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GPIO User Manual - Honeywell Video Systems

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1. 66 5 5 5 i OUTPUT I FUSE 20A 9 A O Fe U O a E Jo m m Q Relay Outputs 5 5 for example Sirens Alarm Sensors Document 800 02530 Rev B 53 03 10 Typical Applications MAXPRO Net Application 54 The HVBGPIO can also be used with the MAXPRO Net system You can either connect the MAXPRO Net RS232 serial port directly to the HVBGPIO RJ45 serial port or use an HVB422FT16 extender to extend the serial port to multiple chassis In this mode the principal HVBGPIO connected to the MAXPRO Net should be setto Master mode and other HVBGPIO boards which get commands from the VideoBloX chassis backplane should be set to Slave mode Figure A 2 HVBGPIO Typical Application with MAXPRO Net MAXPRO Net MAX1000 Server Alarm In Out GPIO Master MATPITI PTZ Ports 1 4 e Alarm In Out GPIO Slave PTZ Ports 1 4 e OP F v r 4 Ca 2 The RJ45 COM port on the rear panel p n 200 0186 E is defined in Table 7 Table A 1 RJ45 COM1 Pin Out Definitions Pin Set P1 Jumper for MegaPit Set P1 Jumper for MAX1000 1 422 RX 422 RX 2 422 RX 422 RX 3 NC RS232TX 4 RS232 RX GND 5 GND RS232 RX Document 800 02530 Rev B 03 10 HVBGPIO V1 2 User Guide Table A 1 RJ45 COM 1 Pin Out De
2. Honeywell HVBGPIO Version 1 2 User Guide Document 800 02530 Rev B 03 10 Revisions Issue Date Revisions A 03 10 New document B 03 10 Brought into Honeywell template Updated back cover minor wording changes HVBGPIO V1 2 User Guide Contents ABOUT THIS DOCUMENT emo 11 Overview of Contents 22 2 11 Warranty and 5 11 Typographical 5 12 1 ipii DC LP 13 WENEN SEE 212 2 2 S Q 2 S s 5 2 2 QG 2 2 S s 2 13 BODL s er ee A er AA 14 acis ocak 15 EED MOCO 15 DIP Switch 16 2 WEP COWES 19 General 19 Logging s se se asas Room s eo m m Q RR nn ann 19 Changing the Password 21 Logging Off s s s k g w 6 k s K S w w Gua W S Uw 5 Q s S Q m s Qos s OS w N S s S Q w 21 Nos xe E X x Fox ss dos 21 Configuring the System le s e o 21 Modifying IP Configuration 5 22 Setting a User Defined 23 Importing a Configura
3. 1 lt MaxZoomInSpeed gt 255 lt MinZoomOutSpeed gt 1 lt MaxZoomOutSpeed 255 lt MoveLeft gt xFF xII x00 x04 xSS xO0 xYY lt MoveRight gt xFF xIl x00 x02 xSS x00 xYY lt MoveDown gt xFF xIl x00 x10 x00 xSS xYY lt MoveUp gt xFF xIl x00 x08 x00 xSS xYY lt ZoomIn gt xFF xIl x00 x40 x00 x00 xYY lt ZoomOut gt xFF xIl x00 x20 x00 x00 xYY lt FocusFar gt xFF xIl x00 x80 x00 x00 xYY lt FocusNear gt xFF xII x01 x00 x00 x00 xYY lt 1 gt xFF xII x02 x00 x00 x00 xYY lt IrisClose gt xFF xII x04 x00 x00 x00 xYY lt ProgramPrest gt xFF xII x00 x03 x00 xNN xYY lt GotoPreset gt xFF xIl x00 x07 x00 xNN XYY StopMoveX xFF xIl x00 x00 x00 x00 xYY lt StopMoveY gt xFF xIl x00 x00 x00 x00 xYY lt FocusStop gt xFF xII x00 x00 x00 x00 xYY lt ZoomStop gt xFF xIl x00 x00 x00 x00 xYY lt IrisStop gt xFF xII x00 x00 x00 x00 xYY 50 lt programPreset109 gt xFF xII x00 xOF x00 x00 xYY lt gotopreset109 gt xFF xII x00 x29 x00 x00 xYY lt programPreset111 gt xFF xIl x00 x2D x00 x02 xYY gotopreset1 11 gt xFF xll x00 x2D x00 x01 xYY programPreset1 12 gt xFF xIl x00 x2B x00 x02 xYY lt gotopreset1 12 gt xFF xIl x00 x2Bx00 x01 xYY lt programPreset1 16 gt xFF xIl x00 x31 x00 x02 xYY gotopreset1 16 gt xFF xIl x00 x31 x00 x01 xYY lt programPreset1 19 gt xFF xIl x00 x07 x00 x21 xYY lt programPreset1 31 gt xFF xIl x00 x0OB x00 x01 xYY lt gotopreset1 31 g
4. Table 1 3 S2 HBGPIO System Status Parameter Settings Position Function Description B1 Work mode O Slave mode 1 Master mode B2 IP Address 0 gt 1 reset IP Address to the default value reset B3 COM1 Baud ET 0 0 9600 1 0 19200 0 1 57600 1 1 115200 5 COM1 O RS422 mode 1 RS232 B6 Configuration DIP Switch setting mode 1 Web browser setting B7 Cascade mode O Cascade mode disable 1 Cascade mode enable Note This function is reserved Please set to 0 B8 Extended mode O Extended mode disable 1 Extended mode enable Document 800 02530 Rev B 17 03 10 Introduction 18 Web Browser This chapter describes how to use the web browser provided to configure and upgrade the HVBGPIO through Ethernet This method provides more powerful functions than simply configuring the DIP switches as described in Chapter 7 General Operation Logging On To log on to the web browser 1 Inthe Internet Explorer IE address bar type in the HVBGPIO URL then press Enter The Login window displays see Figure 2 1 Note The default IP address is 192 168 1 9 You must be running Internet Explorer 6 0 0 or later on your PC Document 800 02530 Rev B 19 03 10 Web Browser Figure 2 1 HVBGPIO User Login var cma bo TPP io The Hero male rd marzo een ttm Liar PUT conta sien gre 2 Onthe top right co
5. CC EOL of Input 9 to 16 EOL CC 4 EOL of Input 17 to 24 EOL CC Setting the Alarm Type Using the Web Browser To set the alarm type using the web browser 1 After logging on click the CONFIGURATION tab then click System Configurations on the left pane The System Configuration window displays see Figure 2 4 2 Inthe Alarm Input field at the bottom see Figure 3 2 select EOL or CC from the drop down lists for each alarm input range 1 to 8 9 to 16 and 17 to 24 30 3 HVBGPIO V1 2 User Guide Click Apply to save the changes Click Default to return the settings to the default values without saving your changes Figure 3 2 Alarm Input Type Setting Document 800 02530 Rev B 03 10 Alam Type 1 8 Alam 9 18 Alarm Type Y 17 24 EOL 31 Alarm Inputs 32 Relay Outp Constantly and Document 800 02530 Rev B 03 10 uts This chapter covers the four general purpose relay outputs on the HVBGPIO Each output circuit provides two kinds of relay contact closures normally open and normally closed All output circuits are isolated from each other The relay contact is completely floating with respect to earth An output circuit tolerates an applied open circuit voltage of 50 volts and a closed circuit loop current not exceeding 1 Amp As itis a true switch contact the HVBGPIO is suitable for switching AC supplies Since all four output circuits are isolated fr
