VideoBloX Matrix Switcher User Manual
Contents
1. a 1983409 Aid ON ON Indu jesidA JO SIS91 MOL Aq OGA S perd sjnduj c OVA dwy 9 0 OCA 0 duy sBuyey Z paljddns ejqeo uoqqu ei 0 S JON Jojyoeuuo 2 UOJGIM D 891A9q 5 Ajddng BUJ9 XJ 900 0809 08 06 85 Rev 1 00 SYSTEM INSTALLATION DIAGRAMS LOL SLpZOOQ ON 60 6 1 88 0 962 008 1 II9M O9UOH JaMOd 2907 O9LIZI O Slndlno aga 20 juaun2 S OOL S Jemod Buruesqo au 99IA9P 24 1924409 Z julod jndjno Aue JO ou O JEU1WJ9 ay uo Jeduunf jeysu JOJ OGA S Saplaold 921 241 ISOJON sjndjno2. ix CANADIAN COMPLIANCE STATEMENT ix EUROPEAN COMPLIANCE STATEMENT IMPORTANT SAFEGUARDS 4 4 2 nunn ka m mo 43 RON Y s X EXPLANATION OF GRAPHICAL SYMBOLS xii About This DOCUMENT a sock East v ltab ou bi IRE ntm cms uo Em up EUR B EIUS xv Overview of Contents xvi Related Documents 2 ks mob xoR x XO A een a aE Ja dve ee OR Re xvii 1 INTRODUCTIONS 5 4 xxm md m ER Re B SR ew Ro de 1 PRODUCT DESCRIPTION Roh os na 1 FEATURES cue sand ad ee wR UK GE kava BER ER 2 SYSTEM OVERVIEW 6 4 224000554 bala Roe eese 2 RACK MOUNT SYSTEM CHASSIS 3 REMOVING A MODULE FROMAVIDEOBLOXCHASSIS 4 INSTALLING A MODULE INAVIDEOBLOXCHASSIS 5 2 REAR CHASSIS az ge eed PEA bE ee SDE we eee ERE 7 POWER SUPPLY MODULE 2 7 AU 8U 12U Chassis adu a a a m AU 7 PU CHASSIS ce Rk Bae Gh ee He eo ek a ar IE A ee ae 8 Main Input Power Connectiton 9 Low Voltage Input Connection 9 Chassis
3. JE OWAPZ 95 10OPJNO JOJ 20 2781 Sud ssoioe pany eq snw pjeog Jed do VA OV OVAPZ 104 IMO awog 24 uo X7 Jedwnp uoneuiuue OVA rz Iv Ajuo jse y i 9 Seuioq oou apy UO 8 pUe EHMS 118 LEMS UO Z LHMS seuiogpides JOJ sBumas did QXL 1 jeuueyo JeyseW Lid s woq 22754 900 0809 08 06 91 Rev 1 00 SYSTEM INSTALLATION DIAGRAMS 8822 962 008 1 U1O9 O9PIA OMA9UOU MMM 00 029200 ON II9M OUuOH 9071nf Sc 1H9IHMO 9 vt LiddAH 1SEN 22754 ms OJ Oe JR EYE Z pue suonisog YM 8 M Sadun s woq V pue Z sUONISOJ ZM Jedwnp doo7 ej amp g uo ere pue Z SUOHISOJ Po RUIeJUNj doo Bled euro 1527 Z pue UAJSOJ pareu IM s woq eieipeuuequ 1527 2 A F meIS 22754 uo yo 1514 VIS 715 715 7 1S 10201024 9 9 104 s umes 917 did EN ZZrS4
4. 65 11 SECONDARY COMMUNICATIONS EXPANSION MODULE 67 DESCRIPTION 4 oo c bobo ed S xe bo heed ee ho bd es bebe eee ES EY 67 Jumper Settings 2 ama ele as 68 S282 Setlihgs 00042404 BG Be a a pad S 68 85422 sse ea o m um AY UI VOX m we es 69 Backplane Communication Settings 69 12 CPU ARBITRATION CONTROLLER MODULE 71 DESCRIPTION es wb OR ede Oe uer uo dea EUR dee we ce ar E 71 OPERATION X we E Cs GR Ba eee a ee s 72 GONNEGTIONS 4 arid Seb wok er bh a e vss oh ees ex SA eet EON bd ee NER den 73 SWITCH SETTINGS 2 x ho ek te de oic o Sr we eC TRES a 74 FRONT PANEL PUSH BUTTON 75 Appendix A BINARY ADDRESS VALUES 77 SYSTEM INSTALLATION DIAGRAMS 79 PURPOSE 4 054 0 3 ae de i 79 Appendix C CONNECTING AHDR HRHD DVRs 97 INTRODUCTION Ba ee ae a vox 0f Gu 9 o3 X ES Re WO xx 97 FIVBPITA4 SETUP ek ee arc Pe ee Ba ab ae A de eet Bo ae cs 97 DIP Switch Settings iie OR Eo ee ae AUS A va 97 Data Connections 2 ue dq d
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6. 08 06 900 0809 83 Rev 1 00 SYSTEM INSTALLATION DIAGRAMS 88 962 008 MMM LO L ed ELF200G ON IIRAMASUOH S0 O3G 62 I1HOIHMO YY XOTEOSCIA JIVA NMYHO SINPOJN uue v Uonoauuoo euejdxoeg 3ndinonndu wey JO IUOW O JAANO on souDeiq eusoduog oepAna Se npo N 221 0 JAANO pue jndu Wey oa uoneordde eunjnj _ 22758 22754 eunjnj 10 __ 22754 J 22754 pejoeuuoo 02010 8 011409 XO gOSPpIA sepi oJd _22754 Jasen 22754 1 sseooy 6 9 5 Aeljixny 0 S199UU0J cecus xnv 26254 JONAS ALOO JO Od UONEJNEIJULI 90900009 22254 zezsu uoloun4 O8PIA IZI mazes 5 Zevsa XNV ZEZSA PARIS ZEZSA Ee 2 O O O a GB 8 1 amp 9 08 06 900 0809 84 Rev 1 00 VideoBloX User Manual LOL rLECOOQ ON S0 O3q 6c IHDIHMO 31VG NMVuG 8822 9617 008 UJOO9 O9pIA SM GUOU MW II9M OUOH Joueg uoneuiuuo wey syndy wey sjndjno
7. 23 Jumper Settings 24 Toggle Switch 5 25 FUSES ur 11255 metre ACRI est ad dete ber daten Bare a rt el 25 CONNECTIONS 93 24 PS Son E x ee ea dde xm vU Ge Qux Eo UE S GbR ORE a 26 RS422 Communication Ports Master and Satellite 26 RS232 Communication Ports Slave and AUX 26 l2C Connectors uo 4 m nd A EB BG ORO AG AGE EU OE BO WU EUR IER URS 27 CPU ViId6O s e Vere ez er ae RP UP Xon Ee ob e oS UE e 27 Alarm Inputs Outputs 2 2 28 4 COMBO CPUMODULE a asiu a ee Ee RE ERE 29 DESCRIPTION 2 2x owe ge spoj oo debe eee dat eed ee aed ae ded es 29 DIR SWITOH SETTINGS 4i gue XR es ee REOR ACA ROS ew a ee 30 PUSHIBUTTONS 3 as ay dace ei Syn OR es io RR ob Sue Su ia Ge nej ee 31 LED INDICATIONS 2 5 i AU OR DE See eRe bc vox OR TY e deos 31 RESTORING FACTORY 5 32 5 VIDEO INPUT MODULES 4 3 4 su u ECUR RO 3 m xm m ew Ren en jen ie 33 DESCRIPTION 2425 640 wm Paw E na EM a X Out usu bu as 33 CROSS LINK VIDEO INPUT MODULES 35 VideoBloX Switch
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11. Rev 1 00 110 900 0809 08 06 VideoBloX User Manual Table E 3 Combo CPU Connections AUX RS232 Ports Pin 2 TXD Pin 3 RXD Pin 3 RXD Pin 2 TXD Pin 5 GND Pin 5 GND 2 Connect a Video Output from Site 1 to an Input on Site 2 The number of Interlinks will determine the maximum number of cameras that can be viewed at any one time from Site 2 For this example connect Site 1 output 8 to Site 2 Input 64 DIP SWITCH SETTINGS Standard CPU Ensure the SAT baud rate on both chassis site 1 and site 2 are the same The default is 9600kbs Set S3 1 and S3 2 off Set S4 1 on COMBO CPU Ensure the AUX SAT baud rate on both chassis site 1 and site 2 are the same The default is 9600kbs Set S1 7 and S1 8 off Set S2 4 on sets AUX SAT port to Satellite mode Set S2 3 on Rev 1 00 111 900 0809 08 06 NETWORKING TWO VIDEOBLOX MATRICES PROGRAMMING WITH Vbloxcfg APPLICATION 1 Backup each database folder DBF in the configuration software under a new name so that the two site databases do not get confused This is done manually by renaming the DBF folder in C Program Files Honeywell VBIOXCFG using Windows renaming conventions A Caution 2 Site 1 Be sure to use the Site 1 database folder DBF when connected to Site 1 and Site 2 database DBF when connected to Site 2 Set up Site 1 as a normal system with all PTZs operating and camera switching operational For this example Site 1 has 32 cameras 3 Site2
12. FHV NOGAH XVOO 9VGAH 8 4 sinduj oepiA t sjnduj VFONILAAH 9 1 55 900 0809 08 06 37 Rev 1 00 VIDEO INPUT MODULES DIP SWITCH SETTINGS HVB16M16 Dependant on the style of input module DIP switches will be as per one of the following diagrams Note that the address is set in binary For more information please refer to Appendix A Figure 5 7 DIP Switches SW1 SW3 NEN P Bass rs uiu T2 222223 i MO Tables 5 2 and 5 3 show the DIP switch SW1 and SW2 settings for the HVB16M16 Table 5 2 HVB16M16 DIP Switch SW1 Settings EJL Input Address Table 5 3 HVB16M16 DIP Switch SW2 Settings vir fre SW2 1 Input Group SW2 3 Output Group SW2 5 Switch 1 to 1 Rev 1 00 38 900 0809 08 06 VideoBloX User Manual Table 5 3 HVB16M16 DIP Switch SW2 Settings SW2 6 Mute Reply SW2 8 CH1 to Sync e DIP Switch S1 1 8 defines the card address in binary format and is set to represent the camera range For example cameras 1 16 set to 1 cameras 17 32 set to 2 etc e S2 1 2 extends the input address range e 582 3 4 sets the output range in binary format in groups of 64 e S2 5 turn on to cause the module to automatically switch its 16 video inputs to 16 video outputs on power up In this mode the address switch determines which gro
13. ____ Seme Pa pove cone Railay pverconren PO renalne s rada per se Ratan verte RS232 Communication Ports Slave and AUX All RS232 communications ports use the following pin outs Table 3 10 HVBCPU RS232 Communication Port Pin Outs RS232 common S c Rev 1 00 26 900 0809 08 06 VideoBloX User Manual Table 3 10 HVBCPU RS232 Communication Port Pin Outs I2C Connectors The I2C connectors have the following pin outs Table 3 11 I2C Connector Pin Outs eum 7 Refer to Appendix B SYSTEM INSTALLATION DIAGRAMS of this manual for illustrations drawing numbers D002411 and D002412 of the I2C Input Output modules Refer to the I2C16l I2C160 User Manual for detailed information on the I2C modules Connect the I2C module to the rear of the CPU with flat telephone type cable and RJ11 plugs The connection cable is provided by the installer The cable is made 1 to 1 That is if looking at the copper side of one end and yellow is on the left then the other side must be made with yellow on the left The cable should not exceed 15 feet 4 5 meters and no more than five 5 I2C devices on one loop Input and output devices may exist on the same 12C line Note Note if using the 12 modules in conjunction with the alarm termination panel the alarm inputs on the alarm termination panel represent alarms 1 to 32 Set the beginning address of the I2C alarm input mod
14. 45 Table 7 2 DIP Switch S1 Settiligs 2 amp in Ga a thee bid Red ama RRS URGE dL we SS a 47 Table 8 1 DIP Switch Si Seltiligs 200 cf 26g He e See OR wo eee oe RU RE a 54 Table 8 2 DIP Switeli S2 SetiNGS gt 4 a va 2 Bae Bind LE eme AR leh de dd 54 Table 10 1 DIP Switch S1 and S2 SettingS s eben awe wo Rom 9 RO RR Ra koe 63 Table 10 2 DIP Switch 53 and S4 SeningS 2 606004 gy xy mE SUR weed ee s 64 Table 11 1 JPT and JPZ Jumper Sewngs a 4 oe DE SAREE ES ASRS GAY amp 68 Table11 2 JP3 Jumper Settings a a 224 484 eee eb bee eee HH a de E A s a 69 Table 12 1 CPU Arbitration Module DIP Switch Settings 74 Rev 1 00 vii 900 0809 08 06 TABLES Table 12 2 CPU Arbitration Module Front Panel PushButtons 75 Table A 1 Binary Address Values wo Rob RR EEE SA X OR Um HED 77 Table C 1 Dala Contes d BS dies 98 Table D 1 VideoBloX Chassis DIP Switch S1 Settings 104 Table D 2 HVBMATPIT DIP Switch S1 S3Settings 104 Table E 1 Chassis Addresses e i EES E RR ee SE EER 110 Table E 2 Standard CPU Connections SAT RS422 ports110 Table E 3 Combo CPU Connections AUX RS232Portss 111 Table E 4 Troubleshooting Networked Chassis 113
15. REAR CHASSIS POWER SUPPLY MODULE 4U 8U 12U Chassis Rev 1 00 Figure 2 1 Power Supply Module HVB4U HVB8U HVB12U The power supply module for the 4U 8U and 12U chassis are the same as shown in the illustration to the right for the HVB4U The power supply module converts the main input power to an unregulated low voltage DC supply There are two versions of the power supply to provide 115 VAC or 240 VAC 50 60 Hz It is additionally possible to power a VideoBloX chassis from a 18 to 24 VAC or 18 to 24 VDC supply Power indications are visible from the front of the chassis The power supply is equipped with the necessary protection and filtering to ensure regulatory compliance It is possible to bring backup power into a chassis so that operation is not affected by the failure of the main input power supply The power supply module provides an unregulated DC output to the backplane and each VideoBloX module is eguipped with independent voltage current regulation circuitry The VideoBloX power supply has adeguate capacity to power all modules within a chassis and also a limited number of external control keyboards The distance between the chassis and the external control keyboard is also a limiting factor A system reset push button is accessible from the front panel after removal of a cover plate The power supply module also incorporates communication drivers used to interconnect multiple subracks for assembly of large
16. Set up Site 2 local cameras if applicable as usual and assign them a group of input numbers For this example cameras 33 to 48 a Setup the Site 1 cameras on Site 2 CPU as follows A Caution Input 1 will be the first camera from Site 1 Set the Input Detail Satellite to address 1 Set the Physical I P to the Input number on Site 1 matrix and for this example 1 Repeat this procedure for all 32 Inputs If the camera on Site 1 is a PTZ then set the Type to PTZ The address is not used but must not be 0 Download all Inputs Click on the Interconnects button and ensure the table is for Address 1 Assign how Site 1 is connected to Site 2 For this example Local Input is 64 and Remote Output is 8 for 1 trunk Download the table The titles for the Site 1 cameras can be disabled as the title will be generated from Site 1 Rev 1 00 112 900 0809 08 06 VideoBloX User Manual TESTING From Site 2 1 Select a Site 1 camera For this example select camera 1 and ensure the SAT LED Standard CPU or the AUX LED Combo CPU flashes when the Enter button is pressed on the HEGSSBLX Controller 2 Simultaneously the corresponding LED on Site 1 CPU will flash 3 Ensure the correct camera comes up TROUBLESHOOTING Table E 4 Troubleshooting Networked Chassis an se Site 2 LED does not flash when a Site The system does not know this is a 1 camera is selected satellite camera Ensure the camera input detai
17. Rev 1 00 15 900 0809 08 06 REAR CHASSIS LED INDICATIONS The following table describes the function of each LED on the front panel of the power supply module Table 2 4 LED Indicators Flashes on when there is data present on the backplane transmit data line Flashes on when there is data present on the backplane receive data line Flashes on when the chassis is transmitting data Video Sync On when sync input is present On when the reset signal on the backplane is active Rev 1 00 16 900 0809 08 06 CPU MODULE DESCRIPTION A VideoBloX system is controlled from a single master CPU module For an expanded system with multiple chassis it is possible to interconnect the chassis and have a single CPU module control the entire system The settings described are for firmware revision 4 97 Figure 3 1 Front and Rear Views of CPU Module eg Om R9 408 Concestrater AG 422 1 Max SOOma CPU All system configuration is carried out by means of a PC running Windows 95 98 98SE 12000 XP or NT which connects to the CPU module at the RS232 Slave connector Once configuration is complete the PC may optionally be detached or used as a system activity logger All configuration information is stored in non volatile memory and is retained during a power loss of up to one month Rev 1 00 17 900 0809 08 06 CPU MODULE The CPU module oversees the operation of all modules install
