Chapter 6 Digital I/O
© National Instruments Corporation 6-7 NI 6124/6154 User Manual
I/O Protection for Non-Isolated Devices(NI 6124 Only) Each DIO and PFI signal is protected against overvoltage,
undervoltage, and overcurrent conditions as well as ESD events. However,
you should avoid these fault conditions by following these guidelines:
• If you configure a PFI or DIO line as an output, do not connect it to any
external signal source, ground, or power supply.
• If you configure a PFI or DIO line as an output, understand the current
requirements of the load connected to these signals. Do not exceed the
specified current output limits of the DAQ device. NI has several signal
conditioning solutions for digital applications requiring high current
drive.
• If you configure a PFI or DIO line as an input, do not drive the line with
voltages outside of its normal operating range. The PFI or DIO lines
have a smaller operating range than the AI signals.
• Treat the DAQ device as you would treat any static sensitive device.
Always properly ground yourself and the equipment when handling
the DAQ device or connecting to it.
Programmable Power-Up States for Non-Isolated Devices(NI 6124 Only) At system startup and reset, the hardware sets all PFI and DIO
lines to high-impedance inputs by default. The DAQ device does not drive
the signal high or low. Each line has a weak pull-down resistor connected
to it, as described in the specifications document for your device.
NI-DAQmx supports programmable power-up states for PFI and DIO lines.
Software can program any value at power up to the P0, P1, or P2 lines. The
PFI and DIO lines can be set as:
• A high-impedance input with a weak pull-down resistor (default)
• An output driving a 0
• An output driving a 1
Refer to the NI-DAQmx Help or the LabVIEW Help in version 8.0 or later
for more information about setting power-up states in NI-DAQmx or MAX.
Note When using your S Series device to control an SCXI chassis, DIO lines 0, 1, 2, and
4 are used as communication lines and must be left to power-up in the default
high-impedance state to avoid potential damage to these signals.