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    SINE WAVE OSCILLATOR JFET CIRCUIT Search Results

    SINE WAVE OSCILLATOR JFET CIRCUIT Result Highlights (5)

    Part ECAD Model Manufacturer Description Download Buy
    TC78B011FTG Toshiba Electronic Devices & Storage Corporation Brushless Motor Driver/3 Phases Driver/Vout(V)=30/Square, Sine Wave Visit Toshiba Electronic Devices & Storage Corporation
    TB67B001BFTG Toshiba Electronic Devices & Storage Corporation Brushless Motor Driver/3 Phases Driver/Vout(V)=25/Iout(A)=3/Square Wave Visit Toshiba Electronic Devices & Storage Corporation
    TB67B001AFTG Toshiba Electronic Devices & Storage Corporation Brushless Motor Driver/3 Phases Driver/Vout(V)=25/Iout(A)=3/Square Wave Visit Toshiba Electronic Devices & Storage Corporation
    TLP2701 Toshiba Electronic Devices & Storage Corporation Photocoupler (photo-IC output), 5000 Vrms, 4pin SO6L Visit Toshiba Electronic Devices & Storage Corporation
    74HC4053FT Toshiba Electronic Devices & Storage Corporation CMOS Logic IC, SPDT(1:2)/Analog Multiplexer, TSSOP16B, -40 to 125 degC Visit Toshiba Electronic Devices & Storage Corporation

    SINE WAVE OSCILLATOR JFET CIRCUIT Datasheets Context Search

    Catalog Datasheet MFG & Type PDF Document Tags

    sine wave voltage controlled oscillator

    Abstract: sine wave Oscillator jfet circuit amplitude controlled Wien Bridge Oscillator Wien Bridge Oscillator jfet circuit low distortion Wien Bridge Oscillator Wien Bridge Oscillator Wien Bridge Oscillator jfet low frequency sine oscillator Sine Wave Generation Techniques Wien Bridge Oscillator with RC bridge
    Text: DESIGN IDEAS Low-Distortion Sine Wave Oscillator with Precise RMS Amplitude Stability by Cheng-Wei Pei Many applications require a frequency and/or amplitude-stable sine wave as a reference for calibration or measurement. Low harmonic distortion is also required for meaningful results


    Original     		PDF 100kHz, 92dBc 60dBc 80dBc 55dBc LTC1968 500kHz 15MHz LTC1968. sine wave voltage controlled oscillator sine wave Oscillator jfet circuit amplitude controlled Wien Bridge Oscillator Wien Bridge Oscillator jfet circuit low distortion Wien Bridge Oscillator Wien Bridge Oscillator Wien Bridge Oscillator jfet low frequency sine oscillator Sine Wave Generation Techniques Wien Bridge Oscillator with RC bridge

    LM103 zener

    Abstract: jfet cascode 2N3069 J FET RF Cascode Input 2N3070 FM3954 pierce crystal oscillator 2n4416 jfet HI-FI tone control transistors FM1208
    Text: FET Circuit Applications FET Circuit Applications National Semiconductor Application Note 32 February 1970 Polycarbonate dielectric TL H 6791 – 1 Sample and Hold With Offset Adjustment The 2N4339 JFET was selected because of its low lGSS k100 pA very-low lD(OFF) (k50 pA) and low pinchoff volt-


    Original     		PDF 2N4339 2N4393 2N4393 LM103 zener jfet cascode 2N3069 J FET RF Cascode Input 2N3070 FM3954 pierce crystal oscillator 2n4416 jfet HI-FI tone control transistors FM1208

    Wien Bridge Oscillator jfet circuit

    Abstract: Wien Bridge Oscillator jfet amplitude controlled Wien Bridge Oscillator sine wave Oscillator jfet circuit BC547 transistor BC547 fet low distortion Wien Bridge Oscillator voltage controlled oscillator circuit with op amp application of Wien Bridge Oscillator DC variable power with BC547
    Text: Maxim > App Notes > DIGITAL POTENTIOMETERS Keywords: Wien Bridge , Digital Potentiometer, digital pot, oscillator May 24, 2006 APPLICATION NOTE 3846 Analysis of a Digitally Controlled Wien-Bridge Oscillator Abstract: Of all the low-frequency oscillator configurations, the Wien bridge is the easiest to use. It is reliable,


