VISORNET 4C - Pdfstream.manualsonline.com
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1. VISO Appendix Doc DM245 1 11 34 Rev 7 0 GENERAL Figure 2 2 Aspect of the button bar where is device stacking On pressing the UPLOAD button a Scanning the equipments message will appear in the header field This indicates that the master device is locating its slave devices in order to initiate the updating process Once the search has been completed the following message appears Equipments to be uploaded together with a form as shown in the following figure Equipments to be uploaded VisorNet 22 MbRAM 4 BE 0500526 1722570 150 1 1 120 3450 MbFlash Figure 2 3 Software version updating formula To update the BIOS press the BIOS button The message in the header field changes to Uploading the BIOS indicating that the updating process is executing Once this has ended the aspect of the form changes A list of the correctly updated devices appears in green together with those devices which could not be adequately processed Uploaded Equipments with BIOS VisorMer 32 MIRAM 4 BE 355100526 1722576150 1 1 130 3450 MbFlash Figure 2 4 List of updated devices Doc DM245 1 We VISO m Appendix Rev 7 0 After a few seconds the updated devices will re start in order to activate the new code version If you wish to update the application software press the APPLICATION button see figure 1 20 The process is identical to the BIOS proce2. Through the six inputs the VisorNet 4c can detect alarm device activation Volumetric fire sensors alarm switchboard etc and capture a sequence of images from any of the four cameras VisorNet 4c at this point uses the existing communications link in order to transmit an indication of an alarm situation to an Alarms Control Center or to the Telesurveillance Center Together with the alarm situation indication the device sends the sequence of the captured images from the appropriate camera which aids early detection of false alarms VisorNet 4c has two relay outputs available through which you can activate or deactivate the external devices A key slot with four positions is situated on the front panel and permits VisorNet 4c programming There are two pre saved programs Day and Night which identify with two key positions and permit you to establish two security levels or different performances Choosing the Auto position key enables the VisorNet4c to activate one of the two programmed timetables The fourth key position deactivates the device The possible VisorNet 4c deployment scenarios are varied Among those that stand out is the one that is displayed in the following figure VISO RN ET Installation 24 I4 Rev 7 0 Alarm of Day Ao Night VisorNet Surveillance Central Internet user 1 Internet user 2 Figure 1 1 Typical VisorNet 4c work scenario The main device characteristics are as fo
3. Device Operation OFF System stopped RED ERROR Incorrect operation of some component YELLOW nvalid configuration GREEN System initialized and operating Ethernet LAN Port OFF nterface is not available RED ERROR Interface is unavailable due to not being enabled or failing test YELLOW process of initializing the interface GREEN nterface available Blinking maintenance frame WAN expansion Serial interface FR PPP SDLC OFF Port has not initialized RED Depends on the type of serial interface ERROR Errors ata physical level or call in progress YELLOW Depends on the type of interface interfaz in initialization process or link established without sending data GREEN Communication established Expansion RDSI ISDN interface Channel B1 OFF Physical level is not available either due to ISDN switchboard cost savings or because the cable is not connected to the device RED ERROR Errors in the line physical level or call in progress YELLOW Physical level established GREEN Call established through Channel B1 network B1 channel intermittent green off Switch channel ntermittent green yellow Permanent channel Security Alarms OFF There are no alarms pending transmission to the center RED ERROR An error has occurred when trying to send an alarm to the center YELLOW process of establishing communication with the center in order to transmit alarm GREEN Transmitting an alarm
4. VISO 4 Installation Manual Doc DM245 I Rev 7 0 March 2004 Index I Chapter Installation M 1 1 1 1 restes A p Iac I 1 1 Unpacking 1 2 Optional Equipment and 1 5 1 2 Conte ctili oes suicide tea rend 1 6 1 2 1 Connecting the power 1 6 1 22 Connecting Inputs O tputa 1 7 1 2 2 1 Jnput COMME CONS un ossa c hirta 1 8 15222 1 10 2 2 3 Output connections 1 15 1222 4 Input Output expansions 1 orte 1 16 1 2 3 Connecting the RS 232 and RS 485 peripherals 1 16 I 24 External devices power Supply 2 5 Connecting TV 1 2 6 Audio Input and Output Connections T 2 7 Ethernet LAN Connection eene 2 8 ISDN 2 9 External MODEM connection P I 2 10 WAN Card SCSI connector description 1 23 1 3 Siparticanmce Of the LEDS sannana 1 25 I 4 Positioning the ete tre eto eese aep ep eee aveva 1 26 125 Mictoswitch Programming 1 26 T25 1 Procedure to ignore the configuration 1 5 2 ga 1 29 I Chapters Appendics nea EEEa II 31 M i Software Updating 1I 31 1 1 Updating throught FED ene 1I
5. usually open or usually close supervised or unsupervised a voltage source or an electric current source to the inputs Each input has a microswitch to configure the type of input to be used Table 1 2 shows the possible combinations Relay button switch usually open unsupervised This is the simplest case The device detects activity when a contact that is usually open is closed Relay button switch usually closed unsupervised This is similar to the previous case but here the inactive level is a closed contact and must be activated when the contact is open INPUT NOT USED on On RELAY U O 5 Unsupervised ON RELAY U O Supervised ON ON OFF RELAY U C 6 Unsupervised or OFF RELAY U C Supervised ON ON OFF VOLTAGE SUPPLY ON OFF OFF POWER SUPPLY OFF ON OFF OFF Table 1 2 Configuration of different types of inputs through SW2 SW7 70 0 Usually Open U C Usually Close VISO RN ET Installation 112 7 0 Sal5 Sal4 Sal3 Sal Sall Sald 8 CON2 e e e 1D6 105 104 SWI swe sw5 sw4 53 5 2 ow ll M All a Baas Pear 2 Ents Entd Ent Figure 1 7 Distribution of connectors and jumpers in CLESA module Supervised input Sabotage detection The supervised input is applicable in both usually open contacts and usually closed ones It consists of sabotage detection i
