The original GPIB standard was developed in the late 1960s by Hewlett-Packard to connect and control the programmable instruments the company manufactured.
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GPIB works best for applications in industrial settings that require a rugged connection for instrument control.
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The IEEE-488 specifications standardized this bus and defined its electrical, mechanical, and functional specifications, while also defining its basic software communication rules. It is one of the most common I/O interfaces present in instruments and is designed specifically for instrument control applications. It allows daisy-chaining up to 14 instruments to a system controller using a 24-pin connector. GPIB is a digital 8-bit parallel communications interface capable of achieving data transfers of more than 8 Mbytes/s. The General Purpose Interface Bus ( GPIB) is an IEEE-488 (a standard created by the Institute of Electrical and Electronics Engineers) standard parallel interface used for attaching sensors and programmable instruments to a computer. Industry-standard communication interfaces link signal sources with measurement instruments in “ rack-and-stack” or chassis-/mainframe-based systems, often under the control of a custom software application running on an external PC. These systems are widely employed for incoming inspection, quality assurance, and production testing of electronic devices and subassemblies. Several modular electronic instrumentation platforms are currently in common use for configuring automated electronic test and measurement systems. Generally, more advanced test gear is necessary when developing circuits and systems than is needed when doing production testing or when troubleshooting existing production units in the field. ATE often includes many of these instruments in real and simulated forms. Practical electronics engineering and assembly requires the use of many different kinds of electronic test equipment ranging from the very simple and inexpensive (such as a test light consisting of just a light bulb and a test lead) to extremely complex and sophisticated such as automatic test equipment (ATE). Use of electronic test equipment is essential to any serious work on electronics systems.
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In this way, the proper operation of the DUT can be proven or faults in the device can be traced. Lower module has a digital voltmeter, a digital counter, an old WWVB frequency standard receiver with phase comparator, and function generator.Įlectronic test equipment is used to create signals and capture responses from electronic devices under test (DUTs). We are a leading distribution partner for some of the World’s largest electronic components suppliers.Tektronix 7854 oscilloscope with curve tracer and time-domain reflectometer plug-ins. Here’s a selection to whet your appetite.īrand: Microchip, ST, On Semi's, Intel, NXP, Arduino, Alalog Devicesīrand: RS Pro, Hammond, Fibox, Schneider Electric, Hoffmanīrand: RS Pro, TE, Molex, Phoenix Contact, Deutsch, Amphenolīrand: RS Pro, Tracopower, XP Power, TDK Lambda, ebmpapstĮquip your electronics workbench with new technology innovations, soldering consumables, tips and irons from all the major brands: Weller, RS Pro, ERSA… and many many more.
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RS have everything you need for your electronics workbench, from selecting the right electronics workbench to ESD Safeguarding and bench power supplies.ĭiscover electronic components – including the very latest from the best in the business – from our vast range of products from leadingīrands, and our own RS Pro range. RS offers a wide selection of ESD control equipment, PCB components and PCB handling tools, to ensure that your electronics project isn't affected by ESD issues.
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The right workbench sets the foundation upon which a tailored electronics working environment is built. One thing that is certain, without the right instruments, tools and working environment, it is very difficult to achieve success. As engineers we know that electronics workbenches are very personal spaces that need to be equipped appropriately for our individual requirements.