6. Figure 2 11 Figure 2 12 Figure 2 13 Figure 3 1 Figure 3 2 Figure 4 1 Figure 4 2 Figure 5 1 Figure 5 2 Figure 6 1 Figure A 1 Figure A 2 Figure A 3 Figure B 1 Figure B 2 Figure B 3 Figure B 4 ads AE III AAA 14 si AMARE AI 9 944 45 9 4 A uu d 14 Front Panel LIOS LEDS 2 2 4445 rara ea ed 15 DIP Switch Settings on Front Panel 16 mi is Elm 4 due Oo opo X RO 4 de ERED ihnen 20 I 20 Change Password Window in ca teed w C a wow a ORE aa HS 21 System Configuration Window 22 IP Configurations 23 User Define Protocol File es sses bed oe ae ARA 24 Manage Configuration File 24 Choose File Dialog BOX a 4 xoxo woo AC k w won wk S 25 Configuration File Successfully Imported nn 25 Configuration File Export 26 Date Time Format Configurations Window 27 Software Upgrade Dialog BOX nn 28 Software Upgrade Choose File Dialog Box nn 28 Alann RO Oy dr eR x 30 Alarm Input Type Seting au up a x9 FO E z 31 Relay Output 5 33 Relay Output Type 5 34 UARI PIZ POR 7 uox eh eRe RHEE TRE Q 4 AA 35 UART Port Settin
7. Relay Settings in NETCFG Document 800 02530 Rev 61 03 10 Sample Configuration 62 Honeywell Security Group Head Office 2700 Blankenbaker Pkwy Suite 150 Louisville KY 40299 USA www honeywellvideo com 1 800 796 2288 Honeywell Security Group Europe South Africa Aston Fields Road Whitehouse Industrial Estate Runcorn Cheshire WA7 3DL UK www honeywell com security uk 44 01928 754028 Honeywell Security Group Caribbean Latin America 9315 NW 112th Ave Miami FL 33178 USA www honeywellvideo com 1 305 805 8188 Honeywell Security Group Pacific Level 3 2 Richardson Place North Ryde NSW 2113 Australia www honeywellsecurity com au 61 2 9353 7000 Honeywell Security Group Asia 35F Tower A City Center 100 Zun Yi Road Shanghai 200051 China www asia security honeywell com 86 21 5257 4568 Honeywell Security Group Middle East N Africa Post Office Box 18530 LOB Building 08 Office 199 Jebel Ali Dubai United Arab Emirates www honeywell com security me 971 04 881 5506 Honeywell Security Group Northern Europe Amperestraat 41 1446 TR Purmerend The Netherlands www honeywell com security nl 31 299 410 200 Honeywell Security Group Deutschland Johannes Mauthe Stra e 14 D 72458 Albstadt Germany www honeywell com security de 49 74 31 8 01 0 Honeywell Security Group France Immeuble Lavoisier Parc de Haute Technologie 3 7 rue Georges Besse 92160 Ant
8. Standard 37 Configuring the UART Settings Using the Web Browser En mn nn 38 Terminator R SISIOr ze u eee G na E 39 6 Device Control MOGE a Bass gr nen 41 Device Control Settings 41 7 PTE ODIAN 2 ua I irren 43 PTZ Protocol Selection 43 PTZ Aux Function 44 Operation Method 45 User Define 47 Appendix A Typical 5 53 VideoBloX System Application e e e 53 MAXPRO Net 54 Appendix B Sample Configuration 57 System Requirements 57 Connections e 57 COMIGUIAION cw wok om wU a x XE euh x ame Q 58 Device Settings o ooa a a a a 58 Alarm Configuration 59 Relay Configuration lt uw ua s de c we Se eom s X w W j Qw A 60 HVBGPIO V1 2 User Guide Figures Figure 1 1 Figure 1 2 Figure 1 3 Figure 1 4 Figure 2 1 Figure 2 2 Figure 2 3 Figure 2 4 Figure 2 5 Figure 2 6 Figure 2 7 Figure 2 8 Figure 2 9 Figure 2 10
9. when valid data passes through the PTZ1 port PTZ2 Flickers when valid data passes through the PTZ2 port PTZ3 Flickers when valid data passes through the PTZ3 port PTZ4 Flickers when valid data passes through the PTZ4 port ALARM Flickers when status changes on any of the alarm inputs RELAY Flickers when any of the relays take action COM1 Flickers when valid data passes through the COM1 port Ethernet LINK Flickers when data transfer is detected by the Ethernet Ethernet ACT Flickers when connection is detected by the Ethernet DIP Switch Settings HVBGPIO has two DIP switches S1 and S2 which are used to set up various operational parameters These switches are accessible by removing the cover plate on the front panel see Figure 1 1 Figure 1 4 DIP Switch Settings on Front Panel Remove Cover to Access DIP Switch Settings 16 HVBGPIO V1 2 User Guide DIP Switch S1 Use 51 to set the address of the HVBGPIO Table 1 2 S1 HVBGPIO Address Setting Position Function Description B1 B8 Board Address Valid range is 00000001 11111111 1 255 B1 15 the LSB and 8 is the MSB Note In VideoBloX mode the valid range for the board address is 1 to 250 The top five addresses are reserved for the alarm concentrator In MAXPRO Net mode the valid range is 1 to 255 DIP Switch S2 Use 52 to set various system parameters for the HVBGPIO
10. working modes for the 24 alarm inputs and how to configure alarm type settings Chapter 4 Relay Outputs covers how to configure the relay outputs Chapter 5 UART Ports describes how to configure the UART ports Chapter 6 Device Control Mode details how to configure the HVBGPIO to control another device such as a DVR or multiplexer Chapter 7 PTZ Operation covers how to configure the HVBGPIO to control PTZ devices Appendix A Typical Applications describes two typical HVBGPIO applications Appendix B Sample Configuration gives an example of how to operate the HVBGPIO in the VideoBloX system Warranty and Service Document 800 02530 Rev B 03 10 Subject to the terms and conditions listed on the Product warranty during the warranty period Honeywell will repair or replace at its sole option free of charge any defective products returned prepaid In the event you have a problem with any Honeywell product please call Customer Service at 1 800 796 CCTV for assistance or to request a Return Merchandise Authorization RMA number Be sure to have the model number serial number and the nature of the problem available for the technical service representative Prior authorization must be obtained for all returns exchanges or credits Items shipped to Honeywell without a clearly identified Return Merchandise Authorization RMA number may be refused Typographical Conventions This document uses the following typograp
11. 800 02530 Rev B 41 03 10 Device Control Mode 42 Figure 6 1 Device Type Setting VideoBloX Video Malriz Bwilcher HebC PTZ Operation This chapter covers Pan Tilt Zoom PTZ operation In PTZ mode the PTZ control messages are received on the communications port Depending on the DIP switch settings these commands are then translated to serial data packets which are compatible with non Honeywell manufacturer s PTZ telemetry receivers or integrated domes Note IntelliBus protocol in RS485 mode is not supported by Port 4 JVC protocol is reserved PTZ Protocol Selection Document 800 02530 Rev 03 10 DIP switches S4 to 10 are used to set the protocol for PTZs 1 to 4 Table 7 1 PTZ Protocol Setting PTZ Protocol 54 56 58 510 B8 Pelco D Pelco P Diamond JVC S4 for PTZ1 VOL S6 for PTZ2 Panasonic S8 for PTZ3 S10 for PTZ4 AD IntelliBus User defined B7 B6 B5 B4 B3 OFF OFF OFF OFF OFF OFF OFF OFF OFF OFF OFF ON OFF OFF OFF OFF ON OFF OFF OFF OFF OFF ON ON OFF OFF OFF ON OFF OFF OFF OFF OFF ON OFF ON OFF OFF OFF ON ON OFF OFF OFF OFF ON ON ON OFF OFF ON OFF OFF OFF 43 PTZ Operation PTZ Aux Function Usage Using the extended Preshot mapping concept HVBGPIO has the ability to control PTZ devices Currently we support nine different PTZ protocols These PTZ protocols have some special functions such as Tour Progr
