Analog-To-Digital Conversion (Adc) - Agilent Technologies 34980A User Manual

Multifunction switch/measure unit

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Introduction to the 34980A

• If the input signal is an ac voltage, a converter is used to convert the

• Resistance measurements are performed by supplying a known dc

You can allow the instrument to automatically select the measurement

range using autoranging or you can select a fixed measurement range

using manual ranging. Autoranging is convenient because the instrument

automatically decides which range to use for each measurement based on

the input signal. For fastest scanning operation, use manual ranging for

each measurement (some additional time is required for autoranging

since the instrument has to make a range selection).

Analog-to-Digital Conversion (ADC)

The ADC takes a prescaled dc voltage from the signal- conditioning

circuitry and converts it to digital data for output and display on the

34980A front panel. The ADC governs some of the most basic

measurement characteristics. These include measurement resolution,

reading speed, and the ability to reject spurious noise.

There are several analog- to- digital conversion techniques but they can be

divided into two types: integrating and non- integrating. The integrating

techniques measure the average input value over a defined time interval,

thus rejecting many noise sources. The non- integrating techniques sample

the instantaneous value of the input, plus noise, during a very short

interval. The 34980A's internal DMM uses an integrating ADC technique.

You can select the resolution and reading speed from 6 digits (22 bits) at

3 readings per second to 4 digits (16 bits) at up to 3,000 readings per

second. The integration time, resolution, and number of digits are all

interrelated (see

details).

Main System Processor

The main system processor controls the input signal conditioning,

ranging, the ADC, and all backplane transactions. The main system

processor synchronizes measurements during scanning and control

operations. The main system processor uses a multi- tasking operating

system to manage the various system resources and demands.

The main system processor also performs Mx+B scaling operations,

monitors alarm conditions, converts transducer measurements to

engineering units, adds time stamp information to scanned

measurements, and stores measurement data in memory.

ac signal to its equivalent dc value (true RMS value).

current to an unknown resistance and measuring the dc voltage drop

across the resistor. The input signal switching and ranging circuitry,

together with the amplifier circuitry, convert the input to a dc voltage

which is within the measuring range of the internal DMM's

analog- to- digital converter (ADC).

"Custom A/D Integration Time"

on page 88 for more

Agilent 34980A Mainframe User's Guide

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Analog-To-Digital Conversion (Adc) - Agilent Technologies 34980A User Manual

Analog-to-Digital Conversion (ADC)

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