Texas Instruments TPS40422 Dual Output or Multiphase Synchronous Buck Controller Evaluation Module TPS40422EVM-091 TPS40422EVM-091 데이터 시트
제품 코드
TPS40422EVM-091
Performance Data and Typical Characteristic Curves
be limited to less than the switching frequency divided by 2 (Fsw/2).
6. For Vout2, connect the network analyzer
’
s isolation transformer from TP12 to TP10.
7. Connect the input signal measurement probe to TP12. Connect output signal measurement probe to
TP10.
8. Connect the ground leads of both probe channels to TP4.
9. On the network analyzer, measure the Bode plot data as TP10/TP12 (Out/In). The frequency sweep
must be limited to less than the switching frequency divided by 2 (Fsw/2).
10. Disconnect the isolation transformer from the Bode plot test points before making other
measurements, because the signal injection into the feedback loop may interfere with the accuracy of
other measurements.
other measurements.
6.3
Efficiency
To measure the efficiency of the power train on the EVM, it is important to measure the voltages at the
correct location. This is necessary because otherwise the measurements will include losses in efficiency
that are not related to the power train itself. Losses incurred by the voltage drop in the copper traces and
in the input and output connectors are not related to the efficiency of the power train, and they must not be
included in efficiency measurements.
correct location. This is necessary because otherwise the measurements will include losses in efficiency
that are not related to the power train itself. Losses incurred by the voltage drop in the copper traces and
in the input and output connectors are not related to the efficiency of the power train, and they must not be
included in efficiency measurements.
When measuring the efficiency of Vout1, Vout2 must be disabled by the user via the Fusion GUI.
Likewise, when measuring the efficiency of Vout2, Vout1 must be disabled by the user. See the list in
Likewise, when measuring the efficiency of Vout2, Vout1 must be disabled by the user. See the list in
for the proper locations to measure efficiency.
Table 5. List of Test Points for Efficiency Measurements
Test Point
Node Name
Description
Comment
TP5
VIN
Measurement point for VIN +VE
Copper dot at high-side FET drain
TP23
PGND
Measurement point for VIN
–
VE
Copper dot at low-side FET source
TP27
VOUT1
Measurement point for VOUT1 +VE
Copper dot at output inductor, dc side
TP23
PGND
Measurement point for VOUT1
–
VE
Copper dot at low-side FET source
TP24
VIN
Measurement point for VIN +VE
Copper dot at high-side FET drain
TP25
PGND
Measurement point for VIN
–
VE
Copper dot at low-side FET source
TP26
VOUT2
Measurement point for VOUT2 +VE
Copper dot at output inductor, dc side
TP25
PGND
Measurement point for VOUT2
–
VE
Copper dot at low-side FET source
Input current can be measured at any point in the input wires, and output current can be measured
anywhere in the output wires of the output being measured. Using these measurement points result in
efficiency measurements that do not include losses due to the connectors and PCB traces.
anywhere in the output wires of the output being measured. Using these measurement points result in
efficiency measurements that do not include losses due to the connectors and PCB traces.
6.4
Equipment Shutdown
1. Reduce the load current on both outputs to 0 A.
2. Reduce input voltage to 0 V.
3. Shut down the external fan if in use.
4. Shut down equipment.
7
Performance Data and Typical Characteristic Curves
through
present typical performance curves for the PWR091EVM.
16
Using the PWR091EVM Dual-Output DC/DC Analog With PMBus Interface
SLVU638
–
January 2012
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©
2012, Texas Instruments Incorporated