12. Description 120 Ohm NO 120 Ohm 1 For Port 1 RS485 ON OFF P2 For Port 2 RS485 ON OFF For Port 3 RS485 ON OFF 4 For Port 4 RS485 RS422 TxD ON OFF P5 For Port 4 RS422 RxD ON OFF Document 800 02530 Rev B 39 03 10 UART Ports 40 Device Control Mode This chapter explains Device Control mode In Device Control mode generic device control commands are received and translated into data packets compatible with non Honeywell manufacturers DVRs multiplexers and so on Device Control Settings To control your device through the HVBGPIO 1 From your device CPU select Device Control mode Figure 6 1 shows an example of setting HVBGPIO control from a VideoBloX matrix switcher 2 Set the Device Type according to your CFG NETCFG PC software The range of device type is 1 to 32 which responds to setting S5 S4 S3 S2 S1 SWA 6 8 10 from 00000 to 11111 Example To set device type 1 in CFG software change S5 S4 S3 S2 81 to 00000 In MAXPRONET mode the usage of device control is straightforward All the commands received from MAXPRO Net are passed to all the four output ports In NETCFG mode the GPIO card filters out the commands when the device type is different than the device type set on the card Figure 6 1 shows an example in NETCFG mode On the HVBGPIO set port 1 to type 1 and port 2 to type 2 If a type 1 command is received by the GPIO card the GPIO card transfers the command to port 1 not port 2 Document
13. File area right click config HVBGPIOASCIICONFIG See Figure 2 8 2 Select Save target as from the drop down list Figure 2 10 Configuration File Export prism Configer rtianr Manage Configuration File Config arant j AA bl T pt IT cick fue kek inr HOA CIC On the Save As dialog navigate to the desired folder where you wish to save the configuration file 4 Click Save The configuration file is exported to your local computer Setting the Date and Time Format Note This function is only valid for the Master board To set the date and time format 1 On the CONFIGURATION tab click Date Time Format on the left panel The Date Time Format Configurations window displays see Figure 2 11 26 HVBGPIO V1 2 User Guide Figure 2 11 Date Time Format Configurations Window T X Confiquradast Dara Time Format Configurations sip S witzh Cenfigurascea Puma Time Formal Century Any Deina rc L Config Fite Usar Define Pretocel File 2 Inthe Date Time Format drop down list select the desired format for example DDMMYY 3 Click Apply to save the changes Click Default to return the settings to the default values without saving your changes Firmware Upgrade The HVBGPIO board contains a Flash memory that provides the convenience of upgrading firmware th
14. GPIO also supports a user defined protocol that allows a user to operate a PTZ device with a protocol that is not one of the product protocols RS485 can be supported by all four PTZ ports but RS232 and RS422 is only supported by the PTZ4 port 24 alarm inputs support two alarm types Contact Closure CC and End of Line EOL resistor with two options Normally Closed NC and Normally Open NO In EOL mode a 2 2K Ohm external resistor is required The COM1 RJ45 port on the rear panel supports both RS232 and RS422 This port is used to receive control commands from MAXPRO Net Introduction Layout The front and rear views are shown below Figure 1 1 Front Panel LED indicators DIP switches ETHERNET 21 PTZ2 PTZ3 PTZ4 ALARM RELAY 1 LNK ETHERNET 21 PTZ2 PTZ3 PTZ4 ALARM RELAY 1 LNK ACT DIP switch cover plate Remove Cover to Access DIP Switch Settings Figure 1 2 Rear Panel comi 4042 345 6 78 9 10 11 12 1314 15 Fe 17 18 19 20 21 2 23 2 10 100baseT RJ45 Alarm Input EthernetLAN COM 5 08 mm terminal port port 14 r RELAY 1 T RELAY 2 T RELAY 3 T RELAY 4 7 NO NC COM NO NO COM NO NC COM NO NC COM 1 dT 2 2 3 3 4 4 Rx Rx PTZ PORT TTX RX3 33538555654 O Output PTZ ports 5 08 mm terminal 5 08 mm terminal HVBGPIO V1 2 User Guide Features The HVBGPIO has the following features e 24 ala
15. Learning Tour 2 119 180 Flip 143 Run Learning Tour 3 Program Learning Tour 3 131 Aux 1 On Aux 1 Off 145 End Learning Tour Table 7 4 Diamond PTZ Preshot Mapping Diamond PTZ Call Set Function Preshot Mapping Call Function Set Function Call Function 101 Menu On Digit or letter input 141 Run Learning Tour 1 102 Enter Escape 142 Run Learning Tour 2 103 143 Learning Tour 3 104 146 Run Preshot Tour 1 109 Camera reset 147 Run Preshot Tour 2 116 On 148 Run Preshot Tour 3 117 Freeze Freeze Off 149 Preshot Tour 4 119 Flashback Table 7 5 VCL PTZ Preshot Mapping VCL PTZ Call Set Function Preshot Mapping Set Function Program Learning Tour 1 Program Learning Tour 2 Program Learning Tour 3 Program Preshot Tour 1 No Call Function Set Function No Call Function Set Function 109 Camera Reset Power Reset 132 2 Aux 2 Off 111 Auto Iris On Auto Iris Off 133 3 Aux 3 Off 112 Auto Focus On Auto Focus Off 146 Run Preshot Tour 1 113 Digital Zoom On Digital Zoom Off 147 Run Preshot Tour 2 119 180 Flip 148 Run Preshot Tour 3 46 Table 7 5 VCL PTZ Preshot Mapping HVBGPIO V1 2 User Guide VCL PTZ Call Set Function Preshot Mapping 122 SyncEarly SyncLater 19 RunPreshotTour4 125 Program Camera 161 Clear Privacy Zone Program Privacy Zone Home Postion 131 Aux 1 On Aux 1 Off Table 7 6 IntelliBus PTZ Preshot Mapping IntelliBus PTZ C
16. Port 1 SW5 Port 2 SW7 B5 0 B6 0 5 1 B6 0 B5 0 B6 1 B5 1 B6 1 Port 3 SW9 Port 4 SW11 Selecting the UART Interface Standard Table 5 6 lists the HVBGPIO UART Interface Standard settings Table 5 6 UART Interface Standard Setting Protocol RS485 RS422 RS232 Port 1 SW5 7 0 X X SW5 8 0 Port 2 SW7 7 0 X X SW7 8 0 Port 3 SW9 7 0 X X SW9 8 0 Port 4 SW11 7 0 SW11 7 1 SW11 7 1 SW11 8 0 SW11 8 0 SW11 8 1 Document 800 02530 Rev B 37 03 10 UART Ports Configuring the UART Settings Using the Web Browser To change the UART settings using the web browser 1 After logging on click the CONFIGURATION tab then click System Configurations on the left pane The System Configurations window displays see Figure 2 4 2 Select PTZ Control The PTZ Control window displays see Figure 5 2 Figure 5 2 UART Port Setting Window arty EVE Haria asar Pil I 1 3 Modify the parameters according to your requirements Note For ports 1 to 3 only RS485 is currently implemented Port 4 can support RS232 RS422 and RS485 4 Click Apply to save the changes Click Default to return the settings to the default values without saving your changes 38 HVBGPIO V1 2 User Guide Terminator Resistor The HVBGPIO provides 120 Ohm terminating resistor selection on the board Users can simply plug in 120 Ohm jumpers Table 5 7 Terminating Resistor Setting Position