18. 5 aNd s8v su X1 282 Su zez SH zez su 0 sersu G sevsu 08 06 900 0809 88 Rev 1 00 VideoBloX User Manual 8822 962 008 ejeg MMM 0 NAH 8L7Z00d ON pueigag 90 21 LO L XTESSOIH M o9ejdoH 90 2 z0 L 60 6 1H9IHMO 1 22784 orje S 3 CD Je o 3uoo X TASSOHH J2 013U00 X149599H uiw JOAUQZ CCYSH O 01 OVA vz 01 ZL ee CECSH D OCA Z 01 ZL jddns 2207 SODIASP SJ UUBUI J9jse N GA CO TO CO DE a Eee iL 9 009 E10 1 1 E ALIS Japued 1104 22754 900 0809 08 06 89 Rev 1 00 SYSTEM INSTALLATION DIAGRAMS 88 0 962 008 1 UJOO O9pIA A9M GUO UM LO L 6L 200G ON 1ueunooq II9M OUuUOH 90 0380 62 JIVO NMYHO PII OL viz LIddgAH Jepuedx3 aeg puelqeHq 60 1101 X19SS93H M 90 20
19. C s Rev 1 00 13 900 0809 08 06 REAR CHASSIS DIP SWITCH SETTINGS Figure 2 5 Chassis DIP Switch Settings Various parameters which are common to the entire chassis are configured by means of the 4 way DIP switch as per the following tables Table 2 2 DIP Switch Settings When multiple VideoBloX chassis are interconnected use switch 4 to set the chassis which contains the CPU card to be the master All other chassis must be set up as slaves Use switch 3 to determine which chassis generates receives the system synchronization signal This signal is used to synchronize video matrix switch operations to occur during the vertical synchronization period of the video signals Table 2 3 Chassis Sync Signal 3 Chassis generates system Chassis receives system sync signal sync signal Chassis is a master Chassis is a slave Rev 1 00 14 900 0809 08 06 VideoBloX User Manual RESET PUSH BUTTON Figure 2 6 System Reset Push Button When this button is pressed the chassis will be reset Should the chassis be configured as a master then all slave chassis will also receive a reset signal Black Reset Push Button SYNC PHASE ADJUSTMENT Figure 2 7 Sync Phase Adjustment This adjustment determines the sync phase with respect to the mains waveform When sync is received via the rear panel Chassis Sync In BNC or via the Control connector this adjustment will have no effect Sync Phase Adjustment
20. Figure 3 3 HYBCPU Push Bud y sce tasuda us SR RR Re ROE a musa a 21 Figure 3 4 LED IndiCatOrS x oso ha bE ee RR X ex EEE GEER UR 22 Figure 3 5 Display Width Adjustment su pe m x a m WR RS ESTER EEE 23 Figure 3 6 Display Color Burst Frequency Adjustment 23 Figure 3 7 Jumper JPA JP5 Settings xa xou ee SEARO a Bw Ge 24 Figure 3 8 Jumper PS Hehe Eile saab Ph Red th deb dae d 24 Figure 3 9 Toggle Switch SW1 for CPUSelection 25 Figure 4 1 Front and Rear View of Combo CPUModule 29 Figure 4 2 Combo CPU DIP Switch Settings 30 Figure 4 3 LEDIMAIGAGIS 6 308 6024466 8206 lt 4 Rp a Eo Ro oe ewe 31 Figure 4 4 Combo CPU Restoring Factory Defaulis 32 Figure 5 1 Video Input Modules 2 front panel options 34 Figure 5 2 Video Input Module Standard 16 BNCInputs 34 Figure 5 3 Video Input Module Looping BNC Inputs 34 Figure 5 4 Type A B and Cross Link Looping Input Termination Modules 35 Figure 5 5 VideoBloX Matrix Switcher with 128 Video Outputs 2 Chassish 36 Figure 5 6 VideoBloX Matrix Switcher with 192 Video Outputs 3 Chassish 37 Figure 5 7 DIP Switches SWI SW us AR eem x de babe RO RA SS EO
21. Rev 1 00 viii 900 0809 08 06 VideoBloX User Manual Compliances and Safeguards FCC COMPLIANCE STATEMENT INFORMATION TO THE USER This eguipment 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 when the eguipment is operated in a commercial environment This eguipment generates uses and can radiate radio freguency energy and if not installed and used in accordance with the instruction manual may cause harmful interference to radio communications Operation of this eguipment in a residential area is likely to cause harmful interference in which case the user will be reguired to correct the interference at his own expense responsible for compliance could void the user s authority to operate Caution Changes or modifications not expressly approved by the party the equipment CANADIAN COMPLIANCE STATEMENT This Class B digital apparatus complies with Canadian ICES 003 Cet appareil num rique de la Classe B est conforme la norme NMB 003 du Canada all federal state ad local laws and statutes concerning the monitoring and recording of video and audio signals Honeywell video systems shall not be held responsible for the use of this product in violation of current laws and statutes Caution Users of the product are responsible for checking and complying with Rev
22. The output module has a range of jumpers which are populated to determine which group of 16 video outputs the module receives from the backplane A Caution The user should not modify the jumpers Output cards should be ordered for specific output channels DIP SWITCH SETTINGS Refer to Chapter 7 TITLED VIDEO OUTPUT MODULE DIP SWITCH SETTINGS VIDEO OUTPUT GAIN ADJUSTMENT Refer to Chapter 7 TITLED VIDEO OUTPUT MODULE VIDEO OUTPUT GAIN ADJUSTMENT OUTPUT RANGES The output cards use a daughter board to set the output range i e monitor 1 16 or 17 32 etc Refer to the appropriate paragraph in Chapter 7 TITLED VIDEO OUTPUT MODULE DAUGHTER BOARD SETUP MODULE BOARD SETTING VIDEO OUTPUTS 1 64 MODULE BOARD SETTING VIDEO OUTPUTS 1 16 MODULE BOARD SETTING VIDEO OUTPUTS 17 32 MODULE BOARD SETTING VIDEO OUTPUTS 33 48 or MODULE BOARD SETTING VIDEO OUTPUTS 49 64 for the desired output range and positioning of the daughter board Rev 1 00 44 900 0809 08 06 TITLED VIDEO OUTPUT MODULE DESCRIPTION The titled video output module provides 16 titled video signals from the VideoBloX chassis Each of the outputs is associated with one of the 64 backplane channels Table 7 1 Titled Video Output Modules pose posestev HVB8TO 8 Titled Video Outputs HVB16TO 16 Titled Video Outputs Figure 7 1 Front and Rear Views of Titled Video Output Module Rev 1 00 45 900 0809 08 06 TITLED VIDEO OUTPUT MOD
23. 1 00 ix 900 0809 08 06 Compliances and Safeguards responsible for compliance could void the user s authority to operate Caution Changes modifications not expressly approved by the party the eguipment EUROPEAN COMPLIANCE STATEMENT This is a Class B product In a domestic environment this product may cause radio interference in which case the user may be reguired to take adeguate measures all federal state and local laws and statutes concerning the monitoring and recording of video and audio signals Honeywell Video Systems shall not be held responsible for the use of this product in violation of current laws and statutes Caution Users of the product are responsible for checking and complying with IMPORTANT SAFEGUARDS 1 READ INSTRUCTIONS All safety and operating instructions should be read before the unit is operated 2 RETAIN INSTRUCTIONS The safety and operating instructions should be retained for future reference 3 HEED WARNINGS All warnings on the unit and in the operating instructions should be adhered to 4 FOLLOW INSTRUCTIONS All operating and use instructions should be followed CLEANING Unplug the unit from the outlet before cleaning Do not use liquid cleaners or aerosol cleaners Use a damp cloth for cleaning 6 ATTACHMENTS Do not use attachments not recommended by the product manufacturer as they may result in the risk of fire electric shock or injury to persons 7 WATER AND
24. 5 Jo Y pneg 0 Od JO pneg jes BIJUOD Buisn Z ueis s uy perddns zi eiqeo CL 9 0N aJemyos IND 19N pue uongjsx10M INO 19N pue BijuoD INS 19N pue xolgoeptA ALOO J9AJ9S ALII eit olqeJ 900 0809 08 06 94 Rev 1 00 VideoBloX User Manual 8822 961 008 MMM LOL E2b200d ON HKJMA IJUOH S0 O3Q 6c 1H9IHMO 3 WaISAS pue e201 COCO 000 0000 GGE pug cap SIOVBN PIUCO 12207 4 Gano BEBB 0000 eB 0000 0000 GERE dl 2185 08 06 900 0809 95 Rev 1 00 SYSTEM INSTALLATION DIAGRAMS Notes Rev 1 00 96 900 0809 08 06 CONNECTING AHDR HRHD DVRs INTRODUCTION This appendix is a step by step guide to setting up the AHDR HRHD Series DVRs and controlling them with a VideoBloX system controller An HVBPIT44 protoc
25. 59 900 0809 08 06 AUDIO OUTPUT MODULE Rev 1 00 60 900 0809 08 06 10 CHASSIS INTERLINK INPUT AND OUTPUT MODULE DESCRIPTION The Chassis Interlink Input and Output Modules allow for multiple chassis to be connected together increasing the number of inputs of a matrix switching system Figure 10 1 HVB32LKO Chassis Interlink Output Module with Rear Terminal HVBRJ45X8 CHASSIS INTERLINK OUTPUT ki PWR 29 25 21 17 CHASSIS INTERLINK 1 5 9 13 32 28 24 20 4 8 12 16 Figure 10 2 HVB32LKI Chassis Interlink Input Module with Rear Terminal HVBRJ45X8 CHASSIS INTERLINK INPUT 29 25 21 17 CHASSIS INTERLINK 1 5 9 13 TO To To To To 32 28 24 20 4 8 12 16 Input and Output Interlink modules have the following features e 32 input output channels allowing for high density interconnects Balanced video driver and receivers allow high quality twisted pair connections for video The Main chassis of a matrix is that which incorporates the video output modules which connect to video monitors All other chassis are Sub Racks which use interlink modules to connect their backplane signals to the main chassis Rev 1 00 61 900 0809 08 06 CHASSIS INTERLINK INPUT AND OUTPUT MODULE There are no adjustments DIP switches on the interlink output module User configurable jumpers allow this modu
26. 7 Jumper JP3 JP4 JP5 Settings Jumper P8 is used to define the video format NTSC or PAL of the CPU module Figure 3 8 Jumper P8 Settings Note that to change the video mode it is necessary to change crystal Y1 NTSC 14 318 MHz H gt Um PAL 17 734 MHz P8 SETTING Rev 1 00 24 900 0809 08 06 VideoBloX User Manual Toggle Switch SW1 Toggle switch SW1 is no longer populated on the HVBCPU board If you have an older version of the CPU module with this switch populated and are using the an arbitration module in your system refer to the following table for setting SW1 If there is only one CPU module and no arbitration module is installed in the chassis SW1 should be set to disabled Figure 3 9 Toggle Switch SW1 for CPU Selection Table 3 8 Toggle Switch SW1 CPUA CPU is assigned CPU 1 in the chassis Disabled Only CPU in the chassis CPUB CPU is assigned CPU2 in the chassis FUSES The CPU card has two 2 PCB mounted fuses rated at 4A each These fuses should only blow in the event of a fault on the board In such an event the CPU module should be returned to a Honeywell distributor for repair Rev 1 00 25 900 0809 08 06 CPU MODULE CONNECTIONS Refer to Appendix B of this manual for sample system block diagrams RS422 Communication Ports Master and Satellite All RS422 communications ports use the following pin outs Table 3 9 HVBCPU RS422 Communication Port Pin Outs
27. CONNECTING A MICROPHONE TO THE AUDIO INPUT MODULE The following diagram shows how to connect a microphone to the Audio Input Card Set the phantom power jumpers on the audio input module as described in paragraph Phantom Power Jumpers and 20dB Pad Jumpers Figure 8 5 Connecting a Microphone to an Audio Input Audio Input Module tp Use twisted pair shielded Cable Shield L 5 30VDC Out Cold Out Hot Ground Ground Gain Adjust Mic Capsule Rev 1 00 57 900 0809 08 06 AUDIO INPUT MODULE Rev 1 00 58 900 0809 08 06 AUDIO OUTPUT MODULE DESCRIPTION The audio output module provides 16 audio output signals from the VideoBloX chassis Each of the outputs is associated with one of the 64 backplane channels Figure 9 1 Front and Rear Views of 8 and 16 Channel Audio Output Modules 18 476 413 2 19 MA 8 sla B 3 2 La fm im im im m im im fa im im ka dm im A m mo Modules are eguipped with Front panel accessible gain adjustment Balanced differential signal output Limited protection against over voltages such as those induced by a nearby lightning strike The output module has a range of jumpers which are populated to determine which group of 16 audio outputs the module receives from the backplane Caution The user should not modify the jumpers Output cards should be ordered for specific output channels Rev 1 00
28. DIP Switch S3 1 2 not used set to off e DIP Switch S3 3 5 Only switch has been implemented When switch is on will mute reply s back to the CPU Used for systems that have 2 or more input cards with the same address e g systems with more than 64 outputs e 93 6 is used for testing to switch 16 cameras to the outputs If the address is 1 cameras 1 16 will be switched to monitors 1 16 If the address is 2 cameras 1 16 will be switched to monitors 17 32 etc S3 7 is a test mode that will randomly switch cameras to monitors Used by manufacturing e 93 8 is not used Rev 1 00 40 900 0809 08 06 VideoBloX User Manual LED INDICATIONS The LED on the front panel of the input card illuminates to show power Each time that a serial message is received via the backplane and is addressed to the module the LED will flash off briefly ADJUSTMENTS Video Input Gain Setting Each input has an adjustable gain which is used to adjust for differing levels of the video input signal SW2 must be set to ON to adjust the gain Figure 5 8 Video Input Gain Enable Disable SW2 and Termination SW1 This level should be set such that the input signal is amplified to provide 2 volts 0 6V sync and 1 4V peak white on the backplane when the backplane is terminated into an output card Should the output card be calibrated then the input may be set to provide a 1 volt 0 3V sync and 0 7V peak white when terminated into
29. a 75 ohm load Rev 1 00 41 900 0809 08 06 VIDEO INPUT MODULES Figure 5 9 Video Gain Adjustment M Termination The termination switch SW1 should be set to On 75 ohm position unless the input is looped to other video products Should the input be looped to another device then ensure that the signal is terminated only at one position The termination should always be set to on at the last video device Refer to Figure 5 8 for an illustration of termination switch SW1 FUSES The input module has one PCB mounted fuse rated at 4A This fuse should only blow in the event of a fault on the board In such an event the input module should be returned to Honeywell for repair Rev 1 00 42 900 0809 08 06 VIDEO OUTPUT MODULES DESCRIPTION The video output module provides 16 video signals from the VideoBloX chassis Each of the outputs is associated with one of the 64 backplane channels Table 6 1 Video Output Modules Model Description HVB80 8 Outputs HVB160 16 Outputs Figure 6 1 8 and 16 Channel Video Output Modules Front View Figure 6 2 8 and 16 Channel Video Output Rear Panel Termination Modules 0191919900000 S 9 9 9 Rev 1 00 43 900 0809 08 06 VIDEO OUTPUT MODULES Modules are eguipped with Front panel accessible gain adjustment e Limited protection against over voltages such as those induced by power surges and nearby lightning strikes
