Please enter a valid full or partial manufacturer part number with a minimum of 3 letters or numbers

    ADVERTISEMENT Search Results

    SF Impression Pixel

    ADVERTISEMENT Price and Stock

    COBRO ADVERTISEMENT

    ADS
    Distributors Part Package Stock Lead Time Min Order Qty Price Buy
    Quest Components ADVERTISEMENT 1
    • 1 -
    • 10 -
    • 100 -
    • 1000 -
    • 10000 -
    		Buy Now

    ADVERTISEMENT Datasheets Context Search

    Catalog Datasheet MFG & Type PDF Document Tags

    30P05

    Abstract: No abstract text available
    Text: High-Brightness White LED: NC803PWN1-30P-05 Characteristics Application High-Brightness LED Advertisement Lens Color : Water Clear Indicators Half Value Angle 2θ1/2 :30° Back Lights Superior Weather-resistance Illumination UV Resistant Epoxy Directivity


    Original     		PDF NC803PWN1-30P-05 30P05

    IRF628

    Abstract: 2n3904 for oscillator cadence amplifier Dale Eagar oscillator DN134 2N3904 ringing cadence generator 2N3904 pin diagram 20-15-3F8 4N28
    Text: advertisement Telephone Ring-Tone Generation – Design Note 134 Dale Eagar Requirements When your telephone rings, exactly what is the phone company doing? This question comes up frequently, as it seems everyone is becoming a telephone company. Deregulation opens many new opportunities, but if you want to be


    Original     		PDF 60VDC 180VDC 2N3904 IRF9620 2N3906 DN134 1-800-4-LINEAR. IRF628 2n3904 for oscillator cadence amplifier Dale Eagar oscillator 2N3904 ringing cadence generator 2N3904 pin diagram 20-15-3F8 4N28

    Rail-to-Rail Amplifiers

    Abstract: 50ma rail to rail Amplifier LT1466L LT1467L TP0610 TP0610L VN2222 state variable filter dc a1d
    Text: advertisement Maximize Dynamic Range with the LT1466L Micropower Rail-to-Rail Op Amp – Design Note 171 William Jett Rail-to-rail amplifiers present an attractive solution for signal conditioning. For battery-powered or other low voltage circuitry, the entire supply voltage can be used by


    Original     		PDF LT1466L 1466L LT1467L LT1466L/LT1467L LT1467L DN171 1-800-4-LINEAR. 434-0507q Rail-to-Rail Amplifiers 50ma rail to rail Amplifier TP0610 TP0610L VN2222 state variable filter dc a1d

    DN251

    Abstract: 8th order lowpass butterworth filter LTC1563 Passive filters 100KHz LTC1563-2 LTC1563-3 design of capacitor input filters Passive Low-pass Filter Design Method
    Text: advertisement Replace Discrete Lowpass Filters with the LTC1563 Zero Design Effort, Two Item BoM and No Surprises – Design Note 251 Doug La Porte R = 10k • 256kHz/fC where R = the resistor value in Ohms fC = the filter’s cutoff frequency in Hertz (256Hz ≤ fC ≤ 256kHz)


    Original     		PDF LTC1563 256kHz/fC) 256Hz 256kHz) LTC1563, 150kHz, 1-800-4-LINEAR. dn251f DN251 8th order lowpass butterworth filter Passive filters 100KHz LTC1563-2 LTC1563-3 design of capacitor input filters Passive Low-pass Filter Design Method

    LTC3633EUFD

    Abstract: 22uf 16v 1206 IHLP-2020BZER-1R0M01 IHLP2020BZER1R0M01 LTC3633
    Text: advertisement Dual Output Monolithic Synchronous Buck Regulator Operates from 3.6V to 15V Inputs and Delivers 3A Per Channel – Design Note 1020 Tom Gross Introduction The LTC3633 is a high efficiency, dual output monolithic synchronous step-down switching regulator, capable of


    Original     		PDF LTC3633 12VIN IHLP-2525CZERR47M01 DN1020 LTC3633 dn1020f LTC3633EUFD 22uf 16v 1206 IHLP-2020BZER-1R0M01 IHLP2020BZER1R0M01

    0B11111101

    Abstract: 0B11101111 0B11011111 EM78447 10MHz oscillator 0B11111110 0B01111111
    Text: Advertisement Lamp using TABLE 1. Purpose: Practicing the technique of looking up table. 2. Operation: Rotate advertisement lamp in the same way as the chapter “Advertisement Lamp (using RLC & 6 7 8 9 10 11 12 13 14 15 16 17 18 19 20 21 22 23 24 25 26


    Original     		PDF

    LSL-062-03G

    Abstract: No abstract text available
    Text: LINEARLIGHT FLEX MODULE PRELIMINARY SPEC LSL-062-03G Features Applications LSL-062-03 ON A 10 MM WIDE FLEXIBLE PCB WITH BACKLIGHTING OF DIFFUSED GLASSES IN LIGHT SELF-ADHESIVE BACK. ADVERTISEMENT. ENTIRE MODULE CONSISTS OF 26 LED, VIEWING ANGLE BORDER MARKER.