17. TZ address is The video signal of the PTZ dome is connected to Input 1 Next configure the corresponding settings in NETCFG 1 Launch NETCFG 2 Select the Inputs tab Figure B 1 PTZ Settings in NETCFG 11 Video Systema VideolikeE hajrin Switcher Met PLU Configuration F e Config About Edi Ep Delos A Doicad ee del Der En Aloe A eee Legend Muri _ Corea 1 1 Diet Vien Loir Vide Pliki ed LP E ince Van 7 In the Input Number field select 1 4 Inthe Pan Tilt Zoom area a From the BoardAddr drop down list select 1 b From the Type drop down list select PTZ2 C From the Address field select 3 Now you can use the keyboard to operate the PTZ Device Settings To configure device control 1 Launch NETCFG 2 Select the Devices tab 3 Inthe Device Type field select the device type 58 HVBGPIO V1 2 User Guide 4 Select the definition files and device addresses appropriate to your installation Figure B 2 shows typical device settings for a VideoBloX system Figure B 2 Device Settings in NETCFG beer Video Systema VideallloX Mairin Switche Fir Config Edi E s T 2 Anka Coote Fru Linda Soren sai a Us
18. all Set Function Preshot Mapping No Call Func Set Func No Call Func Set Func 109 Camera Reset Power Reset 141 Run Learning Tour 1 Program Learning Tour 1 111 Auto Iris On Auto Iris Off 142 Run Learning Tour 2 Program Learning Tour 2 112 Auto Focus On Auto Focus Off 143 Run Learning Tour 3 Program Learning Tour 3 113 Digital Zoom On Digital Zoom Off 144 Run Learning Tour 4 Program Learning Tour 4 114 BW Mode Color Mode 145 End Learning Tour 116 BLC On BLC Off 117 Freeze On Freeze Off User Defined Protocol Format HVBGPIO provides a user defined protocol format This allows a user to operate some other third party protocol PTZs This section provides an introduction to the user defined protocol format Is an evaluation symbol the expression or value should follow it in turn No blank space is allowed between and the expression value lt gt Is used to mark a system parameter The parameter must immediately follow the identifier Both lowercase and capital letters are acceptable The configuration file should use udp as the file extension for example PelcoD udp or Diamond udp The maximum file size for the configuration file size is 90 kB so be careful not to add too many comments to the file Document 800 02530 Rev B 03 10 PTZ Operation 48 The identifier list is as follows PTZ port setting This item is required to locate the PTZ port lt Port gt 1 2 3 4 Example Ifthis protocol is desired to be use
19. amming and Menu Call However the special functions can vary between different systems and protocols The extended Preshot mapping concept uses one standard method to map these functions so that it is the same from any system or any protocol The new method maps Preshot Calls or Sets to call these functions The Preshot range is from 101 to 198 Table 7 2 shows brief overview of the Preshot mapping It defines the united Preshot Call function and Set function Table 7 2 Common Preshot Mapping Common PTZ Call Set Function Preshot Mapping No Call Function Set Function Call Function Set Function 101 Menu On Digit or letter input 131 A Aux1 Aux 1 Off 102 Enter Escape 132 Aux2 Aux 2 Off 103 Left Right 133 Aux 3 Aux 3 Off 104 Down Up 141 Run Learning Tour 1 Program Learning Tour 1 109 Camera Reset Power Reset 142 RunLearning Tour 2 Program Learning Tour 2 110 Error Display On Error Display Off 143 Run Learning Tour 3 Program Learning Tour 3 111 Auto Iris On Auto Iris Off 144 Learning Tour 4 Program Learning Tour 4 112 Auto Focus On Auto Focus Off 145 End Learning Tour Function Off 45 113 Digital Zoom On Digital Zoom Off 146 Run Preshot Tour 1 Program Preshot Tour 1 114 BW Mode Color Mode 147 Run Preshot Tour 2 Program Preshot Tour 2 115 Auto BW Color Function Off 15 148 Preshot Tour 3 Program Preshot Tour 3 116 BLCOn BLC Off 149 Run Preshot Tour 4 Progra
20. d PTZ port 3 then write the identifier as lt Port gt 3 Common command These items are also required to define the common command format 1 Move command lt MoveRight gt lt MoveLeft gt lt MoveUp gt lt MoveDown gt 2 Zoom command lt ZoomIn gt lt ZoomOut gt 3 Focus command lt FocusFar gt lt FocusNear gt 4 Iris command lt lrisOpen gt lt IrisClose gt 5 Preset command ProgramPreset lt GotoPreset gt 6 Stop command StopMoveX StopMoveY gt lt FocusStop ZoomStop lrisStop Example If we are coding Move Left command follow this format lt MoveLeft x00 xIl xSS x80 x80 xKK Special command These items are optional to define the special command format 1 lnit 2 lt SetCamerid gt lt ProgramPreset100 gt lt GotoPreset100 gt to lt ProgramPreset198 gt lt GotoPreset198 gt HVBGPIO V1 2 User Guide Environmental parameter These items are also required to define environmental parameters The default values are 1 O SN BD O lt MinCamerald gt 1 lt MaxCamerald gt 255 lt AllCamerald gt 0 lt MinPreset gt 1 lt MaxPreset gt 255 lt MinLeftSpeed gt 1 lt MaxLeftSpeed gt 127 lt MinRightSpeed gt 1 lt MaxRightSpeed gt 127 lt MinUpSpeed gt 1 lt MaxUpSpeed gt 127 12 13 14 15 16 17 lt MinDownSpeed gt 1 lt MaxDownSpeed gt 127 lt MinZoomInSpeed gt 1 lt MaxZoomInSpeed gt 127 lt MinZoomOutSp
21. e default value Setting a User Defined Protocol If you wish to operate PTZ device that uses protocol that is not included HVBGPIO provides an interface where you can define a protocol file Follow the specific format provided in mporting a Configuration File page 24 and Figure 2 6 they work similarly to write out the PTZ protocols and upload the files Then you can select your user defined protocols in the relevant PTZ fields to operate your PTZ device s Document 800 02530 Rev 23 03 10 Web Browser Each PTZ port should have its own user defined protocol file The used by port 1 will not be used by port 2 If you want this file to be used by both ports it is recommended that you make two copies of the and change the port value to 1 or 2 then upload the files Similarly if all four ports need the same file then four separate user defined protocol files need to be uploaded Note The Master board can NOT configure the file of Slave boards Figure 2 6 User Define Protocol File Spb Manage Wer Dara File Dip eters Conga tions imer Uum laa UP Configurations Select Corn EZI eee Deere Protocol Tiis 24821 4 1 2 Pea og Importing a Configuration File 24 To import a configuration file 1 On the CONFIGURATION tab click Config File on the left pane The Manage Configuration File window