30. and a MAXPRO Net Server without Redundancy Reguired hardware e PC running MAXPRO Net software VideoBloX Chassis CPU module is not required e VideoBloX HVBMATPIT Matrix Protocol Translator CONNECTIONS Refer to Figures D 1 and D 2 Rev 1 00 103 900 0809 08 06 CONNECTING TO MAXPRO Net SERVER DIP Switch Settings VideoBloX Chassis Power Supply Module Set the VideoBloX Chassis as a slave chassis Table D 1 VideoBloX Chassis DIP Switch S1 Settings HVBMATPIT Set the HVBMATPIT DIP Switches S1 S3 as shown in Table D 2 Table D 2 HVBMATPIT DIP Switch S1 S3 Settings Rev 1 00 104 900 0809 08 06 VideoBloX User Manual LED OPERATION After completing installation 1 Both LEDs on the HVBMATPIT should be lit solid 2 The TX RX and RTS data LEDs on the VideoBloX power supply module should be flashing The Video Input Card LEDs should be flashing Upon receipt of a valid command from the MAXPRO Net PC both yellow and green LEDs on the PIT should flicker Rev 1 00 105 900 0809 08 06 CONNECTING TO MAXPRO Net SERVER Rev 1 00 106 900 0809 08 06 VideoBloX User Manual Connecting Redundant MAXPRO Net Servers to VideoBloX Matrix Switcher Figure D 1 pleogAoy ayen Lid LWNGAH v eui 0 Ajddns Jemod jeuonippe ue jou 9LLJEZVGAH 241
31. e 1 5 7 are not used S1 8 Restores the defaults clears all titles VIDEO OUTPUT GAIN ADJUSTMENT The default for the output level adjustment is to provide an overall normalized system gain To set the system for normalized gain first adjust the input gain as described in Chapter 5 VIDEO INPUT MODULES Video Input Gain Setting Then with the output terminated into 75 ohms adjust the rear panel gain so that the output signal level is the same as the input signal level Normally either of the methods described could be used Should it be required to generate a non standard video signal level such as boosting the signal to compensate for long cable runs adjust the gain in order to achieve the desired output signal once the input gain has been adjusted as described Rev 1 00 47 900 0809 08 06 TITLED VIDEO OUTPUT MODULE RESTORING FACTORY DEFAULTS With the output module out of the chassis and disconnected from power 1 2 Place DIP switch S1 8 in the Off position Leave it in the Off position for 10 seconds This clears the non volatile memory of the Titled Output module Return the switch to the ON position Reinstall the module in chassis When power is applied to the module the module defaults to a diagnostic mode and initializes defaults Perform one of the following to clear the diagnostics Once again remove the module from the chassis and reinstall it e Remove power to the chassis and then power it b
32. oi QXL Lzuld ISEN 01 uonoeuuoo ZZrSH 104 Vp JE OVAVZ 8 Nuke snjd peunseeui OWApzZ JOOPINO vL JE OWApZ 9JinbeJ Joopu eBeyoA1ndu OVA 1inbai 900 0809 08 06 92 Rev 1 00 VideoBloX User Manual 88 0 962 008 1 UlO9 OSPlA J9MA9UOUy MM II9M OUOH LOL ASH 1092000 ON 90 080 62 IHOIHMO 5 JIVA NMVHO B JS ZEZSA O CODE ESO 2 61 nejed yod e e S 2 d JO ejes pneg 0 Jo ejes Byuoo xojgoepia Z perddns 2 9 ON eit 91925 5 IND 19N jeuondo pue xolgoeptA 900 0809 08 06 93 Rev 1 00 SYSTEM INSTALLATION DIAGRAMS 88cc 96Z 008 L MM 00 ON 90 030 62 IHSIHMO SIND PIHIOMJIN JIVA NMVHO 15 22254 f 5 n dojysep eu uo 104 U9 IMS uo JN JNO oepiA j2euuoo pue ALNIM pe ende oepiA je Su 9 ON HOMION dl dO2 L 89 2 61 Hod
33. possible to interconnect more than one chassis either at the same location or at different locations with suitable data and video interlinks between the various racks The form of interlink is dependent on the system type and could be hard wired fiber optics radio microwave or other If there are a large number of video sources at a location which is remote from the monitoring location then it is generally more cost effective to distribute the matrix switching system by locating a subchassis at the remote site s This principle can be repeated for any number of remote sites Regardless of the number of subchassis required for a system there will generally be one chassis which is allocated as the system master The master chassis must contain a CPU module The only time a CPU module is not required in the master chassis is if the VideoBloX chassis are being controlled by a MAXPRO Net Server Generally all VideoBloX modules have their own on board local power supply units All signal lines that run to the field are protected against limited over voltages Where any processing is required this is done to the greatest possible extent in a distributed manner with each module taking care of it s own housekeeping Local supply voltages are monitored and the module will be reset if the supply falls below the minimum threshold Watchdog timers monitor the operation of local CPU circuits and reset the circuits if a malfunction is detected Each module h
34. similar to that of the CPU described in Section 3 Push Buttons Diagnostic output is shared with Monitor Output 1 A time out disables the diagnostic feature and returns monitor one to normal operation LED INDICATIONS The front panel LEDs are used to display power and communication activity as follows Figure 4 3 LED Indicators Communication Activity e SIV AUX 4 3 Combo CPU LED Indicator Functions On gt chassis has power Flashes for a change detected on the backplane either a input card changing between on line off line mode or video being lost restored SLV Flashes for a change detected on the Bossware slave channel either a PCK keypress or joystick movement Flashes for data received on the PC configuration port Flashes for data received on the auxiliary satellite port Rev 1 00 31 900 0809 08 06 COMBO CPU MODULE RESTORING FACTORY DEFAULTS With the Combo CPU out of the rack and disconnected from power Figure 4 4 Combo CPU Restoring Factory Defaults 1 Move jumper JP1 to position 2 2 Leave JP1 in this position for 10 seconds This clears the non volatile i Hr aj memory of the 1 IT JUHPER JP1 TO POSIIJOM2 1 Combo CPU BM 3 Return jumper JP1 to position 1 4 Reinstall the Combo CPU in the rack When power is applied the default settings will automatically be loaded Rev 1 00 32 900 0809 08 06 VIDEO INPUT MODULES DESCRIPTI
35. the chassis Termination cards for BNC input output D type connectors alarm connectors etc are available Although modules are position independent it is necessary to match the module with the termination card All commonly used adjustments are accessible from the front Adjustments switch settings which are made once at the time of installation or when major reconfiguration is carried out are accessed by removing a module Refer to REMOVING A MODULE FROM A VIDEOBLOX CHASSIS Rev 1 00 3 900 0809 08 06 INTRODUCTION REMOVING A The VideoBloX chassis incorporates the following components Backplane The backplane provides for distribution of power and control signals as well as 64 audio or video or mixed signals The distance between modules is 1 2U Cooling System VideoBloX is eguipped with fans which provide forced cooling to ensure reliable operation for a fully populated chassis in ambient temperatures up to 104 degrees fahrenheit 40 degrees Celsius Highly efficient switch mode power supplies are used throughout which minimizes the power dissipated internally Termination card mounting slots Located on the rear of the VideoBloX chassis allowing for different style termination cards to be fitted Module mounting slots Located on the front of the VideoBloX chassis allowing for insertion of the full range of VideoBloX modules except the power supply unit Power supply slot Allowing for insertion of the power
36. Arbitration module internal error status press and hold the Buzzer Clear button for 5 seconds The active CPU is indicated by illuminating either the CPU A On or CPU B On LEDs Should one or more errors be present on a CPU the associated CPU fault LED will be illuminated CONNECTIONS For a complete description of the functions and pin outs of the connectors please refer to Chapter 3 CPU MODULE CONNECTIONS With reference to the above rear view of the arbitration module in a 4U chassis All connections from CPU A are looped into the Arbitration connectors marked Connect to CPU A All connections from CPU B are looped into the Arbitration connectors marked Connect to CPU Connections to field devices are connected to the Arbitration connectors marked Connect to Field Rev 1 00 73 900 0809 08 06 CPU ARBITRATION CONTROLLER MODULE SWITCH SETTINGS DIP switch S1 and S2 select which errors will be monitored by the Arbitration module When a switch in on monitoring of the associated operation is enabled Table 12 1 CPU Arbitration Module DIP Switch Settings Bestar ra po mni FT eere ZZ po parne ______ TTT ooo mni C E lt 8 Reserved The remaining DIP switches are currently reserved Rev 1 00 74 900 0809 08 06 VideoBloX User Manual FRONT PANEL PUSH BUTTON OPERATION The Arbitration module allows for viewing of the status of the attached CPUs Selection of C
37. Connections s cuc gods 24 84 Bee SRE 3 374 99 LEH obe ERO d d 65 Figure 11 1 Front and Rear View of Secondary Communications Expansion Module 67 Figure 11 2 JP1 and 2 RS232 Jumper Settings 68 Figure 11 3 JPS RS422 Jumper Settings s s sob hm ES E SU ORE ER UE 69 Figure 12 1 Front and Rear View of CPU Arbitration Module 71 Figure 12 2 Typical Rear View of Arbitration Module and 2 CPU Modules 4U Chassis 72 Figure D 1 Connecting Redundant MAXPRO Net Servers to VideoBloX Matrix Switcher 107 Figure D 2 Connecting a Single MAXPRO Net Server to VideoBloX Matrix Switcher 108 Rev 1 00 vi 900 0809 08 06 VideoBloX User Manual TABLES Table 1 1 VideoBloX Chassis uo ee dox a READE ee oe 3 Table 2 1 Connector PimOuts Female DBO gt 4 4 d ok m RU NE sama 11 Table 2 2 DIP SWitch SCHINGS oed Poe Ew ale 14 Table 2 3 Chassis Syne Signal g avec age UE Rode ok SHEE JE HOS SE BG OR EG GS 14 Table 2 4 LEDINGICAIONS o3 9 eom e yo qoem d obe Ge ed kd S e al 16 Table 3 1 HVBCPU Module PONS 2 3 selen sea dt mda OSG ue x E eR oops 18 Table 3 2 HVBCPU DIP Switch 1 Settings 2 ca maem mno m oo ee ee ER dem Ra 19 Table 3 3 HVBCPU DIP Switch 2 Settings 2 2 3d 8448465 ed E ERE X n WR OR A 19 Table 3 4 FIVBGPU DIP Switeh Seli
38. D SETTING VIDEO OUTPUTS 1 64 49 MODULE BOARD SETTING VIDEO OUTPUTS 1 16 50 MODULE BOARD SETTING VIDEO OUTPUTS17 32 50 MODULE BOARD SETTING VIDEO OUTPUTS33 48 51 MODULE BOARD SETTING VIDEO OUTPUTS49 64 51 8 AUDIO INPUT MODULE 4 4 ee eed ee ee RARE eRe 53 DESCRIPTION Er Aare OO EU E V ee oe we Be wo rar a V Ros Ro ew ad 53 DIP SWITCH SETTINGS gt iuo 84 Seb aa Xo 54 CONFIGURATION JUMPERS 55 Phantom Power Jumpers and 20dB Pad Jumpers 55 Low Pass and High PassFillerJumpers 55 Rev 1 00 ii 900 0809 08 06 VideoBloX User Manual Gain Adjustment 44544 aada 4 e e bdo he er on dob Ros bod Peed Pos 56 CMRR Adjustment 2 oom c boy O3 om 9o o9 a NO E ee de 56 CONNECTING A MICROPHONE TO THE AUDIOINPUTMODULE 57 9 AUDIO OUTPUT MODULE OS ED ex m mom mo m m m ee Awe 59 DESCRIPTION tronas se v we SURE We Ea e Ul Pe oW egy ue 5 59 10 CHASSIS INTERLINK INPUT AND OUTPUT 61 DESCRIPTION ta deco es Bogs Foe Ge de E E EU UR REB 61 DIP SWITCH SETTINGS e ke SC IM ee ee RUE WOES Rex ym A et 63 CONNECTIONS HVB32RJ45X8
39. Different rear terminations can be used with each input card to alter the connection method to the chassis or card The standard video input is connected by means of a BNC connector mounted on the rear termination panel CROSS LINK VIDEO INPUT MODULES When a system reguires more than 64 video outputs the maximum allowed in a single rack cross looping input rear termination modules may be used These modules allow for a cross connection of 8 video inputs from each of the style A and C modules When connected using coaxial ribbon cables each chassis receives all 16 video inputs The B style cross connection module allows for interconnection of up to 4 VideoBloX chassis Figure 5 4 Type A B and C Cross Link Looping Input Termination Modules LINK 1 16 LOOP OUT LINK 1 16 LOOP OUT LINK 1 16 CROSS LINK STYTLE B INPUT INPUT 16 The following drawings show examples of how the Cross Link Video Input Modules installed when more than 64 video outputs are reguired Rev 1 00 35 900 0809 08 06 VIDEO INPUT MODULES VideoBloX Switching System with 128 Video Outputs 2 chassis Figure 5 5 VideoBloX Matrix Switcher with 128 Video Outputs 2 Chassis Chass
40. H E Uld 69 CEZSH HILSVN LidLVWYAH Aq Jojoeuuo Aq pap aoid 40328uu02 fY 69 SOdVOHAJM ZNOD SMOVNMANS HOD H3AH3S LINOHAXVW JAVIS 900 0809 107 Rev 1 00 08 06 CONNECTING TO MAXPRO Net SERVER Connecting a Single MAXPRO Net Server to VideoBloX Matrix Switcher Figure D 2 co o eo e SPENUELU 019434 4983 o paraauuco aq 52 14 adn DA lam AeuoH 104195 Z d SIH PUE PELIJJAH JI 210 XL zuld XL LUId lPeLIdgAH Jed g dn 5214 90H A JASEN copSd joomag puourag 214 9QH 104 S UMS uoume 410 khlid AH u0 40 2 40 2 up 4 15 49445 poud 24445 4325 ONO GUld OND GS Uld PREME XL huld Xd Uld 19980001 SLU 1 bbLIdGAH SSSEYO UUS MIJE XO gospta OL XH zulJ XL zuld XH XL 1 Uld SAWS 22484 YALSVIW 2284 91142249 AH FH EI 5901 30 07914 OL STSNNYHO LIST EA CJ EJ ER EN EA E 102001 09 22454 9 142279 AH A FEER NO 8 330 8 NO 8 330 2 330 2 330 4 440 9 330 9 330 9 NO 310 dd0 dd0 b 440 b 440 b NO 440 440 330 2 330 2 NO Z 330 1 330 1 330 1 gS m SENILIS HOLIMS dlO LidLWASAH 22754 HILS VW ONO GUI
41. Honeywell VideoBloX Matrix Switcher User Manual 900 0809 August 2006 Rev 1 00 History Issue Date Revisions Document VBMU001 136 A January 2005 Initial Release March 2005 Added connecting a microphone to the audio input module EC03325 June 2005 Changed FCC Class from A to and added UPS reguirements added voltage reguirements for 2U chassis EC03373 D August 2005 EC03430 Add warning for power supply requirement for HVB2U chassis revised power requirements from 12VAC VDC to 18VAC VDC added CE DoC for HVB2U VideoBloX Lite E February Add Appendix D System Installation Diagrams correct the procedure for restoring 2006 the default settings on the titled video output module Document 900 0809 1 00 August 2006 Convert to Agile part number and Framemaker Remove Appendix B and C for NETCPU add pin connections for RJ45 connectors on chassis interlink modules move Appendix D to Appendix B add Appendix C for AHDR HRHD DVRs add Appendix D for connecting to a MAXPRO Net Server add Appendix E for networking chassis add installation drawings for video input modules in multiple chassis add installation drawing for connecting control signals on multiple chassis add procedure for removing and inserting modules in the chassis Rev 1 00 900 0809 08 06 VideoBloX User Manual CONTENTS Compliances and Safeguards ix FCC COMPLIANCE 5 5
