OEM Device Configuration Guide Table of Contents OEM Devices ....................................................................... 5 1. Fire Panels ............................................................................................. 7 1.1. Pyrotronics Fire Panel ......................................................................................... 7 1.2. Notifier AM2020 Fire Panel ................................................................................. 9 1.3.
Table of Contents IP Support .......................................................................... 45 10. LAN Connections ............................................................................... 47 10.1. Configuring a MSS1/MSS100 Ethernet Controller (BAS-ETHLAN) ................. 47 10.2. Device Configuration ....................................................................................... 51 Index ..........................................................................................
OEM DEVICES
OEM Device Configuration Guide 1. Fire Panels Currently, two types of panels are supported: Pyrotronics (MXL series) and Notifier. 1.1. Pyrotronics Fire Panel Communication to the fire panel must be established through an RS-485 4-wire connection to a NIM-1R module. Use the following settings to configure this. Black Box Settings: Jumpers: W5 should be on B-C to set RTS/CTS/CD. W8 should be on A-B to set 4-wire. W9 should be on D to set ON. W15 should be on A-B to set RTS/CD Enabled.
Fire Panels Connect the wires accordingly. W17 S1 A A B C W15 W19 A B C A B C W8 A B C D E W16 B C D E Black Box IC108A W9 A B C D E W5 A B C BIAS TERM. S3 S2 RxB+ RxA- TxB+ 110 VAC Transformer TxA- XW1B XW1A 25-Pin Serial Connector 7 3 2 TB1 1 2 3 4 5 6 (max. 4000 feet) NIM-1R 7 8 9 10 11 12 13 14 15 16 (max. 50 feet) DO NOT USE RTS Rx Tx SUPERVISED MOM-4 1 2 3 4 5 6 5 NIM-1R 7 8 9 10 11 12 13 14 15 16 TB3 8 — revision 3 2 3 DB 9 Pin Male E.O.L.R.
OEM Device Configuration Guide 1.2. Notifier AM2020 Fire Panel The Notifier panel requires a serial interface board in order to function. The SIB-232 or SIB-2048A may be used. 1.2.1 Connecting the Fire Panel The serial interface board is used to connect to the printer serial port (pins 1, 2, and 4 on P3) on the fire panel. • Pin 1 is EIA-232 Reference. • Pin 2 is Transmit to PRN. • Pin 4 is Receive from PRN. A DB-25 or DB-9 cable may also be used.
Fire Panels 1.3. Notifier NFS-640 Fire Panel The NFS-640 is a fire panel integrating a CPU, power supply (6 A), and battery charger, combined with a mounting chassis and cabinet. It connects to the host via a standard serial cable. The NFS-640 panel has been approved for use with firmware version 002.000.002B/002.001.009A. Important: 10 — revision 3 Due to hardware limitations, the connection of this device is unable to be monitored. Therefore, B.A.S.I.S.
OEM Device Configuration Guide 1.3.1 Connecting the Fire Panel Use a serial cable to connect the fire panel to the host. Wire the cable directly to the panel using terminal TB14.
Fire Panels A DB-25 or DB-9 cable may be used. Connect the pins as follows: TB14 DB-25 pin DB-9 pin TX 3 (Receive) 2 RX 2 (Transmit) 3 REF 7 (Ground) 5 1.3.2 Programming the Fire Panel The fire panel must be programmed in order to recognize downstream devices such as intelligent/ addressable detectors and modules, Panel Circuits, and Notification Appliance Circuits (NACs). Use the keypad connected to the panel for programming. For more information, refer to the Notifier documentation. 1.
OEM Device Configuration Guide 2. Intercom Exchanges For more detailed information, refer to the Zenitel user manual. 2.1. Zenitel AlphaCom A standard RS-232 cable is used to communicate between the host computer and the Zenitel (formerly known as Stentofon) AlphaCom unit. Connect the RS-232 cable to the data port on the back of the AlphaCom unit. The integration requires that the AlphaCom exchanges have at least 7.10 firmware.
Intercom Exchanges 14 — revision 3
OEM Device Configuration Guide 3. Intrusion Detection Follow the instructions for setting up an intrusion detection system below. 3.1. Detection Systems The DS7400Xi is an addressable control/communicator. Two versions are supported: version 4+ and version 3. For serial connections, the DS7412 RS-232 Serial Interface Module is used in conjunction with the control/communicator.