    Original     		PDF LSL-062-03G LSL-062-03 DSAD5629 FEB/22/2005 LSL-062-03G

    IRF7101

    Abstract: IRF7413 LTC1421 QS3384 TP0610T transistor irf7413 DN154
    Text: advertisement Hot Swapping the PCI Bus – Design Note 155 James Herr, Paul Marshik and Robert Reay The Peripheral Component Interconnect PCI bus has become widely used in high volume personal computers and single-board computer designs. With a 32-bit data


    Original     		PDF 32-bit 133Mbps, 50ms/DIV DN154 LTC1421 LTC1421, dn155fa IRF7101 IRF7413 QS3384 TP0610T transistor irf7413

    Current Feedback Amplifiers

    Abstract: driver using op-amp isolated dc linear feedback op-amp LT1220 Feedback LT1223 TA03 TA05 TA06 TA08
    Text: advertisement Current Feedback Amplifier “Do's and Don'ts”– 46 William H. Gross Introduction The introduction of current feedback amplifiers, such as the LT1223, has significantly increased the designer's ability to solve difficult high speed amplifier problems.


    Original     		PDF LT1223, Current Feedback Amplifiers driver using op-amp isolated dc linear feedback op-amp LT1220 Feedback LT1223 TA03 TA05 TA06 TA08

    LR2010-01-R033

    Abstract: LTC1436 F01A LTC1436-PLL LTC1437 T495X226M035AS
    Text: advertisement LTC1436-PLL Low Noise Switching Regulator Helps Control EMI Design Note 141 John Seago Electromagnetic interference EMI is a potential problem for the circuit designer. Switching regulators can cause EMI in many products. Linear Technology has developed


    Original     		PDF LTC1436-PLL 1436-PLL 20dBm 40dBm 60dBm 80dBm LR2010-01-R033 LTC1436 F01A LTC1437 T495X226M035AS

    DN106

    Abstract: 68HC11 LTC1392 LTC1392C LTC1392I
    Text: advertisement The LTC1392: Temperature and Voltage Measurement in a Single Chip – Design Note 106 Ricky Chow and Dave Dwelley Measurement Performance Wafer level trimming allows the LTC1392 to achieve guaranteed accuracy of ±2°C at room temperature and


    Original     		PDF LTC1392: LTC1392 10-bit LTC1392C) LTC1392I) LTC1392 1-800-4-LINEAR. DN106 68HC11 LTC1392C LTC1392I

    1e225zy5u-c203-f

    Abstract: GP BATTERIES 15A CTX33-2 transformer-flyback 1E225ZY5U Transformer sepic LT1372 LT1373 LT1377 MBRS130LT3
    Text: advertisement 250kHz, 1mA IQ Constant Frequency Switcher Tames Portable Systems Power – Design Note 108 Bob Essaff DC-to-DC power conversion remains one of the toughest tasks for portable system designers. Dealing with various battery technologies and output voltage requirements


    Original     		PDF 250kHz, DN108 1-800-4-LINEAR. 1e225zy5u-c203-f GP BATTERIES 15A CTX33-2 transformer-flyback 1E225ZY5U Transformer sepic LT1372 LT1373 LT1377 MBRS130LT3

    LT1580

    Abstract: LT1584
    Text: advertisement LT1580 Fast Response Low Dropout Regulator Achieves 0.4 Dropout at 4 Amps – Design Note 119 Craig Varga Low dropout regulators have become more common in desktop computer systems as microprocessor manufacturers have moved away from 5V only CPUs. A wide range


    Original     		PDF LT1580 50mV/DIV 200mA 1-800-4-LINEAR. LT1584

    A914BYW-4R7M

    Abstract: LTC3404
    Text: advertisement 1.4MHz Switching Regulator Draws Only 10µA Supply Current Design Note 256 Jaime Tseng Introduction High switching frequency and low quiescent current are no longer conflicting requirements in the design of battery-powered products. Linear Technology’s LTC 3404 is


    Original     		PDF V/600mA com/go/dnLTC3404 LTC3404 1-800-4-LINEAR. dn261f A914BYW-4R7M

