the TCP IP network The external systems can be the following e A storage system or an archiving system such as XStore e A non linear editing system such asApple Final Cut Pro However the external systems cannot read the raw files coming from the XTnano servers For this reason
48. ween different VLANs and provide stacking capabilities The following table gives an overview on the supported switches Model RU Layer Gb SFP 10Gb JF JF Stacking ports X2 switching routing HP 1 2 20 4 4 0 Y N N Procurve 2510G 24 Cisco 1 2 20 4 0 Y N N Catalyst 2960G 24TC Cisco 1 3 24 up to 2 Y Y Y Catalyst 4 3750E 24TD Cisco 1 3 48 up to 2 Y Y Y Catalyst 4 3750E 48TD A layer 2 device can be used when all machines are configured to be on the same LAN when another layer 3 device is present to do the routing if needed or when no routing between VLANs is needed ADDITIONAL INFORMATION HP switches have a lifetime guarantee with next business day advance replacement with no additional contract purchase HP switches are not compatible with Cisco s proprietary protocols ISL PagP PVST etc which could be a problem for integration in some legacy Cisco environment However such a case is quite unlikely to arise and most of the time workarounds can be found The stacking possibilities of the Cisco 3750E series permit to have fully active LACP teams for redundancy to the hosts 29 Issue 10 05 C 3 1 3 1 1 30 XTnano Version 10 05 Hardware Technical Reference EVS Broadcast Equipment SA J uly 2011 3 Hardware Description BOARDS AND SLOT CONFIGURATIONS The XTnano server contains all EVS developed boards The XTnano server can be fitted with CO
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