58
Troubleshooting CV Circuit
V-MON, the output of CV Monitor Amp A2U7 is the voltage b S and - S. CV Error Amp A2U8 compares
V-MON to CV PROGRAM. Innerloop Amp A2U10A stabilizes the CV loop with IVS input from A2U10C. The
measurements below verify that the operational amplifier circuits provide expected positive and negative dc voltage
excursion when the CV loop is open and the power mesh shut down.
Circuits Included. Constant Voltage (CV) Circuit and buffer amplifier A2U10C.
Setup. The Main Troubleshooting Setup, Page 48. Apply the ac mains voltage to the bias transformer, and disconnect the
external supply. Remove the + S jumper and connect A2J3-2 ( +15V) to + S. Set MODE switch settings B4, B5 and B6 all
to 0. Set VP to 0Vdc by connecting to P or set VP to + 5Vdc by connecting to A2J3-1 according to SETUP below.
Outputs:
NODE
SETUP
MEASUREMENT
VM
3.75Vdc
A2U10C-8
4.7Vdc
A2U8-6
VP = 0
-14Vdc
A2U10A-1
VP = 0
-14Vdc
A2U8-6
VP = 5
4.7Vdc
A2U10A-1
VP = 5
5.1Vdc
If the failure symptoms include output voltage oscillation, check if the CV Error Amp circuit is at fault by shorting A2U8-6
to A2U8-2. If oscillations stop, the CV Error Amp circuit is probably at fault.
Troubleshooting CC Circuit
I-MON, the output of CC Monitor Amp A2U1, in volts is 1/6 the output current in amperes. CC Error Amp A2U2B
compares I-MON to CC PROGRAM. Differentiator circuit A2U3D and A2U3C, stabilizes the CC loop. It differentiates
IVS and has a voltage gain of 16. Its output is summed with CC PROGRAM at CC Error Amp A2U2B.
The measurements below verify that the operational amplifier circuits provide expected positive and negative dc voltage
gain when the CC loop is open and the power mesh shut down.
Circuits Included. Constant Current (CC) Circuit on A2 control board.
Setup. The Main Troubleshooting Setup, Page 48, except connect the external supply with polarity reversed to the unit’s +
OUT ( - ) and - OUT ( + ) terminals. Apply the ac mains voltage to the bias transformer. Set the external supply to 3.0Adc
constant current with a voltage limit in the range 5 to 20Vdc. Set IP to 0Vdc by connecting to P or set IP to +5Vdc by
connecting to A2J3-1 according to the following SETUP.
Outputs:
NODE
SETUP
MEASUREMENT
IM
0.50Vdc
A2U2B-7
IP=0
-14Vdc
A2U2B-7
IP=5
6.0Vdc
A2U3D-13
+0.015Vdc
A2U3C-9
+0.015Vdc
A2U3C-8
+0.25Vdc
Summary of Contents for 6038A
Page 4: ......
Page 8: ......
Page 34: ...34 Figure 3 1 Troubleshooting Isolation ...
Page 35: ...35 Figure 3 1 Troubleshooting Isolation continued ...
Page 37: ...37 Figure 3 3 Clock and Primary SA Waveforms ...
Page 40: ...40 Figure 3 4 Readback and Secondary SA Waveforms ...
Page 56: ...56 Figure 3 7 Waveforms ...
Page 62: ...62 Figure 4 1 HP IB Block Diagram ...
Page 65: ...65 Figure 4 2 Front Panel Block Diagram ...
Page 90: ......
Page 93: ...93 Figure 6 1 Top View Top Covers Removed ...
Page 94: ...94 Figure 6 2 Main Board A1 Component Location ...
Page 95: ...95 Figure 6 3 Control Board A2 Component Location ...
Page 96: ...96 Figure 6 4 Front Panel Board A3 Component Location ...
Page 97: ...97 Figure 6 5 Power Mesh Board A4 Component Location ...
Page 98: ...98 Figure 6 6 HP IB Board A8 Component Location ...
Page 105: ...105 Figure 3 1 Troubleshooting Isolation option 001 ...
Page 106: ......