500 MILLION PARTS FROM 12000 MANUFACTURERS

DATASHEET SEARCH ENGINE

Top Results

Part Manufacturer Description Datasheet BUY
LTC6991MPS6#TRPBF Linear Technology LTC6991 - TimerBlox: Resettable, Low Frequency Oscillator; Package: SOT; Pins: 6; Temperature Range: -55°C to 125°C visit Linear Technology - Now Part of Analog Devices Buy
LTC6904MPMS8#TRPBF Linear Technology LTC6904 - 1kHz - 68MHz Serial Port Programmable Oscillator; Package: MSOP; Pins: 8; Temperature Range: -55°C to 125°C visit Linear Technology - Now Part of Analog Devices Buy
LTC6991HS6#TRPBF Linear Technology LTC6991 - TimerBlox: Resettable, Low Frequency Oscillator; Package: SOT; Pins: 6; Temperature Range: -40°C to 125°C visit Linear Technology - Now Part of Analog Devices Buy
LTC6904MPMS8#PBF Linear Technology LTC6904 - 1kHz - 68MHz Serial Port Programmable Oscillator; Package: MSOP; Pins: 8; Temperature Range: -55°C to 125°C visit Linear Technology - Now Part of Analog Devices Buy
LTC6991HS6#TRMPBF Linear Technology LTC6991 - TimerBlox: Resettable, Low Frequency Oscillator; Package: SOT; Pins: 6; Temperature Range: -40°C to 125°C visit Linear Technology - Now Part of Analog Devices Buy
LTC6990HS6#PBF Linear Technology LTC6990 - TimerBlox: Voltage Controlled Silicon Oscillator; Package: SOT; Pins: 6; Temperature Range: -40°C to 125°C visit Linear Technology - Now Part of Analog Devices Buy

SINE WAVE oscillator

Catalog Datasheet MFG & Type PDF Document Tags

Sine Wave Oscillator

Abstract: sine oscillator A Low Distortion Tuneable Sine Wave Oscillator One can make a low distortion tuneable oscillator , Oscillator A Low Distortion Tuneable Sine Wave Oscillator Referring to Figure 3 we see that the EL4450 , Distortion Tuneable Sine Wave Oscillator Typical Performance Curves 0948 ­ 5 0948 ­ 4 0948 ­ 6 , gain down to 1 thus making it difficult to generate a pure sine wave In this design Automatic Gain , of a 4-quadrant multiplier which multiplies the output sine wave with itself to generate a DC and
Elantec
Original
EL2082 EL2444 EL4451 Sine Wave Oscillator sine oscillator 4-Quadrant Multiplier LM337

lm328 datasheet

Abstract: Wien Bridge Oscillator AGC two diodes Palmer 15.1 What is a Sine Wave Oscillator? Op amp oscillators are circuits that are unstable - not , oscillators. Alternative three produces sine wave oscillators. 15-2 Phase Shift in the Oscillator 15.3 , ACL can make A < 1 and the oscillator will not oscillate. Sine Wave Oscillators 15-5 Active , 6. Sine Wave Oscillators 15-7 Analysis of the Oscillator Operation (Circuit) 1 _ , (15­5) Sine Wave Oscillator Circuits Phase shift oscillators generally use negative feedback, so
Texas Instruments
Original
SLOA087 lm328 datasheet Wien Bridge Oscillator AGC two diodes lm328 op amp LM328 Wien Bridge Oscillator AGC Wien Bridge Oscillator jfet circuit SLOD006A

Crystal 26mhz

Abstract: Three phase sine wave oscillator Clipped sine wave oscillator at 25°C Value -63 Unit dBc/Hz 7.2 Typical value for a 20MHz Clipped sine wave oscillator at 25°C -93 dBc/Hz 7.3 Typical value for a 20MHz Clipped sine wave oscillator at 25°C -104 dBc/Hz 7.4 Typical value for a 20MHz Clipped sine wave oscillator at 25°C -128 dBc/Hz 7.5 Typical value for a 20MHz Clipped sine wave oscillator at 25°C -136 dBc/Hz 7.6 Typical value for a 20MHz Clipped sine wave oscillator at 25°C -140 dBc/Hz 7.7
Rakon
Original
Crystal 26mhz Three phase sine wave oscillator TCXO rakon sine wave voltage controlled oscillator RAKON TCXO RFPT700