    Original     		PDF com/an3846 MAX4166: MAX5467: AN3846, APP3846, Appnote3846, Wien Bridge Oscillator jfet circuit Wien Bridge Oscillator jfet amplitude controlled Wien Bridge Oscillator sine wave Oscillator jfet circuit BC547 transistor BC547 fet low distortion Wien Bridge Oscillator voltage controlled oscillator circuit with op amp application of Wien Bridge Oscillator DC variable power with BC547

    lm328 datasheet

    Abstract: Wien Bridge Oscillator AGC two diodes lm328 op amp LM328 Wien Bridge Oscillator jfet circuit Wien Bridge Oscillator AGC wein bridge circuit amplitude controlled Wien Bridge Oscillator bubba oscillator Wien Bridge Oscillator
    Text: Chapter 15 Sine Wave Oscillators Literature Number SLOA087 Excerpted from Op Amps for Everyone Literature Number: SLOD006A Chapter 15 Sine Wave Oscillators Ron Mancini and Richard Palmer 15.1 What is a Sine Wave Oscillator? Op amp oscillators are circuits that are unstable — not the type that are sometimes unintentionally designed or created in the lab — but circuits intentionally designed to remain


    Original     		PDF SLOA087 SLOD006A lm328 datasheet Wien Bridge Oscillator AGC two diodes lm328 op amp LM328 Wien Bridge Oscillator jfet circuit Wien Bridge Oscillator AGC wein bridge circuit amplitude controlled Wien Bridge Oscillator bubba oscillator Wien Bridge Oscillator

    LT1069

    Abstract: IRF628 LT1069-6 sine wave Oscillator jfet circuit LT10696 LTC1069-6 LTC1409 LTC1410 ringtone LTC1458
    Text: LinearTechnologyChronicle A Showcase of Linear Technology’s Focus Products October 1996 Products of the Month High Speed Parallel 12-Bit ADCs Deliver on Performance While Consuming Only Milliwatts The 1.25Msps LTC 1415 and 800ksps LTC1409 are 12-bit ADCs with wideband


    Original     		PDF 12-Bit 25Msps 800ksps LTC1409 LTC1415 100kHz. 25Msps. 400kHz LT1069 IRF628 LT1069-6 sine wave Oscillator jfet circuit LT10696 LTC1069-6 LTC1410 ringtone LTC1458

    Wien Bridge Oscillator AGC

    Abstract: Wien Bridge Oscillator jfet circuit HP339A low distortion Wien Bridge Oscillator AGC cds photocell application of Wien Bridge Oscillator schematic circuit for computer system PURE SINE WAVE CIRCUIT DIAGRAMS AN132 sine wave Oscillator jfet circuit
    Text: Application Note 132 February 2011 Fidelity Testing for A→D Converters Proving Purity Jim Williams and Guy Hoover Introduction The ability to faithfully digitize a sine wave is a sensitive test of high resolution A→D converter fidelity. This test requires a sine wave generator with residual distortion


    Original     		PDF an132f AN132-7 AN132-8 Wien Bridge Oscillator AGC Wien Bridge Oscillator jfet circuit HP339A low distortion Wien Bridge Oscillator AGC cds photocell application of Wien Bridge Oscillator schematic circuit for computer system PURE SINE WAVE CIRCUIT DIAGRAMS AN132 sine wave Oscillator jfet circuit

    ic LM386 wein bridge

    Abstract: sine wave crystal controlled oscillator 2N3819 fet lm311 lm386 controlling ic lm311 2n3819 equivalent ic Sine Wave Generation Techniques alternative of LM386 100 khz crystal mm74193
    Text: National Semiconductor Application Note 263 October 1999 Producing and manipulating the sine wave function is a common problem encountered by circuit designers. Sine wave circuits pose a significant design challenge because they represent a constantly controlled linear oscillator. Sine


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    alternative of LM386

    Abstract: LM386 FIXED LOW GAIN AUDIO POWER AMPLIFIER 2N3819 NATIONAL SEMICONDUCTOR 2N3810 NATIONAL SEMICONDUCTOR 2n3819 equivalent ic LM3900 VCO sine wave Oscillator jfet circuit pin diagram for IC 7483 IC LM386 12V supply LM386 circuit with capacitors
    Text: National Semiconductor Application Note 263 Rereleased May 26, 2009 October 21, 1999 Producing and manipulating the sine wave function is a common problem encountered by circuit designers. Sine wave circuits pose a significant design challenge because they represent a constantly controlled linear oscillator. Sine wave


    Original     		PDF AN-263 alternative of LM386 LM386 FIXED LOW GAIN AUDIO POWER AMPLIFIER 2N3819 NATIONAL SEMICONDUCTOR 2N3810 NATIONAL SEMICONDUCTOR 2n3819 equivalent ic LM3900 VCO sine wave Oscillator jfet circuit pin diagram for IC 7483 IC LM386 12V supply LM386 circuit with capacitors