22. eck 5 37 UART Baud Rate Setting uu 5 se u wu 0 um a ns 6 k w w wow w q 37 UART Interface Standard 5 37 Terminating Resistor Setting 39 SEUNG OY Q it e Oe dec 43 Common Preshot Mapping less 44 Pelco D PTZ Preshot Mapping cic bk ec oy OR Y eoe CX e e w ku W Q 46 Diamond PTZ Preshot Mapping 46 VOL PTZ Freshol 4 Se EO EA lt amp e a Q Q 46 IntelliBus FIZ Preshot Mapping 2 u u woo ebb s da na a 47 RJ45 COM1 Pin Out Definitions 54 Document 800 02530 Rev B 03 10 Tables 10 HVBGPIO V1 2 User Guide About This Document This document introduces the HVBGPIO a module that can be mounted in a standard VideoBloX chassis to provide the functions of PTZ control alarm input and relay output Overview of Contents This document contains the following chapters and appendixes Chapter 1 Introduction provides an overview the HVBGPIO and describes the features It also describes the layout and function of the LEDs and DIP switch settings Chapter 2 Web Browser provides procedures for configuring and upgrading the HVBGPIO through a web browser Chapter 3 Alarm Inputs describes the two
23. eed gt 1 lt MaxZoomOutSpeed gt 127 Also you should use some element lists The list should include some changeable elements as defined below and unchangeable values such as 00 to FF Each element has a head x the x should be lowercase The element should hex value There are five special elements with specific meanings Document 800 02530 Rev B 03 10 amo N The Camera Speed The Preset Number The Camera ID Will be replaced with a calculated checKsum Will be replaced with a calculated Xor checksum The AUX function parameter This parameter can only appear in ProgramPreset101 gt ProramPreset1 19 gt It will be replaced with a digit and letter Will be replaced with a calculated checksum not including the command head Will be replaced with a calculated Xor checksum not including the command head 49 PTZ Operation Example Ifthe camera speed and checksum are involved in the command then write lt MoveLeft gt x00 xII xSS x80 x80 xKK Example of a Typical User Defined Protocol One entire example is provided for reference port 1 MinCamerald 1 lt MaxCamerald gt 255 lt AllCamerald gt 255 lt MinPreset gt 1 lt MaxPreset 255 MinLeftSpeed gt 1 lt MaxLeftSpeed gt 255 lt MinRightSpeed gt 1 lt MaxRightSpeed gt 255 lt MinUpSpeed gt 1 lt MaxUpSpeed gt 255 lt MinDownSpeed gt 1 lt MaxDownSpeed gt 255 lt MinZoomInSpeed gt
24. eide Upgrade Aare and FER n HE j ee de 20 HVBGPIO V1 2 User Guide Changing the Password To change the password 1 On the top right corner of the Welcome window click Change Password The Change Password window displays see Figure 2 3 Figure 2 3 Change Password Window Charge Pasmword Ad Fasxwoni rra dard rra ed Type in the current password in the Old Password field Type in the new password in the New Password field then retype the new password in the Confirm New Password field 4 Click Apply to enable the new password Click Cancel to continue using the old password Logging Off To exit the system and return to the Login window click Logout at the top right corner Document 800 02530 Rev 21 03 10 Web Browser Configuration Configuring the System To configure various parameters of the HVBGPIO alarm inputs and PTZ control 1 Ifyou have not already done so log on see Logging On page 79 2 the CONFIGURATION tab click System Configurations on the left pane The System Configurations window displays see Figure 2 4 Figure 2 4 System Configurations Window A Bond Addie i 258 wert Fit Lan Boyd nion Sanal pen pec i RS Ca 7 Dau abie axe Imm Edended Wr an F 8 ay Even Sheets i A ka ul Alem L B CC egy Praes Note Thi
25. er Kete Heine Sequences T pex 1 P ka Lure 0 25 Alarm Configuration This section describes how to use alarm sequences where the alarm input outside is connected to the alarm input 1 ofthe HVBGPIO addressed 1 The alarm number alarm input HVBGPIO address 1 x 24 1 1 Ina practical application you should select Correct normal status in the Alarm Status Normal State drop down list 2 To enable alarm sequence select the Enabled checkbox NETCFG provides two alarm sequences one for an incoming alarm and one for an outgoing alarm Document 800 02530 Rev B 59 03 10 Sample Configuration Figure B 3 Alarm Settings in NETCFG Heesywell Video XI uie ES SU her Het CPU Canfigur alien Ple A dk By Crise Defeat dl usasaut if Dena Todi mga inpur Scores Groupe Anm un Short PI F Enabled E Bes H Relay Configuration To set relay output 1 on the HVBGPIO board 1 Select the Sequences tab 2 Select the OUTPUT command 3 Parameter 1 of OUTPUT is the HVBGPIO board address Parameter 2 is the Relay output port Parameter 3 is the state enabled disabled of the relay output 60 HVBGPIO V1 2 User Guide Figure B 4
26. finitions Pin Set P1 Jumper for MegaPit Set P1 Jumper for MAX1000 6 RS232 TX NC 7 RS422 TX RS485 RS422 TX RS485 8 RS422 RS485 RS422 TX RS485 Figure A 3 HVBGPIO 45 UART Pin Outs P1 Jumper for MegaPIT P1 Jumper for MAX1000 000 mm m 1 RS422 RX 1 RS422 RX 2 RS422 RX 2 RS422 RX 3 N C 3 RS232 TX 4 RS232 RX 4 GND 5 GND 5 RS232 TX 6 RS232 TX 6 N C 7 RS422 TX RS485 7 RS422 TX RS485 8 RS422 TX RS485 8 RS422 TX RS485 55 Typical Applications 56 Sample Configuration This appendix provides a sample configuration of how to operate the HVBGPIO in a VideoBloX system System Requirements For this system you should have the following requirements Connections e APC with HVBNETCFG software installed e An HVBNET16CPU connection board e HVBM64 e HVBGPIO board e APTZdome e Akeyboard e Appropriate cabling Make the system connections as follows 1 pe Document 800 02530 Rev B 03 10 Connect the UTP wire from the HVBNET16CPU to the PC Install the NETCFG software on the PC Connect the PTZ dome to one of the PTZ ports on the HVBGPIO through RS485 Set the PTZ protocol setting using DIP switch S4 see PTZ Protocol Selection page 43 57 Sample Configuration Configuration In this example the PTZ dome is connected to UART Port 2 of the HVBGPIO Address 1 and the P
