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- Nuclear_Instrumentation_Module abstract "The Nuclear Instrumentation Module (NIM) standard defines mechanical and electrical specifications for electronics modules used in experimental particle and nuclear physics. The concept of modules in electronic systems offers enormous advantages in flexibility, interchange of instruments, reduced design effort, ease in updating and maintaining the instruments.The NIM standard is the first (and perhaps the simplest) such standard. First defined by the U.S. Atomic Energy Commission's report TID-20893 in 1968–1969, NIM was most recently revised in 1990 (DOE/ER-0457T). It provides a common footprint for electronic modules (amplifiers, ADCs, DACs, discriminators, etc.), which plug into a larger chassis (NIM crate, or NIM bin). The crate must supply ±12 and ±24 volts DC power to the modules via a backplane; the standard also specifies ±6 V DC and 220 V or 110 V AC pins, but not all NIM bins provide them. Mechanically, NIM modules must have a minimum standard width of 1.35 in (34 mm), a maximum faceplate height of 8.7 in (221 mm) and depth of 9.7 in (246 mm). They can, however, also be built in multiples of this standard width, that is, double-width, triple-width etc.The NIM standard also specifies cabling, connectors, impedances and levels for logic signals. The fast logic standard (commonly known as NIM logic) is a current-based logic, with negative true (at −16 mA into 50 ohms = −0.8 volts); an ECL-based logic is also specified.Apart from the above mentioned mechanical/physical and electrical specifications/restrictions, the individual is free to design their module in any way desired, thus allowing for new developments and improvements for efficiency or looks/aesthetics.NIM modules cannot communicate with each other through the crate backplane; this is a feature of later standards such as CAMAC and VMEbus. As a consequence, NIM-based ADC modules are nowadays uncommon in nuclear and particle physics. NIM is still widely used for amplifiers, discriminators, nuclear pulse generators and other logic modules that do not require digital data communication but benefit from a backplane connector that is better suited for high power use.".
- Nuclear_Instrumentation_Module wikiPageID "3343280".
- Nuclear_Instrumentation_Module wikiPageLength "4394".
- Nuclear_Instrumentation_Module wikiPageOutDegree "30".
- Nuclear_Instrumentation_Module wikiPageRevisionID "638263887".
- Nuclear_Instrumentation_Module wikiPageWikiLink Alternating_current.
- Nuclear_Instrumentation_Module wikiPageWikiLink Analog-to-digital_converter.
- Nuclear_Instrumentation_Module wikiPageWikiLink BNC_connector.
- Nuclear_Instrumentation_Module wikiPageWikiLink Backplane.
- Nuclear_Instrumentation_Module wikiPageWikiLink Boolean_algebra.
- Nuclear_Instrumentation_Module wikiPageWikiLink Category:Experimental_particle_physics.
- Nuclear_Instrumentation_Module wikiPageWikiLink Coaxial_cable.
- Nuclear_Instrumentation_Module wikiPageWikiLink Computer_Automated_Measurement_and_Control.
- Nuclear_Instrumentation_Module wikiPageWikiLink Data_acquisition.
- Nuclear_Instrumentation_Module wikiPageWikiLink Digital-to-analog_converter.
- Nuclear_Instrumentation_Module wikiPageWikiLink Direct_current.
- Nuclear_Instrumentation_Module wikiPageWikiLink Electrical_impedance.
- Nuclear_Instrumentation_Module wikiPageWikiLink Electronics.
- Nuclear_Instrumentation_Module wikiPageWikiLink Emitter-coupled_logic.
- Nuclear_Instrumentation_Module wikiPageWikiLink LEMO.
- Nuclear_Instrumentation_Module wikiPageWikiLink Modular_crate_electronics.
- Nuclear_Instrumentation_Module wikiPageWikiLink Modularity.
- Nuclear_Instrumentation_Module wikiPageWikiLink Nuclear_electronics.
- Nuclear_Instrumentation_Module wikiPageWikiLink Nuclear_physics.
- Nuclear_Instrumentation_Module wikiPageWikiLink Particle_physics.
- Nuclear_Instrumentation_Module wikiPageWikiLink RG-58.
- Nuclear_Instrumentation_Module wikiPageWikiLink RG-62.
- Nuclear_Instrumentation_Module wikiPageWikiLink Spectroscopy.
- Nuclear_Instrumentation_Module wikiPageWikiLink United_States_Atomic_Energy_Commission.
- Nuclear_Instrumentation_Module wikiPageWikiLink VMEbus.
- Nuclear_Instrumentation_Module wikiPageWikiLink Volt.
- Nuclear_Instrumentation_Module wikiPageWikiLinkText "NIM (Nuclear Instrumentation Module)".
- Nuclear_Instrumentation_Module wikiPageWikiLinkText "NIM".
- Nuclear_Instrumentation_Module wikiPageWikiLinkText "Nuclear Instrumentation Module".
- Nuclear_Instrumentation_Module wikiPageWikiLinkText "instrumentation".
- Nuclear_Instrumentation_Module wikiPageUsesTemplate Template:For.
- Nuclear_Instrumentation_Module wikiPageUsesTemplate Template:Refimprove.
- Nuclear_Instrumentation_Module subject Category:Experimental_particle_physics.
- Nuclear_Instrumentation_Module type Physic.
- Nuclear_Instrumentation_Module type Redirect.
- Nuclear_Instrumentation_Module comment "The Nuclear Instrumentation Module (NIM) standard defines mechanical and electrical specifications for electronics modules used in experimental particle and nuclear physics. The concept of modules in electronic systems offers enormous advantages in flexibility, interchange of instruments, reduced design effort, ease in updating and maintaining the instruments.The NIM standard is the first (and perhaps the simplest) such standard. First defined by the U.S.".
- Nuclear_Instrumentation_Module label "Nuclear Instrumentation Module".
- Nuclear_Instrumentation_Module sameAs Q7067970.
- Nuclear_Instrumentation_Module sameAs Nuclear_Instrumentation_Standard.
- Nuclear_Instrumentation_Module sameAs m.096tmg.
- Nuclear_Instrumentation_Module sameAs Q7067970.
- Nuclear_Instrumentation_Module wasDerivedFrom Nuclear_Instrumentation_Module?oldid=638263887.
- Nuclear_Instrumentation_Module isPrimaryTopicOf Nuclear_Instrumentation_Module.