For resources that outline the fundamentals of this industry-standard development environment, please refer to the links at the end of this section. Any custom LabVIEW application you create will be composed of a front panel, which is the graphical user interface, and a block diagram which is the flow chart-style code created with these functional blocks VIs. Using these example programs as a starting point, it is possible to begin communicating with the Agilent A very quickly, eliminating the difficulties associated with starting a project from scratch. Your signals are switched to the right measurement device without compromising signal integrity. Since peak detection is one of the analysis functions available in LabVIEW, we can easily add that functionality to our application. Though all of these examples are intended to serve as a starting point for the creation of a custom application, they may be used without modification to immediately control the Agilent A.
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Use the ready-to-run example programs for a simple measurement application with little development effort, or customize them to take advantage of the additional analysis and presentation capability of LabVIEW. Use the A to route individual signals or monitor multiple signals over a specified period of time—monitor a single channel or multiple channels, set alarms, and identify agileng.
The A offers flexible choices for system control. Rate this document Select a Rating 1 – Poor 2 3 4 5 – Excellent. The IO Libraries provide robust instrument control and work with the software 34980aa environment you choose.
The driver includes a full set of functional building blocks that can be used to create a completely custom A application in LabVIEW. Introduction to the A Instrument Driver An instrument driver is a set of software routines that control agilnet programmable instrument. Flexible switching, measurements, and system control The A accommodates up to 8 plug-in modules to give you the flexibility you need. You can route your measurements directly to the internal DMM, or you can connect to external instruments through the analog bus connector on the rear of the mainframe.
Two instrument driver palettes are shown below, in Figure 2. We could have even posted the application’s user interface to a web page for remote monitoring and control using the built-in LabVIEW web server.
Sample code created with instrument driver functions. Web browser interface shows settings at a glance and provides remote access and control Self-guiding front panel to configure, troubleshoot or view data Low EMI and efficient system cooling Heavy-duty cabling and connection options Rack mount options Relay counters help predict end-of-life In-rack calibration for reduced maintenance time DMM measurement accuracies include the switch for simple calculations Make system connections easily and quickly with simple, reliable connection options: LabVIEW can also be used to interface with a data management system, whether that consists of a simple spreadsheet file or a relational database.
Use on-board memory to create waveforms with more thanpoints.
Agilent A Multifunction Switch / Measure Unit – Test Equipment Depot
The A accommodates up to 8 plug-in modules to give you the flexibility you need. Though all of these examples are intended to serve as a starting point for the creation of a custom application, they may be used without modification to immediately control the Agilent A.
Quickly establish an error-free connection between your PC and instruments—regardless of vendor. Switch in different measurements with high-performance signal switching with no external signal conditioning required. It agient be incorporated into a more powerful and user-defined virtual instrumentation solution by taking advantage of LabVIEW’s unique instrument control, analysis, and user interface features.
A Multifunction Switch/Measure Unit | Keysight (formerly Agilent’s Electronic Measurement)
For resources that outline the fundamentals of this industry-standard development environment, please refer to the links at the end of this section. The Agilent A is a good instrumentation 3490a for manual bench top testing or multiple automated test equipment use cases.
Any custom LabVIEW application you create will be composed of a front panel, which is the graphical user interface, and a block diagram which is the flow chart-style code created with these functional blocks VIs. The block diagram in Figure 4 extends the functionality of our previously created code to discover 39480a peaks of the dataset and then log those values to a tab-delimited text file compatible with Excel. LabVIEW itself is a graphical development environment for creating flexible and scalable test, measurement, and control applications rapidly and at minimal cost.
Let’s suppose, for instance, that after acquiring data in the example above, we wish to detect the peak values in the data set and log those to file.
34980A Multifunction Switch/Measure Mainframe and Modules
If you use automated test equipment for design validation or manufacturing, you now have a cost-effective alternative to PXI and VXI test-system 34980x. Your signals are switched to the right measurement device without compromising signal integrity.
This instrument driver will allow you to use your Agllent, while having to do little or no low level VISA programming yourself. Built-in Ethernet, USB 2. While the LabVIEW instrument driver for the A itself does not include ready-to-run example programs, there are three ready-to-run example programs available from www. Or use the digital inputs to sense limit-switch and digital-bus status.