Specifications

ManualsBrandsAgilent Technologies ManualsMultimeter34411A

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Precision DCV measurements

combined with peak measurements

Power supplies often have

ripple voltages that are riding

on top of the desired DC output.

These ripple voltages are speci-

fied and tested to be a certain

level or less. Frequencies of the

AC signal are often power-line

related, but they can be associ-

ated with higher-frequency

byproducts of switching power

supplies. For example, Figure 1

shows a DC signal with an

AC component.

A common approach to this

measurement problem is to

make both a DCV and ACV

RMS measurement. However,

there are limitations to this

approach:

• Making two measurements

takes more time – especially

changing function and range.

• A typical ACV RMS measure-

ment lacks valuable peak

information.

• Having to digitize to get peak

information takes time.

The 34410A and 34411A

DMMs provide a secondary

measurement function called

peak measurements that you

can activate when you make

precision DCV (or ACV)

measurements. Here is an

improvement on the above

approach:

• Enable the peak measure-

ment function.

• Make a precision DCV

measurement using 1 or

more periods of power-line

cycle integration time to

reject power line frequencies

and random noise.

• The DCV and peak measure-

ment data is displayed.

Peak measurements occur at

20-µs intervals during the

aperture of the DCV measure-

ment, so any peak that is at

least 20 µs wide can be detected.

Several scenarios that can be

determined from the two mea-

surements:

1. The DCV and peak-to-peak

data are within tolerance –

passed

2. The DCV is correct, but the

peak-to-peak value exceeds

a limit – failed

3. The DCV is slightly off,

but the peak-to-peak value

is OK – failed

In cases 2 and 3, the peak-to-peak

ripple voltage is in question.

Case 2 may be excessive noise

spikes due to failed output

filtering. Case 3 could be

distortion that is creating an

asymmetrical AC component

that adds a DC component

to the DCV measurement. In

that case, the ripple may retain

the same peak-to-peak voltage.

When the primary measurement

fails, more information about

the signal is required. The

34411A DMM provides wave-

form capture at 50 k readings/s

that can sample the signal to

provide additional diagnostic

information.

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Figure 1. A 5 V DC signal with an AC signal

5 V

DC