6. Configurable use for B and D channels software and their combination SPEED RATE 16 Kbps Channel D 64 Kbps Channel B CONNECTOR RJ 45 RS 485 Port MAXIMUM REACH 1200 meters SPEED RATE 300 bps a 115 kbps configurable DATA FORM Asynchronous 6 7 or 8 data bits with or without parity 1 or 2 stop bits CONNECTOR 45 RS 232 Port MAXIMUM REACH SPEED RATE 300 bps to 115 kbps configurable DATA FORM Asynchronous 6 7 or 8 data bits with or without parity 1 or 2 stop bits CONNECTOR Standard DB9 Audio INPUT 1 mono mini jack for microphone connection OUTPUT 1 mono mini jack connector mini jack for loud speaker connection DATA FORM G 723 1 G 729A Configuration LOCAL TERMINAL V 24 9 600 bps 8 n 1 In the internal RJ 45 connector WEB Embedded WEB application accessible from a local or remote browser Compatible with Microsoft Internet Explorer 4 0 or higher Power Supply INPUT VOLTAGE 110 220 V AC or 48 V DC with on off switch Input frequency 50 60Hz INPUT CURRENT 220 VAC PLUG FOR PERIPHERAL POWER INTERNAL FUSE VISO RNET Appendix Doc DM245 I 11 38 Rev 7 0 Mechanical characteristics KEY BOX LENGTH x WIDTH x HEIGHT WEIGHT Environmental Specifications TEMPERATURE ON 52 to 45 OFF 20 to 60 C RELATIVE HUMIDITY ON 8 to 80 OFF 5 to 90 Doc 245 VISO RNET Appendix
7. correctly Plug the other end of the cable into the modem If 2 your modem has DB9 connector a standard DB25 DB9 adaptor may be needed Connect the modem to the telephone network termination point through an RJ 11 RJ 11 cable Plug the modem into the electricity supply mains VISO RN ET Installation d 1 22 Rev 7 0 1 2 10 WAN Card SCSI connector description 1 Negative Negative polarity polarity Activates at low CTS Activates at low level level 7 9 Not connected Not connected 1 Not connected Not connected 1 Not connected Not connected 15 TXC Negative TXC Negative polarity polarity GND GND 1 3 Negative Negative polarity polarity Positive polarity RXC Positive polarity 2 Not connected Not connected 2 2 1 3 Not connected Not connected 5 Not connected GND VISO Installation 1 23 7 0 1 GROUND GROUND 3 Not connected Not connected CTS Activates at low CTS Activates at low level level 7 9 Not connected Not connected Not connected Not connected 1 1 1 1 Not connected Not connected 1 Not connected Not connected 2 Not connected Not connected 2 Not connected GND GND 1 m 3 RXD TXD 5 Not connected Not connected 7 9 1 1 RXC RXC 3 5 GND VISO RNET Installation Deae 1 24 Rev 7 0 1 3 Significance of the LEDs
8. functions First it collects information coming from external devices i e the opening or closing of a relay depending on whether it is usually open or closed and the absence or presence of voltage or power supply The device is able to detect sabotage in the inputs whether it is carried out by connecting the two input wires or by cutting one of them To achieve this the connected external device must be prepared for supervised input The inputs outputs device is ready to work with normal inputs as well as supervised inputs Secondly the CLESA module is able to control external devices via the opening closing of a relay Each output has three contacts COMMON USUALLY OPEN and USUALLY CLOSED Consequently the CLESA is ready for devices that activate when a relay closes or for those that activate when it opens The CLESA module has 6 inputs and 6 outputs The information received from the inputs or the one transmitted to the outputs is exchanged with a remote center ie a PC with a control program through a twisted pair The transmission is carried out through an interface in accordance with the RS 485 regulation balanced data transmission This permits you to transmit data at a longer distance than the RS 232 regulation Due to the transmission characteristics of the RS 485 interface it is possible to place several input output boards over the same twisted pair resulting in a modular system According to the user s needs it can have 6 i
9. i Figure 1 10 Rear panel connector to provide power for other devices This connector is located on the rear panel of the device and the following steps for connection must be carried out VISO Installation 1 17 7 0 To connect the device power To disconnect it source exractekadcoresondng 7 eset onthe war d to the power connector panel of the device Introduce the stripped cable from the device in the lead and screw down firmly The polarity must be correct or this 2 could cause irreparable damages in the device that is connected amp Plug the lead into the 5 In cases of overload there does exist a replaceable internal fuse 1 with quick 0 5 A value 2 5 Connecting TV cameras Unscrew and detach the lead cable VisorNet 4c being a multistandard system accepts both NTSC camera standards 525 lines per image 60 images a second and PAL camera standards 625 lines per image 50 images a second automatically detecting the signal type that is sent from the camera Cameras connected to the VisorNet 4c must be of one type only i e all PAL or all NTSC Figure 1 11 Female BNC connectors for camera connection In order to connect or disconnect a camera connect or disconnect the male BNC cable from the camera to the corresponding video input A row of four microswitches SW2 located in the underside of the VisorNet 4c permits the connectio
10. to the center Cameras Video inputs 1 2 3 and 4 OFF Video input is inactive RED ERROR Input is inactive but without camera signal or with a defective signal YELLOW n initializing process GREEN nputis active with video signal detected VISO RN ET Installation 1 25 7 0 1 4 Positioning the key You insert the key in the key slot on the front panel of the VisorNet4c The key has four different positions These positions are used to deactivate the device or to choose between the Day Night or Automatic mode programming The position selected coincides with the key teeth Figure 1 17 Key details on the device front panel The four key positions permit the following Off position This position inhibits device programming i e this ignores activation in any of the zones Day position Activates the Day program independently of the schedule Night position Activates the Night program independently of the schedule Auto position The device automatically selects the Day program or the Night depending on the time and the scheduled time programmed Please for more information see Dm246 I VisorNet User Manual 1 5 Microswitch Programming On the underside of the device there are two covers held in place with screws and conceal total of nine microswitch configuration wires of the device In Figure 1 18 you can see the position of the micr
