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Line 1: {{Short description\|Electronic used in particle generators}} {{refimprove\|date=September 2013}} [[File:Short Nuclear Instrumentation Crate - side view.jpg\|thumb\|A NIM Crate with various modules]] Line 13 ⟶ 14: === RENATRAN === The very first standard for crate electronics was Renatran, which itself was derived from the Esone Standard published in 1964.<ref>{{cite ~~web~~journal\|title=Renatran Basic Functional Units\|~~url~~year=~~https:/~~1967\|publisher=IEEE\|doi=10.1109/~~ieeexplore~~TNS.~~ieee~~1967.~~org/abstract/document/~~4324413\|~~publisher~~last1=~~IEEE~~Fabre\|~~accessdate~~first1=5R.\|last2=Gallice\|first2=P.\|last3=Raoult\|first3=N.\|last4=Robin\|first4=G.\|journal=IEEE ~~October~~Transactions ~~2020~~on Nuclear Science\|volume=14\|issue=1\|pages=170–188\|bibcode=1967ITNS...14..170F}}</ref> This standard was in use mainly in France in nuclear research. The Renatran system consisted of a 5U rackable crate that could accept up to 8 single-width or up to 4 double width plug-in units, with the backplane supplying several power rails, as well as serial and parallel communications between modules, and between the rack and external equipment such as printers and computers. Line 28 ⟶ 29: === FASTBUS === [[FASTBUS]]<ref name="FNAL intro to Fastbus">{{cite web\|title=AN INTRODUCTION TO FASTBUS\|url=http://www-esd.fnal.gov/esd/catalog/intro/introfb.htm\|publisher=FNAL\|accessdate=21 September 2013\|url-status=dead\|archiveurl=https://web.archive.org/web/20130923010620/http://www-esd.fnal.gov/esd/catalog/intro/introfb.htm\|archivedate=23 September 2013}}</ref> is a crate/module standard developed later than the other two for high-speed parallel data acquisition.<ref>{{cite web \|last1=Barsotti \|first1=Edward J. \|title="FASTBUS" - A DESCRIPTION, A STATUS REPORT, AND A SUMMARY OF ONGOING PROJECTS \|url=https://inis.iaea.org/collection/NCLCollectionStore/_Public/13/651/13651016.pdf \|publisher=FNAL \|accessdate=22 August 2018 \|date=1981}}</ref>. Rather than individual components, FASTBUS modules tend to be data acquisition modules with many input connectors on the front, while the stored data is read out on the backplane. The connectors on the back of a FASTBUS module are two parallel pin sockets on the module and pins sticking out of the backplane. The main connector in a FASTBUS crate covers about the bottom 2/3 of the module. There is also an upper connector that consists of pass-through pins to the back side of the backplane; this allows custom modules to be plugged in there. FASTBUS modules are much taller than the other types of crate modules, so the crates are correspondingly taller. Line 49 ⟶ 50: This allows to perform an array of maintenance task remotely. The standard is governed by the [[PICMG]] consortium. <ref>{{Cite web\|url=https://www.picmg.org/openstandards/advancedtca/\|title=PICMG \| AdvancedTCA}}</ref> The requirements for cards to be used in AdvancedTCA crates, are called [[Advanced Mezzanine Card]]s (AMCs) and are specified independently in their own standard.<ref>{{Cite web\|url=https://www.picmg.org/openstandards/advanced-mezzanine-card/\|title=PICMG \| Advanced MC®}}</ref> ===MicroTCA=== [[MicroTCA]] is an open, modular standard, based upon [[Advanced Telecommunications Computing Architecture\|AdvancedTCA]], but with a smaller form factor. Initially developed for applications in telecommunications, it has since outgrown its initial purpose by developing modules for military, aerospace and scientific use.<ref>{{Cite web\|url=https://www.picmg.org/openstandards/microtca/\|title=PICMG \| MicroTCA}}</ref> As AdvancedTCA, it uses [[Advanced Mezzanine Card\|AMCs]], which makes cards interchangeable between those two.