42. IoXCFG DBF 3 Start the VideoBloX Configuration program Start gt Programs gt VBIOXCFG gt Vbloxcfg 4 Click on Rev 1 00 98 900 0809 08 06 Honeywell Video VideoBloX Configuration VideoBloX User Manual 5 Click on the CONTROL tab Set the parameters as shown in the screen shot below Edit DBF ENENH Upload ALL Download Download AL System Inputs Titles Outputs Scenes Groups Alarms Users Keyboards TOD Messages Sequence Control M Device Text Name DE Select DR 419 Select Key Apply DR 18 Key Zero Port E Maximum 128 ES Device Type ES Database File AHDR db B i z Configuration Use this screen to configure the control of external CCTV peripherals The R5232 command strings must be entered for each key The DATABASE FILE is selected by clicking the notepad button beside the window and selecting the appropriate AHDR db file from the list The SWITCH OFFSET number will be the camera input your AHDR HRHD is connected to subtract 1 For example if you connected the output of the AHDR HRHD to input 33 on the VideoBlox the SWITCH OFFSET will be 32 32 1 is the camera input that will be switched to the monitor when you call up the AHDR HRHD from the system controller After the parameters have been entere
43. MOISTURE Do not use this unit near water or in an unprotected outdoor installation or any area which is classified as a wet location 8 ACCESSORIES Do not place this product on an unstable cart stand tripod bracket or table The product may fall causing serious injury to a child or adult and serious damage to the equipment Use only with a cart stand tripod bracket or table recommended by the manufacturer or sold with the product Any mounting of the product should follow the manufacturer s instructions and should use a mounting accessory recommended by the manufacturer Wall or shelf mounting should follow the manufacturer s instructions and should use a mounting kit approved by the manufacturer Rev 1 00 x 900 0809 08 06 10 11 12 13 14 15 16 17 18 VideoBloX User Manual A product and cart combination should be moved with care Ouick stops excessive force and uneven surfaces may cause the product and cart combination to overturn VENTILATION Slots and openings in the cabinet and the back or bottom are provided for ventilation and to ensure reliable operation of the eguipment and to protect it from overheating These openings must not be blocked or covered The openings should never be blocked by placing the product on a bed sofa rug or other similar surface Eguipment should never be placed near or over a radiator or heat register This product should not be placed in a built in instal
44. Modules Comms Control Connecting Communication Signals between Two Chassis SLAVE CHASSIS Interlink Input Modules Video Output Modules No CPU module required Comms amp Control Rev 1 00 12 900 0809 08 06 VideoBloX User Manual Three Chassis Using straight through cables with Female DB9 connectors on each end 1 Connect the Control Connector on the first master chassis to the Comms connector on the second chassis first slave chassis 2 Connect the Control Connector on the second chassis first slave chassis to the Comms connector on the third chassis second slave chassis 3 Connect the Control Connector on the third chassis second slave chassis to the Comms connector on the first chassis master chassis Figure 2 4 Connecting Communication Signals between Three Chassis o lo FIRST SLAVE CHASSIS o o SECOND SLAVE CHASSIS lo MASTER CHASSIS Video Input Modules Video Input Modules CPU Modul Interlink Input Modules Interlink Input Modules lo 2 lo Video Output Modules o lol Video Output Modules o Video Input Modules No CPU module reguired No CPU module reguired Interlink Input Modules Video Output Modules Comms Comms Comms Control a Control Control ka oH o o D KOD
45. ON The video input module brings 16 video signals into the VideoBloX chassis Each of the inputs may be routed to 1 or more of the 64 backplane channels All input modules have 16 video inputs but can be switched to 16 32 or 64 maximum outputs Older modules have front panel termination switches and some have internal termination jumpers VideoBloX input modules are equipped with Rev 1 00 Their own CPU switching voltage regulator and fuse Older styles have front panel mounted termination switch Newer styles have an internal termination switch located on the front edge of the PCB Front panel accessible gain adjustment 0 to 6db for each input This is useful to restore picture levels for long video runs Typically a poor signal results in jumping or tearing text Adjust this potentiometer can eliminate the jumping text This adjustment can also be useful when the outputs feed a DVR as DVRs are more susceptible to low video levels Internal jumper selectable high frequency compensation to restore lost high frequency signals on long video runs Video Loss detection Allows triggering of a sequence based on video loss and or video restored Limited protection against over voltages such as those induced by a nearby lightning strike The front panel LED illuminates for power and flicker off briefly when a valid command is sent with the card s address 33 900 0809 08 06 VIDEO INPUT MODULES Table 5 1 Video Input Modules Sin
46. P eee 38 Figure 5 8 Video Input Gain Enable Disable SW2 and Termination SW1 41 Figure 5 9 Video Gain Adjusunelil a uos e Rb deum Xo E ds e Sonus ES em wo S kda ip E d 42 Figure 6 1 8 and 16 Channel Video Output Modules Front View 43 Figure 6 2 8 and 16 Channel Video Output Rear Panel Termination Modules 43 Rev 1 00 v 900 0809 08 06 FIGURES Figure 7 1 Front and Rear Views of Titled Video Output Module 45 Figure 7 2 Location of Video Output Daughter Board 46 Figure 8 1 Front and Rear Views ofAudiolnputModule 53 Figure 8 2 Phantom Power Jumpers and 20dB Pad Jumpers 55 Figure 8 3 Low Pass and High Pass Filter Jumpers ca i ss or o Rx 55 Figure 8 4 za 5 566 dea m ub e de deux austada DS Qe t 56 Figure 8 5 Connecting a Microphone to anAudiolnput 57 Figure 9 1 Front and Rear Views of 8 and 16 Channel Audio Output Modules 59 Figure 10 1 HVB32LKO Chassis Interlink Output Module with Rear Terminal HVBRJ45X8 61 Figure 10 2 HVB32LKI Chassis Interlink Input Module with Rear Terminal HVBRJ45X8 61 Figure 10 3 J mperJP1 Settings uas suma a add te RI ERR pex 0586 ed 62 Figure 10 4 DIP Switch i s s amm eee hae RRR SES Oe ee ee ae 63 Figure 10 5 RJ45
47. PU is done by pressing either the up or down arrow key Selection of the parameter to be displayed is done by pressing the left and right arrow keys After approximately 30 seconds the system will automatically revert to the standard display mode The following parameters may be monitored Table 12 2 CPU Arbitration Module Front Panel Push Buttons Status Zero for no faults of a hex representation of the combined fault status The number of times the CPU has been restarted The date and time when the CPU was last restarted The date and time when the CPU was last stopped Backplane The error status for the backplane communications channel Comms see Note 1 Master Comms The error status for the master communications channel see Note 1 PC Comms The error status for the PC communications channel see Note 1 Aux Comms The error status for the auxiliary communications channel see Note 1 Concentrator The error status for the concentrator communications Comms channel see Note 1 Satellite Comms The error status for the satellite communications channel see Note 1 RTC Status The error status for the real time clock see Note 1 Note The display will read OK for no error if an error is detected and Masked if an error is detected BUT the associated function DIP switch is not enabled Rev 1 00 75 900 0809 08 06 CPU ARBITRATION CONTROLLER MODULE Rev 1 00 76 900 0809 08 06 BINARY ADDRESS VALUES Tab
48. SYNC In s SR to edm MO eg odl eh art 9 CHASSIS EXPANSION DRIVER BOARD 10 Control ExpansionConnector 10 Communications ExpansionConnector 10 Control Expansion and Communication Connector Pin Outs 11 CONNECTING MULTIPLE CHASSIS 12 TWO Chassis 44 be od deque bee eed ord des 12 Three Chassis wee oka ee A ee ae ee 13 DIPSWITCH SETTINGS o 2 mets eb ee e Ae eee d x e X Pewee ee S 14 RESET PUSH BUTTON i uo SYS ee Rove mcm w XX RORo ea bbe Pe ad bee dae 15 SYNC PHASE ADJUSTMENT a s s o o n 15 LED INDICATIONS ss 4 DRE Gom e qae dede OE OR x ba Neg os VW x ow w 16 3 CPU MODULE 44 29 dimars ia douce eem EEG ED vee ar aris dmm oe Se EUL A oad 17 DESCRIPTION PTT 17 DIP SWITCH SETTINGS uon Lowe v voe meh oe n wo ee E XOU DG doe XO 19 PUSH se LUE UR E EUROS es RON a JE ENE V CLER a 21 Restore Factory Defaults 21 LED INDIGATORS conum ahh a SR EUESRGE Mk JE GER dr Ce 22 Rev 1 00 i 900 0809 08 06 CONTENTS Display Width Adjustment C3 23 Display Color Burst Frequency Adjustment C5
49. ULE Titled Video Output Modules are eguipped with 24 character by 12 line text generation capability Built in real time clock Non volatile RAM with Lithium battery to back up memory for storing camera titles during power down The camera titles are stored on the output card not on the CPU Limited protection against over voltages such as those induced by a nearby lightning strike DIP SWITCH SETTINGS The video output cards use a daughter board to set the output range i e monitor 1 16 or 17 32 etc Figure 7 2 Location of Video Output Daughter Board Daughter Board Refer to the appropriate paragraph below MODULE BOARD SETTING VIDEO OUTPUTS 1 16 MODULE BOARD SETTING VIDEO OUTPUTS 17 32 MODULE BOARD SETTING VIDEO OUTPUTS 33 48 or MODULE BOARD SETTING VIDEO OUTPUTS 49 64 for the reguired video outputs for positioning of the daughter board Rev 1 00 46 900 0809 08 06 VideoBloX User Manual Set the Titled Output Module DIP switches as follows Table 7 2 DIP Switch S1 Settings 1 8 Off Restore Defaults On Normal e 51 1 2 set the Monitor Group for that output card e g if the card is located in the Monitor group chassis of outputs 1 64 then set S1 1 Off and S1 2 Off If the Monitor Group is 65 128 then set S1 1 On and S1 2 Off and so on in binary count e 51 3 sets the no video screen to blue or black S1 4 places the card in test mode and displays diagnostic info on the output
50. UOLJ ue SE Jid Guisn seouejsip papuayg y 5 5 188 G Si ujBua wnwixe 2 21483 LL PIEPUEJS BIA 1 JO 015138uuo2 apoi Z 84140 HO UO e1e1s SAO 097 MES voj voj VO of Ho UO HO HO M o CO er to co f Joo HO HO UO HO HO O p s0d EFSOd 5 apoy sbumas ssaippy 900 0809 08 06 82 Rev 1 00 VideoBloX User Manual 8822 962 008 1 uIOO O8plA Sj Aou OL NAMA 01 ed 212000 oN1ueuunoog 90 030 82 LHD WMO JIVO NAVHO 0949 1 a iedo 128 372121 PILNA NANO Erat vi Lp Jed LOUD 134 UBIPUS OLNAILN O H03 JOJEJUBIUOJ ue se Jid Buisn paurlejqo ase pepuax 5 S Jaa 6 SI ajgea 81483 L H el Id 10 Ndo 01 52euuoa Z Indu HO UO 81815 GHTSMES s 802 426 cel 3 221 ear eel HO 21 9126 40 i JO 080169 soj vol yo r 9016 soj wo vol wo e oj Ho HO HO HO HO ol oj JO sindu FSO 5 sumas ssalppy 2 1 INdINO 73910 91 uradno O 4 NEMA oum EI MAIA dOL age al
51. ack up while the module is seated or Press the black reset button on the power module cover while the module is seated When power is reapplied to the module the diagnostic mode is cleared Rev 1 00 48 900 0809 08 06 VideoBloX User Manual DAUGHTER BOARD SETUP MODULE BOARD SETTING VIDEO OUTPUTS 1 64 Module position Setup for fst output group of 16 Module position Setup for 2nd output group of 16 Dipswitch determines range Dipswitch determines range Outputs 1 16 Outputs 17 32 Module position Setup for 3rd output group of 16 Module position Setup for 4th output group of 16 Dipswitch determines range Dipswitch determines range Rev 1 00 49 900 0809 08 06 TITLED VIDEO OUTPUT MODULE MODULE BOARD SETTING VIDEO OUTPUTS 1 16 Upper Left Din Connector Sessa Din Connector position Module THES Din Connector FEER Din Connector Upper Left lt Din Connector EEE Din Connector Position Module PE Din Connector EsssssHHHHE Din Connector Module position Setup for 1st output group of 16 Dipswitch determines range Outputs 1 16 Mor TT CETERI MODULE BOARD SETTING VIDEO OUTPUTS 17 32 Upper Left ition amps Din Connector Din Connector HE Din Connector Din Connector Upper 5 Din Connector Left SS Din Connector position Module Din Connector Din Connector Module position Setup for 2nd output group of 16 Dipswitch determines ra
52. ards 19 20 21 22 23 SAFETY CHECK Upon completion of any service or repairs to this unit ask the service technician to perform safety checks to determine that the unit is in proper operating condition LIGHTNING AND POWER LINE SURGES For added protection of this unit during a lightning storm or when it is left unattended and unused for long periods of time unplug it from the wall outlet and disconnect the cable system This will prevent damage to the unit due to lightning and power line surges HEAT The product should be situated away from heat sources such as radiators heat registers stoves or other products including amplifiers that produce heat INSTALLATION Do not install the unit in an extremely hot or humid location or ina place subject to dust or mechanical vibration The unit is not designed to be waterproof Exposure to rain or water may damage the unit WALL OR CEILING MOUNTING The product should be mounted to a wall or ceiling only as recommended by the manufacturer EXPLANATION OF GRAPHICAL SYMBOLS the user that failure to take or avoid a specified action could result in Caution Caution The exclamation point within an eguilateral triangle advises loss of data or damage to the eguipment 1 WARNING Warning The exclamation point within an octagon advises users that failure to take or avoid a specified action could result in physical injury to a person or irreversible damage to