27. g Window 38 Device Type Setting VideoBloX 4 2 42 HVBGPIO Typical Application with VideoBlOX 0 53 HVBGPIO Typical Application with MAXPRO Net 54 HVBGPIO RJ45 UART Pin Outs dk oe nee a wan we w a 55 PTZ Settings in NETCFG 58 Device Settings n NETEFG chew da a e ks e w an 59 Alarm Settings in NETCFG 60 Relay Settings In NETCFG 4 uoo oko 4 8 u a 0 ai a nn 61 Document 800 02530 Rev B 03 10 Figures Tables Table 1 1 Table 1 2 Table 1 3 Table 3 1 Table 4 1 Table 5 1 Table 5 2 Table 5 3 Table 5 4 Table 5 5 Table 5 6 Table 5 7 Table 7 1 Table 7 2 Table 7 3 Table 7 4 Table 7 5 Table 7 6 Table A 1 HVBGPIO V1 2 User Guide Front Panel LED FUNGHOM oa a W ehe 16 S1 HVBGPIO Address Setting 17 S2 HBGPIO System Status Parameter Settings 17 Alarm Type Setting uuo o na sn au nd rer UR UR ieh 30 Paley PT DE a v doo o u ORE 0 2 REOR CE Q X 34 UART MOGO SONNO gt srs depo dio RT ER ES 36 UART Stop Bit Length Setting 36 UART Data Bit Length Setting 36 UART Parity Ch
28. hical conventions Font What it represents Example Helvetica Keys on the keyboard Press Ctrl C Lucida Text strings displayed on the screen The message Unauthorized displays Syntax object entered Swiss721 BT Bold Words or characters that you must type The word Enter the password enter is used if you must type text and then press the Enter or Return key Menu titles and other items you select Double click Open from the File menu Buttons you click to perform actions Click Exit to close the program Italic Placeholders words that vary depending on the user name situation Cross reference to an external source Refer to the VideoBloX User Guide Cross reference within the document See Chapter 1 Introduction 12 Introductio Overview Document 800 02530 Rev B 03 10 n This chapter provides an overview of the HVBGPIO and lists the features It also shows the front and rear panels and describes the LED indicators and DIP switch settings The HVBGPIO is a module that can be mounted in a standard VideoBloX chassis providing the functions of PTZ control alarm input and relay output It can also provide a one box solution for PTZ control alarm input and relay output connectivity The HVBGPIO has four PTZ ports four relay outputs 24 alarm inputs one serial port and one Ethernet port Up to nine protocols can be supported including Pelco D Pelco P Diamond JVC and VCL For extra flexibility the HVB
29. m Preshot Tour 4 117 Freeze On Freeze Off 150 Function On 50 Program Tour Speed 119 Flashback 180 Flip 151 Function On 51 Program Tour Dwell 120 Store Alarm Pos 1 Recall Alarm Pos 1 152 Function On 52 Program Tour Point 121 Store Alarm Pos 2 Recall Alarm Pos2 154 FunctionOn53 Program Autopan Start 122 Sync Early Sync Later 155 Function On 55 Program Autopan End 125 Function On 25 Program Camera 161 Clear Privacy Zone Program Privacy Zone Home Pos 126 Function On 26 Program Camera 1xx Function On xx Function Off xx Home Tour mimic 127 Function On27 Program Came ee Home Tour Preshot 44 HVBGPIO V1 2 User Guide Operation Method The operation method is as listed below lt MAX system gt The user sends Preshot 99 command then shortly afterwards sends a Recall Preshot command which in turn will represent Recall 1XX The user sends a Recall Preshot 99 command then shortly afterwards sends a Store Preshot XX command which in turn will represent Store 1XX When options are selected using a digit or letter the user sends a Recall Preshot 99 then shortly afterwards sends a Store Preshot 1 and then sends a recall preshot corresponding digit 0 9 or ASCII code decimal VB system The user sends a Recall Preshot 1XX command which in turn represents Recall 1XX command The user sends a Store Preshot 1XX commandwhich in turn represents Store 1XX command The user sends a Store Preshot 101 comma
30. nd and then shortly afterwards sends a Recall Preshot commandcorresponding digit 0 9 or ASCII code decimal Example To enable MenuOn in a VideoBloX system simply press these keys on the keyboard recall 1 0 1 enter In a MAXPRO Net system press recall 9 9 recall 1 enter To clear the menu in a VideoBloX system use the ESCAPE command store 102 press store 1 0 2 enter In a MAXPRO Net system press recall 9 9 store 2 enter Note In a MAXPRO Net system the series of keys should be pressed in sequence fairly quickly If there is a long delay between keystrokes the command will be resolved to Recall 99 and Store 1 In some applications you need to type a digit 0 to 9 or letter For example if you should type to save your setting you can press Store 101 then Recall 83 83 is the ASCII code of S As different PTZs could be implemented by different functions the following tables list the supported function charts for each supported PTZ protocol Document 800 02530 Rev B 45 03 10 PTZ Operation Table 7 3 Pelco D PTZ Preshot Mapping Pelco D PTZ Call Set Function Preshot Mapping Call Function Set Function No Call Function Set Function 109 Camera Reset Power Reset 132 Aux 2 2 Off 111 Auto Iris On Auto Iris Off 133 3 Off 112 Auto Focus On Auto Focus Off 141 Run Learning Tour 1 Program Learning Tour 1 116 BLCOn BLC Off 142 Run Learning Tour 2 Program
31. om each other every polarity and or reference supply rail can be used by all of the output circuits on the same HVBGPIO One LED indicator on the front panel see Figure 1 1 shows all of the output status changes Figure 4 1 Relay Output Connectors RELAY 1 T RELAY 2 T RELAY 3 T RELAY 4 7 NO NC COMNO NOCOM NO NC COM NO NC COM Pulsed You can set the relay outputs to be either energized Constantly or Pulsed In Pulsed mode the output energizes momentarily In Constantly mode the output does not energize unless it is set to de energize by the MAXPRO Net NETCFG 33 Relay Outputs Relay Type Setting Setting the Relay Type on the DIP Switch Relay type can be set on DIP switches by setting S2 6 to OFF Setto OFF Remove Cover to Access DIP Switch Settings Table 4 1 Relay Type Setting SW3 Description ON OFF 5 Type of Relay 1 Constantly Pulsed 6 Type of Relay 2 Constantly Pulsed 7 Type of Relay 3 Constantly Pulsed 8 Type of Relay 4 Constantly Pulsed Setting the Relay Type Using the Web Browser 34 To set the relay type using the web browser 1 After logging on click the CONFIGURATION tab then click System Configurations on the left pane The System Configurations window displays see Figure 2 4 2 Inthe Relay Output field at the bottom see Figure 4 2 select either Pulsed Constantly from the drop down lists for each of the four relays 3 Click Apply to save the change
