6.2 Efficiency Measurement Test Points
To evaluate the efficiency of the power train (device and inductor), it is important to measure the voltages at
the correct location. This is necessary because otherwise the measurements will include losses 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, which should not be included in efficiency
measurements.
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.
shows the measurement points for input voltage and output voltage. VIN and VOUT are measured
to calculate the efficiency. Using these measurement points will result in efficiency measurements that excluded
losses due to the wires and connectors.
Table 6-1. Test Points for Efficiency Measurements
Test Point Node Name
Description
Comment
TP12
PVIN
Input voltage measurement point
for VIN+
The pair of test points is connected to the PVIN/PGND pins of U1_P1. The voltage drop
between input terminal to the device pins is included for efficiency measurement.
TP15
PGND
Input voltage measurement point
for VIN– (GND)
TP22
VOUT
Output voltage measurement
point for VOUT+
The pair of test points is connected near the output terminals. The voltage drop from the
output point of the inductor to the output terminals is included for efficiency measurement.
TP25
GND
Output voltage measurement
point for VOUT– (GND)
For more accurate efficiency measurements of the power train, the voltage drop between the power train and the
terminals should also be removed from the measurement. Using the test points in
will reduce these
losses. To average the voltages at each test point so that only one meter is needed for PVIN and VOUT, add
some resistance between the each test point and the meter. For the measurements taken in this user's guide, a
1.5-kΩ resistor was added in series with each test point. Using these test points reduced the measured power
loss at 40 A load by approximately 0.15 W. This power is lost in the copper traces of the PCB.
Table 6-2. Test Points for Better Efficiency Measurements
Test Point Node Name
Description
Comment
TP1_P1
PVIN_P1
Input voltage measurement point
for VIN+
This pair of test points is connected to PVIN and PGND near the pins of U1_P1.
TP4_P1
GND_P1
Input voltage measurement point
for VIN– (PGND)
TP1_P2
PVIN_P2
Input voltage measurement point
for VIN+
This pair of test points is connected to PVIN and PGND near the pins of U1_P2.
TP4_P2
GND_P2
Input voltage measurement point
for VIN– (PGND)
TP13
VOUT_P1
Output voltage measurement
point for VOUT+
This pair of test points is connected to VOUT and GND near the output inductor for U1_P1.
TP16
GND_P1
Output voltage measurement
point for VOUT– (GND)
TP26
VOUT_P2
Output voltage measurement
point for VOUT+
This pair of test points is connected to VOUT and GND near the output inductor for U1_P2.
TP30
GND_P2
Output voltage measurement
point for VOUT– (GND)
Test Procedure
SLUUC48A – FEBRUARY 2020 – REVISED FEBRUARY 2022
TPS546B24A 2-Phase SWIFT™ Step-Down Converter Evaluation Module
User's Guide
15
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