53. as a DIP switch which is used to set the module address and indications which show the critical system operating parameters power and communications A broad range of diagnostics for each module is provided Rev 1 00 2 900 0809 08 06 VideoBloX User Manual RACK MOUNT SYSTEM CHASSIS VideoBloX is housed in an industry standard 19 rack mountable chassis Various chassis heights are available to allow for different sized systems The number of modules which may be fitted is shown in the following table Table 1 1 VideoBloX Chassis Model No Chassis Height Max Modules Typical size HVB2U 2U 3 32 into 8 HVB4U 4U 7 80 into 16 or 64 into 32 HVB8U 8U 15 192 into 32 or 160 into 64 HVB12U 12U 23 320 into 32 or 288 into 64 VideoBloX modules are mounted from the front of the chassis The modules are fitted horizontally to allow for vertical system expansion All modules except the power supply module are position independent Two thumb screws for removing modules from the chassis are provided with each chassis Refer to REMOVING A MODULE FROMA VIDEOBLOX CHASSIS Modules are hot swappable and may be removed and reinserted with the power on The power supply module is fitted vertically beside the other modules This module may not be removed with the power switched on and is not position independent Figure 1 2 VideoBloX Matrix Switcher Rear View HVB4U shown A separate termination card is inserted at the rear of
54. assis is for the low voltage input only Ideally the main input power supply should have low noise levels minimum voltage fluctuation and be protected against power surges and lightning induced over voltages WARNING The main input power supply must be used in conjunction with an uninterruptable power supply UPS rated greater than 400 VA and is CE certified for system reliability The UPS is not provided by Honeywell and is the responsibility of the installer Note that the chassis may alternatively be powered via the low voltage AC DC connector see paragraph Low Voltage Input Connection It is possible to connect both the main input power supply and the low voltage supply to ensure continuous system operation in the event of failure of one of the power sources Low Voltage Input Connection Chassis Sync In This may be connected to a low voltage supply of 19 30 VDC This power input is protected by means of the fuse which is located adjacent to the power connector Note that the chassis may alternatively be powered via the main input power connector It is possible to connect both the main input power supply and the low voltage supply to ensure continuous system operation in the event of failure of one of the power sources Optionally connect the master video synchronization source to this BNC connector This allows for all video switching to take place during the vertical sync of the master video source Note Video switchin
55. d XL zuld 22284 LIdLYWSAH 00855534 Jo spreoghay 12euuco 10152440 4 680 ONO culd XL E Uld XH ZUld 580 6 L WOO ISNOH d XVI speog g Z WOO MONS L WOO co T HJAHJS IJNOH dJ XFN eo o gt tc 08 06 E NETWORKING TWO VIDEOBLOX MATRICES PURPOSE This appendix provides step by step instructions for connecting two VideoBloX matrices to allow the operator of Site 2 to view cameras from Site 1 RECOMMENDATIONS It is highly recommended if possible to set the two systems up side by side to configure and program As the communications between networked systems typically span a wide distance troubleshooting is considerable easier and less time consuming with all the components in one location Once operational the only variable introduced when the systems are in place are the communication connections Rev 1 00 109 900 0809 08 06 NETWORKING TWO VIDEOBLOX MATRICES ADDRESSING THE CHASSIS Each chassis must have a unigue address Set Site 1 to Address 1 and Site 2 to Address 2 as follows Note Use 51 positions 1 to 4 for combo CPU and 51 positions 1 to 6 for the standard CPU module Table E 1 Chassis Addresses CONNECTIONS 1 Connect a data line between the SAT RS422 ports on the standard CPU modules or between the AUX RS232 ports on combo CPU modules in each chassis Table E 2 Standard CPU Connections SAT RS422 ports se Prifuneion
56. d as shown above click the Download button Choose the Titles tab and disable DATE and TITLE from the camera input you have chosen for the AHDR HRHD input click the Download button 8 You may test the programming parameters by pressing the VCR button on the system controller a Ifthe DEVICE TYPE was set as 1 in the control window then pressing it once will bring up AHDR on the controller display b DEVICE TYPE was set as 2 in the control window then pressing it twice will bring up AHDR on the controller display and so on 9 Press 1 then ENTER AHDR 1 Select will be displayed 10 Press PLAY and the following will appear on the display DVR 1 Play Pause 11 While pressing the key several times monitor the LEDs on the PIT and each should flicker on each key press This will indicate that VideoBloX is communicating with the PIT and transferring the data to the Master port Rev 1 00 900 0809 08 06 CONNECTING AHDR HRHD DVRs CONFIGURING THE AHDR1E 1 Atthe system controller call up the AHDR video input by using the CAM selection 2 Press MENU and enter the password left right up down enter is default 3 Select REMOTE CONTROL from the DEVICE menu 4 Set the REMOTE CONTROL to ON 5 Setthe UNIT ID to 1 6 Setcommunications to 9600 8 1 none 7 Select OK and exit programming Other parameters for operating the AHDR1E HRHD series DVRs may be found in the product manual The AHDR1E HRHD will now be
57. ddress Protocol S4 6 Off Normal On Switch 1 to 1 Off lt Normal On lt Test mode e Set the End Address SW3 1 8 and SW4 1 3 to match the address of the last input card within the connected sub chassis e SW4 4 5 are reserved for future use in selecting protocols e SW4 6 is used for testing to switch inputs to the outputs camera 1 to monitor 1 camera 2 to monitor 2 camera 15 to monitor 15 etc e Turn on SW4 7 to enter test mode In this mode the module cycles various inputs to outputs This is useful for bench top fault finding and should not normally be used in the field e SWA 8 is not used Rev 1 00 64 900 0809 08 06 VideoBloX User Manual CONNECTIONS HVB32RJ45X8 Figure 10 5 RJ45 Connections RJ45 Connector R45 Connector Aat Copper Side Hat Copper Sde 568BWiring 568BWiring LI I 1 1 1 1 1 LI LI 1 I I 1 I 1 LI LI I 1 1 1 1 1 LI LI I 1 I I I 1 LI R45 CATS Wire Colors Hin1 Orange White Fin2 Orange Fin3 Green White Fin4 Blue Fin5 Blue White Pin6 Green aasa i SEESSESS 1 5 9 13 TO TO TO TO 4 8 12 16 Rev 1 00 65 900 0809 08 06 CHASSIS INTERLINK INPUT AND OUTPUT MODULE Rev 1 00 66 900 0809 08 06 11 SECONDARY COMMUNICATIONS EXPANSION MODULE DESCRIPTION T
58. de phantom powering for external microphones In all other cases these jumpers should not be fitted 2048 PAD Adding the two 20 dB pad jumpers as per the legend JUMPERS ON above reduces the gain of the audio input stage by 20 level signals Low Pass and High Pass Filter Jumpers Figure 8 3 Low Pass and High Pass Filter Jumpers Place the jumper in the position shown as Hi Filter On to enable the high pass filter function This reduces the level of signals below 300 Hz fmm LOW FILTER OFF HEH FILTER OFF Place the jumper in the position shown as Low Filter On to LOW FILTER enable the low pass filter function This reduces the level of Ml HI FILTER ON signals above 6000 Hz Rev 1 00 55 900 0809 08 06 AUDIO INPUT MODULE ADJUSTMENTS Gain Adjustment Adjust the front panel gain control to an optimum level for the input source for each channel This level will result in a bright LED indication for Signal with only occasional flashes of the Peak LED when the input signal is at the maximum expected level CMRR Adjustment Figure 8 4 CMRR Adjustment This adjustment sets the common mode rejection for the balanced inputs It is factory calibrated and should not be adjusted by the user The optimum level is that where a minimum output signal is obtained when both and input signals are driven by the identical signal inputs shorted Rev 1 00 56 900 0809 08 06 VideoBloX User Manual
59. ed into a chassis or subchassis The software operating system is installed into this module The following hardware subsystems are located within this module High speed processor core EPROM memory to hold system firmware Non volatile RAM memory to store system variables configuration and downloaded system code extensions e Watchdog timer and supply voltage monitor to automatically restart system operation in the event of supply brownouts or software malfunction e Various decoding logic e Power supplies for the CPU module only including isolated supplies for the two communication channels which connect to external equipment Six serial communication channels e 32 Alarm inputs 4 Alarm relay outputs DIP switches for COM channel settings Front panel indications provide basic information relating to the systems overall health and communications activity It is possible to install multiple CPU modules into a single chassis Should this be a requirement then an additional CPU arbitration module must be installed The arbitration module reroutes the major CPU communications channels to the configuration PC and the field devices Should the arbitration module detect a CPU failure the system can automatically switch over to the backup CPU Limited alarm inputs 32 and relay outputs 4 are provided on this module Inputs and outputs may readily be expanded by the addition of the relevant I2C expansion modules o
60. els High pass and low pass filter options Rev 1 00 53 900 0809 08 06 AUDIO INPUT MODULE DIP SWITCH SETTINGS Set the Audio Input Module DIP switches as follows Table 8 1 DIP Switch S1 Settings ia NUNNEENNCL I NN e 51 1 8 sets the module address This must be non zero A value of 1 addresses the card to accept audio inputs 1 to 16 etc Table 8 2 DIP Switch S2 Settings Off Output 1 64 On Output 65 128 Off Normal On Review Stereo Off 2 Normal On lt Route 1 to 1 Off 2 Normal On lt Test Mode e 582 1 Turn on to associate the module with output channels 65 to 128 e 52 2 Turn on to cause the module to work transparently as a slave to another input module This mode allows two cards to work synchronously for switching stereo signals 52 3 Turn on to cause the module to automatically switch its 16 audio inputs to 16 audio outputs on power up In this mode the address switch determines which group of outputs will be used 52 4 Turn on to cause the module to enter test mode In this mode the module rapidly cycles various inputs to outputs This is useful for bench top faultfinding and should not normally be used in the field Rev 1 00 54 900 0809 08 06 VideoBloX User Manual CONFIGURATION JUMPERS Phantom Power Jumpers and 20dB Pad Jumpers Figure 8 2 Phantom Power Jumpers and 20dB Pad Jumpers Fit the two phantom power jumpers as per the legend shown alongside to provi
61. er settings and LED indicators Chapter 4 COMBO CPU MODULE describes the function of the combo CPU Module connector functions and pin outs user settings and LED indicators Chapter 5 VIDEO INPUT MODULES describes the various video input modules available rear panel terminations user settings and LED indicators Chapter 6 VIDEO OUTPUT MODULES describes the video output modules available rear panel terminations User settings for the video output modules are described in Chapter 7 TITLED VIDEO OUTPUT MODULE Chapter 7 TITLED VIDEO OUTPUT MODULE describes the available titled video output modules rear panel terminations and user settings Chapter 8 AUDIO INPUT MODULE describes the available audio input modules rear panel terminations and user settings Chapter 9 AUDIO OUTPUT MODULE describes the available audio output modules rear panel terminations and user settings Chapter 10 CHASSIS INTERLINK INPUT AND OUTPUT MODULE describes the input and output interlink modules for connecting multiple chassis to increase the number of inputs of a matrix switching system Rear panel terminations and user settings are provided Chapter 11 SECONDARY COMMUNICATIONS EXPANSION MODULE describes the expansion module used when two CPUs are fitted into the same chassis Rear panel terminations and user settings are provided Chapter 12 CPU ARBITRATION CONTROLLER MODULE describes the function of the arbitration module for system redundanc
62. ettings ir ems _ PF par s E p js Pp panes PO GEN SEN s es me Backplane Communication Settings VideoBloX User Manual RS422 CONNECTION Upal MASTER SLAVE JPS MASTER BP CONNECTION MASTER SLAVE Set the BP Connection to Master if the controller is external or to Slave if this connection connects to a CPU within the chassis Rev 1 00 69 900 0809 08 06 SECONDARY COMMUNICATIONS EXPANSION MODULE Rev 1 00 70 900 0809 08 06 12 CPUARBITRATION CONTROLLER MODULE DESCRIPTION The CPU Arbitration Module monitors the operation of the CPU in a VideoBloX matrix Should a fault be detected the unit may be configured to automatically switch over to a second VideoBloX CPU Figure 12 1 Front and Rear View of CPU Arbitration Module Rev 1 00 71 900 0809 08 06 CPU ARBITRATION CONTROLLER MODULE OPERATION The Arbitration module has connectors to receive all relevant signals from the two CPUs to which it is connected The default mode which will be selected with power off is to select CPU A Communications alarms I2C expansion and diagnostic video are all routed via relays to field connections It is possible to force the Arbitration module to route either the connections from CPU A or those from CPU B by means of the front panel CPU selection switch When this switch is set to the Auto Select position the system will automatically monito
