Chapter 4 Analog Input
NI 6238/6239 User Manual 4-2 ni.com
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.
Isolation Barrier and Digital Isolators
The digital isolators across the isolation barrier provide a ground break
between the isolated analog front end and the earth/chassis/building
ground.
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 RangeInput range refers to the set of input voltages or currents that an analog
input channel can digitize with the specified accuracy. The NI-PGIA
amplifies or attenuates the AI signal depending on the input range. You can
individually program the input range of each AI channel on your MSeries
device.
The input range affects the resolution of the MSeries device for an AI
channel. Resolution refers to the voltage or current of one ADC code.
For example, a 16-bit ADC converts analog current inputs into one of
65,536 (= 216) codes—that is, one of 65,536 possible digital values. These
values are spread fairly evenly across the input range. So, for an input range
of ±20 mA, the current of each code of a 16-bit ADC is: