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200 10$aIEC 63004 Edition 1.0 2015-12 IEEE Std 1505 $eIEC/IEEE International standard for receiver fixture interface /$fInstitute of Electrical and Electronics Engineers
210  1$aPiscataway, New Jersey :$cIEEE,$d2015.
215   $a1 online resource (161 pages)
330   $aA mechanical and electrical specification for implementing a common interoperable mechanical quick-disconnect interconnect system for use by industry for interfacing large numbers of electrical signals (digital, analog, RF, power, etc.) is provided. These large interface panels (receiver and fixture panels) are employed primarily in test systems between stimulus/measurement assets and a related unit-under-test (UUT), although any application involving high-density contacts requiring a quick disconnect interface could benefit. The receiver is a receptacle that is mounted to test system mates with multiple fixtures, which serve as thebuffer between the UUT and automatic test equipment (ATE). Fixtures translate standard input/output (I/O) signal routing offered at the receiver to a wiring interface that directly connects to the UUT. These UUT interfaces can represent cable connectors, direct plug-in (printed circuit board edge connectors), sensor monitoring, or manual feedback from the test technician.The primary objectives of this standard are: (a) to establish interface standards that permit interchangeability of mechanical/electrical receiver/fixture/connector product assemblies from various manufacturers under an open architecture; and (b) to develop within this framework a defined set(s) of interconnecting connector and mechanical specifications that supports available, accepted, low-cost commercial technology to reduced dependence on proprietary designs and extend life-cycle availability.
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200 10$aNonclassical linear Volterra equations of the first kind$b[electronic resource] /$fA.S. Apartsyn
205   $aReprint 2010
210   $aUtrecht ;$aBoston $cVSP$d2003
215   $a1 online resource (176 p.)
225 0 $aInverse and ill-posed problems series,$x1381-4524
225 0 $aInverse and Ill-Posed Problems Series ;$v39
300   $aDescription based upon print version of record.
311 0 $a3-11-061993-8 
311 0 $a90-6764-375-0 
320   $aIncludes bibliographical references (p. [153]-165) and index.
327   $tFront matter --$tIntroduction --$tChapter 1. Classical Volterra equations of the first kind --$tChapter 2. Volterra equations of the first kind with two variable integration limits. The case a(t0) < t0 --$tChapter 3. Volterra equations of the first kind with two variable limits of integration. The case a(t0) = t0 --$tBibliography --$tIndex
330   $aThis monograph deals with linear integra Volterra equations of the first kind with variable upper and lower limits of integration. Volterra operators of this type are the basic operators for integral models of dynamic systems.
410  0$aInverse and Ill-Posed Problems Series
606   $aVolterra equations
610   $aComputational Mathematics.
610   $aDynamic Systems.
610   $aFirst Kind.
610   $aIntegra.
610   $aIntegral Models.
610   $aIntegration.
610   $aLimits.
610   $aLinear.
610   $aVolterra Equations.
610   $aVolterra Operators.
615  0$aVolterra equations.
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