Sine Wave Oscillator

Abstract: SOT-23L 1 to 5V 7.4V 430µA SOT-23L Low noise sine wave oscillator TK11823M 1 to 5V 13.9V 250µA SOT-23L Low noise sine wave oscillator TK11830M 2.5 to 15V -0.5 to -12.5V
-
Original
TK11811M TK11812M TK11816M TK11817M TK11818M TK11819M SOT-23L FEW SOT23 SOT23L

IC ha17741

Abstract: HA17741 + R2 C2 C1 50 k RL R1 Figure 7 Wien Bridge Sine Wave Oscillator 30 k VOP-P = 2 , 0.01 µ 0.03 µ 0.1 µ C1 Capacitance (F) Figure 8 HA17741 Wien Bridge Sine Wave Oscillator f­C , , T.H.P = 0.06% Figure 9 HA17741 Wien Bridge Sine Wave Oscillator Operating Waveform Quadrature , R44 C1 R1 D2 R33 V8 Figure 10 Quadrature Sine Wave Oscillator Figure 10 shows the circuit diagram for a quadrature sine wave oscillator. This circuit consists of two integrators and a limiter
Hitachi Semiconductor
Original
HA17741PS IC ha17741 HA17741 datasheet Astable Multivibrator operation amplifier bistable multivibrator Wien Bridge Oscillator sine 50 hz quadrature phase sine wave generator HA17741/PS D-85622

SINE WAVE oscillator

Abstract: A Low Distortion Tuneable Sine Wave Oscillator and the remaining DC voltage, which provides a mea , A Low Distortion Tuneable Sine Wave Oscillator termed pseudo since it provides rolloff only until , raised to 2 kQ. 1K 1299 Application Note #4 A Low Distortion Tuneable Sine Wave Oscillator , voltage can be changed by adjusting the potentiometer V R 1. A Low Distortion T\ineable Sine Wave , to 1, thus making it difficult to generate a pure sine wave. In this design, Automatic Gain Control
-
OCR Scan
EL2082C EL2444C EL4451C EL4450C 4450C

digital voltmeter

Abstract: SINE WAVE oscillator 3 for 18 V, and ground to terminal 13. 2. The sine wave oscillator connect terminal 5 through 1000 pF capacitor . 3. Adjust rms value of input sine wave for Vjn =30 mVrms constant. 4. The digital , ground to terminal 13. 2. The sine wave oscillator connect to terminal 12 through the 1000 yF capacitor. 3. Adjust rms value of input sine wave for Vjn = 150 mVrms constant, 4. Terminal 9 ground through
-
OCR Scan
ECG1229 digital voltmeter Philips ECG Philips capacitor 116 h7 philips 50WV 00047M3 QD047MM

HA17741

Abstract: IC ha17741 Waveform Wien Bridge Sine Wave Oscillator 1S2074 H R4 470 k R3 1 M C3 2SK16 H 5.1 k RS - 500 Rin Vout + R2 C2 C1 50 k RL R1 Figure 7 Wien Bridge Sine Wave , Test results f = 929.7 Hz, T.H.P = 0.06% Figure 9 HA17741 Wien Bridge Sine Wave Oscillator , Oscillator Figure 10 shows the circuit diagram for a quadrature sine wave oscillator. This circuit consists , Quadrature Sine Wave Oscillator f-CT1, CT2, C1 Characteristics Vertical: 5 V/div Horizontal: 0.2 ms/div
Hitachi Semiconductor
Original
astable Multivibrator 74 Hitachi 2sk16 2SC1706 Hitachi DSA0094 bistable multivibrator applications OF HA17741 ADE-204-043

rosemount 118

Abstract: quad comparator LM329 ) Voltage Controlled Sine Wave Oscillator Figure 5 diagrams a very high performance voltage controlled sine wave oscillator which uses a single LF347 package. For a 0V­10V input the circuit produces sine , AN-262 Voltage Controlled Sine Wave Oscillator (Continued) 01258705 * = 1% metal-film , voltage-controlled sine wave oscillator combines high performance with versatility. For 0V to 10V inputs, this , www.national.com AN-262 Voltage Controlled Sine Wave Oscillator (Continued) This circuit provides an
National Semiconductor
Original
rosemount 118 quad comparator LM329 sine wave inverter circuit diagram 2n2369s design sine wave power inverter oven rtd sensor LM135 LM129