11. 31 II 1 2 Updating throught Xmoder 3 4 nens 1I 32 II 1 3 Updating in master slave environments II 34 II 42 Technical II 36 The manufacturer reserves the right to introduce changes and improvements to the appropriate features of both the hardware and the software of this product modifying the specifications included in this manual without prior notice Chapter Installation 1 1 Introduction VisorNet 4c is a digital transmission device for video signals over IP protocol for remote surveillance VisorNet 4c incorporates different alternatives for IP network connections through links that can be Integrated Services Digital Network ISDN an Ethernet Local Area Network a point to point Frame Relay Network or any other WAN type up to 2 Mbps and even the Public Telephone Switch Network PSTN through an external modem This variety of networks combined with the universal use of the IP protocol permits the use of the device in a wide range of scenarios VisorNet 4c configuration is carried out through forms contained in various web pages that offer an integrated server in the device itself The forms permit rapid introduction of all the device operation parameters VisorNet 4c permits you to access video images from up to four different cameras from a remote PC Depending on the network bandwidth the device selects the most adequate video quality
12. Microswitches must be in the OFF position 1 5 1 Procedure to ignore the configuration This procedure is applied if you have to discard the entire device configuration e g in situations where the user does not remember the device password This procedure is based on acting over the SW1 microswitch number 5 sui Figure 1 19 Activating microswitch number 5 The procedure in order to ignore the configuration is as follows VISO Installation Duc 1 28 Rev 7 0 To ignore the configuration Switch off the device Using a screwdriver put microswitch number five in x the ON position Switch on the device The device will then discard the existing configuration and stores the manufacturer s configuration Switch off the device again Using a screwdriver return microswitch number 5 to the OFF position Switch on the device and proceed to reconfigure the device again following the steps given in the User manual Dm246 l 1 5 2 Device stackin The SW3 rotary switch is used to configure the device in installations where one VisorNet 4c takes over the role of master with a group of up to 3 VisorNet4c act as slaves Slaves 1 2 or 3 In the User manual Dm246 I you will find detailed explanations on the implications that this configuration has over the operation of the devices TITTET su Figure 1 20 Master slaves configuration rotary switch located on the underside o
13. N Connection The local network connection LAN is carried out through a braided pair cable terminating in the RJ45 connector Permits the ETHERNET 10 100 Base T connection through a shielded or unshielded UTP or STP braided pair cable The local network connection LAN will be normally carried out depending on the design through a HUB Coaxial Connection If the local network LAN is cabled with coaxial the VisorNet 4c connection should be carried out through a braid pair adaptor to coaxial This adaptation can be carried out for example directly through a HUB incorporating a BNC output or an AUI connector In this case an AUI BNC adaptor is required 2 8 ISDN Connection In the ISDN VisorNet 4c equipment the ISDN RJ45 connector is used to connect the ISDN basic access This output is connected to the S bus 4 wires that comes from the ISDN network terminator NT1 or TR1 Passive Bus termination resistors The VisorNet 4c has a pushbutton located on the rear panel of the device identified as TERM that permits you to connect the BUS S termination resistors The placement of these termination resistors is very important as this can give rise to data or voice errors especially if the S bus line is long e Single or last terminal on the ISDN S bus The TERM pushbutton should be in the ON position if the VisorNet4c is the only element connected to the network terminal NT1 TRI etc or it is t
14. O TEE Appendix Rev 7 0 e the transfer has successfully completed you will see that the B1 ISDN LED activates in green and the S LED continues flashing in yellow indicating that the recording process is in progress if the S LED passes to red the recording process has failed if this passes to green the recording process has finalized satisfactorily e the code has been successfully loaded deactivate the microswitch 3 so the device will not pass to the wait mode once more to unload the code through the Xmodem By default the application loaded through the Xmodem is saved with the name VNGS60 BIN you can modify the name following the instruction that appears on the console when carrying out a load Loading through the console can also be carried out by accessing the BIOS menus in order to access the said menus you must press CTRL T when a series of dots appear after the gt gt symbols ROUTER TELDAT VISORNET 4C Teldat BIOS CODE VERSION 01 01 12 CPUs MPCSS0 CLK 65536 KHz BUSCLK 32768 KHz Date 06 06 02 Thursday Time 15 43 21 SDRAM size 32 Megabytes BANK 0 16 Megabytes detected BANK 1 16 Megabytes detected Caches ON Write Back FLASH 4 Mb NVRAM 512 Kb EEPROM 2048 Bytes UART RS232 UART RS485 FAST ETHERNET JPEG CODEC EXP2 VCP CARD Current production date 00 39 Current software license 41 0 Current serial number 370 00151 Xmodem whith chk transfer Default bau
15. PE is set to IMAGE ftp hash Hash mark printing On 2048 bytes hash mark ftp put vn860 bin 200 PORT is set to IP ADDR 172 24 51 52 PORT 1172 150 Data connection open file transfer in process HERRERA EERE GRE HE EEE EG aE EEE GREE EEE EGE EH HH REGS HE EEE EG GEE EH EEE GREE EEE EGE EE HH HF 226 STOR completed 1078668 bytes processed data connection is closed 1078668 bytes sent in 1 67 seconds 645 14 Kbytes sec ftp gt quote site savebuffer 200 SAVEBUFFER completed ftp gt quote site reload on 200 RELOAD mode is set to ON fip gt quit 221 Goodbye Qux 1 2 Updating throught Xmodem This code updating mode is for those cases where you do not have an IP connection available with the device or in emergency cases To carry out updating e the microswitch 3 in the ON position and switch on the device By default the transfer speed is 115200 bps if you wish to change the said speed you must access the device console and set a new speed e Wait until the B2 ISDN LED is green and the S LED is slowly flashing in yellow the device is waiting to load the code e Through a program with Xmodem operation you carry out loading from an application file you will notice that the S LED is flashing rapidly indicating the transfer process If the S LED passes to red the transfer has failed repeat the process slowing down the speed Doc DM245 1 gt VIS