    7483 IC

    Abstract: ic 7483 pin configuration of IC 7483 ic 7483 pin diagram for IC 7483 applications of IC 7483 7483 IC APPLICATIONS 7483 comparator Datasheet of IC 7483 data sheet ic 7483
    Text: National Semiconductor Application Note 263 March 1981 Producing and manipulating the sine wave function is a common problem encountered by circuit designers Sine wave circuits pose a significant design challenge because they represent a constantly controlled linear oscillator Sine


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    high accuracy riaa

    Abstract: pci 16F84 PCI-16F84 DAC08 Applications Collection balanced riaa phono mc preamp 16F84 frequency meter SSM2131 phono preamp ssm2013
    Text: Return to Application Note Menu Analog Devices Application Number Title AD7549 AD7243 DAC08 OP221 DAC08 OP221 AD7537 AD7755 AD7751 12 Analog I/O Port Uses AD7549 and 8051Microcomputer 12-Bit Voltage Output DACs for Single Supply 4-20 mA Digital to Process Current Transmitter


    Original     		PDF AD7549 AD7243 DAC08 OP221 AD7537 AD7755 AD7751 AD7549 high accuracy riaa pci 16F84 PCI-16F84 DAC08 Applications Collection balanced riaa phono mc preamp 16F84 frequency meter SSM2131 phono preamp ssm2013

    Sine wave PWM DC to AC Inverter Circuits

    Abstract: lvdt sensor syncro transmitter syncro precision Sine Wave Generator video quad mux controller generator speed control circuit Multiplying Data Converters Instrumentation Amplifiers resolver sensor
    Text: DETAILED SHORT for SELECTED PRODUCTS Analog to Digital Converters Page 1 Encoders no T/H , Conversion Time < 1 MSPS Page 2 3 Page 5 6 Conversion Time >1MSPS < 21MSPS: DC Specs Page 7 8 Conversion Time >20MSPS: DC Specs Page 9 Page 10 Page 13 Sigma Delta High Speed > 1 KSPS


    Original     		PDF 21MSPS: 20MSPS: Sine wave PWM DC to AC Inverter Circuits lvdt sensor syncro transmitter syncro precision Sine Wave Generator video quad mux controller generator speed control circuit Multiplying Data Converters Instrumentation Amplifiers resolver sensor

    ad7730 pcb circuit example

    Abstract: pcb ad7730 TMS32050 AD7730 program wireless speed control of single phase induction phono mc preamp ad7730 example high accuracy riaa AN277 SSM2110
    Text: Return to Application Note Menu ANALOG DEVICES CD REFERENCE PART NUMBER APPLICATION NOTE TITLE AN402 Replacing Output Clamping Op Amps with Input Clamping Amps. AN402 Replacing Output Clamping Op Amps with Input Clamping Amps. AN219 Electronic Adjustment Made Easy with the TrimDAC


    Original     		PDF AN402 AN219 AN313 AN404 CS4231 AD1845. AN387 AN207 ad7730 pcb circuit example pcb ad7730 TMS32050 AD7730 program wireless speed control of single phase induction phono mc preamp ad7730 example high accuracy riaa AN277 SSM2110

    AN214 audio integrated circuit data

    Abstract: AD1845 AN-274 pci 16F84 AN263 dac08 pwm AN214 IC AD776 RIAA phono pre-amp AN353
    Text: Return to Application Note Menu Analog Devices CD Reference Application Number Title A Low Cost watt-hour Meter Based on the AD7755 AN559 12-Bit Voltage Output DACs for Single Supply +5 V & +12 V System AN225 4-20 mA Digital to Process Current Transmitter


    Original     		PDF AD7755 AN559 12-Bit AN225 AN209 AD7751with AN574 AN407 AN408 AN272 AN214 audio integrated circuit data AD1845 AN-274 pci 16F84 AN263 dac08 pwm AN214 IC AD776 RIAA phono pre-amp AN353

    SLOA060

    Abstract: TI-327 bubba oscillator Wien Bridge Oscillator jfet circuit amplitude controlled Wien Bridge Oscillator ups PURE SINE WAVE schematic diagram wein bridge oscillator lm328 datasheet Wien Bridge Oscillator jfet Wien Bridge Oscillator AGC two diodes
    Text: Application Report SLOA060 - March 2001 Sine-Wave Oscillator Ron Mancini and Richard Palmer HPL Dallas ABSTRACT This note describes the operational amplifier (op-amp) sine-wave oscillator, together with the criteria for oscillation to occur using RC components. It delineates the roles of phase shift and