63. ex ox CD Oy c9 ORT UR ele 98 VIDEOBEOX SETUP Tea imeem e venen M eb aoe eee mo nue RAT bad IE a bes 98 Video Gohnectiors a Rr Ron ke RR EOS Ee D qe se EDU HALO e 98 Configuration zx eae n Exc e Rex dE P dew de Ee UOCE del oboa a FUR EXER E 98 CONFIGURING 100 TESTING THE SYSTEM usum vem e Ma m ke dope db ii ee 101 Appendix D CONNECTING TO MAXPRO Net SERVER 103 INTRODUCTION z soi uo cx Sk aa ew aa Se er ROW de ali 103 GONNEGTIONS picsa eh ek eS ere dw 3o p e ee a ae WO ae ee 103 DIP Switch SettingS s xo a eit ae eee 104 VideoBloX Chassis Power Supply Module 104 HVBMATPIT 2 43 2 ck ae ae ha PE Wu ea ee Ee we ea ea A AP E 104 LED OPERATION 3 5 4 a ard Bon a RE Boe us woe aoe he us ere awk A Bo n 105 Appendix E NETWORKING TWO VIDEOBLOXMATRICES 109 PURPOSES gd 9 bth 52 we ta o XWobee eb he oe ot we Wok wb poed 109 5 109 ADDRESSING THE CHASSIS sins ie eR OE Eee e wee c yu eo E 110 CONNECTIONS a 4 4 35 womtE 42m koa a Gow amp um XAR AUR s doa A X 110 DIPSWITCH SEITINGS 2 euo m dba bd GR ee ia bb ba 3 X RO ba 111 S
64. g may also be synchronized to the mains input or the sync signal on the Control connector Please refer to DIP SWITCH SETTINGS in this section for further information on configuration relating to the sync input Rev 1 00 9 900 0809 08 06 REAR CHASSIS CHASSIS EXPANSION DRIVER BOARD HVBCE This PCB plugs in to the power supply module This board contains the drivers and receivers which are necessary to interconnect master slave chassis together This is reguired when one or more slave chassis are connected to a master chassis For a system which uses only one chassis this board is not reguired Installation Procedure Remove power from chassis Remove 2X fixing screws which secure the power supply module to the front panel Remove power supply module from chassis Line up dual row connector on power supply board with expansion driver board Carefully press board into place Fasten board in place with 2 X M3 mounting screws No BS Pe PoE Insert power supply into chassis carefully lining up with the chassis connector Press all the way in 8 Refasten using 2X fixing screws from Step 2 Control Expansion Connector This female DB9 connector allows for connection of RS422 control signals between multiple VideoBloX chassis The pin out of this connector is automatically modified depending on the configuration of the chassis being a master or slave Refer to D P SWITCH SETTINGS in this section for configuring the chassi
65. gle Chassis Video Input Description Module HVB16M16 16 Inputs switch to 16 Outputs HVB16M32 16 Inputs switch to 32 Outputs HVB16M64 16 Inputs switch to 64 Outputs The boards are identified by the quantity of analog switching array ICs MT8816AP 8x16 switch array The HVB16M16 has 2 ICs the HVB16M32 has 4 ICs and the HVB16M64 has 8 ICs Caution The video input module must match the number of video outputs required That is a system with an HVB16M16 16 video outputs cannot later be increased to a 32 output matrix unless the video input card is replaced with an HVB16M32 32 video outputs module Figure 5 1 Video Input Modules 2 front panel options VEKO BUT o e e o o o o van VIDEO INPUT OF c9 OF DOF Of ot 0 coe oe oe ce ce selo S PAR 1 2 s s 7 e LI 0 11 18 13 14 15 16 There a number of rear panel termination options Figure 5 2 Video Input Module Standard 16 BNC Inputs 29999999 O O O O O OO O Figure 5 3 Video Input Module Looping BNC Inputs 00600000000000 Rev 1 00 34 900 0809 08 06 VideoBloX User Manual The looping card allows for looping of video inputs to another matrix switcher chassis or to an external video device such as a VCR DVR or multiplexer Note that if a looping termination card is installed a blank cover plate will be needed above the input card on the front of the chassis
66. he Secondary Communications Expansion Module is used to access the secondary backplane communications channel This channel is generally used when two CPUs are fitted into the same chassis and the second CPU has communications jumpers configured accordingly Note that this differs from a redundant CPU as described in section 13 where only one CPU is active at any one time and both CPUs use the same backplane communications channel Figure 11 1 Front and Rear View of Secondary Communications Expansion Module The Secondary Communications Expansion Module has the following features RS232 and or RS422 communication options RS422 RS232 master or slave connection pin out Capability to connect to backplane communications as a master or slave device Rev 1 00 67 900 0809 08 06 SECONDARY COMMUNICATIONS EXPANSION MODULE Jumper Settings RS232 Settings Figure 11 2 JP1 and JP2 RS232 Jumper Settings JP1 and JP2 change the pin out of the RS232 DB9 connector by swapping the TXD and RXD signals as per the following table Table 11 1 JP1 and JP2 Jumper Settings RS232 CONNECTION MASTER SLAVE Pin 1 4 and 6 are internally connected Pin 7 and 8 are internally connected Rev 1 00 68 900 0809 08 06 RS422 Settings Figure 11 3 RS422 Jumper Settings JP3 changes the pinout of the RS422 DB9 connector by swapping the transmit and receive pairs as per the following table Table 11 2 JP3 Jumper S
67. ignal conditioning for 16 video inputs as well as matrix switching of these inputs All video inputs to the system are via these modules Video output modules These provide protection and signal conditioning for up to 16 video outputs The units are available in 8 channel and 16 channel versions each of which may optionally include independent video titling on each output 1 900 0809 10 06 INTRODUCTION FEATURES The entire system is based on a modular approach allowing for flexibility in configuring video control systems to suit a wide variety of applications 4080 video inputs to 2048 video outputs 32 keyboards and or GUls Graphic User Interfaces e 32 on board alarm inputs expandable to 256 using I2C modules 4on board relay outputs expandable to 256 using I2C modules e 6 serial ports e 32 programmable video groups and 512 video scenes groups consisting of scenes are assigned to keyboards and users for ease of video management 1024 25 steps each programmable sequences 64 programmable time of day events e 256 x 24 character text message table SYSTEM OVERVIEW The configuration of a video surveillance monitoring control system is highly dependent on the operational requirements of the system The modular building block approach allows for different system configurations to be readily set up to suit differing application requirements Each system must contain at least one VideoBloX chassis It is
68. ing System with 128 Video Outputs 2 chassis 36 VideoBloX Switching System with 192 Video Outputs 3 Chassis 37 DIP SWITCH SETTINGS 38 FVBIGMIG 2 2 Bacio ERA a aR m eG E HR E E Ru 38 HVB16M32 and HVB16M64 39 LED INDICATIONS x4 Ge AA RUE WR a Aw A EURO SOR A A 41 ADJUSTMENTS gosari x ote Ge eR Pee alg leke ba lee bho ae 41 Video Input Gain Setting 41 B nie mE Za LL eee Rae ee ee ie eo n 42 FUSES ea Sha PRY ee Eee be eae eg ee UE e 42 6 VIDEO OUTPUT MODULES 4 4 45 Gea See ee ree ee ee eee ee Ee ee 43 DESCRIPTION ach poa mme mE Oe le ee ee RU RC UD ee ae 43 DIP SWITCH SETTINGS 1 20500 ml Xe ee RB X 9 eee ee 44 VIDEO OUTPUT GAIN ADJUSTMENT e e e seo o o ss 44 OUTPUT RANGES Exe RS ESI RE Pw Roe we kp eee vl ig a we d e 44 7 TITEED VIDEO OUTPUT MODULE 2 aici doe ah qe ae elu oo haben Gaas 45 DESCRIPTION 5 ons Boe be RARER ROW 4 4m aE OR eo RR C t m dis 45 DIP SWITCH SETTINGS o d sce ca reati ho s ser ron s 46 VIDEO OUTPUT GAIN ADJUSTMENT 47 RESTORING FACTORY 5 48 49 MODULE BOAR
69. is 1 Video Outputs 1 64 Chassis 2 Video Outputs 64 128 HVB16M64 and HVB16M64A Video Inputs Modules HVB16M64 and HVB16M64CVideo Inputs Modules Video Inputs 1 8 Video Inputs 9 16 HVB16COAX COAXIAL RIBBON CABLE 4 Video Inputs 17 24 v Video Inputs 25 32 4 HVB16COAX COAXIAL RIBBON CABLE Video Inputs 33 40 Video Inputs 41 48 HVB16COAX COAXIAL RIBBON CABLE Rev 1 00 36 900 0809 08 06 VideoBloX User Manual VideoBloX Switching System with 192 Video Outputs 3 Chassis VideoBloX Matrix Switcher with 192 Video Outputs 3 Chassis Figure 5 6 JIGVO NOGAH TVIXVOO XVOO 9VSAH 600000004 Sy Ly sinduj oapIA n JIAVO NOGAH TIVIXVOO XVOO 9VGAH T 22 92 sinduj oepiA 1 JAVO NOGAH TVIXVOO XVOO 9GAH ae 60000006 t 91 6 sinduj oepiA 1 sjndu OFINILAAH PUP TONILEAH 261671 sind3no sisseu Tavo NOGAH TIVIXVOO XVOO 9VGAH 00000000 UD 1 Opg sindul JAVO NOGAH TVIXVOO XVOO 9GAH le OL t SE sjndu gYINJLTAH PUP 8Z1 g9sindino oapPIA 2 5652 0 t LI oepiA
70. l is set to ADD1 in Satellite for the camera and DOWNLOAD No Interconnects have been set Check the Interconnect settings and DOWNLOAD Site 2 LED flashes but Site 1 LED does Check communication cable pin not outs baud rates and chassis address Verify page 17 of the Diagnostic video from the CPU shows a real time assignment of the cameras to the Links Rev 1 00 113 900 0809 08 06 NETWORKING TWO VIDEOBLOX MATRICES Rev 1 00 114 900 0809 08 06 Honeywell Video Systems Head Office 2700 Blankenbaker Pkwy Suite 150 Louisville KY 40299 USA www honeywellvideo com 5 1 800 796 2288 Honeywell Security Australia Pty Ltd Unit 5 Riverside Centre 24 28 River Road West Parramatta NSW 2150 Australia www ademco com au 78 61 2 8837 9300 Honeywell Security Asia Pacific 33 F Tower A City Center 100 Zun Yi Road Shanghai 200051 China www security honeywell com cn 5 86 21 2527 4568 Honeywell Security Asia Flat A 16 F CDW Building 388 Castle Peak Road Tsuen Wan N T Hong Kong www security honeywell com hk 852 2405 2323 Honeywell Security France Parc Gutenberg 8 Voie La Cardon 91120 Palaiseau France www honeywell com security fr 5 33 01 64 53 80 40 Honeywell Security ltalia SpA Via Treviso 2 4 31020 San Vendemiano Treviso Italy www honeywell com security it 78 4 39 04 38 36 51 Honeywell Security Espana Mijancas 1 3 Planta P Ind Las Mercedes 28022 Madrid Spain www securit
71. lation such as a bookcase or rack unless proper ventilation is provided or the manufacturer s instructions have been adhered to POWER SOURCES This product should be operated only from the type of power source indicated on the marking label If you are not sure of the type of power supplied to your home consult your product dealer or local power company For products designed to operate from battery power or other sources refer to the operating instructions GROUNDING OR POLARIZATION The power supply supplied with this unit may be eguipped with a polarized alternating current line plug a plug having one blade wider than the other This plug will fit into the power outlet only one way This is a safety feature If you are unable to insert the plug fully into the outlet try reversing the plug If the plug should still fail to fit contact your electrician to replace your obsolete outlet Do not defeat the safety purpose of the polarized plug OVERLOADING Do not overload outlets and extension cords as this can result ina risk of fire or electric shock POWER CORD PROTECTION Power supply cords should be routed so that they are not likely to be walked on or pinched by items placed upon or against them paying particular attention to cords and plugs convenience receptacles and the point where they exit from the monitor OBJECT AND LIQUID ENTRY Never push objects of any kind into this unit through openings as they may touch dangerous
72. le A 1 Binary Address Values m we Te ne pr jer er for for for Jor for O O Off O Off O O Off O On O Off O On O O Off O On Rev 1 00 77 900 0809 08 06 BINARY ADDRESS VALUES Rev 1 00 78 900 0809 08 06 SYSTEM INSTALLATION DIAGRAMS This appendix provides installation drawings for connecting peripheral devices to the VideoBloX Matrix Switching System Rev 1 00 79 900 0809 08 06 SYSTEM INSTALLATION DIAGRAMS 0 8072000 ON JUSLINIO 600 090 12 1H9IgM 2 JIHONMHHO 59962 00861 OBJEMA EU OLJNA SHOLOSNNOO 3781434 Nid 6 SHOLOSNNOO TIYA Nid Nid Nid 8 Femak Connector 10984407 qua SIH 512 axd axl uajoun 06098 06098 06098 06298 06298 SH SP Of ase Jauo py veg plul p 18465 Z ugjem6juog 9 uo pog 25258 9929100 sopasuog 24 age Jepued uj per uo jauueyg ais preog ay uouolpaju0o 22869 2 sneg UO UG JAJSEJ cops 8992007 1009009 epe uou qn 134 X Hx WAJJUN uoeajddy GobSH GobSH GobSH GobSH 00199 SH ase uOw Wor Ox XL TXd uogounj 0198 0198 0198 0198 SH apo ates 1049844 qr ae siojoauuo u oj ug dG HE 498 08 06 900 0809 80 Rev 1 00 VideoBloX User Man
73. le to be available in two options channel 1 to 32 and channel 33 to 64 Should a matrix be expanded to more than 64 outputs these two options are still used and refer to the backplane channels within each subrack Interlink outputs are connected to interlink inputs in the main chassis by means of cables with RJ45 connectors each carrying 4 signals Figure 10 3 Jumper JP1 JP4 Settings JMP POS A JMP POS 8 FOR BACKPLANE CHANNELS 1 PLACE 8X JUMPERS ON JP1 PLACE 8X JUMPERS ON JP2 1 2 3 PLACE 8X JUMPERS ON JP3 4 PLACE 8X JUMPERS ON JP4 F ACKPLA HA gt 64 1 PLACE 8X JUMPERS ON JP1 POS 8 2 PLACE 8X JUMPERS ON JP2 POS 8 3 PLACE 8X JUMPERS ON POS A 4 PLACE 8X JUMPERS ON JP4 POSA Rev 1 00 62 900 0809 08 06 VideoBloX User Manual DIP SWITCH SETTINGS Figure 10 4 DIP Switch Settings bap 27 Set the Interlink Input DIP switches as follows Table 10 1 DIP Switch S1 and S2 Settings Interlink Start Address Output Address e Set the Start Address SW1 1 8 and SW2 1 3 to match the address of the first input card within the connected sub chassis e Set S2 4 8 to determine which group of 64 output signals this module will control For monitors 1 64 SW2 4 SW2 8 should be set to 00000 for monitors 65 128 SW2 4 SW2 8 should be set to 00001 Rev 1 00 63 900 0809 08 06 CHASSIS INTERLINK INPUT AND OUTPUT MODULE Table 10 2 DIP Switch S3 and S4 Settings Interlink End A
74. matrices Honeywell VideoBloX HVB4U HZ RNI LINE CORD S ED CAUTION REPLACE DC FUSE WITH SAME TYPE F 3 250V DC 19 30V CONTROL 00000 9998 EXPANSION COMMS 5 0000 go 0 Og NI 2 lt zi a x Q lt MAI CHASSIS SYNC IN 3 15A 250V 900 0809 08 06 REAR CHASSIS 2U Chassis Figure 2 2 Power Supply Module HVB2U The power supply module for the 2U chassis provides a 3 position terminal strip for connection to 18 28 VAC or VDC CONTROL 00000 0000 Honeywell z o 7 lt a x N N amp 5 a lt m 00000 0000 HVB2U WARNING The HVB2U chassis must be powered by power supply part number HPTV2402DWP to be CE compliant Note The 2U Chassis HVB2U should be powered by 24 VAC derived from a low capacitance coupling transformer such as a split bobbin transformer Rev 1 00 8 900 0809 08 06 VideoBloX User Manual Main Input Power Connection The main input power connection is made using a standard IEC power connector This should be connected to the main input power supply which may be 50 or 60 Hz Please ensure that the mains voltage matches the voltage rating shown on the rear of the chassis The earth connection must also be made The mains input connector incorporates a fuse holder which protects the main input power only Note that the second fuse on the rear of the ch