sine wave voltage controlled oscillator

Abstract: sine wave Oscillator jfet circuit 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 , JFET adjusts the gain of the oscillator, and thus the amplitude of the resulting sine wave signal , 11.5k 1µF 1k 1k + LTC2054 ­ Figure 1. Schematic of the sine wave oscillator, consisting , sine wave generation techniques simply cannot achieve the low harmonic distortion and amplitude
Linear Technology
Original
LT1632 LTC1968 sine wave Oscillator jfet circuit amplitude controlled Wien Bridge Oscillator low distortion Wien Bridge Oscillator Wien Bridge Oscillator Wien Bridge Oscillator jfet low frequency sine oscillator
Abstract: for 18 V , and ground to terminal 13. The sine wave oscillator connect terminal 5 through 1000pF capacitor. Adjust rms value of Input sine wave for V|n - 30 mVrms constant« The digital voltmeter connect to , for 20 V , terminal 10 for 7 V ana terminal 3 for 18 V , and ground to terminal 13. The sine wave oscillator connect to terminal 12 through the 1000 yF capacitor. Adjust rms value of input sine wave for Vjn -
OCR Scan

easily tuned oscillator

Abstract: wein bridge circuit Sine Wave Oscillator C1995 National Semiconductor Corporation TL H 8466 insure oscillation , Distortion Sine Wave Oscillator capacitance causing spikes on the output Therefore the output of the , filter a square wave This leaves only the sine wave fundamental as the output Since a square wave is easily amplitude stabilized by clipping the sine wave output is also amplitude stabilized A clipping , used Instead of driving the tuned circuit with a square wave a symmetrically clipped sine wave is used
National Semiconductor
Original
LB-16 easily tuned oscillator wein bridge circuit square wave generating from sine Widlar national semiconductor Linear square waves to sine waves filter

CA324A

Abstract: AD7519 programmable center frequency, selectivity and gain. 2. Programmable sine wave oscillator with linear control , DAC B2 INPUT COOE. HEX Figure 7. Filter f0 Variation with Code PROGRAMMABLE SINE WAVE OSCILLATOR , . A2, A3 = AD544 Figure 8. Sine Wave Oscillator Using a State Variable Filter FREQUENCY SELECT CODE â'¢AD7528. CONTROL UNES OMITTED FOR CLARITY. Figure 9. Programmable Sine Wave Oscillator Using a State , . Frequency vs. DAC Code for Programmable Sine Wave Oscillator (Figure 9) Loading each DAC latch with the
-
OCR Scan
AD644 TL074 CA324A AD7519 AD7S12 state variable filter 828n E671-15-9/81 G479-15-8/78

Application circuit

Abstract: OP AMP. APPLICATION CIRCUIT and Hold 0.5Hz Square Wave Oscillator -2- Ver.2003-07-18 OP AMP. APPLICATION CIRCUIT Voltage Control Oscillator (VCO) Low Frequency Sine Wave Oscillator Triangle Wave Oscillator Full Wave Rectifier and Average Filter Ver.2003-07-18 -3- OP AMP. APPLICATION CIRCUIT Inverting , Square Wave Generator Stereo Tone Control Ver.2003-07-18 -1- OP AMP. APPLICATION CIRCUIT
New Japan Radio
Original
Application circuit OP AMP. APPLICATION CIRCUIT Frequency Generator 1KHZ active tone control circuit application FULL WAVE RECTIFIER amplifier

alternative of LM386

Abstract: LM386 FIXED LOW GAIN AUDIO POWER AMPLIFIER linear oscillator. Sine wave circuitry is required in a number of diverse areas, including audio , simple inexpensive amplitude stabilized phase shift sine wave oscillator which requires one IC package , . Another dimension in sine wave oscillator design is stable control of amplitude. In this circuit, not , allowed to limit. Low-pass filtering this square wave generates a sine wave (middle). The oscillator , shows a complete sine wave oscillator which may be tuned from 1 Hz to 10 kHz with a single variable
National Semiconductor
Original
alternative of LM386 LM386 FIXED LOW GAIN AUDIO POWER AMPLIFIER 2N3819 NATIONAL SEMICONDUCTOR 2N3810 NATIONAL SEMICONDUCTOR 2n3819 equivalent ic LM3900 VCO LM386 AN-263

