Agilent Technologies N5700 User Manual

Verification

Series N5700 User’s Guide

95

CV Source Effect

Test category = performance

This test measures the change in output voltage that results from a
change in AC line voltage from the minimum to maximum value
within the line voltage specifications.

1 Turn off the power supply and connect the ac power line through

a variable voltage transformer.

2 Connect a DVM and an electronic load as shown in figure A. Set

the variable voltage transformer to nominal line voltage.

3 Turn on the power supply and program the output current to its

maximum programmable value (Imax) and the output voltage to
its full-scale value.

4 Set the electronic load for the output’s full-scale current. The CV

annunciator on the front panel must be on. If it is not, adjust the
load so that the output current drops slightly.

5 Adjust the transformer to the low-line voltage (85 VAC for

100/120 nominal line; 170 VAC for 200/240 nominal line).

6 Record the output voltage reading from the DVM.
7 Adjust the transformer to the high-line voltage (132 VAC for

100/120 nominal line; 265 VAC for 200/240 nominal line).

8 Record the output voltage reading on the DVM. The difference

between the DVM reading in steps 6 and 8 is the source effect,
which should not exceed the value listed in the test record card
for the appropriate model under CV Source Effect.

CV Noise

Test category = performance

Periodic and random deviations in the output combine to produce a
residual AC voltage superimposed on the DC output voltage. This
residual voltage is specified as the rms or peak-to-peak output
voltage in the frequency range specified in Appendix A.

1 Turn off the power supply and connect the load resistor,

differential amplifier, and an oscilloscope (ac coupled) to the
output as shown in figure C. Use the xx

Ω load for 750 W outputs;

use the xx

Ω load for 1500 W outputs.

2 As shown in the diagram, use two BNC cables to connect the

differential amplifier to the + and

− output terminals. Each cable

should be terminated by a 50

Ω resistor. The shields of the two

BNC cables should be connected together. Connect the output of
the differential amplifier to the oscilloscope with a 50

Ω

termination at the input of the oscilloscope.

3 Set the differential amplifier to multiply by ten, divide by one,

and 1 Megohm input resistance. The positive and negative inputs
of the differential amplifier should be set to AC coupling. Set the
oscilloscope’s time base to 5 ms/div, and the vertical scale to 10
mV/div. Turn the bandwidth limit on (usually 20 or 30 MHz), and
set the sampling mode to peak detect.