Intrusion Detection Wiring the DS7412 OPT Tx Rx P4 P2 Tx Rx SER DS7400Xi Options Bus 1000 feet max. 4. R RED B BLK G GRN Y YEL RS-232 Serial Cable 50 feet max. P3 Re-apply power and set the panel time and date using a master PIN. Jumpers There are three jumpers on the Detection Systems circuit board that must be configured. Diagnostic LEDs Jumper P2 controls the diagnostic LEDs, which can be used as a troubleshooting aid. To enable the LEDs, place P2 on both pins.
OEM Device Configuration Guide Option Bus Address Add jumper P4 if there is another device at options bus address 14. When a jumper is installed on both pins, the option bus corresponds to address 13. When the jumper is placed on only the bottom pin, it is option bus address 14. 3.1.
Intrusion Detection RS-232 Interface Control and Configuration If you are using DS7400Xi version 3 1. Enter programmers’ mode. The default programmers code is 9876. Enter this code followed by [#], [0]. 2. Enter the program address 0206. 3. For data digit 1, enter [1]. 4. For data digit 2, enter [0] followed by [#]. 5. Enter the program address 0207. 6. For data digit 1, enter [2] for 2400 baud or [4] for 9600 baud. 7. For data digit 2, enter [5] followed by [#]. 8.
OEM Device Configuration Guide Addressable expansion modules (D8125) • provide point identification for initiating devices. • supervise wiring to devices to ensure circuit integrity. • are used to expand the control/communicator beyond its standard number of on-board initiating zones or points. The D8125 module should be connected to the Zonex ports and powered by the control/communicator. The Octo-relay module (D8129) provides eight programmable Form-C relays.
Intrusion Detection Wiring Connect the PC9133TTL-E to the Radionics D9412/D7412 as follows: PC9133TTL-E connection Panel connection SDI PWR POWER + (Terminal 32) SDI A DATA A (Terminal 31) SDI B DATA B (Terminal 30) SDI COM COMMON (Terminal 29) Connect the PC9133TTL-E (RJ-45 connector) to the network. Set Up a Temporary IP Address Before using the network interface module, you must assign a unique IP address to it. In order to do this, locate the MAC address on the label. 1.
OEM Device Configuration Guide 5. c. If the netmask needs to be changed from the default, enter the number of bits that correspond to the netmask the network is using. Refer to the PC9133TTL-E Installation Guide for the available values. d. You may change the telnet configuration password. Select N to leave this at the default setting. Select 1 for Channel 1 Configuration. Configure the serial port parameters. a. Set the baud rate to 9600. b. Set the interface mode (I/F Mode) to 4C.
Intrusion Detection Connect mode option 7 6 5 Accept incoming with DTR 0 1 0 Accept unconditional 1 1 0 4 3 2 1 0 No active startup 0 0 0 0 With any character 0 0 0 1 With active DTR 0 0 1 0 With CR (0x0D) only 0 0 1 1 Manual connection 0 1 0 0 Autostart 0 1 0 1 1 1 0 0 Response Nothing (quiet) 0 Character response (C=conn, D=disconn, N=unreachable) 1 Startup Hostlist 0 0 1 0 Datagram type Directed UDP Modem mode Full verbose 1 0 1 1 0 With
OEM Device Configuration Guide Disconnect mode option 7 6 5 Disable with hard disconnect 4 3 2 1 1 1 State LED off with connection (When there is a network connection to or from the serial port, the state LED will turn off instead of blink.) Disconnect with EOT (^D) (When + or Hex 04 are detected, the connection is dropped. Both Telnet mode and Disconnect with EOT must be enabled for Disconnect with EOT to function properly.
Intrusion Detection 24 — revision 3
OEM Device Configuration Guide 4. Personal Safety 4.1. Visonic SpiderAlert The SLC-5 (SpiderAlert Local Controller) is the main controller designed for the SpiderAlert 5 alert signaling network. A standard RS-232 cable can be used to connect the host computer to the SLC-5 via the SLC-TO-SSK Adapter. A six-wire cable with RJ-11 connectors at both ends is used to connect the SLC-TO-SSK Adapter to the SLC-5. B.A.S.I.S. currently supports the “Single-Site Direct Connection To Computer” operating mode.