    Original     		PDF SLOA060 TI-327 bubba oscillator Wien Bridge Oscillator jfet circuit amplitude controlled Wien Bridge Oscillator ups PURE SINE WAVE schematic diagram wein bridge oscillator lm328 datasheet Wien Bridge Oscillator jfet Wien Bridge Oscillator AGC two diodes

    AN214 audio amplifier

    Abstract: AN532 digital frequency synthesizer wein bridge oscillator AN214 amplifier ad7730 pcb circuit example Spice model AD9850 pcb ad7730 AD597 12v DC MOTOR SPEED CONtrol ic accelerometer AN231 silicon
    Text: ANALOG DEVICES CD REFERENCE Return to Application Note Menu APPLICATION NUMBER TITLE AN325 12 Analog I/O Port Uses AD7549 and 8051Microcomputer AN21 AN21 4-20 mDigital to Process Current Transmitter 4-20mA Digital to Process Current Transmitter AN529 AN531


    Original     		PDF AN325 AD7549 8051Microcomputer 4-20mA AN529 AN531 AN209 AN407 ADMS-200-EVAL AN408 AN214 audio amplifier AN532 digital frequency synthesizer wein bridge oscillator AN214 amplifier ad7730 pcb circuit example Spice model AD9850 pcb ad7730 AD597 12v DC MOTOR SPEED CONtrol ic accelerometer AN231 silicon

    NE5521

    Abstract: ne5521 application notes rvdt operation Rotary variable differential transformer AN1182 Rotary variable differential transformer, Schaevitz lvdt LVDT pressure transducer lvdt LVDT Signal Conditioner
    Text: LINEAR PRODUCTS AN1182 Using the NE5521 signal conditioner in multi-faceted applications Zahid Rahim Philips Semiconductors December 1988 Philips Semiconductors Application note Using the NE5521 signal conditioner in multi-faceted applications AN1182 Author: Zahid Rahim


    Original     		PDF AN1182 NE5521 10-bit NE/SA/SE5521 SL00758 ne5521 application notes rvdt operation Rotary variable differential transformer AN1182 Rotary variable differential transformer, Schaevitz lvdt LVDT pressure transducer lvdt LVDT Signal Conditioner

    74HC90 Decade Counter

    Abstract: Toshiba 2SK147 YSI 44006 panametrics 74HC90 74C90 NC7504 74HC90 counter 2SK147 toshiba datasheet 74hc90
    Text: Application Note 93 February 2003 Instrumentation Applications for a Monolithic Oscillator A Clock for All Reasons Jim Williams INTRODUCTION Clock Types Oscillators are fundamental circuit building blocks. A substantial percentage of electronic apparatus utilize oscillators, either as timekeeping references, clock sources,


    Original     		PDF AN93-19 AN93-20 an93f 74HC90 Decade Counter Toshiba 2SK147 YSI 44006 panametrics 74HC90 74C90 NC7504 74HC90 counter 2SK147 toshiba datasheet 74hc90

    DATASHEET OF IC 741

    Abstract: LM1011 oscillator circuit with op amp 741 using ic 741 The Monolithic Operational Amplifier A Tutorial oscillator circuit with op amp 741 its output NPN Transistor 6A 70V 1G Linear Applications Handbook National Semiconductor sine wave Oscillator jfet circuit 741 dual op amp
    Text: National Semiconductor Appendix A A December 1974 Invited Paper IEEE Journal of Solid-State Circuits Vol SC-9 No 6 Abstract A study is made of the integrated circuit operational amplifier IC op amp to explain details of its behavior in a simplified and understandable manner Included are


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    tl084 LT

    Abstract: LF351 TL084 FEATURES 327 LAMP hp 5082-4204 pin photodiode tl082 op amp lf444 tl074 analog
    Text: LT1057/LT1058 Dual and Quad, JFET Input Precision High Speed Op Amps FEATURES DESCRIPTION 14V/µs Slew Rate: 10V/µs Min n 5MHz Gain-Bandwidth Product n Fast Settling Time: 1.3µs to 0.02% n 150µV Offset Voltage LT1057 : 450µV Max n 180µV Offset Voltage (LT1058): 600µV Max


