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ISL28210FBZ-T7 Intersil Corporation Precision Low Noise JFET Operational Amplifiers; SOIC8; Temp Range: -40° to 125°C visit Intersil Buy
ISL28210FBZ Intersil Corporation Precision Low Noise JFET Operational Amplifiers; SOIC8; Temp Range: -40° to 125°C visit Intersil Buy
ISL28210FBZ-T7A Intersil Corporation Precision Low Noise JFET Operational Amplifiers; SOIC8; Temp Range: -40° to 125°C visit Intersil Buy
ISL28210FBZ-T13 Intersil Corporation Precision Low Noise JFET Operational Amplifiers; SOIC8; Temp Range: -40° to 125°C visit Intersil Buy
ISL28110FBZ-T13 Intersil Corporation Precision Low Noise JFET Operational Amplifiers; SOIC8; Temp Range: -40° to 125°C visit Intersil Buy
ISL28110FBZ Intersil Corporation Precision Low Noise JFET Operational Amplifiers; SOIC8; Temp Range: -40° to 125°C visit Intersil Buy

complementary JFET

Catalog Datasheet MFG & Type PDF Document Tags

Prospects for a BiCFET III-V HBT Process

Abstract: kopin . Zuleeg, J. K. Notthoff, AND G. L. Troeger, Double-Implanted GaAs Complementary JFET's,â' IEEE Electron , Li Abstractâ'"While complementary FETs are routinely available in BiCMOS processes, the successful integration of HBTs with complementary FETs has not been reported. In this work, we demonstrate , ) are routinely available in silicon processes such as BiCMOS. While complementary III-V FET processes have been demonstrated [1,2], the only complementary HBT/FET demonstrations were [3,4] with the only
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complementary JFET

Abstract: LH0063 complementary JFET input stage followed by a bipolar output stage. There is an inherent imbalance between the P
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YSK0

Abstract: LH0063K complementary JFET input stage followed by a bipolar output stage. There is an inherent imbalance between the P
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P-Channel JFET

Abstract: p-channel jfet rf . 2-54 Complementary Transistors , . 2-56 N-Channel JFET Switches & Choppers . 2-57 P-Channel JFET Switches & Choppers . 2-59 N-Channel JFET RF Amplifiers . 2-60 N-Channel JFET Low Freqency Low-Noise Amplifiers
Fairchild Semiconductor
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N-Channel JFET FETs

Abstract: analog switch circuit using mosfet IDEAS FOR DESIGN page JFET constant-current sources JFET source followers and amplifiers JFET , Small-signal Field-effect Transistors JFET CONSTANT-CURRENT SOURCES The simplest JFET current source is shown in Fig. 1. The JFET has been selected rather than a MOS-FET because it does not require gate bias , particular JFET. This circuit makes it possible to set the current (must be less than Iqss) as well as to make this current more predictable. A JFET current source always shows some variation of output current
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n-channel jfet amplitude control

Abstract: philips jfet Ideas for design JFET CONSTANT-CURRENT SOURCES The simplest JFET current source is shown in Fig.1. The JFET has been selected rather than a MOS-FET because it does not require gate bias (depletion , characteristic for that particular JFET. This circuit makes it possible to set the current (must be less than IDSS) as well as to make this current more predictable. R MGC452 A JFET current source always , , even if built with source resistor. An improvement can be made by using a second JFET to hold the
Philips Semiconductors
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2N5484 n-channel jfet amplitude control philips jfet complementary JFET design ideas 2n5484 jfet P-Channel Depletion Mode Field Effect Transistor MGC457 MGC455
Abstract: , the complementary P and N channel VD-MOS-FETs are shown, but it is also possible to use only N , design the driver inputs are complementary pulse waveforms from a microprocessor. Chosen for our , (complementary), almost the full 12 V is switched over the speaker (a little less due to the on-resistance of , JFET CONSTANT-CURRENT SOURCES The simplest JFET current source is shown in Fig.11. The JFET has been , reducing Id- The value of R can be calculated from the IqA/d characteristic for that particular JFET -
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MGC45S
Abstract: . These complementary outputs can be used to create a wide variety of functions such as SPDT and DPDT switches, etc.; alternatively the complementary outputs can be used to drive N and P channel MOSFETs, to , signal input and the + Vcc supply. The IH6201 will drive any JFET provided some sort of isolation is , area curve for isolation diode i.e. if C vs. V plot for diode ^ 2 [C vs. V plot for output JFET , signal handling capability comes from the output gating device. When a JFET is used, the pinchoff of the -
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IH401 2N4391

30v analog switch DPDT

Abstract: complementary JFET complementary outputs can be used to create a wide variety of functions such as SPDT and DPDT switches, etc.; alternatively the complementary outputs can be used to drive N and P channel MOSFETs, to make a complete CMOS , will drive any JFET provided some sort of isolation is added. You will notice in Figure 4 that a , for output JFET] switch won't function; then adding this resistor overcomes this condition. The , capability comes from the output gating device. When a JFET is used, the pinch-off of the JFET acting with
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30v analog switch DPDT MAXIMUM ANALOG SWITCH DPDT 30V 4000 series cmos logic 30v DPDT analog switch dual P-Channel JFET IH401A

plji

Abstract: eZ 719 ®SPT SIGNAL PROCESSING TECHNOLOGIES SPT9693 WIDE INPUT VOLTAGE, JFET COMPARATOR FEATURES , voltage, JFET input, dual comparator. It is designed for applications that measure critical timing , constant for overdrives greater than 50 mV. JFET inputs reduce the input bias currents to the nanoamp , differential analog inputs and complementary logic outputs compatible with ECL systems. Each comparator has a complementary latch enable control that can be driven by standard ECL logic. The SPT9693 is available in the
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plji eZ 719 1N5231B 1N751 1N914 D003G51 00D3D5
Abstract: SPT969 I @ e s SIGNAL PROCESSING TECHNOLOGIES WIDE INPUT VOLTAGE, JFET COMPARATOR , DESCRIPTION The SPT9691 is a high speed, wide common mode voltage, JFET input, dual comparator. It is , mV. JFET inputs reduce the input bias currents to the nanoamp level, eliminating the need for input drivers and buffers in most applications. The device has differential analog inputs and complementary logic outputs compatible with ECL sys­ tems. Each comparator has a complementary latch enable control -
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2n4391