16. TED DIGITALIZATION RATE WITH FOUR ACTIVE 12 5 images per second INPUTS COMPRESSION JPEG ISO 1092 2 ITU H 263 optional MPEGA SP ISO IEC 14496 2 Doc DM245 1 We VISO decis Appendix Rev 7 0 Inputs and outputs OF INPUTS 6 through a lead with screwed down contacts TYPE Normally open NO Not supervised Normally closed NC Not supervised Normally open NA Supervised Normally closed NC Supervised Voltage source Power source eee OF INPUT Through microswitches DEVICE LOAD RESISTANCE FOR SABOTAGE DETECTION IN Approximately 1 in series for inputs normally closed and 1 SUPERVISED INPUTS K Q in parallel for inputs normally open MINIMUM VOLTAGE DETECTABLE IN VOLTAGE SOURCE INPUTS MAXIMUM VOLTAGE APPLICABLE IN VOLTAGE SOURCE INPUTS MINIMUM POWER DETECTABLE IN POWER SOURCE INPUTS MINIMUM POWER APPLICABLE IN POWER SOURCE INPUTS OF OUTPUTS 2 through plugable lead with screwed down contacts TYPE Normally open NO or closed NC VOLTAGE AND POWER LIMITS 0 35 A 30 VDC 0 25 A 42 VAC LAN PORT CONNECTOR STP UTP RJ 45 SPEED RATE 10 100 Mbps 10 100 baseT PROTOCOLS Ethernet 802 3 LLC 802 2 ARP WAN Port CONNECTOR SCSI Male 26 pins INTERFACES V 24 V 28 RS232 C DCE DTE V 35 DCE DTE X 21 DCE DTE SPEED RATE Up to 2 Mbps PROTOCOLS FRAME RELAY PPP SDLC etc 7 This depends on the equipment Doc DM245 1 We 150 EDS Appendix Rev 7 0 ISDN Port ACCESS Basic 2B D CHANNEL
17. act with the common one The third contact is normally closed and opens contact with the common one when activation is produced VISO Installation 1 15 7 0 To connect an Toconnectan output To disconnect an output Extract the plugable lead corresponding to the output Disconnect the plugable lead from that you wish to connect from the connector located on the rear the connector on the rear panel of device panel of the device Introduce the stripped cable from the device into the lead screwing this in firmly Select the connector identified as Unscrew the lead cable and NO if the connection type is subsequently remove it normally opened or NC if the selected connector is normally closed Plug the lead into the Plug in the lead to the connector 4 connector on the rear panel of 4 located on the rear panel of the the device device 2 2 4 Input Output expansions VisorNet 4c permits you to expand the number of inputs outputs that are handled through the Visor O expansion modules Each module includes six inputs and six outputs with similar characteristics to the internal inputs outputs of the device itself You can link various expansion modules together through an RS 485 bus The first module in the link is connected to a VisorNef 4c through an RJ45 connector from the RS 485 port The cable connecting the first module in the link with the VisorNet4c is an RJ11 RJ11 cross
18. al modem or another type of WAN H 263 expansion An expansion card with a channel H 263 video encoder transmitter MPEG4 expansion Expansion card with MPEG4 video encoder transmitter for a channel Audio H 263 expansion An expansion card with H 263 video encoder transmitter for one channel and a G 723 1 G 729 A audio codec for one bi directional channel Audio MPEG4 expansion Expansion card with MPEGA video encoder transmitter for a channel and audio codec G 723 1 G729A for a bi directional channel VISO RNET Installation Doc DM 2434 1 5 Rev 7 0 1 2 Connecting Positioning the tops accessing the configuration microswitches On the underside of the device there are two tops that are firmly fixed by screws and which cover the device s configuration microswitches In order to remove each top unscrew the corresponding screw and lift it up towards the side where the screw has been removed To replace insert the tab of the top in the slot situated in the device position the top and firmly fix it with the original screw Figure 1 3 Removing the tops that cover the configuration microswitches in the VisorNet 4c 2 1 Connecting the power source The VisorNet 4c has two versions available for two power source options option AC permits connection to an 110VAC or 220VAC outlet voltage indiscriminately The DC option permits powering the device at 48VDC The maximum current consumed at 220VAC is 0 5 A Connect th
19. d rate 115200 VISO Appendix Doc DM245 1 11 33 Rev 7 0 Press any to change the baud rate Set baud rate to 115200 and send the file with Xmodem with chk protocol When the transfer finish reset baud rate to 9600 Example of the change in the transfer speed Fis Vw terete bee Sende SDRAM size 32 Mega BANK 057 000138 Theaugest 4298 Current production Current software 11 Current serial number Wnodem whith chk transfer Default baud rate 115200 Press ony key to change the baud rate ICoreecced 0001104 Woda ate Figure 2 1 Loading code by XModem through Hyperterminal 1 3 Updating in master slave environments For master slave environments you must teleload the master device through one of the previously described procedures Once the master device has been teleloaded you can proceed as described below When a master device has slave devices a new button entitled UPLOAD appears on the lower button bar You can perform BIOS software and slave devices application updating to the version possessed by the master device The configuration parameters described in the following paragraphs are the specific to each device To access these parameter configuration forms you need to previously select the device you wish by clicking on the icon representing the said device