    Original     		PDF LT1057/LT1058 LT1057) LT1058) 13nV/Hz 26nV/Hz LT1057 LF412A OP-215 LT105 18MHz, tl084 LT LF351 TL084 FEATURES 327 LAMP hp 5082-4204 pin photodiode tl082 op amp lf444 tl074 analog

    Untitled

    Abstract: No abstract text available
    Text: LT1057/LT1058 Dual and Quad, JFET Input Precision High Speed Op Amps FEATURES n n n n n n n n DESCRIPTION 14V/ s Slew Rate: 10V/μs Min 5MHz Gain-Bandwidth Product Fast Settling Time: 1.3μs to 0.02% 150μV Offset Voltage LT1057 : 450μV Max 180μV Offset Voltage (LT1058): 600μV Max


    Original     		PDF LT1057/LT1058 LT1057) LT1058) 13nV/â 26nV/â LT1057 300pA LT6011/12 14nV/rtHz,

    tl084 LT

    Abstract: HP 5082-4204 tl084 .000 HP5082-4204 tl072 output bridge tl074 tl084 HP-5082-4204 LT1058CN LF412A LT1057
    Text: r r u JK k m n F r n i T EC H N O LO G Y Dual and Quad, JFET Input Precision High Speed Op Amps DCSCRIPTIOn F€flTUR€S • 14V/*is Slew Rate ■ SMHzGain-Bandwidth Product ■ Fast Settling Time ■ 150pcV Offset Voltage LT1057 180/iV Offset Voltage (LT1058)


    OCR Scan     		PDF 150pV LT1057) 180/iV LT1058) LT1057/LT1058 LT1057 14-Lead tl084 LT HP 5082-4204 tl084 .000 HP5082-4204 tl072 output bridge tl074 tl084 HP-5082-4204 LT1058CN LF412A

    Untitled

    Abstract: No abstract text available
    Text: / T L in C A B TECHNOLOGY LT1057/LT1058 Dual and Q uad JFET Input Precision High Speed Op Amps D€SCRIPTIOn F€RTUR€S • 14V//iS Slew Rate ■ 5MHz Gain-Bandwidth Product ■ Fast Settling Time ■ 150/tV Offset Voltage LT1057 180/tV Offset Voltage (LT1058)


    OCR Scan     		PDF LT1057/LT1058 150/tV LT1057) 180/tV LT1058) 600/iV 13nV/VHz@ 26nV/VHz 130eC/W 14-Lead

    pin configuration of ic TL084

    Abstract: IC LF353 or TL072 Instrumentation Amplifier IC with tl084 tl084 LT hp 5082-4204 pin photodiode TL084 c 2238 Instrumentation Amplifier circuit using tl084 tl072 photodiode TL084 CN
    Text: _ LT1057/LT1058 / T u i m TECHNOLOGY DCSCRIPTIOn F€flTUR€S • ■ ■ ■ ■ ■ ■ ■ 14V/*is Slew Rate SMHzGain-Bandwidth Product Fast Settling Time 150pcV Offset Voltage LT1057 180/iV Offset Voltage (LT1058) 2/iV/°C V0s Drift 50pA Bias Current at 70°C


    OCR Scan     		PDF LT1057/LT1058 150pcV LT1057) 180/iV LT1058) 450/tV 600/iV 13nV/VHz 26nV/VHz LT1057 pin configuration of ic TL084 IC LF353 or TL072 Instrumentation Amplifier IC with tl084 tl084 LT hp 5082-4204 pin photodiode TL084 c 2238 Instrumentation Amplifier circuit using tl084 tl072 photodiode TL084 CN

    hp 5082-4204 pin photodiode

    Abstract: HP5082-4204 tl072 photodiode Instrumentation Amplifier circuit with tl084 LT1058CN HP-5082-4204 5082-4204 tl084 LT Instrumentation Amplifier circuit using tl084 tl074 tl084
    Text: r r u n r n i J K k m F T E C H N O L O G Y 14V/*is Slew Rate SMHzGain-Bandwidth Product Fast Settling Time 150pcV Offset Voltage LT1057 180/iV Offset Voltage (LT1058) 2/iV/°C V0s Drift 50pA Bias Current at 70°C Low Voltage Noise 10V//tS Min. 1.3/ts to 0.02%


    OCR Scan     		PDF 150pV LT1057) 180/iV LT1058) LT1057/LT1058 LT1057 14-Lead hp 5082-4204 pin photodiode HP5082-4204 tl072 photodiode Instrumentation Amplifier circuit with tl084 LT1058CN HP-5082-4204 5082-4204 tl084 LT Instrumentation Amplifier circuit using tl084 tl074 tl084