The National Instruments PXI-6232 (Part Number 779618-01) is a 16-bit, bank-isolated PXI Multifunction I/O Module with 2 analog outputs, 6 digital inputs, sourcing digital output, compatibility
The National Instruments PXI-6232 PXI Multifunction I/O Module, part number 779618-01, is a high-resolution 16-Bit device featuring 2 analog outputs and 6 digital inputs with bank isolation for enhanced safety and noise immunity. This module supports sourcing digital outputs and is compatible with 24 V digital I/O signals, offering flexibility for various applications.
With 16 single-ended or 8 differential analog input channels and a ground reference of AI GND, the NI PXI-6232 is capable of a maximum analog input sample rate of 250 KS/s, ensuring rapid data acquisition. The module provides excellent timing accuracy and resolution, marked at 50 ppm and 50 ns respectively, which enhances the precision of measurements.
Analog output performance is robust, with a maximum update rate of 500 kS/s for a single channel and 450 kS/s across both channels, all in DC coupling mode. Additionally, the integrated counters on the PXI-6232 are programmable for a variety of tasks including pulse, period, and edge counting, which makes it a versatile tool for a wide range of measurement and control applications.
Specification
Detail
Part Number
779618-01
Product Line
National Instruments PXI-6232 PXI Multifunction I/O Module
Question 1: What are the specifications and features of the National Instruments PXI-6232 PXI Multifunction I/O Module, including its part number, analog and digital I/O capabilities, and counter functions? Answer 1: The National Instruments PXI-6232 PXI Multifunction I/O Module has a maximum analog input sample rate capacity of 250 KS/s, which contributes to its data acquisition capabilities by allowing rapid and precise data collection from multiple channels simultaneously.
Question 2: What is the analog input sample rate capacity of the National Instruments PXI-6232 PXI Multifunction I/O Module, and how does it contribute to its data acquisition capabilities? Answer 2: The National Instruments PXI-6232 PXI Multifunction I/O Module, part number 779618-01, is a 16-Bit high-resolution device that offers 16 single-ended or 8 differential analog input channels, 2 analog outputs, and 6 digital inputs with bank isolation, compatible with 24 V digital I/O signals. It boasts a maximum analog input sample rate of 250 KS/s, an analog output update rate of up to 500 kS/s for
Question 3: What is the maximum analog input sample rate of the National Instruments PXI-6232 PXI Multifunction I/O Module, and how does its timing accuracy and resolution contribute to measurement precision? Answer 3: The National Instruments PXI-6232 PXI Multifunction I/O Module, part number 779618-01, is a 16-bit device with 16 single-ended or 8 differential analog input channels, 2 analog outputs, and 6 digital input channels with bank isolation; it offers a maximum analog input sample rate of 250 KS/s, analog output update rates of 500 kS/s for a single channel and 450 kS/s across both channels, and features programm
Question 4: What are the specifications and features of the National Instruments PXI-6232 PXI Multifunction I/O Module that make it suitable for various measurement and control applications? Answer 4: The National Instruments PXI-6232 PXI Multifunction I/O Module is equipped with 16 single-ended or 8 differential analog input channels, a maximum analog input sample rate of 250 KS/s, 16-Bit resolution, 2 analog outputs with a max update rate of 500 kS/s for a single channel, 6 digital inputs with bank isolation, compatibility with 24 V digital I/O signals, timing accuracy marked at 50 ppm, timing resolution at 50
Question 5: What are the key features and capabilities of the National Instruments PXI-6232 PXI Multifunction I/O Module with part number 779618-01? Answer 5: The maximum analog input sample rate of the National Instruments PXI-6232 PXI Multifunction I/O Module is 250 KS/s, and its timing accuracy and resolution are marked at 50 ppm and 50 ns respectively, which contribute to measurement precision by ensuring that the timing of the data acquisition is highly accurate and the resolution is fine enough to detect small changes in the signal.
