6. GPIB Connector
. A standard GPIB cable can be attached to this connector to allow
the instrument to be computer-controlled. See the “Programming Manual for -B
Instruments” for more details on GPIB control.
7. RS-232 Connector.
A standard serial cable with a 25-pin male connector can be
attached to this connector to allow the instrument to be computer-controlled. A user
name (“admin”) and a password (“default”, as shipped from the factory) are required
when logging into a serial terminal session. The internal controller attempts to auto-
sense the parity setting. It may be necessary to send a few return characters before
attempting a login in order to provide enough data to allow this auto-sensing to work.
(A standard Linux “agetty” process is used to implement serial control internally.) See
the “Programming Manual for -B Instruments” for more details on RS-232 control.
8. Network Connector
. This Ethernet connector allows the instrument to be remotely
controlled using the VXI-11.3, ssh (secure shell), telnet, and http (web) protocols. See
the “Programming Manual for -B Instruments” for more details.
9. MON Connector
. (Optional feature. Present on "-M" units only.) The monitor output
provides an attenuated replica (÷10) of the voltage on the main output. The monitor
output is designed to operate into a 50 Ohm load, when used.
18
Summary of Contents for AVRF-4A-B
Page 34: ...PCB 158R4 LOW VOLTAGE POWER SUPPLY...
Page 35: ...PCB 284B HIGH VOLTAGE DISCHARGE BOARD...
Page 37: ...PCB 216E PRF PW TR ADJUST...
Page 38: ...PCB 231A DC BIAS SOURCE...
Page 44: ...PERFORMANCE CHECKSHEET 44...