20. dure The header field changes to Uploading the APPLICATION indicating that the process is executing This will change to Uploaded equipments with Application once the process has completed In this case another screen will also appear summarizing the results of the uploading displaying the devices which have correctly updated in green and those that have not in red Similarly after a few seconds the updated devices will re start in order to active the new application software version Important Do not manually re start the device during the interval 9 between the uploading and the automatic device re start This may leave the device inoperable The configuration parameters described in the following paragraphs are the specific to each device To access these parameter configuration forms you need to previously select the device you wish by clicking on the icon representing the said device 2 Technical Specifications Hardware Architecture PROCESSORS Motorola MPC 860T 32 bits with CPM at 66 MHz MEMORY 32 Mbytes RAM 512 Kbytes RAM non volatile STORAGE UNIT FLASH memory 4 Mbytes Eeprom memory 2 Kbytes Video OF INPUTS 4 through BNC connectors 1Vpp 75 Q TYPE NTSC RS 170 or PAL B and G synchronous or non synchronous DIGITALIZATION FORMATE Maximum resolution of 320x240 pixels NTSC and 352x288 pixels PAL MAXIMUM DIGITALIZATION RATE WITH ONE ACTIVE INPUT 25 images per second AGGREGA
21. e power cable to the device and subsequently plug the power cable into the network The VisorNet 4c communication devices do not require any special conditions as regards to establishing voltage or protection against power failures as it has already been protected To avoid electrical discharges residual current circulation and other undesired effects that could affect even the data communication the following is recommended VISO Installation I 1 6 7 0 e It is highly recommended that all interconnected data devices be plugged to THE SAME GROUNDED POWER OUTLET which should at the same time be of good quality lower than 10 ohms Whether the workplace is provided with an uninterrupted power supply system UPS regulated supply or it is independent from the rest such as lighting etc it is highly recommended that all data devices should be connected to the same power source This will avoid operating and premature aging problems of drivers and other components In order to connect to any type of cable device you must first disconnect the power source 1 2 2 Connecting Inputs Outputs The six VisorNet 4c inputs permit you to gather information coming fromexternal devices that could be the opening or closing of a relay if itis normally opened or normally closed and the loss or presence of a voltage or current source In the same way and for devices equipped for connection to a supervised inpu
22. ed cable Only the center two wires of the six wires available are used To connect the first module in the link to VisorNet 4c you connect one end of the cable to the Visor O module CONI connector The other end is connected to the RJ45 connector labeled as RS 485 You can find further information on how to connect and configure the Visor 0 modules link in the Dm251 I VisorNet system reference guide 1 2 3 Connecting the RS 232 and RS 485 peripherals The RS 232 and RS 485 connectors permit you to connect security equipment such as mobile cameras and matrixes from other manufacturers to the VisorNet 4c The RS 232 bus conector is a DB 9 with the following signal distribution 5 RACK p RXD 3 TXD Figure 1 8 Disposition of the signals in the RS 232 bus DB9 connector VISO Installation 1 16 Rev 7 0 The RS 485 bus RJ45 connector has the following signal distribution 1 1 8 2 3 aa 5 6 7 8 Figura 1 9 Disposition of the signals in the RS 485 bus 45 connector In the manufacturer s configuration pins and 4 on one side and 5 and 8 on another are joined through both jumpers in the interior of the device 2 4 External devices power suppl The VisorNet 4c has an output of 12 VDC and a maximum of 0 5A to power devices such as volumetric sensors etc that do not have their own power source and operate at this voltage
23. f the device The device leaves the factory configured as master with the rotary switch set on 0 In order to configure a device as slave carry out the following steps VISO RNET Installation 1 29 Rev 7 0 To configure the device as slave ER 3 Switch off the device Using a screwdriver set microswitch number 5inthe ON position and select the slave number you wish in the rotary switch The permitted values are 1 2 and Switch on the device Your device will then discard the existing configuration and stores the manufacturer s configuration for a slave device Switch off the device once more Using a screwdriver set microswitch number five in the OFF position again Switch on the device Proceed to configure the device again following the steps given in the next chapter for slave devices VISO RNET Installation 1 30 Doc DM245 1 Rev 7 0 Chapter Appendix 1 Software Updating 1 1 Updating throught FTP The Teldat devices have an internal FTP server that permits loading BIOS code and application versions as well as loading unloading configuration files The FTP server is able to distinguish if a file that is loading is from BIOS application or from another Therefore the server functionality is completely transparent By default the FTP server is located in port 21 through the configuration you can change the FTP port server You must check to make sure
24. he RS 485 Here several devices can be connected to the same transmission line It is important to point out that only one of them can transmit at a time To achieve this the control center PC will poll the different devices giving them instructions or examining them one by one The communication will be carried out at a fixed speed of 4800 bps N 8 2 The CLESA module has a group of 3 jumpers JP1 JP2 and JP3 and a set of switches SW1 which are used to configure a series of boards over a single RS 485 bus The functions of these elements are configuration Switch for module identification in the bus Table 1 3 Configuration elements of an RS 485 bus with various CLESA modules VISO RN ET Installation 1 14 7 0 The specific position of the jumpers and the switch for various practical cases are explained in the following tables SW 1 is equivalent to ON andOtoOFF JP2 and JP3 ON means that the jumper is in position and OFF means it is not o m o o wr Table 1 4 Configuration for a single CLESA module s Table 1 7 Configuration for four CLESA modules Power Supply The CLESA module is powered by 220V from the mains 2 2 3 Output connections The outputs are made up of a contact relay that is activated or deactivated Each output has one connector with three contacts The central one is common One of the others is normally open and on activation being produced closes cont
25. he last one on the ISDN S bus This is the position that the device has been initially configured for by the manufacturer VISO RN ET Installation d 1 20 Rev 7 0 5 Interface 4 wires Interface 2 wires Visor Net 4c Termination resistors ON Videoconferencing Figure 1 14 Single or last terminal Intermediate position on the ISDN 5 bus The TERM button must be in the OFF position if the VisorNet 4c occupies an intermediate position on the ISDN S bus S Interface 4 wires U Interface 2 wires VisorNet 4c Termination resistors OFF Videoconferencing Figure 1 15 Intermediate position 2 9 External MODEM connection The VisorNet 4c has a female SCSI connector with 26 pins in order to connect to an external modem It should be used with a specific cable SCSI 26 pins Male DB25 Male provided by Teldat S A The following shows the correspondence between the signals at the two ends of the cable VISO Installation Duc 1 21 7 0 SCSI 26 MALE V 24 DTE DB25 MALE 1 RACK GROUND 1 RACK 12 TXD 2 10 TXC 15 13 RXD 3 21 RXC 17 4 RTS 5 CTS 5 6 DSR 6 20 DTR 20 8 CD 8 p RI 22 7 26 GND 7 To connect the modem follow the steps given below To connect external modem Plug the end of the SCSI cable into the connector 7 identified as WAN DTE DCE in the VisorNet 4c You must make sure that the snap latches fit
26. ist of a contact relay that can be activated or deactivated Each output has aconnector with three contacts Sal 0 Sal 5 See Figure 1 7 One is common another is usually open and when activation is produced this contact closes the common contact The third contact is usually closed and when the activation is carried out it opens the contact with the common one U O and common or U C and common are connected respectively depending on the type of device The LD2 LD7 LEDS are switched on when the associated output is activated Control Block The control block has programmable logic and a microchip Its function consists of reading the status of all the inputs and writing the status of all the outputs When the appropriate order is received from the remote center via the RS 485 interface it reads the status of the inputs and transmits it When the order from the remote control to write the outputs is received it adds the value indicated to them In all these exchanged messages the device needs to check they are addressed to it To do this a character in the information header contains the identifying number of the device the message is addressed to or the device which it came from This identification is vital as one or several input output devices can be connected to the same twisted pair The identification number is chosen in each device using a microswitch located on the inside RS 485 Interface The interface used is t
27. l of the device Put the stripped cable into 7 from the device relay into the Unscrew and pull out the lead cable di lead screwing this in securely Configure the microswitch Plug the lead into connector located E corresponding to the input the rear panel of the device Plug the lead into the device s rear panel connector VISO RNET Installation L8 Rev 7 0 Each input has a microswitch in order to configure the type of input used The possible combinations are O retos zer seem iem RELAY N O 3 Not supervised Table 1 1 Configuring the different types of inputs Relay button switch normally opened not supervised This is the simplest case The device detects activation when a contact is closed when this would normally be open Relay button switch normally closed not supervised In a similar way to the above case the difference being that the inactive level is when the contact is closed and this must open in order to pass to an active state Supervised input Sabotage detection The supervised input is applied in the cases of contacts normally being open as well as for those that are normally closed This basically consists in detecting sabotages in the external device line Such detection can be especially important in detection devices for presence or alarm Possible sabotage could consist of bridging the cable with normally closed contacts or to cutting it with normally o
28. lidays when the system employs the Night program Stores up to 10 ten second video image sequences The sequence capture is triggered by the activation of an input The length of the sequences is programmed independently for each camera and you can chose values between one and ten seconds You may also chose the pre alarm percentage earlier images prior to the input activation that you wish between the values of 0 and 100 Configuration and programming through the embedded WEB application One http server integrated in the device offers html pages containing forms for quick configuration LAN connection through an Ethernet port 10 100 baseT and RJ45 connector WAN connection through V 24 V 35 port from 300bps up to 2 Mbps ISDN port at speeds of 64 128 Kbps X 1 port up to 2 Mbps Optional bi directional audio channel over IP with transmission in G 723 or G 729 formats Remote awakening permitting automatic connection of the device to an Internet supplier in PSTN through an external modem with ring pattern and the ISDN by call indication through the D channel Dynamic assignation of the IP address in the link protocols point to point PPP established over each of the basic access B channels or over Public Switch Telephone Network PSTN using an external modem Access control that limits access to the device configuration screens to users that have an administrator password Availability depending
29. llows x x w The device is equipped with four multi standard video inputs PAL or NTSC cameras connected to the VisorNet 4c must be of one type only i e all PALor all NTSC with automatic standard detection Digital video transmission in JPEG ISO 1092 2 format of up to 4 video signals Digital video transmission in ITU H 263 format from one of the video signals optional Video digital transmission in MPEG4 SP format ISO IEC 14496 2 for some video signals optional The device has six inputs that can be accessed through a plugable lead with screwed down contacts and can be independently configured as Normally open Normally closed supervised or not and with Tension source or Power source There are two output relays available accessible through a plugable lead with screwed down contacts Two complete programmings up to 8 input and output zones with the possibility to associate these with the activation of each zone sending of an alarm to the surveillance center together with a sequence of recorded images from a camera VISO RNET Installation Doc Dates 1 2 Rev 7 0 Activation of the outputs from a zone The freezing of inputs from a zone Unfreezing of inputs from one zone Initiation of a recording The Day and Night programs activated in accordance with a schedule for each day of the week together with the possibility of establishing a calendar with ho
30. n or disconnection of a 75Q termination resistor in each of the video inputs VISO RN ET Installation 0 1 18 7 0 512 Sw sg a al CN n wee 6 m sw LM UM LUI n UM n UM lt LM a UN Cl ZONE 0 ZONE 1 Figure 1 12 Configuration microswitches for the video input impedance 1 Video 1 input terminating in 750 Video 1 input terminating in high impedance 2 Video 2 input terminating in 752 Video 2 input terminating in high impedance Video 3 input terminating in 75Q Video 3 input terminating in high impedance Video 4 input terminating in 75Q Video 4 input terminating in high impedance Important The input impedance the video source should have is normalized and must be 75Q This is the impedance provided by the 9 VisorNet 4c video inputs and are configured by the manufacturer 1 2 6 Audio Input and Output Connections The VisorNet 4c has two stereo mini jack connectors located at the rear in order to plug in a mono audio input and output The input admits the connection of various types of devices A normal line input A passive microphone A passive interphone VISO Installation 1 19 7 0 The loudspeaker output is not powerful and can only be externally connected to amplifier devices ama O Figure1 13 Mini jack connectors for the microphone input IN and the loudspeaker output OUT 2 7 Ethernet LA
31. n the external device line This detection can be especially important in presence or alarm detection devices A possible sabotage would be a bypass in the cable with usually closed contacts or a cut in it with usually open contacts For line supervision it is necessary for the external device to have serial termination resistance of 1K for usually closed contacts or in parallel for usually open contacts 1K is the recommended resistance value although it can vary slightly without affecting the functionality Voltage supply If the input is not passive as it has been until now an optical insulation between the external device and our circuit is recommended this insulation is especially useful in order to avoid problems of potential differences between grounds This is applicable for both input with power and voltage supply When a voltage supply is connected the device is able to detect the presence of voltages ranging from 3 to 30 V As the device idle status is initially unknown activation is chosen when the source V lt 2V VISO RN ET Installation Poni Meds 1 13 Rev 7 0 disappears which will permit you to detect sabotages as well This must not be set above 30 V to avoid device damage Electric current supply There is also optical insulation in this case The range of electrical currents detected is from 2 mA to 40 mA The criterion to follow is the same as above 4 Output device connection The outputs cons
32. nputs and 6 outputs 18 inputs and 18 outputs etc In this case the center controlling the device distinguishes which of the modules it is dialoguing with via its identification number This number is programmable in each device with a microswitch located inside This number must be individual to each device connected to the same wire Functional blocks The diagram of device blocks is as follows VISO Installation 1 10 7 0 RS 485 Line Interface Power Supply Figure 1 6 Block Diagram of CLESA modules CLESA module connections Figure 1 7 shows the location of different connectors and jumpers that appear when the CLESA module box is opened The group of connectors Ent 0 to Ent 5 permits you to connect up to 6 input devices to the CLESA module The group of connectors Sal 0 to Sal 5 permits you to connect up to 6 output devices The SW2 SW7 microswitches configure each of the module device inputs The SW1 microswitch permits you to configure the CLESA module identifier in a system with several modules The 15 connector is the power point intake The SWI microswitch see Figure 1 7 onfigures the CLESA module identifier in a system with several chained CLESA modules The values 0 1 2 must be given to the CLESA module identifiers There are four stages when connecting the CLESA modules The first is to connect the module number 0 to the VisorNET device of its Remote Cen
33. on version b s VISO RNET Installation 1 3 Rev 7 0 9 Master slaves configuration in order to permit access to four devices with a single public IP address Device discovery protocol that permits identification from the master device the remaining VisorNet 4c devices connected to a LAN Continuous digital recording or through alarm to a Recording Server located in the LAN peda e om BS a t 5 of Figure 1 2 VisorNet 4c external aspect Front and rear panels 1 1 Unpacking On unpacking the device you should find the following elements inside the VisorNet 4c box The recordings server is a compatible PC over Windows NT 2000 where a Teldat application has been installed VISO RNET Installation Dae 1 4 Rev 7 0 CD containing manuals reference documentation and updating utilities A pair of keys A power cable Depending on the equipment and the order one of the following cables An RJ45 RJ45 cable for ISDN An SCSI 26 Male DB25 Male cable for connection to an external modem 1 2 Optional Equipment and versions x VisorNet 4c LAN This is the basic device that incorporates the LAN interface RS232 and RS 485 VisorNet 4c ISDN This is the basic device with an ISDN expansion card 2B D VisorNet 4c W AN This is the basic device with a WAN expansion card that permits the connection of the device to an extern
