National Instruments AT-MIO-16X Switch User Manual


 
Index
©
National Instruments Corporation I-15 AT-MIO-16X User Manual
physical specifications, A-9
pin assignments. See I/O connectors.
polarity
input polarity and range, 2-10 to 2-11
output polarity selection, 2-12
posted update mode, 3-18 to 3-20
postgain offset error, analog input
circuitry, A-3
posttrigger data acquisition timing
interval scanning data acquisition
(figure), 3-14
multiple-channel data acquisition, 3-13
single-channel data acquisition,
3-10 to 3-11
power connections, 2-32 to 2-33
power requirements, A-9
pregain offset error, A-3
pretrigger data acquisition timing, 3-11 to 3-12
programmable gain instrumentation amplifier.
See PGIA (programmable gain
instrumentation amplifier).
programming. See also registers.
Am9513A Counter/Timer, 5-37
analog input circuitry, 5-5 to 5-6
data acquisition functions, 5-14 to 5-36
analog output circuitry, 5-25
applying a trigger, 5-21
clearing analog input circuitry, 5-14
cyclic waveform generation,
5-26 to 5-27
multiple-analog input channel
configurations, 5-15 to 5-16
programmed cycle waveform
generation, 5-28 to 5-30
pulsed cyclic waveform generation,
5-30 to 5-32
resetting hardware, 5-22 to 5-24
sample counter(s), 5-17 to 5-20
sample-interval counter, 5-16 to 5-17
scan-interval counter, 5-20 to 5-21
servicing data acquisition
operations, 5-22
single-analog input channel
configurations, 5-15
waveform cycle counter, 5-34
waveform cycle interval counter,
5-34 to 5-36
waveform generation functions, 5-32
data acquisition sequences with channel
scanning, 5-10 to 5-11
continuous channel scanning,
5-10 to 5-11
interval-channel scanning,
5-12 to 5-14
digital I/O circuitry, 5-36 to 5-37
initialization
Am9513A, 5-3 to 5-4
AT-MIO-16X, 5-2 to 5-3
register programming considerations, 5-1
resource allocation considerations,
5-1 to 5-2
RTSI bus trigger line, 5-37 to 5-39
RTSI switch, 5-39 to 5-43
DMA operations, 5-41 to 5-42
interrupt programming, 5-43
signal connections, 5-37 to 5-39
single conversions
generating, 5-6
reading results, 5-7
using SCONVERT or EXTCONV*
signal, 5-5 to 5-6
single-channel data acquisition sequence,
5-7 to 5-9
pseudo-simultaneous scanning, 5-10
pulsed cyclic waveform generation,
5-30 to 5-32
pulse-width measurements, 2-38