Index
I-4
©
National Instruments Corporation
PCI-MIO-16E-1, PCI-MIO-16E-4,
and PCI-MIO-6071E map (table),
5-3 to 5-4
PCI-MIO-16XE-10 and PCI-6031E,
PCI-6032E, and PCI-6033E map,
5-7 to 5-8
PCI-MIO-16XE-50 map, 5-5 to 5-6
reading from, 5-1 to 5-2
writing to accidentally (note), 5-2
NI-DAQ calibration function, 5-17
calibration DACs
purpose and use, 5-14 to 5-15
type of DAC(s) used by each board
(table), 5-14 to 5-15
write timing diagram, 5-16
writing to, 5-15
Chan<3..0> bits
calibration channel assignments
(table), 3-12
channel assignments (table), 3-15
description, 3-12
differential channel assignments
(table), 3-13
nonreferenced single-ended channel
assignments (table), 3-13 to 3-14
referenced single-ended channel
assignments (table), 3-14
channel number, analog input, 2-9
channel type field, analog input, 2-9
channels
calibration channel assignments
(table), 3-12
channel assignments (table), 3-15
differential channel assignments
(table), 3-13
nonreferenced single-ended channel
assignments (table), 3-13 to 3-14
referenced single-ended channel
assignments (table), 3-14
valid channel types (table), 3-11
ChanType<2..0> bit, 3-11
Clear_FIFO function, 4-10, 4-12
configuration memory
definition, 2-8
multirate scanning with ghost
(table), 2-18
Configuration Memory Clear Register
description, 3-24
register map, 3-3
Configuration Memory High Register
description, 3-11 to 3-15
register map, 3-2
Configuration Memory Low Register,
3-9 to 3-10
description, 3-9 to 3-10
register map, 3-2
Configure_Board function
acquiring one sample from channel 0, 4-9
analog triggering example, 4-55
continuous pulse train generation example,
4-49 to 4-52
Cont_Pulse_Train_Generation function, 4-50
CONVERT* signal
data acquisition sequence timing,
2-12 to 2-14
initiating conversions, 2-11
RTSI trigger lines programming
considerations, 4-52
Convert_Signal function
AMUX-64T examples
sampling one channel, 4-28
scanning eight channels, 4-31
STC scanning examples, 4-13
with DMA, 4-18
with external start and stop
trigger, 4-24
with external start trigger and scan
start, 4-22
with interrupts, 4-16
single wire acquisition, 4-26