34. oswitches The group of six wires on the underside configure the inputs as can been seen in section I 2 2 1 Input connections The SW2 microswitch wires configure the video input impedance as can also be seen in section I 2 5 Connecting TV cameras The SW1 wire microswitches have test and loading software functions etc that should not normally be handled by the user except in cases where the user has to start the process in order to ignore the device configuration VISO RN ET Installation d 1 26 Rev 7 0 il eee ee sw1 Figure 1 18 Configuration microswitches located on the underside of the device itself Activates the device test Deactivates the device test Reserved Activates loading through the console Deactivates loading through the console 2 a Reenei Activates the start up program prompt and Deactivates the start up program prompt The ignores the application configuration the application uses the configuration previously applications uses a manufacturer s configuration stored in the disk or in flash by the administrator by default Reserved 7 Reserved 8 lgnores the EEPROM configuration Does not ignore the EEPROM configuration Position and use of the SW1 microswitches For correct device operation the microswitches need to be in the following position VISO RNET Installation 1 27 7 0 For the correct operation all the SW
35. pened contacts For line supervision the external device must have a serial 1K termination resistor for normally closed or in parallel normally open 1K is the recommended resistance value although this can vary slightly without affecting operations Consult the device technical characteristics to verify if they are compatible with this operating mode Voltage source In cases where the input is not passive as in the previous sections optic insulation is recommended between the external device the VisorNet 4c this insulation is 3 NO Normally open T NC Normally closed VISO Installation 1 9 7 0 especially useful in avoiding potential difference problems between masses This is applicable both for the input with current source as well as voltage source In cases of connecting a voltage source the device is able to detect the presence of voltage between 3 and 30 V A priori the idle state of the device is unknown as this is selected as activation when the source disappears V 2V which also permits sabotage detection You should not exceed 30 V in order to prevent damaging the device Current source An optic insulation also exists in this case The current ranges that are detected are between 2mA and 40mA inclusive The standards to follow are the same as those given above 2 2 2 CLESA CLESA Control de L neas de Entrada S Alida the input output lines control device has two main
36. t VisorVet 4c is able to detect sabotages both in situations where a bridging has occurred in the input s two wires as well as if one of them has been cut In this case the external device that is connected should be prepared to connect to a supervised input VisorNet 4c is equipped to work with both normal inputs as well as supervised inputs The two VisorNet 4c outputs permit you to control the external devices through a relay open close Each output has three contacts COMMON NORMALLY OPENED and NORMALLY CLOSED In this way this is geared up for devices that activate on the closing of a relay or those that activate on opening them INPUTS o Figure 1 4 Rear connectors for the six inputs INPUTS and the two outputs OUTPUTS NOTE Please see the technical specifications for information on the voltage and currents limit VISO RN ET Installation d L7 Rev 7 0 2 2 1 Input connections Figure 1 5 Configuration microswitches for the six zones in the underside cover of the device In the inputs you can connect a relay a press button or an interrupter whether these are normally opened or normally closed supervised or not a voltage source or current source To connect an input To disconnect Extract the plugable lead corresponding to the input you wish to connect on the rear panel of the device Disconnect the plugable lead from the connector located on the rear pane
37. ter The second is to interconnect the CLESA modules The third and the fourth stages involve the connections of different input and output devices to the CLESA modules The number and type of connections to be carried out in the last two stages depend on the characteristics of the installation devices How to carry out the different connections of the CLESA module according to each type of device is described below 1 Connection between the CLESA module and the VisorNET device The CLESA module and the Remote Center PC VisorNET device are connected through a flat RJ 11 cable with RJ11 connectors attached These in turn are connected to the RS 485 VisorNET device connectors and the CLESA module CON1 connector see Figure 1 7 respectively VISO Installation 1 11 7 0 From the six wires of the RJ11 cable only the two central wires are used These two wires are distributed pin to pin The signals transmitted through these wires comply with the RS 485 norm which permits it to reach distances of up to 1 5 kilometers Go to section 3 if your device has a single CLESA module 2 Chained CLESA modules connection A flat cable ending in RJ 11 pin to pin connectors is used to connect chained CLESA modules The connectors must be connected to the CON2 connector of the first chain module and to the CONI connector of the next module respectively 3 Input devices connection We can connect a relay a button or a switch
38. you are accessing the correct port if not you will not be able to receive an answer from the server In order to carry out a code transfer assuming the server port has not been modified e Introduce the login and the password o Ifthe password has not been configured press intro o Ifyou have the console password configured introduce the same password in order to access the FTP server e Pass to binary mode through the binary command e Carry out the transfer through the put command e fthere are slave devices available and a subsequent download is going to be carried out for them you need to execute the following command quote site compatible off e Permanently save the loaded file with quote site savebuffer command e If you have slave devices connected to the master and you wish to carry out the downloading for them execute the command quote site saveslaves e Ifyou want the device to automatically restart and begin executing the new code you can send the quote site reload command VISO RNET Appendix Doc DM245 I II 31 Rev 7 0 on leaving the FTP session the device will restart after approximately 30 seconds ftp 172 24 78 60 Connected to 172 24 78 60 220 FTP server ready 1 active clients of 1 simultaneous clients allowed User 172 24 78 60 none root 331 User name accepted need password Password 230 User login complete ftp binary 200 TY
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