VISHAY ULTRONIX GRAND JUNCTION CO Q81 Search Results

VISHAY ULTRONIX GRAND JUNCTION CO Q81 Result Highlights (5)

Part	ECAD Model	Manufacturer	Description	Download	Buy
DFE2016CKA-1R0M=P2		Murata Manufacturing Co Ltd	Fixed IND 1uH 1800mA NONAUTO
GCM033C70J104KE02J		Murata Manufacturing Co Ltd	0201 (0603M) X7S (EIA) 6.3Vdc 0.1μF±10%
GRT155R61A106ME13J		Murata Manufacturing Co Ltd	0402 (1005M) X5R (EIA) 10Vdc 10μF±20%
GRT21BD72A225KE13K		Murata Manufacturing Co Ltd	0805 (2012M) X7T (EIA) 100Vdc 2.2μF±10%
KC355QD7LF224KH01K		Murata Manufacturing Co Ltd	X7T (EIA) 1000Vdc 0.22μF±10%

VISHAY ULTRONIX GRAND JUNCTION CO Q81 Datasheets Context Search

Catalog Datasheet	Type	Document Tags	PDF
AN-31 Abstract: Op Amp Circuit Collection Reference Vishay Ultronix Grand Junction CO Q81 Q81, 1K, 3500 ppm "multiple aperture Window Discriminator" noise detector using instrumentation amplifier CO Q81 zero crossing detector in rectifier circuit Vishay Q81 Text: National Semiconductor Application Note 31 September 2002 Note: National Semiconductor recommends replacing 2N2920 and 2N3728 matched pairs with LM394 in all application circuits. Section 1—Basic Circuits Inverting Amplifier Non-Inverting Amplifier Op Amp Circuit Collection	Original	2N2920 2N3728 LM394 AN-31 AN007057 AN-31 Op Amp Circuit Collection Reference Vishay Ultronix Grand Junction CO Q81 Q81, 1K, 3500 ppm "multiple aperture Window Discriminator" noise detector using instrumentation amplifier CO Q81 zero crossing detector in rectifier circuit Vishay Q81	PDF
Non-Linear Circuits Handbook Analog Devices Abstract: remote irrigation control system Top Octave Synthesizer fuel tank AN-311 LM394 LF412 LM329 LM331A MM74C76 Text: A number of instrumentation applications can benefit from the use of logarithmic or exponential signal processing techniques. The design and use of logarithmic/exponential circuits are often associated with involved temperature compensation requirements and difficult to stabilize feedback	Original	circuit959 Non-Linear Circuits Handbook Analog Devices remote irrigation control system Top Octave Synthesizer fuel tank AN-311 LM394 LF412 LM329 LM331A MM74C76	PDF
H 7057 Abstract: "multiple aperture Window Discriminator" Op Amp Circuit Collection 1978 H7057 Vishay Ultronix Grand Junction CO Q81, 1K zero crossing detector wein bridge oscillator FET circuit collection Vishay Ultronix Grand Junction CO Q81 adjustable Q notch filter Text: SECTION 1 BASIC CIRCUITS Inverting Amplifier Non-Inverting Amplifier VOUT e b R2 VIN R1 VOUT e RIN e R1 R1 a R2 VIN R1 TL H 7057 – 2 TL H 7057 – 1 Difference Amplifier VOUT e R3 R1 a R2 a R4 Inverting Summing Amplifier J R1 V R4 2b R2 V1 R1 VOUT e b R4	Original		PDF
log and antilog amplifier Abstract: national linear brief 4 Vishay Ultronix Grand Junction CO Q81 sensistor Widlar anti-log 10E2 570X AN-30 C1995 Text: National Semiconductor Application Note 30 November 1969 One of the most predictable non-linear elements commonly available is the bipolar transistor The relationship between collector current and emitter base voltage is precisely logarithmic from currents below one picoamp to currents above	Original	LM108 log and antilog amplifier national linear brief 4 Vishay Ultronix Grand Junction CO Q81 sensistor Widlar anti-log 10E2 570X AN-30 C1995	PDF
Non-Linear Circuits Handbook Analog Devices Abstract: inverter linear application handbook national semiconductor linear application handbook national semiconductor CO Q81 Ultrasonic Transducer application notes fuel tank LM394 AN-311 Vishay Q81 LM331 Text: National Semiconductor Application Note 311 April 1991 A number of instrumentation applications can benefit from the use of logarithmic or exponential signal processing techniques. The design and use of logarithmic/exponential circuits are often associated with involved temperature compensation requirements and difficult to stabilize feedback	Original		PDF
Q81, 1K, 3500 ppm Abstract: Vishay Q81 LF412 Vishay Ultronix Grand Junction CO Q81, 1K Non-Linear Circuits Handbook Analog Devices fuel tank MM74C76 Vishay Ultronix Grand Junction CO Q81 Ultrasonic Transducer for gas meter C1995 Text: National Semiconductor Application Note 311 April 1991 A number of instrumentation applications can benefit from the use of logarithmic or exponential signal processing techniques The design and use of logarithmic exponential circuits are often associated with involved temperature compensation requirements and difficult to stabilize feedback	Original		PDF
anti-log Abstract: sensistor 2N2920 logarithmic applications sensistor Q81 2N3728 log and antilog amplifier Widlar 2N2920 Vishay Ultronix Grand Junction CO Q81 Vishay Q81 Text: Note: National Semiconductor recommends replacing 2N2920 and 2N3728 matched pairs with LM394 in all application circuits. One of the most predictable non-linear elements commonly available is the bipolar transistor. The relationship between collector current and emitter base voltage is precisely logarithmic from currents below one picoamp to currents above	Original	2N2920 2N3728 LM394 LM108 AN-30 anti-log sensistor 2N2920 logarithmic applications sensistor Q81 log and antilog amplifier Widlar Vishay Ultronix Grand Junction CO Q81 Vishay Q81	PDF
