The National Instruments PXI-7342, with part number 779036-02, is a dual-processor, 2-axis servo/stepper PXI motion controller module with 32 digital I/O channels, 12-bit input resolution,
The National Instruments PXI-7342, with Part Number 779036-02, is a Servo/Stepper PXI Motion Controller Module optimized for 2-axis control and equipped with 32 digital I/O channels featuring a 12-bit input resolution. This advanced module incorporates dual processors and functions on a real-time onboard operating system, ensuring reliable and precise motion control.
Designed to be compatible with Windows 2000/NT/XP, it boasts real-time performance enhancements when used with LabVIEW and supports a diverse range of programming languages including LabVIEW, NI Motion Assistant, Measurement Studio, LabWindows/CVI, Visual Basic, and C/C++. Configuration and setup can be streamlined using the Measurement & Automation Explorer (MAX) tool.
The module’s PID loop update rate is set at 62 ms, and it supports sophisticated motion control features such as 3D contouring, and 3D linear and circular interpolations. It also comes with four general-purpose inputs and utilizes high-density 68-pin female VHDCI connectors for establishing external motion and digital I/O connections.
Specification
Details
Part Number
779036-02
Product Type
Servo/Stepper PXI Motion Controller Module
Number of Axes
2-axis
Digital I/O Channels
32
Input Resolution
12 bits
Processors
Dual
Operating System
Real-time onboard OS
Windows Compatibility
2000/NT/XP
LabVIEW Compatibility
Real-time performance
Supported Programming Languages
LabVIEW, NI Motion Assistant, Measurement Studio, LabWindows/CVI, Visual Basic, C/C++
Configuration Tool
Measurement & Automation Explorer (MAX)
PID Loop Update Rate
62 ms
Supported Interpolations
3D contouring, 3D linear, circular
General Purpose Inputs
4
Connector Type
High-density 68-pin female VHDCI
Question 1: What type of external connections does the National Instruments PXI-7342 utilize for motion and digital I/O interface? Answer 1: The National Instruments PXI-7342 utilizes high-density 68-pin female VHDCI connectors for establishing external motion and digital I/O connections.
Question 2: What are the programming languages supported by the National Instruments PXI-7342 Servo/Stepper PXI Motion Controller Module, and how does the module’s PID loop update rate enhance motion control? Answer 2: The National Instruments PXI-7342 Servo/Stepper PXI Motion Controller Module supports programming languages such as LabVIEW, NI Motion Assistant, Measurement Studio, LabWindows/CVI, Visual Basic, and C/C++, and it can be configured and set up using the Measurement & Automation Explorer (MAX) tool.
Question 3: What types of programming languages and development environments are supported by the National Instruments PXI-7342 Servo/Stepper PXI Motion Controller Module? Answer 3: The National Instruments PXI-7342 Servo/Stepper PXI Motion Controller Module supports a variety of programming languages and development environments, including LabVIEW, NI Motion Assistant, Measurement Studio, LabWindows/CVI, Visual Basic, and C/C++.
Question 4: What programming languages and tools are supported by the National Instruments PXI-7342 Servo/Stepper PXI Motion Controller Module for motion control configuration and setup? Answer 4: The PID loop update rate of the National Instruments PXI-7342 Servo/Stepper PXI Motion Controller Module is 62 ms, and it uses high-density 68-pin female VHDCI connectors for establishing external motion and digital I/O connections.
Question 5: What is the PID loop update rate of the National Instruments PXI-7342 Servo/Stepper PXI Motion Controller Module, and what type of connectors does it use for external motion and digital I/O connections? Answer 5: The National Instruments PXI-7342 Servo/Stepper PXI Motion Controller Module supports programming in LabVIEW, NI Motion Assistant, Measurement Studio, LabWindows/CVI, Visual Basic, and C/C++, and its PID loop update rate of 62 microseconds enhances motion control by allowing for rapid and precise adjustments to the system, ensuring accurate positioning and smooth motion profiles.