application FULL WAVE RECTIFIER

Abstract: low frequency sine oscillator Control Oscillator Low Frequency Sine Wave Oscillator 0.05^F 0.02/* F SINE OUTPUT Triangle Wave Oscillator Full Wave Rectifier and Average Filter 20K THRESHOLD DETECTOR -VW- INPUT , ESS OP AMP APPLICATION CIRCUIT Voltage Follower Lamp Driver Power Amplifier IKHz Band Pass Active Filter Non-lnv. Amp (AC-Couple) Square Wave Oscillator IV, V 0 = l + ^ 1 (V 2 , Summing Amp Vln, O - A W - I · + Vfnn ) Sample and Hold 0.5Hz Square Wave Oscillator Rk= lOOkQ
-
OCR Scan
circuit PRE-AMPLIFIER radio control circuit sine square multiplier square wave oscillator low frequency sine wave oscillator op amp amp circuit

ic LM386 wein bridge

Abstract: sine wave crystal controlled oscillator significant design challenge because they represent a constantly controlled linear oscillator. Sine wave , simple inexpensive amplitude stabilized phase shift sine wave oscillator which requires one IC package , about forty years ago. High Voltage AC Calibrator Another dimension in sine wave oscillator design , limit. Low-pass filtering this square wave generates a sine wave (middle). The oscillator's 0.7 , . Logarithmic shaping schemes produce a sine wave oscillator that you can tune from 1 Hz to 10 kHz with a
National Semiconductor
Original
ic LM386 wein bridge sine wave crystal controlled oscillator 2N3819 fet lm311 lm386 controlling ic lm311 Sine Wave Generation Techniques LM313
Abstract: Model Numbering Guide - OCXO Available options Package (mm) Supply Voltage (V) E:3.3 T:5 A:12 Pulling Range (ppm) K: ±0.2 H: ±0.4 D: ±1 G: ±3 E: ±5 N:NC Freq. Stability (ppb) R: ±2 A: ±5 B: ±10 C: ±20 E: ±30 G: ±50 N: NC Temp. Range ( oC) B:0 ~ +50 E:0 ~ +70 D:-30 ~ +70 Output Logic And Symmetry W 50±5% J CMOS 15pF Sine wave Oscillator Mode Type Pin out Lead Free Dash Freq. (MHz) F:RoHS , ppb 0~+70 Normal RoHS Compliant 10.000000 MHz o C Sine wave *Not all combinations of options TAITIEN
Original
NATHCEWHNF-10

Sine Wave Oscillator

Abstract: ANALOG DEVICES Low Cost Reference Oscillator AD2S99 FU N C T IO N A L BLOCK DIAGRAM FEATURES Sine Wave Oscillator Two Phase-locked Sine Wave Outputs Programmable Output Frequency Range 2 kHz , the AD2S99 are lost. GENERAL D ESC RIPTIO N ^ The AD2S99 is a programmable sine wave oscillator , output sine wave can drive 10 mA with a 30 pF load, with an amplitude of 2 V or 3.5 V rms. Complement of , oscillator frequency is easily programmed to 2 kH z, 5 kHz, 10 kHz or 20 kHz by using the frequency select
-
OCR Scan

LVDT Signal Conditioner

Abstract: NE5520 The chip includes a low distortion amplitude sta ble sine wave oscillator with programma ble frequency , vs Temperature (Normalized to 25°C) Distortion of Sine Wave Oscillator Amplitude Variation With , v+ 220 Oscillator section O scilla to r output Sine w a ve distortion Initial a m plitu de , Oscillator frequency: 1kHz to 20kHz · Low distortion · Capable of ratiometric operation · Single supply
-
OCR Scan
NE5520 LVDT Signal Conditioner lvdt Signal Conditioning 14pin IC 5520N 5520D 5520F OP1B460S 1000K
Showing first 20 results.