32. ony France www honeywell com security fr 33 0 1 40 96 20 50 Honeywell Security Group Italia SpA Via della Resistenza 53 59 20090 Buccinasco Milan Italy www honeywell com security it 39 02 4888 051 Honeywell Security Group Espana Mijancas 1 3a planta P Ind Las Mercedes 28022 Madrid Spain www honeywell com security es 34 902 667 800 Honeywell www honeywellvideo com 1 800 796 CCTV North America only HVSsupport honeywell com Document 800 02530 Rev 03 10 2010 Honeywell International Inc All rights reserved No part of this publication may be reproduced by any means without written permission from Honeywell The information in this publication is believed to be accurate in all respects However Honeywell cannot assume responsibility for any consequences resulting from the 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
33. opens see Figure 2 7 Figure 2 7 Manage Configuration File Window mimtam Configuwadena kanage Co guration Fin Cop Serie ee Frost orig et ila De Tima Format Epon Cs ha link an ec ee Target Ar HVBGPIO V1 2 User Guide 2 Click Browse The Choose File dialog opens see Figure 2 8 3 Select the configuration file and then click Open The address and the name of the file populate Figure 2 8 Choose File Dialog Box Sri ai Manage Configuration Be Dip switch Configar bant BT RETE Uin p Sal Fran _ EMO 2 ira i E pawkar nam i m DIETE CL dam Usar Defies Protocol File 1 sasam A en Exput Fight cick me bk and Save As fg 4 Click Send to import the configuration file The message Import Configuration file success indicates the file has been successfully imported Figure 2 9 Configuration File Successfully Imported Canfigur riene Manage Configuration File Tip ag is Caoniguranans F Ew CERRO IZ A EI Document 800 02530 Rev B 25 03 10 Web Browser Exporting a Configuration File To export a configuration file 1 On the CONFIGURATION tab in the Export Configuration
34. r 2 2 kilohm EOL resistor sensing by either DIP switch or through the web browser CC Mode When configured in CC mode the HVBGPIO detects contact state changes according to the NO NC setting defined in the Alarm Input table in SETMAX or NETCFG EOL Mode In the EOL mode setting NC to SETMAX or NETCFG causes an alarm active when the alarm loop becomes either open or shirt circuit unsealed Conversely the NO mode the alarm becomes active when the loop is in the sealed position Sensing Each input can be checked in approximately 1 ms This means that even with all input circuits enabled an alarm condition can be recognized in less than 24 ms There is an alarm de bounce period of 30 ms so an alarm input has to stay unchanged for this period Document 800 02530 Rev B 29 03 10 Alarm Inputs before the alarm condition is reported The LED indicator on the front panel see Figure 1 1 indicates an alarm state change The LED indicator shows an alarm state change regardless of whether the input circuits are enabled or not Alarm Type Settings Figure 3 1 Alarm Input Connectors 412 3 4 5 6 7 8 9 10 11 12 13 14 15 16 17 18 19 20 21 22 23 24 Setting the Alarm Type on the DIP Switch Alarm type can be set through DIP switches by setting SW2 6 to OFF Set to OFF Remove Cover to Access DIP Switch Settings Table 3 1 Alarm Type Setting SW3 Description ON OFF 2 CC EOLofinputtto8 EOL CC 3
35. rm inputs support two kinds of alarm types CC and EOL resistor with two options NC and NO In EOL mode a 2 2K Ohm external resistor is required e Four relay outputs working at up to 1A 50V e Four Universal Asynchronous Receiver Transmitter UART control ports supporting up to nine PTZ protocols e 10 100 baseT Ethernet LAN connectivity e serial port for communication and control e DIP switches for Alarm Relay PTZ COM settings e 66 7 MHz processor core Motorola ColdFire 32 bit RISC CPU e 16 MB Flash memory for the system firmware e uClinux embedded operating system e Firmware is upgradable using the web browser e Non volatile RAM memory to store downloadable system variables configuration and system code extensions e Lithium batteries to back up memory e Recoverable over current protection Interface protection compliance meets FCC LED Indicators The LEDs on the front panel are used to indicate power alarm relay status changes and communication activities Figure 1 3 shows the LEDs and Table 7 7 describes their functions Figure 1 3 Front Panel Diagnostic LEDs amp ETHERNET e o 0 PWR PTZ1 PTZ2 PTZ3 PTZ4 ALARM RELAY LNK ACT Document 800 02530 Rev B 15 03 10 Introduction Table 1 1 Front Panel LED Function LED PWR Function Lit when the chassis is powered on Flickers when the DIP switch status changes PTZ1 Flickers
36. rner of the Login window type in the user name and password then click Login The welcome page displays see Figure 2 2 Note The default user name is Administrator and the default password is 1234 both case sensitive Figure 2 2 Welcome Window 1 d zi m sss HVBOF Heme Welcome Var eh DR ss ua 1 rr P Dan Pul rca a ed ie Cani Jj ERES imr a Ce omnem ETT gr T TE mE sd d RPS Lan Pe Dek Dom ee Rer ee eee Ud ey a HE a hi d d co Di Pelro Det Y ste Dubpsubr Hi ras 1 sena port amd Teer oon Leto B anpiecols caes bes rt mc us E L Eiprerm HO rp mpm ere prob Teen piece Pi and rg adipi Dui alie viet E Geert fe ipecid FTT eae pesas n nir eed m mr product E user euch Meis o sperare A4 PTI porm can ae PIE Furthermore PTZ eon Cae AIR GR ASdbong pr ran NDS DEB AAA FA tg ueteri coding H pur rai puppes T ponds agnmm types contr und eed ine repre ef nor rius ad rorm d open el mode ron eir neue m rema Thes DAB an Bere 1 bum E r vi p Wie i e A Tur vie opborri in HA er ber Comuna Logue El Cong pep T Dau fe Brani Ligo
37. rough the Internet To upgrade the firmware 1 Inthe Internet Explorer address bar type in the HVBGPIO URL then press Enter Type in the user name and password then click Login Select the UPGRADE tab The Software Upgrade dialog box appears see Figure 2 12 Document 800 02530 Rev B 27 03 10 Web Browser Figure 2 12 Software Upgrade Dialog Box Bofrware Lg uda Aare Upgrade De lyin er rere mwa ie cra Api File Bend 4 Inthe Select Folder drop down list select one item Application FPGA or KERNEL Click Browse A Choose File dialog box prompts you to select the relevant file 5 Click Open Figure 2 13 Software Upgrade Choose File Dialog Box Sofware Upgrade ir Lio Fur pT eA wg Deme cares mee oy gi 8 Capas E AT Ex Yun Sebi Fi mon ig a mk Me M I Send 3 Fe o ne 6 Click Send to upgrade the file A success message indicates the firmware has been successfully upgraded Note The system reboots automatically after the firmware upgrade has completed 28 Alarm Inputs This chapter explains the 24 alarm inputs The alarm inputs can work in either CC or EOL modes These modes can be configured on DIP switch SW3 or using the web browser Contact Closure or End of Line Resistor Modes HVBGPIO can be set to either open short circuit sensing o
