![]() ![]() Whether it is the capability to rotate a turntable, track a drifting frequency source, automate a sequence of batch tests, monitor a network, or correct ambient noise, the software must provide it.įind out which specifications apply to your product, and determine which tests are required. Find out if software upgrades are readily available for modest fees and if there is a bulletin-board service. Look for easy-to-edit test parameters such as frequency ranges or limit curves and easy-to-patch test setups with manual override capabilities built in. To be easily reconfigurable for new requirements, you should be able to add or modify test libraries, specification libraries, device drivers, and test sequences without hard code changes. Investigate whether it is worth the added expense of a separate reporting package. The software should allow you to prepare the documentation needed to apply for product certification. See if a data-reduction feature is available. There should be automatic calibration and correction features for equipment, transducers, and cables.ĭata must be analyzed for evaluation purposes and generation of tables, charts, and graphs, but all of it is not needed in the final report. Dedicated software is easier to use, but may limit your choice of equipment. Find out which drivers are built in and which ones you must add. Get the appropriate bus interface and software drivers for each piece of test gear. A common platform is a PC running on Windows, but you may have other preferences.įor all of your EMC emissions and immunity tests, the software should support all the specifications that apply to your product. Make sure your computer and software are compatible. Dramatic advances in the modular, flexible, graphical programming process found in today’s EMC test software packages make them serious contenders for integrating a test system. Today’s easy-to-use software packages lead to better, faster, more repeatable results and better documentation. You also must have the power to add libraries, delete them, create them, edit them, and interface them easily. In software terms, this means that you must have many instrument driver libraries, specification libraries, test setup libraries, and function libraries. To meet today’s EMC testing needs, your software must have the power to run all the required tests and the flexibility to make changes on-the-fly. This could be the time to automate your EMC testing through software. EMC specifications keep changing, and the product development schedule is slipping. Innovative: 1st automation and post-processing software for near-field measurementsĮrgonomics: A graphical interface designed to facilitate the preparation, execution and management of the tests.Ĭompatibility: BAT Scan allows the results to be used in your numerical simulation software and has a standardized data exchange format.You’ve lost many hours running EMC tests. ![]() BAT-SCAN adapts to all robotic systems and benefits from the advantages of BAT-EMC, leader in EMC test automation software.įlexibility : BAT Scan is open and can be integrated into most multi-axis robotic systems.įeatures: A wide range of dedicated functions to make the most of near field measurements NEXIO has drawn on its expertise in automation and its development structure to develop industrial software adapted to measurements made with a scanner. NEXIO industrializes the use of the 3D Near Field Scanner which helps in all stages of design, production and maintenance of electronic circuits and equipment. Multi-product & Multi-protocol communication: Communication can be carried out with multiple addresses and protocols during the execution of the same test. Protocols: FREERUNNING, KWP2000, CAN, LIN, FlexRay, ARINC, … New protocols can be quickly taken into account (adapted protocol, …). ![]() Local & remote integration: AT-DIAG can be controlled and queried by third party software and can also be used on a remote station via Ethernet.Ĭommunication port: The communication is carried out via RS232 ports, CAN NI acquisition card or specific acquisition card and system. Macro-control: The user can write and execute complex test sequences using the macro-control functions. It has been developed since 1990 by a team of experts ensuring its design, development and technical support.ĭynamic Configuration: During a simple frame reading, the operator defines the elements that will be acquired, recorded, visualized and monitored in real time. ![]() This is to be able to report faults to an external system. AT-DIAG establishes a bidirectional communication and manages in real time the acquisition, visualization and analysis of data. A software for the acquisition and monitoring of data from automotive ECUs. ![]()
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