Analog input range, Analog input range -2 – National Instruments NI USB-621x User Manual

Chapter 4

Analog Input

NI USB-621x User Manual

4-2

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Ground-Reference Settings

The analog input ground-reference settings circuitry selects between
differential, referenced single-ended, and non-referenced single-ended
input modes. Each AI channel can use a different mode.

Instrumentation Amplifier (NI-PGIA)

The NI programmable gain instrumentation amplifier (NI-PGIA) is a
measurement and instrument class amplifier that minimizes settling times
for all input ranges. The NI-PGIA can amplify or attenuate an AI signal to
ensure that you use the maximum resolution of the ADC.

M Series devices use the NI-PGIA to deliver high accuracy even when
sampling multiple channels with small input ranges at fast rates. M Series
devices can sample channels in any order at the maximum conversion rate,
and you can individually program each channel in a sample with a different
input range.

A/D Converter

The analog-to-digital converter (ADC) digitizes the AI signal by converting
the analog voltage into a digital number.

AI FIFO

M Series devices can perform both single and multiple A/D conversions of
a fixed or infinite number of samples. A large first-in-first-out (FIFO)
buffer holds data during AI acquisitions to ensure that no data is lost.
M Series devices can handle multiple A/D conversion operations with
DMA, interrupts, or programmed I/O.

Analog Input Range

The input range affects the resolution of the M Series device for an AI
channel. For example, a 16-bit ADC converts analog inputs into one of
65,536 (= 2

16

) codes—that is, one of 65,536 possible digital values. So, for

an input range of –10 V to 10 V, the voltage of each code of a 16-bit ADC
is:

M Series devices use a calibration method that requires some codes
(typically about 5% of the codes) to lie outside of the specified range. This

(10 V – (–10 V))

2

16

= 305

μV