HID Global Corporation 6042AA Manuel D’Utilisation
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HID Corporation 9292 Jeronimo Road Irvine, CA 92618 USA TEL (949) 598-1600 (800) 237-7769 FAX (949) 598-1690
Web page –
Web page –
www.proxtrak.com
– ProxTrak Portal Reader Installation Procedure 6042-901-01 Rev 7
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6. Setup and Configuration
6.1 Configuration Jumpers on the DSP Controller Board
Caution: Power must be off and Static protection must be used when changing
any jumper or switch settings.
any jumper or switch settings.
2 pin jumper locations
Description
P2-7 to 8
Boot mode – normal (always in)
P2-1 to 2
Boot mode – must be removed for normal boot mode
P2-3 to 4
Boot mode – must be removed for normal boot mode
P15-4 to 6
RS232 selected (2 to 4 would be RS485)
P15-3 to 5
RS232 selected (1 to 3 would be RS485)
P23-2 to 3
Beeper enabled (Move to connect 1 and 2 to disable
P28-2
to
3
RS485 terminating resistor – in for end of the line
termination (last reader)
termination (last reader)
P46-1 to 2
Flash programming enable. Move to connect 3 and 4 to
disable Flash programming. Default – 3 to 4
disable Flash programming. Default – 3 to 4
6.2 Serial Communication
The communication channel to the Host is provided via RS485 or RS232, selectable by jumpers on the
DSP Control Board.
DSP Control Board.
6.2.1 RS485
The RS485 option is the default setting, since it is capable of multi-drop points and can be connected at
long cable distances. The interface defaults to 19,200 baud, 1 stop, 8 data bits and no parity. Other
selections are 4800, 9600 and 38,400 baud.
The RS485 configuration is selected by placing 2 jumpers on the DSP Control Board. See the
“Configuration Jumpers” section for details.
For RS485, a 2 wire interface is supported - use 485+ and 485- . Shield should be connected to only one
end (master end – Host or panel). For 2 wire 485, each device must have a proper earth ground for
proper communications operation.
For 3 wire 485 - If a third wire is used for a Signal return, use a 100 ohm, ¼ Watt resistor to Pin 6 of the
above table, to limit ground fault currents.
The RS485 option is the default setting, since it is capable of multi-drop points and can be connected at
long cable distances. The interface defaults to 19,200 baud, 1 stop, 8 data bits and no parity. Other
selections are 4800, 9600 and 38,400 baud.
The RS485 configuration is selected by placing 2 jumpers on the DSP Control Board. See the
“Configuration Jumpers” section for details.
For RS485, a 2 wire interface is supported - use 485+ and 485- . Shield should be connected to only one
end (master end – Host or panel). For 2 wire 485, each device must have a proper earth ground for
proper communications operation.
For 3 wire 485 - If a third wire is used for a Signal return, use a 100 ohm, ¼ Watt resistor to Pin 6 of the
above table, to limit ground fault currents.
6.2.2 RS232
The RS232 option works identically to the RS485, with the exception of the hardware limits; no multi-drop
and the cable distance is limited. There are no differences in the firmware or software requirements of the
protocol. The RS232 configuration is selected by placing 2 jumpers on the DSP Control Board. See the
“Configuration Jumpers section”.
A 3 wire RS232 interface is supported – Use TD, RD and Signal ground.
The RS232 option works identically to the RS485, with the exception of the hardware limits; no multi-drop
and the cable distance is limited. There are no differences in the firmware or software requirements of the
protocol. The RS232 configuration is selected by placing 2 jumpers on the DSP Control Board. See the
“Configuration Jumpers section”.
A 3 wire RS232 interface is supported – Use TD, RD and Signal ground.
6.2.3 RS485 and RS232 Connector Terminal Assignments
P10
Signal Name
1
RS232 TD (Xmit Data)
2
RS 232 RD (Rcv Data)
3
RS232 Signal Ground
4
RS485+
5
RS485-
6
RS485 Signal Ground