By G. W. A. Dummer, J. Mackenzie Robertson
Anglo-American Microelectronics information 1968-69, quantity One brands A-P covers semiconductor built-in circuits, thick and skinny movie applied sciences, and buildings open air the semiconductor built-in circuit quarter which come in the microelectronics diversity. The ebook discusses A.B. steel items thick movie microcircuits; AMELCO sequence 16-701/46-701 tentative transistor-transistor common sense; and American Micro-Systems B002e low-power good judgment binary. The booklet additionally describes Bunker-Ramo hybrid thin-film concepts; Centralab thick movie built-in circuits; and CTS Cermet microelectronics. Elliott-automation; Erie R-C and hybrid built-in circuits; and Ether engineering sequence 2020 operational amplifiers also are thought of. different issues contain reasonable baby resistor-transistor micrologic; Hawker Siddeley micropacks; and Plessey SL20 sequence amplifiers. Designers, purchasers, and clients of microelectronic units will locate the textual content invaluable.
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Additional info for Anglo–American Microelectronics Data 1968–69: Manufacturers A–P
TEMPERATURE NORMALIZED INPUT IMPEDANCE VS. 6 -40 05 0 40 80 TEMPERATURE-*C -40 0 40 80 120 TEMPERATURE- eC NORMALIZED SINGLE ENDED OUTPUT I M P E D A N C E VS T E M P E R A T U R E NORMALIZED DIFFERENTIAL GAIN VS. 8 < OC 08 . IOOcps ^-j~l OSCILLOSCOPE H ΟΓ V= VERTICAL INPUT H= HORIZONTAL INPUT 1 V CMR = 2 0 l o g - SINGLE-ENDED DYNAMIC RANGE COMMON MODE REJECTION SINE WAVE GENERATOR (100 cps) (M \ AC V P U / VOLTMETER WITH Voc ADJUSTED FOR V | = 0 INPUT OFFSET CURRENT = *Z INPUT IMPEDANCE INPUT OFFSET CURRENT AND I N P U T V , ( V 2= 0 ) x R V 2( V , = 0 ) SINE WAVE GENERATOR (lOOcps) IMPEDANCE 3M- ' rms -I2V POWER SUPPLY REJECTI0N = 2 0 log POWER 29 SUPPLY A Dx l REJECTION Continued AMELCO A13-251 OPERATIONAL (12 P I N ) , A13-351 (10 PIN) AMPLIFIER This General Purpose Amplifier is constructed on a single monolithic silicon substrate.
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One distinct advantage of a differential dc amplifier is the fact that its t h e r m a l stability (offset drift) can be extremely good if components a r e well matched. T h i s , howe v e r , i s not an e a s y task for the conventional d i s c r e t e dc amplifier. With the use of i n t e grated c i r c u i t r y , passive components can be matched to within 5% with relative ease and the geometry of its active components can be optimized for t h e i r p a r t i c u l a r r e q u i r e m e n t s .