38. s Click Default to return the settings to the default values without saving your changes Figure 4 2 Relay Output Type Setting Relay Type Pulsed v Constant in Relay Constant gt Relay Typed ulsed Constant UART Ports Document 800 02530 Rev B 03 10 This chapter covers the four UART ports which can send receive serial command protocols to various protocols compatible with equipment from manufacturers other than Honeywell For ports 1 to 3 only RS485 is currently implemented Port 4 can support RS232 RS422 and RS485 Manchester encoding is reserved for SW12 which should be left at the bottom side HVBGPIO UART ports can be configured to operate in two modes e Pan Tilt Zoom PTZ mode The PTZ control messages are received on the communications port Depending on the DIP switch settings these commands are then translated to serial data packets which are compatible with other manufacturer s PTZ telemetry receivers or integrated domes e Device Control mode Generic device control commands are received and translated into data packets which are compatible with other manufacturer s digital video recorders DVRs multiplexers and so on Figure 5 1 UART PTZ Port Connectors 2 PORT VE 1 1 2 2 3 3 4 4 RX RX 35 UART Ports Setting the UART Port Mode Table 5 1 lists the HVBGPIO UART mode settings Table 5 1 UART Mode Setting Position De
39. s page shows the firmware version If you operate the HVBGPIO in Slave mode only the version of the board itself displays In Master mode you can select other board addresses to get the information of corresponding slave boards and to configure their settings Change the values in the fields as desired 4 Click Apply to save the changes Click Default to return the settings to the default values without saving your changes 22 HVBGPIO V1 2 User Guide Modifying IP Configuration Settings To change the IP configuration settings 1 On the CONFIGURATION tab click IP Configurations on the left pane The IP Configurations window displays see Figure 2 5 Figure 2 5 IP Configurations Window Canfgur iP Configuration HE neds if A EF Fi rt sam Dub Mask G a Tr 133 14 I Abt Deis Fin Tima Format x j Canem 2 Modify the values of the IP Address Subnet Mask and Gateway fields as desired Note The default network settings are IP Address 192 168 1 9 Subnet Mask 255 255 255 0 Gateway 192 168 1 1 3 Click Apply to save the changes Click Cancel to cancel the current changes Click Default to return the settings to the default values without saving your changes Note In the event you have forgotten the IP address change switch S2 2 from OFF to ON This resets the IP address to th
40. scription ON OFF SW4 2 Port 1 Work Mode Device Control PTZ SW6 2 Port 2 Work Mode Device Control PTZ SW8 2 Port 3 Work Mode Device Control PTZ SW10 2 Port 4 Work Mode Device Control PTZ There is one bit for each port to select the UART setting including Stop Bit Length Data Bit Length Parity Check mode Baud Rate and Interface Standard The detailed settings are listed below Selecting the UART Stop Bit Length Table 5 2 lists the HVBGPIO UART Stop Bit Length settings Table 5 2 UART Stop Bit Length Setting Position Description ON OFF SW7 1 Port 2 Stop Bit Length 2 bit 1 bit SW9 1 Port Stop Bit Length 2 bit 1 bit SW11 1 Port 4 Stop Bit Length 2 bit 1 bit Selecting the UART Data Bit Length Table 5 3 lists the HVBGPIO UART Data Bit Length settings Table 5 3 UART Data Bit Length Setting Position Description ON OFF SW7 2 Port 2 Data Bit Length 7 bit 8 bit SW9 2 Port 3 Data Bit Length 7 bit 8 bit SW11 2 Port 4 Data Bit Length 7 bit 8 bit 36 HVBGPIO V1 2 User Guide Selecting the UART Parity Check Mode Table 5 4 lists the HVBGPIO UART Parity Check settings Table 5 4 UART Parity Check Setting Position None Even Odd Port 1 SW5 Port 2 SW7 B3 0 4 0 B3 1 4 0 B3 0 B4 1 Port 3 SW9 Port 4 SW11 Selecting the UART Baud Rate Table 5 5 lists the HVBGPIO Baud Rate settings Table 5 5 UART Baud Rate Setting Position 9600 19200 2400 4800
41. t xFF xll x00 x09 x00 x01 xYY lt programPreset1 32 gt xFF xIl x00 x0B x00 x02 xYY lt gotopreset1 32 gt xFF xIl x00 x09 x00 x02 xYY lt programPreset1 33 gt xFF xIl x00 x0B x00 x03 xYY lt gotopreset133 gt xFF xIl x00 x09 x00 x03 xYY lt programPreset1 41 gt xFF xIl x00 x1 F x00 x01 xYY lt gotopreset1 41 gt xFF xIl x00 x23 x00 x01 xYY lt programPreset1 42 gt xFF xIl x00 x1F x00 x02 xYY lt gotopreset1 42 gt xFF xIl x00 x23 x00 x02 xYY lt programPreset143 gt xFF xIl x00 x1F x00 x03 xYY lt gotopreset1 43 gt xFF xIl x00 x23 x00 x03 xYY lt gotopreset1 45 gt xFF xIl x00 x21 x00 x00 xYY Document 800 02530 Rev 03 10 HVBGPIO V1 2 User Guide 51 PTZ Operation 52 Typical Applications This appendix provides examples of two typical system applications when HVBGPIO is used in VideoBloX mode and when it is used with MAXPRO Net system VideoBloX System Application When used in VideoBloX mode the HVBGPIO should be set to Slave mode It can receive Bossware protocol from the VideoBloX chassis backplane One HVBNET16CPU is required as the Master controller A typical application is shown in Figure A 1 Users can operate a keyboard to control PTZ and DVR devices and to set alarm sequences to control alarm inputs and relay outputs Users can also upgrade and configure the VideoBloXx system using the web browser Figure A 1 HVBGPIO Typical Application with VideoBloX e PTZ Domes
42. tion File nn 24 Exporting a Configuration File nn 25 Setting the Date and 26 Firmware 27 3 a Q 9 Q Q amp nn eR Q eng 29 Contact Closure or End of Line Resistor Modes a 0 0 29 CO NOS ee ee Q ee ee N 29 EOL Mode e s s ee sss oos ys soon 29 Sensi eu sm aang mE heed ae ee xe buon Ru We uoo RUE S Eu ru s 29 Alarm Type Settings su uk dox md RESO 30 Setting the Alarm Type on the DIP Switch 30 Setting the Alarm Type Using the Web 30 4 He OUDS Ke Se een 33 Constantly and Pulsed a a a a a AAA 33 Relay Type Setting mn 34 Setting the Relay Type on the DIP Switch 34 Setting the Relay Type Using the Web Browser nn 34 5 OAMI FO iR XXX A3 3X 35 Setting the 36 Document 800 02530 Rev B 5 03 10 Contents Selecting the UART Stop Length nn 36 Selecting the UART Data Bit Length 36 Selecting the UART Parity Check 37 Selecting the UART Baud nn 37 Selecting the UART Interface

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