Personal Safety 26 — revision 3
OEM Device Configuration Guide 5. Receivers Follow the instructions for setting up receivers below. For additional information, refer to the receiver manual. 5.1. Radionics D6500/D6600 Receiver These receivers are configurable for two output formats: SIA and 6500. Each of these modes handles the default and SIA event code templates stored in the database differently. Therefore, an event that is generated in 6500 mode would be reported in Alarm Monitoring differently than an event in SIA mode.
Receivers 5.1.2 D6600 Receiver Output Modes In order to configure the different output modes for the receiver, enter into the Automation Configuration menu on the receiver. In order to do this you need to do the following: 1. Press the [M/E] button on the front of the receiver. 2. You will be prompted for a password. Enter the password configured for the receiver and press [M/E] again. 3. A message will appear indicating that you are logged in.
OEM Device Configuration Guide You can also gather debug information when connected to the Radionics panel in 6500 or SIA modes. These debug files can be turned on by creating a new section in the acs.ini file. These settings are as follows: For Radionics 6500, add the following to ACS.INI [6500] 6500Debug=1 The file generated will be “6500Debug.txt” and will be located in the logs directory. For Radionics SIA, add the following to ACS.INI [SIA] SIADebug=1 The file generated will be “SIADebug.
Receivers 5.4. AES IntelliNet B.A.S.I.S. integrates to the AES IntelliNet receiver when programmed to output using the Radionics 6500 output format. The AES IntelliNet receiver can be connected to a host computer and can communicate through the software. A direct connection can be made by making a serial connection between the host automation port of the receiver and an available COM port on the host computer. For direct connections, the flow control cannot be configured.
ENROLLMENT
OEM Device Configuration Guide 6. Corex CardScan These instructions are for installing and configuring either the Corex CardScan 300 or the Corex CardScan 600c. 6.1. Corex CardScan Installation and Configuration 1. Install the CardScan software on your PC. This must be done before connecting your scanner. To install the scanner, refer to the Corex documentation. 2. Connect the AC adapter to the scanner. Plug the AC adapter into a power outlet. 3.
Corex CardScan 6.1.1 Assign the vCard Value to UDF Fields 1. Start and log into FormsDesigner. When prompted, open the Cardholder or Visitor form, depending on which you wish to map fields for. For more information, please refer to the Introduction chapter in the FormsDesigner™ User Guide. 2. The scanner will only recognize fields that are currently assigned the vCard value. The vCard value is assigned by simply double-clicking on a field and selecting the field’s name in the vCard drop-down list. 3.
OEM Device Configuration Guide b. 3. Click [OK]. In the Person type field, select whether the record will be cardholder or a visitor record. • If “Cardholder” is selected, the Cardholder form is displayed. • If “Visitor” is selected, the Visitor form is displayed. 4. Place a business card, face down, in the business card scanner. 5. Click [Import]. 6. The Select Import Source window opens. Select “Corex CardScan scanner,” then click [OK]. 7.
Corex CardScan 36 — revision 3
OEM Device Configuration Guide 7. Cypress Data Wedge The Cypress Wedge (part number WDG-4413) is used to add automatic Wiegand data entry to badging or enrolling workstations. It converts badge information into keystrokes. Connect the terminal, keyboard, and reader to the wedge. For detailed information, refer to the Cypress documentation. When a badge is swiped, the five digit facility code and five digit badge number are converted to equivalent keystrokes.
Cypress Data Wedge 38 — revision 3
OEM Device Configuration Guide 8. Intelli-Check ID-Check The information on a driver’s license, military ID, or passport can be imported using an ID-Check IDC1400 terminal.
Intelli-Check ID-Check 8.1.2 Configure the Display If the results do not need to be displayed on the terminal, disable this option to speed up the transaction time. When a license is swiped or scanned, the IDC1400 will beep (if enabled) and transfer the data (if the printer is enabled) and return back to the idle screen. 1. In the SETUP [F6] menu use the UP and DOWN arrows to scroll through the options. Select FEATURES by pressing [Enter]. 2. Scroll through and select DISPLAY TIME. 3.
