Tait TB8100 Service Manual page 245

Task 5 —
Check Regulation
and Efficiency
TB8100 Service Manual
© Tait Electronics Limited September 2006
2. Set the current limit on the main input power supply to 2.5A.
3. Slowly increase the main input power supply voltage, taking note of
the input current, the output voltage and the gate signal of the PFC
FETs (Q305, Q306).
The input current should increase in proportion to the input voltage
until approximately 1A, where it will drop as the boost converter
starts. The output voltage should regulate when the input voltage
reaches approximately 11VDC. If the input current does drop, go to
Step 4. If it does not drop before the input voltage reaches 15VDC,
replace the PFC control card and repeat this task. If the fault is still
present, replace the AC module and go to
4. Measure the 400VDC bus at the test points on the bottom of the AC
converter board, as shown in
should be greater than 300VDC. If it is, go to
replace the PFC control card and repeat this task. If the fault is still
present, replace the AC module and go to
5. Check the gate signal of the PFC FETs (Q305, Q306). The pulse
width should change with input voltage. If it does, go to
it does not, replace the PFC control card and repeat this task.
1. Increase the current limit of the main input power supply to approx-
imately 5–10W at 28VDC.
Note
The current limit should be relative to the load you are using.
Remember also that the converter will be only approximately 34%
efficient at this low voltage (having been designed to operate on a
minimum of 88VAC).
2. Connect a load to the PA output. Check that the output voltage does
not lose regulation. If it does lose regulation, go to
not lose regulation, go to
3. Measure the 400VDC bus at the test points on the bottom of the AC
converter board. The voltage should be greater than 300VDC. If it
is, replace the HVDC and microprocessor card and repeat this task. If
it is not, replace the PFC control card and repeat this task. If the fault
is still present, replace the AC module and go to
page 247.
4. Measure the input voltage and current and calculate the input power.
Measure the output voltage and current and calculate the output
power.
5. Calculate the efficiciency by dividing the input power by the output
power. The expected efficiency of the AC converter while operating
in test mode is 34% ±10%. If the efficiency is within the limits, go
to "Final Tasks" on page
AC module and go to
"Final Tasks" on page
Figure 13.10 on page
"Final Tasks" on page
Step 4.
247. If it is outside the limits, replace the
"Final Tasks" on page
Power Management Unit Fault Finding
247.
241. The voltage
Step 5. If it is not,
247.
Task 5. If
Step 3. If it does
"Final Tasks" on
247.
245