2
General Information
This document describes the operation of a discrete fault indicator (FLT), a remote inhibit (INH), and relay
controls (RLY), for the power supply. This information is in addition to the standard information provided in
the Operating Manual. The FLT, INH, and RLY circuitry is contained on a separate board (HP P/N 06624-
60025) inside the supply (See Figure 7). U204 and P209; located on the GPIB board, provide a path to transmit
signals between the GPIB board data bus and the Option 750 board.
Table 1. Specifications
FLT Indicator
V
OH
High-level output voltage: < 17.5V
V
OL
Low-level output voltage: < 0.5V
I
OH
High-level output current: < 10µA
I
OL
Low-level output current: ≤ 1.25mA
Isolation ≤ 42V from either terminal to ground
INH Input
V
IH
High-level input voltage: 2.1 to 5.25V
V
IL
Low-level input voltage: 0 to 0.7V
I
IH
High-level input current: < 20µA @ 2.7V
I
IL
Low-level input current: < 1.25mA @ 0.4V
tw
Pulse Width Delay time: 20 mS typ.
RLY Controls
V
OH
High-level input voltage: ≤ 36V
V
OL
Low-level input voltage: ≤ 2V @ 120mA
V
OL
Low-level input voltage ≤ 0.5V @ 2mA
I
OH
High-level input current: ≤ 100µA
I
OL
Low-level input current: ≤ 120mA
CAUTION: Do not connect capacitive loads greater than 0.01µF maximum to the RLY controls.
FLT Indicator
The fault indicator (FLT) is: a low true, TTL compatible, open collector output, which indicates if any internal
fault register bits have been set. This provides a fault reporting capability that is independent of the GPIB SRQ
function. In other words, you don’t have to rely on your computer to inform you of a fault in the supply. You
can connect the fault indicator to the inhibit input to provide a back-up method of protecting a load. The FLT
signal is accessed through connector J702 on the rear of the supply (See Figure 1). The FLT terminals are
isolated from the chassis by an optoisolator, and may be floated ± 42Vdc.
The FLT signal goes true when any unmasked bit in any of the fault registers is true. It goes false when all the
bits in all the fault registers are false (See Figure 2). Because each output has independent status and mask
registers, each output’s status register can be unmasked to generate the FLT signal for different reasons.
To Next Page
Loading...
Need help?
General