Abstract: 30v analog switch DPDT other. These complementary outputs can be used to create a wide variety of functions such as SPDT and DPDT switches, etc.; alternatively the complementary outputs can be used to drive N and P channel , output JFET] switch won't function; then adding this resistor overcomes this condition. The "referral" , supply. The IH6201 will drive any JFET provided some sort of isolation is added. You will notice in , -P Signals The limitation on signal handling capability comes from the output gating device. When a JFET is
Harris Semiconductor
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IH6201CJE IH6201MJE IH6201CPE max dual analog switch 20VACPP 22VP-P 20VP-P

DPDT SWITCHES

Abstract: each other. These complementary outputs can be used to create a wide variety of functions such as SPDT and DPDT switches, etc.; alternatively the complementary outputs can be used to drive N and P channel , signal input and the +VCC supply. The IH6201 will drive any JFET provided some sort of isolation is added , C vs. V plot for diode 2 [C vs. V plot FIGURE 2. for output JFET] switch won't function; then , The limitation on signal handling capability comes from the output gating device. When a JFET is used
Harris Semiconductor
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DPDT SWITCHES 16VP-P
Abstract: other. These complementary outputs can be used to create a wide variety of functions such as SPDT and DPDT switches, etc.; alternatively the complementary outputs can be used to drive N and P channel , JFET provided some sort of isolation is added. NOTE: A lt typical values h a ve b een characterized , charge area curve for isolation diode i.e. if C vs. V plot for diode , gating device. When a JFET is used, the pinchoff of the JFET acting with the V * supply does the limiting -
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Abstract: & & P S T P T 9 6 9 3 WIDE INPUT VOLTAGE, JFET COMPARATOR , DESCRIPTION The SPT9693 is a high speed, wide common mode voltage, JFET input, dual comparator. It is , mV. most applications. The device has differential analog inputs and complementary logic outputs compatible with ECL sys­ tems. Each comparator has a complementary latch enable control that can be driven , (leadless chip carrier), PLCC, and sidebrazed ceramic dip packages as well as in die form. JFET inputs -
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Abstract: with each other. These complementary outputs can be used to create a wide variety of functions such as SPDT and DPDT switches, etc.; alternatively the complementary outputs can be used to drive N and , drive any JFET provided some sort of isolation is added. The strobe input lines are designed to be , isolation diode I.e. if C vs. V plot for diode 2 [C vs. V plot for output JFET] switch w onâ'™t function , . When a JFET is used, the pinchoff of the JFET acting with the V supply does the limiting. In fact max -
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4000 SERIES CMOS

Abstract: V and goes to V + ; thus and are 180° out of phase with each other. These complementary outputs can , complementary outputs can be used to drive N and P channel MOSFETs, to make a complete CMOS analog gate. 9 , JFET provided some sort of isolation is added. NOTE: AH typical values have been characterized b ut , isolation diode i.e. if C vs. V plot for diode [C vs. V plot for output JFET] switch w on't function; then , device. When a JFET is used, the pinchoff of the JFET acting with the V - supply does the limiting. In
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4000 SERIES CMOS
Abstract: modules, consisting of 12 standard, 2 power and 2 JFET modules. All modules are sym metrically located , SemiCustom Linear Array brochure. Features Complementary vertical NPN and PNP transistors Two-level , the complementary bipolar integrated circuit (CBIC) pro cess that offers the advantages of vertical , Linear Array 2 LA400 Linear Array Figure 2. LA400 Module Layout STD JFET JFET STD , 14 4 104 168 216 168 14 4 44 Standard 5 1 1 - 5 1 1 8 12 16 12 1 JFET 5 - Power - - 2 -
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50AL203140 DS86-352LBC
Abstract: the complementary bipolar integrated circuit (CBIC) process that offers the advantages of vertical , modules, consisting of 12 standard, 2 power, and 2 JFET modules. The ALA401 Linear Array is divided into , 350 MHz for NPN and 300 MHz for PNP transistors â  Complementary vertical NPN and PNP transistors , ARRAY ALA400/401 Figure 1. ALA400 Module Layout STD STD STD STD JFET STD STD PWR JFET STD STD PWR STD STD STD S tD Figure 2. ALA401 Module Layout STD -
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Abstract: /401 Linear Array Family is fabricated using the complementary bipolar integrated circuit (CBIC , JFET modules. The ALA401 Linear Array is divided into 9 modules, consisting of 7 standard and 2 power , transistors â  Complementary vertical NPN and PNP transistors â  33 volt capability â  Two-level , Layout STD STD STD STD JFET STD STD PWR JFET STD STD PWR STD , ki2 216 168 16 12 8 12 â'" Resistors* Resistors* Standard JFET Type â -
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51AL230240 D-8000 DS87-61LBC
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