lm394 Abstract: LM194 NPN Monolithic Transistor Pair accurate logging amplifier LM394CH Text: LM194/LM394 EHNational ^•Sem iconductor LM194/LM394 Supermatch Pair General Description The LM194 and LM394 are junction isolated ultra wellmatched monolithic NPN transistor pairs with an order of magnitude improvement in matching over conventional tran	OCR Scan	LM194/LM394 LM194/LM394 LM194 LM394 TL/H/9241-10 TL/H/9241-11 TL/H/9241-12 LM194H, LM194H/883* LM394H, LM194 NPN Monolithic Transistor Pair accurate logging amplifier LM394CH	PDF
transistor smd ALG Abstract: LM394 smd transistor alg supermatch pair PV smd transistor LM394CH Text: SflE » b S 0 1 1 2 4 007S3DD NATL semicon] T43 « N S C 5 LM194/LM394 ^ N a t io n a l • LINEAR) m A Semiconductor LM194/LM394 Supermatch Pair General Description The LM194 and LM394 are junction isolated ultra wellmatched monolithic NPN transistor pairs with an order of	OCR Scan	007S3DD LM194/LM394 LM194/LM394 LM194 LM394 TL/H/9241-11 00038C G0753D7 TL/H/9241-12 transistor smd ALG smd transistor alg supermatch pair PV smd transistor LM394CH	PDF
RETS194X Abstract: LM194 LM394CN LM394 LM394BH LM394CH LM194 NPN Monolithic Transistor Pair LM394N Vishay Ultronix Grand Junction CO Q81 C1995 Text: LM194 LM394 Supermatch Pair General Description The LM194 and LM394 are junction isolated ultra wellmatched monolithic NPN transistor pairs with an order of magnitude improvement in matching over conventional transistor pairs This was accomplished by advanced linear processing and a unique new device structure	Original	LM194 LM394 RETS194X LM394CN LM394BH LM394CH LM194 NPN Monolithic Transistor Pair LM394N Vishay Ultronix Grand Junction CO Q81 C1995	PDF
lm394 Abstract: LM194 LM394H LM394CH supermatch pair Vishay Ultronix Grand Junction CO Q81 LM194 NPN Monolithic Transistor Pair Super matched pair smd transistor marking TL LM394 Spice Text: LM194 LM394 Supermatch Pair General Description The LM194 and LM394 are junction isolated ultra wellmatched monolithic NPN transistor pairs with an order of magnitude improvement in matching over conventional transistor pairs This was accomplished by advanced linear processing and a unique new device structure	Original	LM194 LM394 AN-222: LB-21: 24-Feb- 28-Jun- LM394H LM394CH supermatch pair Vishay Ultronix Grand Junction CO Q81 LM194 NPN Monolithic Transistor Pair Super matched pair smd transistor marking TL LM394 Spice	PDF
LM194 NPN Monolithic Transistor Pair Abstract: LM394CH LM194 accurate logging amplifier TRANSISTOR REPLACEMENT GUIDE supermatch pair LM194H Text: LM194 LM394 Supermatch Pair General Description The LM194 and LM394 are junction isolated ultra wellmatched monolithic NPN transistor pairs with an order of magnitude improvement in matching over conventional transistor pairs This was accomplished by advanced linear processing and a unique new device structure	Original	LM194 LM394 operatiN-222: 24-Feb-99 28-Jun-96 LB-21: LM194 NPN Monolithic Transistor Pair LM394CH accurate logging amplifier TRANSISTOR REPLACEMENT GUIDE supermatch pair LM194H	PDF
LM394H Abstract: LM194 supermatch pair LM394 LM394CH LM394CN accurate logging amplifier H 9241 LM394BH Text: LM194,LM394 LM194 LM394 Supermatch Pair Literature Number: SNLS385A LM194 LM394 Supermatch Pair General Description matched transistor pair In many cases trimming can be eliminated entirely improving reliability and decreasing costs Additionally the low noise and high gain make this	Original	LM194 LM394 LM394 SNLS385A LM394H supermatch pair LM394CH LM394CN accurate logging amplifier H 9241 LM394BH	PDF
Widlar Abstract: LM101 disadvantages LM709 equivalent Q24 plus Vishay Ultronix Grand Junction CO Q81 LM108 Widlar AN-1 AN-29 C1995 LM101A Text: National Semiconductor Application Note 29 December 1969 Robert J Widlar Apartado Postal 541 Puerto Vallarta Jalisco Mexico abstract A monolithic operational amplifier having input error currents in the order of 100 pA over a b55 C to 125 C temperature range is described Instead of FETs the circuit used	Original		PDF

LM709 equivalent Abstract: lm102a LM108s 2N2920 logarithmic applications high power fet amplifier schematic LM103 zener IC OP AMP for Piezoelectric transducers LM101 disadvantages Lm709 alcohol sensor abstract Text: ABSTRACT A monolithic operational amplifier having input error currents in the order of 100 pA over a −55˚C to 125˚C temperature range is described. Instead of FETs, the circuit used bipolar transistors with current gains of 5000 so that offset voltage	Original	an006875 LM709 equivalent lm102a LM108s 2N2920 logarithmic applications high power fet amplifier schematic LM103 zener IC OP AMP for Piezoelectric transducers LM101 disadvantages Lm709 alcohol sensor abstract	PDF