75. ne mode or video being lost restored Flashes for a change detected on the Bossware slave channel either a PCK keypress or joystick movement PC Flashes for data received on the PC configuration port AUX Flashes for data received on the auxiliary port SAT Flashes for data sent or received on the satellite port Rev 1 00 22 900 0809 08 06 ADJUSTMENTS VideoBloX User Manual Display Width Adjustment C3 Figure 3 5 Display Width Adjustment This adjustment is used to set the horizontal width ofthe diagnostic video display output JE le sal Is rj Sovi LEM 175 R IS T H WIDTH A Display Color Burst Freguency Adjustment C5 Figure 3 6 Display Color Burst Freguency Adjustment This adjustment is used to set the frequency of the color burst of the diagnostic video display output It should be set so that when a color video monitor is connected the diagnostic screen is shown in color Adjustment is carried out by determining the positions where the color information is lost and then setting the trimmer to midway between these two positions Rev 1 00 23 900 0809 08 06 CPU MODULE Jumper Settings JP 3 4 and 5 are used to select alternate communications channels on the backplane Note that these will generally be set for the primary communications channel and will only be changed when specialized software is installed which uses the secondary communications channel Figure 3
76. ng 4 sx uw SaaS Re REAR EC AR e Rp UD 20 Table 3 5 HVBCPU DIP Switch 4 SetUNGS s koe ko Ro ooo wa sob ER eb 20 Table 3 6 BIVBOPU Push Buttons cea bake BEE eae ee bs ov deg ed ib e 21 Table 3 7 HVBCPU LED Indicator FUNCHONS 23 9 oc va wea ee ce m ROW eme 22 Table 3 8 Toggle S Wl 22th un doin 25 Table 3 9 HVBCPU RS422 Communication Port Pin Outs 26 Table 3 10 HVBCPU RS232 Communication Port Pin Outs 26 Table 3 11 I2C Connector Pim Ods ss eu n pong EDU p gode dp qd Eq dea 27 Table 4 1 Combo CPU DIP Switch SW1Settings 30 Table 4 2 Combo CPU DIP Switch SW2 Settings 30 Table 4 3 Combo CPU LED Indicator FUNCIONS p e coe xor uo o 31 Table 5 1 Video Input Modules Single Chassis 34 Table 5 2 HVB16M16 DIP Switch SW1 Settings 38 Table 5 3 HVB16M16 DIP Switch SW2 Settings 38 Table 5 4 HVB16M32 and HVB16M64 DIP Switch SW1 Settings 39 Table 5 5 HVB16M32 and HVB16M64 DIP Switch SW2 Settings 40 Table 5 6 HVB16M32 and HVB16M64 DIP Switch SW3Settings 40 Table 6 1 Vidag Optput 4 te um A Se aw kuk QUEE RR mobi a 43 Table 7 1 Titled
77. nge Outputs 17 32 Rev 1 00 50 900 0809 08 06 VideoBloX User Manual MODULE BOARD SETTING VIDEO OUTPUTS 33 48 issues Din Connector im Din Connector Module m Din Connector samma Din Connector Din Connector Lower Din Connect right i Din Connector Din Connect Lower right Module position Setup for 3rd output group of 16 Dipswitch determines range Outputs 33 48 MODULE BOARD SETTING VIDEO OUTPUTS 49 64 ae Din Connector i t Din Connector Modus gessisse Din Connector Din Connector Wines uin Connector NE kaia Din Connect right Module munu Connector Din Connect Lower fight Module position Setup for 4th output group of 16 Dipswitch determines range Rev 1 00 51 900 0809 08 06 TITLED VIDEO OUTPUT MODULE Rev 1 00 52 900 0809 08 06 AUDIO INPUT MODULE DESCRIPTION The audio input module brings 16 balanced audio signals into the VideoBloX chassis Each of the inputs may be routed to 1 or more of the 64 backplane channels Figure 8 1 Front and Rear Views of Audio Input Module o Eh Eh a a a nih in a a VideoBloX audio input modules are eguipped with e Balanced input capability Front panel accessible gain adjustment Front panel signal present and overload peak indications e Phantom powering option 20 dB pad to cater for a wide range of input signal lev
78. o the system via a PIT alarm concentrator The Concentrator communications port is not available Amaximum of 8 keyboards Rev 1 00 29 900 0809 08 06 COMBO CPU MODULE DIP SWITCH SETTINGS Figure 4 2 Combo CPU DIP Switch Settings The Combo CPU has two DIP switches which are used to set up various operational parameters These switches are accessed by removal of the cover plate on the front of the Combo CPU DIP switch 1 is used to set communications parameters for the RS232 PC communication configuration port Table 4 1 Combo CPU DIP Switch SW1 Settings Function Least significant bit of unit address AO Address A1 Address A2 Address A3 SW1 5 Off 9600 On 19 2K Off 57 6K On 115 2K Ee El E ei B Off 9600 On 19 2K Off 57 6K On 115 2K pw CM a se Note that the address is set in binary For more information please refer to Appendix DIP switch 2 is used to set communications parameters for the RS232 auxiliary communication port Table 4 2 Combo CPU DIP Switch SW2 Settings Switch Reference Eee SW2 3 Off lt Skip channel on video loss On lt Include channel on video loss SW2 4 Off Select Auxiliary Port On lt Select Satellite Port SW2 5 Reserved Rev 1 00 30 900 0809 08 06 VideoBloX User Manual Table 4 2 Combo CPU DIP Switch SW2 Settings PUSH BUTTONS Operation of the Combo CPU front panel pushbuttons is
79. of unit address A5 Off 9600 On 19 2K Off 57 6K On E EME ie 7 Note that the address is set in binary For more information please refer to Appendix A DIP switch 2 is used to set communications parameters for the RS232 auxiliary communication port Table 3 3 HVBCPU DIP Switch 2 Settings Switch Reference Function 09000999 SW2 1 Aux Port 9600 19 2K 57 6K 115 2K Baud Rate Baud Baud Baud Baud SW2 2 Off Off On SW2 3 Reserved SW2 4 Reserved Rev 1 00 19 900 0809 08 06 CPU MODULE Table 3 3 HVBCPU DIP Switch 2 Settings Switch Reference SW2 5 BossWare Off 9600 On 19 2K Off 57 6K On 115 2K Baud Rate SW2 6 O SW2 7 Reserved SW2 8 Reserved DIP Switch 3 is used to set communications parameters for the RS422 satellite communication port and the RS422 concentrator port PC communication configuration port Table 3 4 HVBCPU DIP Switch 3 Settings Switch Reference Function SW3 1 Satellite 9600 19 2K 57 6K 115 2K Baud Rate Baud Baud Baud Baud SW3 3 Reserved SW3 4 Reserved SW3 5 Concen 9600 19 2K 57 6K 115 2K tratrator Baud Baud Baud Baud SW3 7 Reserved SW3 8 Reserved DIP switch 4 is used to set various parameters relating to the operation of the system as per the following table Table 3 5 HVBCPU DIP Switch 4 Settings Switch Reference SWAh Off Skip channel on video loss On gt include channel on video loss SWA 2 Off Title on Input Camera 1 title is On gt Title on Ou
80. ol translator is required for this control Please refer to the individual component installation manuals for specific information on each product HVBPIT44 SETUP DIP Switch Settings Set the PIT to DEVICE mode 1 Set ST DIP switches 1 2 3 4 on set S1 DIP switches 5 6 7 8 off 2 Set S2 all DIP switches off 3 Set S3 DIP switches 2 3 4 6 8 on set S3 DIP switches 1 5 7 off This sets the PIT s Slave port to 19 2KB ensure this matches your CPU RS422 port and the PIT s Master port to 9600KB Rev 1 00 97 900 0809 08 06 CONNECTING AHDR HRHD DVRs Data connections 1 Using a 9 way pin to pin cable connect the PIT slave port to the Master RS422 port on the VideoBloX CPU Note the PIT derives its power from the CPU when a 9 way pin to pin cable is used 2 Connect the PIT master port to the AHDR HRHD rear panel RS485 connector Table C 1 Data Connections PIT Master Port AHDR HRHD RS485 Pin 2 TX RX Pin 1 TX RX When the PIT is powered up the 2 LEDs will remain lit solid VIDEOBLOX SETUP Video Connections 1 Connect a camera or monitor output to the Video IN of the AHDR HRHD 2 Connect the Video OUT not loop out of the AHDR HRHD to an input on the VideoBloX Remember the input you will need the number later Configuration Copy the device files AHDR db and AHDR mb to the following folder on the hard drive where the VideoBloX configuration software is installed C Program Files Honeywell VB
81. pplication Note 900 0410 VideoBloX Matrix Switcher Configuration Guide 900 0411 VideoBloX GUI Graphic User Interface User Guide 900 0412 VideoBloX 422 F T Smart Combo User Guide 900 0566 VideoBloX HVBI2C16l HVBI2C160 User Guide 900 0567 VideoBloX HVB16TPTX User Manual 900 0571 VideoBloX HVB422C4 Installation Manual 900 0590 VideoBloX HVBPIT44 User Manual 900 0595 VideoBloX Software License Registration 900 0690 VideoBloX HVBNETPIT Quick Reference Guide 900 0729 VideoBloX HVBMATPIT User Manual 900 0730 VideoBloX HVB232422 Application Note 900 0735 Rev 1 00 xvii 900 0809 08 06 Rev 1 00 xviii 900 0809 07 06 INTRODUCTION PRODUCT DESCRIPTION Rev 1 00 VideoBloX is a range of compatible building blocks for use in video surveillance and monitoring systems An entire system consists of a suitable mix of the following components modules Figure 1 1 VideoBloX Matrix Switcher Front View HVB12U shown Matrix chassis which are supplied complete with built in power supply units These chassis are available in industry standard 19 inch 2U 4U 8U and 12U rack mount enclosures The 2U chassis is powered by a low voltage power supply while all other chassis may be powered from low voltage supply or main input power supply VideoBloX CPU module This card contains a high speed embedded microprocessor and the reguired support circuitry and is used for the control of the entire system Video input modules These provide protection and s
82. r remote expansion via the RS422 serial communications link Up to 256 alarm inputs and 256 alarm outputs are supported The CPU module has dual processors Six communications ports provide the following functions Table 3 1 HVBCPU Module Ports pro Master Female DB9 RS422 Two 2 ports to connect to keyboards PIT and PTZ using Honeywell Bossware protocol Slave Male DB9 Isolated RS232 Connects to PC for configuration Operator s GUI and logging Aux Male DB9 Isolated RS232 Connects to 3rd party equipment such as access control to allow for matrix control DB9 Satellite Female DB9 Connects to remote VideoBloX systems to allow Networked systems A crossover RS422 cable is reguired when connecting two chassis Bossware is the native protocol of the VideoBloX system Rev 1 00 18 900 0809 08 06 VideoBloX User Manual DIP SWITCH SETTINGS The CPU has four DIP switches which are used to set up various operational parameters These switches are accessed by removal of the cover plate on the front of the CPU Figure 3 2 HVBCPU DIP Switches E KE z paska 5 DIP switch 1 is used to set communications parameters for the RS232 PC communication configuration port Table 3 2 HVBCPU DIP Switch 1 Settings Switch Reference SW1 1 Least significant bit of unit address AO SW1 2 Address A1 SW1 3 Address A2 SW1 5 Address A4 SW1 6 Most Significant bit
83. r and select an appropriate CPU Figure 12 2 Typical Rear View of Arbitration Module and 2 CPU Modules in 4U Chassis Coanect alt connectors pin to pia in the boxes The VideoBloX CPU must be equipped with firmware revision 4 96 or later The CPU has built in functionality to monitor the status of communications activity and operation of the real time clock The result of the CPU health check is transmitted on the backplane communications channel The Arbitration module receives the system status information Each time a valid message is received by the Arbitration unit the BP LED will flash The received health check information is compared to the previous status Should a change be detected the Arbitration module will check if the monitoring for the detected status change is enabled If a fault is detected an alarm will be sounded and a message displayed on the Arbitration module Should the CPU selection switch be in the Auto position then the system will automatically switch over to the alternate CPU Switching will be inhibited if the alternate CPU currently shows the same fault When a fault is detected a buzzer will sound on the Arbitration module The buzzer may be silenced by pressing the Buzzer Clear button Pressing the button for a second time will remove the description of the previous error from the Arbitration display Rev 1 00 72 900 0809 08 06 VideoBloX User Manual To clear the
84. ready to control Rev 1 00 100 900 0809 08 06 VideoBloX User Manual TESTING THE SYSTEM 1 Press the VCR or DVR button on the system controller until AHDR is displayed Press 1 then ENTER and the monitor will switch to the view on the AHDR If the Time and Date on the AHDR is on you will see the Time Date generated for the AHDR In DEVICE MODE the system controller keys are mapped to the print with the white background For example The RECALL key is now the PLAY PAUSE key The STORE key is now the STOP key Extra keys not labeled on the standard system controller have been added for the AHDR Database These keys are mapped as follows AUX1 SEARCH AUX2 MENU AUX3 ENTER The arrow keys operate the arrow keys as on the AHDR The PAUSE key has no function Pause is obtained by pressing PLAY while in Play mode To stop recording when the AHDR is in Simplex mode press RECORD Multiple presses of the REW or FWD will activate different rewind fast forward speeds In this mode you will now be able to control all the functions of the AHDR through the system controller Search functions and access to the Menu are all available Rev 1 00 101 900 0809 08 06 CONNECTING AHDR HRHD DVRs Rev 1 00 102 900 0809 08 06 D CONNECTING TO MAXPRO Net SERVER INTRODUCTION This appendix provides installation diagrams and DIP Switch settings for controlling a VideoBloX system with Redundant MAXPRO Net Servers
