Техническая Спецификация для STMicroelectronics 12 V, 150 mA non-isolated buck converter using VIPer™ Plus - VIPER06XS STEVAL-ISA115V1 STEVAL-ISA115V1
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STEVAL-ISA115V1
Test equipment and measurement of efficiency and light load performance
AN4260
24/29
DocID024275 Rev 2
Appendix A
Test equipment and measurement of
efficiency and light load performance
efficiency and light load performance
The converter input power has been measured using a wattmeter. The wattmeter measures
simultaneously the converter input current (using its internal ammeter) and voltage (using its
internal voltmeter). The wattmeter is a digital instrument so it samples the current and
voltage and converts them to digital forms. The digital samples are then multiplied giving the
instantaneous measured power. The sampling frequency is in the range of 20 kHz (or higher
depending on the instrument used). The display provides the average measured power,
averaging the instantaneous measured power in a short period of time (1 sec typ.).
simultaneously the converter input current (using its internal ammeter) and voltage (using its
internal voltmeter). The wattmeter is a digital instrument so it samples the current and
voltage and converts them to digital forms. The digital samples are then multiplied giving the
instantaneous measured power. The sampling frequency is in the range of 20 kHz (or higher
depending on the instrument used). The display provides the average measured power,
averaging the instantaneous measured power in a short period of time (1 sec typ.).
shows how the wattmeter is connected to the UUT (unit under test) and to the AC
source and the wattmeter internal block diagram.
Figure 38. Connections of the UUT to the wattmeter for power measurements
An electronic load has been connected to the output of the power converter (UUT), allowing
the converter load current to be set and measured, while the output voltage has been
measured by a voltmeter. The output power is the product between load current and output
voltage. The ratio between the output power, calculated as previously stated, and the input
power, measured by the wattmeter, is the converter's efficiency, which has been measured
in different input/output conditions.
the converter load current to be set and measured, while the output voltage has been
measured by a voltmeter. The output power is the product between load current and output
voltage. The ratio between the output power, calculated as previously stated, and the input
power, measured by the wattmeter, is the converter's efficiency, which has been measured
in different input/output conditions.
A.1 Measuring
input
power
With reference to
, the UUT input current causes a voltage drop across the
ammeter's internal shunt resistance (the ammeter is not ideal so it has an internal resistance
higher than zero) and across the cables connecting the wattmeter to the UUT.
higher than zero) and across the cables connecting the wattmeter to the UUT.
is in position 1 (see also the simplified scheme of
), this
voltage drop causes an input measured voltage higher than the input voltage at the UUT
input that, of course, affects the measured power. The voltage drop is generally negligible if
the UUT input current is low (for example when we are measuring the input power of UUT in
light load condition).
input that, of course, affects the measured power. The voltage drop is generally negligible if
the UUT input current is low (for example when we are measuring the input power of UUT in
light load condition).
A
V
DISPLAY
X
AVG
WATT METER
1
2
AC
SOURCE
U.U.T
(Unit Under test)
INPUT
Multiplier
Voltmeter
Ammeter
OUTPUT
+
Switch
AM16662v1