OEM Device Configuration Guide also import in the Visits folder when you are searching for a visitor or cardholder. This example describes how to import data when adding a cardholder. 1. In the Cardholders folder, click [Add]. 2. If segmentation is not enabled, skip this step. If segmentation is enabled, the Segment membership window opens. 3. a. Select the primary segment and any additional segments that this badge type will be assigned to. b. Click [OK].
Intelli-Check ID-Check 42 — revision 3
OEM Device Configuration Guide 9. Topaz SignatureGem Pen Tablet The Topaz SignatureGem™ hardware is used to electronically capture cardholder signatures and connects directly to a multimedia capture workstation via a USB or serial port. These installation instructions and driver information are for the Topaz 1" x 5" SignatureGem USB (ZTS261-USB) and serial kit (Z-TS261-B). 9.1.
Topaz SignatureGem Pen Tablet Note: If you are asked to specify the driver location you can download the latest driver from http:// www.topazsystems.com/Software/index.htm#6. 6. When the driver has been successfully installed, click [Finish]. 7. You will be prompted to restart the PC. Click [OK] to automatically restart the computer. 9.1.2 1. Install the Topaz software When the PC reboots, the Found New Hardware Wizard automatically displays.
IP SUPPORT
OEM Device Configuration Guide 10. LAN Connections The following information can be used to configure communication for Apollo panels, Pyrotronics, Stentofon, receivers, and Visonic over LAN connections. 10.1. Configuring a MSS1/MSS100 Ethernet Controller (BASETHLAN) This Ethernet controller is a network device, and not a part of the UL certification. This device must have transient protection. (A NULL MODEM CABLE IS REQUIRED) 10.1.
LAN Connections Lantronix Telnet session 3. At this point, press the key. (It may take a few seconds to complete booting). • Power should be cycled to the device while connected to it in order to see the “Load Completed...” message. • If it appears that nothing changes after pressing the key, it is possible that the Lantronix MSS1 or MSS100 device was already configured once. If this occurs, you need to press the key before the phrase, “Load Completed-Boot in Progress” appears.
OEM Device Configuration Guide 10.1.2 Establishing Network Communications: After a factory default reset, the following changes must be made: 1. At the prompt, type: set privileged and press . 2. Type in the password: system and press . 3. Determine and set the IP address. Type: change ipaddress [IP ADDRESS] and press . 4. Set the Gateway. Type: change gateway [GATEWAY] and press . 5. Set the boot flags.
LAN Connections 10.1.3 Configuring the ETHLAN Any additional changes specific to the hardware that the Lantronix box is connecting to should be made now. These may include, but are not limited to, baud rate, parity, stop bit, byte size, and flow control. 1. Make sure the device is powered, completely booted, and connected to the network. Start HyperTerminal. 2. Connect to the device using the IP address, port 7000 (terminal type VT100). Example: 3. A HyperTerminal session starts.
OEM Device Configuration Guide 10.2. Device Configuration For a complete list of configuration options, refer to the Lantronix reference manual. At this point, the Lantronix box should be ready to act as a gateway between a LAN and a serial device. It is also necessary to wire and configure each individual device. For wiring between the hardware and the Lantronix box, a straight through RS-232 cable is used. Also, a 25pin/9-pin adapter may be required for certain hardware.
LAN Connections 52 — revision 3
OEM Device Configuration Guide Index O A AES IntelliNet receiver....................................... AlphaCom ........................................................... Alphanet.............................................................. Apollo ................................................................. 51 51 13 51 OEM devices......................................................... 5 OEM devices supported over IP ......................... 45 Osborne-Hoffman OH-2000 receiver ................
P.O. Box 5044 Indianapolis, IN 46250 Phone: (317) 849-2250 B.A.S.I.S.® ET OEM Device Configuration Guide Product version 5.10.419, item number E855, revision 3, 1/6/2004 Content of this document copyright © 2003 & 2004 by Lenel Systems International, Inc. BadgeDesigner™, FormsDesigner™, and MapDesigner™ are trademarks used by Best Access Systems with permission from Lenel Systems International, Inc. MS-DOS, Windows, Windows 98, and Windows NT are trademarks of Microsoft Corporation.