85. s as a master or slave Generally this connector may be wired pin to pin between one master and multiple slave chassis Communications Expansion Connector This female DB9 connector allows for connection of RS422 serial communications signals between multiple VideoBloX chassis The pin out of this connector is automatically modified depending on configuration for the chassis being a master or slave Refer to Contro Expansion and Communication Connector Pin Outs for master and slave pin outs Generally this connector may be wired pin to pin between one master and multiple slave chassis Refer to DIP SWITCH SETTINGS for configuring the chassis as a master or slave Rev 1 00 10 900 0809 08 06 VideoBloX User Manual Control Expansion and Communication Connector Pin Outs Throughout the VideoBloX range of products a common pin out scheme is used The communication ports are referred to as Master or Slave RS422 or RS232 The rear chassis Control and Comm connectors are RS422 connections Refer to DIP SWITCH SETTINGS below for configuring the chassis as master or slave Table 2 1 Connector Pin Outs Female DB9 Rev 1 00 11 900 0809 08 06 REAR CHASSIS CONNECTING MULTIPLE CHASSIS Two Chassis Using straight through cables with Female DB9 connectors on each end connect the Control Connector to the Comms connector on both chassis Figure 2 3 MASTER CHASSIS CPU Module Interlink Input Modules Video Output
86. supply module accessible from the front of the VideoBloX chassis MODULE FROM A VIDEOBLOX CHASSIS The modules are removed from the front of the VideoBloX chassis Perform the following procedure to remove a module from the VideoBloX chassis WARNING If removing the power supply module CPU module or 1 2 combo CPU module remove power to the unit All other cards are hot swappable Remove the two 3mm Phillips screws on the ends of the module to be removed Thread the two pulling tools supplied with the CPU module into the inner threaded holes on the module to be removed Figure 1 3 Location of Phillips Screw and Pulling Tool 2 x 3mm Phillips Screw 2 x Pulling Tool removed Rev 1 00 4 900 0809 08 06 VideoBloX User Manual 3 Pull the module using both hands with thumbs as leverage Figure 1 4 Removing a Module from the VideoBloX Chassis INSTALLING A MODULE IN A VIDEOBLOX CHASSIS Perform the following procedure to insert a module in a VideoBloX Chassis WARNING If installing a CPU or combo CPU module ensure the power is off Once installed connect power 1 Align the module with both sets of rails located on the sides of the chassis The card requires minimal force to seat the connectors 2 Once seated the card s power LED lights 3 Insert and tighten the two 3mm Phillips screws on each end of the module Rev 1 00 5 900 0809 08 06 INTRODUCTION Rev 1 00 6 900 0809 08 06
87. tandard CPU unos some ove mob RR Rm E m RO ORO leq ek da 111 GOMBO GPU si urget acl esa ovs EXER EK ee AS wae Bg ugs le Gone ta 111 Rev 1 00 iii 900 0809 08 06 CONTENTS PROGRAMMING WITH VbloxcigAPPLICATION 112 TESTING At aes ea LES WS EO Soe haa a ni bede 113 TROUBLESHOOTING a oO eR ER be ea late oS qon 113 Rev 1 00 iv 900 0809 08 06 VideoBloX User Manual FIGURES Figure 1 1 VideoBloX Matrix Switcher Front View HVB12Ushown j 1 Figure 1 2 VideoBloX Matrix Switcher Rear View HVB4Ushownj 3 Figure 1 3 Location of Phillips Screw and Pulling Tool 4 Figure 1 4 Removing a Module from the VideoBloX Chassis 5 Figure 2 1 Power Supply Module HVB4U HVB8U HVB12U 7 Figure 2 2 Power Supply Module HVB2U uu x bed ge keg ARE DEES DERE 8 Figure 2 3 Connecting Communication Signals between Two Chassis 12 Figure 2 4 Connecting Communication Signals between Three Chassis 13 Figure 2 5 Chassis DIP Switch SOINS sac ONE PRG de e suur 14 Figure 2 6 System Reset Push BURON 2442420 ee eoe EERE ow HE ES 15 Figure 2 7 Syne Phase Acjusiments sada 65 ae SER ma ee dE ROS Se HE 15 Figure 3 1 Front and Rear Views of CPUModule 17 Figure 3 2 19
88. the eguipment Rev 1 00 xii 900 0809 08 06 VideoBloX User Manual WARNINGS WARNING To reduce the risk of fire or electric shock do not expose this product to rain or moisture WARNING Do not insert any metallic object through the ventilation grills WARNING This unit must be properly grounded to a good earth ground Non observance of this practice may result in a static electricity build up that may result in an electric shock when external connections are touched Rev 1 00 xiii 900 0809 08 06 Compliances and Safeguards Rev 1 00 xiv 900 0809 08 06 VideoBloX User Manual About This Document Rev 1 00 This guide describes the installation of the VideoBloX matrix switching chassis and the modules installed in the chassis as well as connecting peripheral equipment to the CPU module such as keyboards for controlling the system The DIP switch and jumper settings along with any internal adjustments or LED indicators are provided for each module xv 900 0809 08 06 Overview of Contents This document contains the following chapters and appendixes Chapter 1 INTRODUCTION describes the product features and a system overview Chapter 2 REAR CHASSIS describes the connections and settings for the chassis rear panel and the power supply module The front panel settings and indicators as also provided Chapter 3 CPU MODULE describes the function of the CPU Module connector functions and pin outs us
89. tput Individual camera title on all cameras displayed SWA 3 Video Loss Input Source Card Titler cen SW4 5 On gt Read back PTZ position PTZ DC2000 only SW4 6 On gt Warn user if duplicate view is selected SW4 7 Reserved SW4 8 On gt Local matrix switch for Satellite configuration i e only PTZ control is via satellite Rev 1 00 20 900 0809 08 06 VideoBloX User Manual PUSH BUTTONS During normal operation the front panel push buttons are used to select various diagnostic information display The diagnostic menus are outputted on the CPU Video BNC connector Figure 3 3 HVBCPU Push Buttons Diagnostics Table 3 6 HVBCPU Push Buttons Push Button Button Function Left Select previous diagnostic parameter Dip Switch Settings Right Select next diagnostic parameter Up Select previous diagnostic screen Select next diagnostic screen Restore Factory Defaults While powering up the chassis press the left and right push buttons simultaneously to restore factory defaults A Caution All user configuration settings will be lost except titles Rev 1 00 21 900 0809 08 06 CPU MODULE LED INDICATORS The front panel LEDs are used to display power and communication activity as follows Figure 3 4 LED Indicators H Communication Activity e e Table 3 7 HVBCPU LED Indicator Functions Flashes for a change detected on the backplane either a input card changing between on line off li
90. ual LOL OL7Z00d ON 80 0334 22 88cc 96Z 008 L WO9 OSPlIA jOMASUu0y MMM II9M OUuUOH 1HOIHMO SONILLAS HOLIMS 31VQ NMVHG ginpoyy Indu sso1 dino UOPO UO eni 5507 OAPIA UO jeuueu5 epniou dis uoyoun4 Hod 19 SE UOHEJUNUUOD Od DM Z6L HO 8 307 uoyoun4 peeds jes suonisod UMS sBumes pepuswwosey unes uos 75 5 25 IS 56 IVS IND Xnv Od AIS dd o 0 19409 UJJIMS YUM JUOJJ 900 0809 08 06 81 Rev 1 00 SYSTEM INSTALLATION DIAGRAMS 10 L ed LLPZOO oN1ueuunoog S0 930 8 1H5 MD ejnpo Indu 1919 88262 962 008 OL SAADE sten indi JEM pesoro 108000 valn amore gast IM palu 9 xx qs dnd xni Lnd MI 4343 SIINA Izl 9L NISL 2l Guru sa 5 LP dOL gl gl 198002 Ag Indu 957 1172 OrZ 9 Scc poz 01 607 802 01 6 261912211 vo Hol uo gait vol sol 091 01 SFL vri 2 62 vol soj Ho sof vol vol vo zie sof vol Ho 369118 sof vo vo 080159 sof uoj Ho sof oj JOJEJJUBI
91. ule to address 2 represent alarms 33 to 48 and so forth for additional I2C modules CPU Video Using 75 ohm coaxial cable connect to a monitor input to view diagnostic screens Rev 1 00 27 900 0809 08 06 CPU MODULE Alarm Inputs Outputs 1 Connect the ribbon cable provided between the Alarm Inputs Outputs Connector on the CPU Module and the Connector Connect to CPU Alarm Inputs Outputs Connector on the Alarm Terminal Block Connect the Alarm Inputs to the terminal block Connect the Alarm Outputs to the terminal block Refer to Appendix B Alarm Terminal Panel Drawing number D002414 for an illustration of connecting alarm inputs outputs to the termination panel Rev 1 00 28 900 0809 08 06 COMBO CPU MODULE DESCRIPTION The Combo CPU is a reduced cost scaled down version of the CPU module and additionally includes an 8 channel titled output section Figure 4 1 Front and Rear View of Combo CPU Module Poziva PO Yd UC gg E The Combo CPU has the following limitations Asingle communications port is shared between the Auxiliary and Satellite ports Only one of these functions will therefore be possible Amaximum size of 96 inputs by 8 outputs is supported The AVB16M8 input cards are used for the video inputs e Only 8 alarm inputs and 2 relay outputs are available Alarm inputs may be expanded with local I2C modules but the Combo CPU does not support expanded alarms brought int
92. up of outputs will be used This allows for using the modules to make large VDAs without the need for a CPU e 52 6 turn on to cause the module to work transparently as a slave to another input module In this mode the module does not reply to CPU messages In this mode it is possible to have 3 similar matrix switchers switching RGB video e 52 7 not used Reserved for future use e 52 8 allows channel 1 to be used for synchronization e g 20 chassis with DC power HVB16M32 and HVB16M64 Tables 5 4 5 5 and 5 6 show the DIP switch settings SW1 SW2 and SW3 for the HVB16M32 and HVB16M64 modules Table 5 4 HVB16M32 and HVB16M64 DIP Switch SW1 Settings po Input Address SW1 6 SW1 7 SW1 8 Rev 1 00 39 900 0809 08 06 VIDEO INPUT MODULES Table 5 5 HVB16M32 and HVB16M64 DIP Switch SW2 Settings SW2 2 Input Address SW2 4 SW2 6 Output Address Table 5 6 HVB16M32 and HVB16M64 DIP Switch SW3 Settings Protocol ON lt FUNCTION A ON lt FUNCTION B ON lt FUNCTION B SW3 6 ON Switch 1 to 1 SW3 7 ON Test Mode e DIP Switches S1 1 8 and S2 1 3 define the card s address in a binary format and is set to represent the camera range For cameras 1 16 set the address to 1 cameras 17 32 set to 2 etc e DIP Switch S2 4 8 sets the monitor group in binary format Example all off card is in a chassis for monitors 1 64 S2 4 on card is in a chassis for monitors 65 128 e
93. use thereof The information contained herein is subject to change without notice Revisions or new editions to this publication may be issued to incorporate such changes
94. voltage points or short out parts that could result in a fire or electric shock Never spill liguid of any kind on the unit SERVICING Do not attempt to service this unit yourself as opening or removing covers may expose you to dangerous voltage or other hazards Refer all servicing to qualified service personnel DAMAGE REQUIRING SERVICE Unplug the unit from the outlet and refer servicing to qualified service personnel under the following conditions a When the power supply cord or plug is damaged b If liquid has been spilled or objects have fallen into the unit c Ifthe unit has been exposed to rain or water d If the unit does not operate normally by following the operating instructions Adjust only those controls that are covered by the operating instructions as an improper adjustment of other controls may result in damage and will often require extensive work by a qualified technician to restore the unit to its normal operation e Ifthe unit has been dropped or the enclosure has been damaged f When the unit exhibits a distinct change in performance this indicates a need for service REPLACEMENT PARTS When replacement parts are required be sure the service technician has used replacement parts specified by the manufacturer or have the same characteristics as the original part Unauthorized substitutions may result in fire electric shock or other hazards Rev 1 00 xi 900 0809 08 06 Compliances and Safegu
95. y Rear panel terminations and user settings are provided Appendix A BINARY ADDRESS VALUES provides switch settings for binary addresses Appendix B SYSTEM INSTALLATION DIAGRAMS provides installation drawings for connecting peripheral equipment to the VideoBloX system Appendix C CONNECTING AHDR HRHD DVRs provides a step by step guide to setting up the AHDR HRHD Series DVRs and controlling them with a VideoBloX system controller Appendix D CONNECTING TO MAXPRO Net SERVER provides installation drawings for controlling the VideoBloX Matrix Switcher with a MAXPRO Net Server Appendix E NETWORKING TWO VIDEOBLOX MATRICES provides an example of the installation and programming of networking two chassis in different locations site 1 and site 2 Rev 1 00 xvi 900 0809 07 06 VideoBloX User Manual Related Documents The following documents provide information on topics related to this guide Document Title Part Number VideoBloX Auxiliary Control IP User Guide 900 0401 VideoBloX PIT Auxiliary Port User Guide 900 0403 VideoBlox PIT Javelin Application Note 900 0404 VideoBloX PIT Intercom User Guide 900 0405 VideoBloX PIT Lilin Dome Quick Start Guide 900 0406 VideoBlox PIT Sensormatic Ultra IV and AD DeltaDome Quick 900 0407 Start Guide VideoBlox PIT VCL Dome Quick Start Guide 900 0408 VideoBlox PITIF User Guide 900 0409 VideoBloX Lite Switch Settings A
96. y honeywell com es 434 902 667 800 Honeywell Video Systems Northern Europe Netwerk 121 1446 WV Purmerend The Netherlands www SecurityHouse ni 31 299 410 200 Honeywell Video Systems UK Lid Aston Fields Road Whitehouse Ind Est Runcorn Cheshire WA7 3DL UK www honeywellvideo com 0844 8000 235 Honeywell Security South Africa Unit 6 Galaxy Park 17 Galaxy Avenue Linbro Park P O Box 59904 2100 Kengray Johannesburg South Africa www honeywell co za 27 11 574 2500 Honeywell Security Deutschland Johannes Mauthe StraBe 14 D 72458 Albstadt Germany www honeywell com security de 49 74 31 8 01 0 Honeywell Security Poland Chmielewskiego 22a 70 028 Szczecin Polska www ultrak pl 48 91 485 40 60 Honeywell Security Czech Republic Havrankova 33 Brno Dolni HerSpice 619 00 Czech Republic www olympo cz 420 543 558 111 Honeywell Security Slovakia Republic Vajnorsk 142 83104 Bratislava Slovakia www olympo sk 421 2 444 54 660 Honeywell www honeywellvideo com 1 800 796 CCTV North America only HVSsupport honeywell com Document 900 0809 08 06 Rev 1 00 2006 Honeywell International Inc All rights reserved No part of this publication may be reproduced by any means without written permission from Honeywell Video Systems The information in this publication is believed to be accurate in all respects However Honeywell Video Systems cannot assume responsibility for any consequences resulting from the
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