Table B-3. Cable Wiring Scheme For Gpib-232Cv-A Dte To Serial Device Dte - National Instruments GPIB-232CV-A User Manual

Appendix B Interfacing to a Serial Device
Caution Although handshaking might not be required, it is best to use some form of
handshaking to prevent loss of data.
Interfacing the GPIB-232CV-A to a DTE with Handshaking
GPIB-232CV-A User Manual
Custom Cables
If your application requires a custom cable, you can construct one if you
have a thorough knowledge of the handshaking protocols involved. Review
the RS-232 characteristics of your serial device and build the cable to
properly connect the handshake lines of the two devices. Because the
DTE-to-DCE connection is a straight across connection, it often involves
only connecting RTS to RTS, CTS to CTS, DTR to DTR, and so on. If
the documentation for your serial device does not provide a thorough
explanation of its handshaking protocol, the ANSI/EIA-232-C standard is
a good reference, provided your device conforms to the RS-232 protocol.
For serial devices set up as DTEs, you must wire a DTE-to-DTE interface
cable, commonly known as a null modem cable. The cable allows the
GPIB-232CV-A to act as though it is communicating with a DCE, but it
swaps the appropriate pins to achieve a DTE pinout. This wiring
configuration is shown in Table B-3.

Table B-3. Cable Wiring Scheme for GPIB-232CV-A DTE to Serial Device DTE

GPIB-232CV-A Signal to
DTE Serial Device Signal
RXD to TXD
TXD to RXD
DTR to DSR
GND to GND
RTS to CTS
CTS to RTS
1
The connections must be implemented.
Figure B-6 shows a typical 9-pin to 9-pin null modem cable with the RTS,
CTS, and DTR handshake lines implemented. Figure B-7 shows an
equivalent 9-pin DTE to 25-pin DTE cable configuration.
Standard
DTE to DTE
9-pin
1
2 to
1
3 to
4 to
1
5 to
7 to
8 to
B-6
Standard
DTE to DTE
9-pin 9-pin 25-pin
3 2 to
2 3 to
6 4 to
5 5 to
8 7 to
7 8 to
www.ni.com
2
3
6
7
5
4