    DN-101

    Abstract: HP3403 DN101 jim williams ccfl wein bridge oscillator efficiency wein bridge oscillator linear wein oscillator jim Williams AN55 HP-4195A
    Text: advertisement A Precision Wideband Current Probe for LCD Backlight Measurement – Design Note 101 Jim Williams Evaluation and optimization of Cold Cathode Fluorescent Lamp CCFL performance requires highly accurate AC current measurement. CCFLs, used to backlight LCD displays, typically operate at 30kHz to 70kHz with measurable


    Original     		PDF 30kHz 70kHz 1000VRMS) 1N4148 LT1029 DN101 60kHz 1-800-4-LINEAR. DN-101 HP3403 DN101 jim williams ccfl wein bridge oscillator efficiency wein bridge oscillator linear wein oscillator jim Williams AN55 HP-4195A

    Frequency Generator 1MHz

    Abstract: noise generator audio bandpass filter with adjust gain circuit 5k potentiometer LT1228 Frequency Generator 1KHZ jim Williams 1n4148s LT1004 LT1226
    Text: advertisement A Broadband Random Noise Generator – Design Note 70 Jim Williams Filter, audio and RF communication testing often requires a random noise source. The circuit in Figure 1 provides an RMS amplitude regulated noise source with selectable bandwidth. The RMS output is 300mV with a 1kHz to 5MHz


    Original     		PDF 300mV LT1004 LT1228 LT1228 Frequency Generator 1MHz noise generator audio bandpass filter with adjust gain circuit 5k potentiometer Frequency Generator 1KHZ jim Williams 1n4148s LT1226

    LTC1421

    Abstract: MTB50N06E QS3384 Si4936DY
    Text: advertisement Safe Hot Swapping Using the LTC1421 – Design Note 139 James Herr and Robert Reay When a circuit board is inserted into a live backplane, the large bypass capacitors on the board can draw huge inrush currents from the backplane power bus as they charge. The


    Original     		PDF LTC1421 200ms 200ms DN139 1-800-4-LINEAR. LTC1421 MTB50N06E QS3384 Si4936DY

    instrumentation amplifier

    Abstract: "Instrumentation Amplifier" LT1027 LT1097 power transducer with signal conditioning INSTRUMENTATION AMPLIFIERS LT1006 LT1010 LT1101 LTC1290
    Text: advertisement Gain Trimming In Instrumentation Amplifier Based Systems – Design Note 51 Jim Williams Gain trimming is almost always required in instrumentation amplifier based systems. Gain uncertainties, most notable in transducers, necessitate such a trim.


    Original     		PDF LT1010 LT1027 LT1097 LTDN51 instrumentation amplifier "Instrumentation Amplifier" power transducer with signal conditioning INSTRUMENTATION AMPLIFIERS LT1006 LT1101 LTC1290

    RF high gain op amp

    Abstract: Current Feedback Amplifiers LT1220 LT1223 TA03 TA05 TA06 TA08 DN046 A 1098 LT
    Text: advertisement Current Feedback Amplifier “Do's and Don'ts”– 46 William H. Gross Introduction The introduction of current feedback amplifiers, such as the LT 1223, has significantly increased the designer's ability to solve difficult high speed amplifier problems.


    Original     		PDF 1-800-4-LINEAR. dn046fa RF high gain op amp Current Feedback Amplifiers LT1220 LT1223 TA03 TA05 TA06 TA08 DN046 A 1098 LT

    zeta converter its applications

    Abstract: 6TPB150M sanyo bh510 converter zeta 6TPB150M SANYO POSCAP 1N4148 EEFUE0G181R LTC1622 MBRD835L
    Text: advertisement Low Dropout 550kHz DC/DC Controller Operates from Inputs as Low as 2V – Design Note 208 San Hwa Chee The LTC 1622 is a versatile high efficiency step-down controller that easily meets the size requirements of handheld portable applications with its small MSOP package. High frequency of operation 550kHz allows the use


    Original     		PDF 550kHz 550kHz) LTC1622 750kHz. DN208 700mA 50mV/DIV 700mA) zeta converter its applications 6TPB150M sanyo bh510 converter zeta 6TPB150M SANYO POSCAP 1N4148 EEFUE0G181R MBRD835L

    AD7870

    Abstract: AD7880 ADS7800 LTC1273 LTC1275 LTC1276 LTC1282 LTC1292
    Text: advertisement New 5V and 3V, 12-Bit ADCs Sample at 300kHz on 75mW and 140kHz on 12mW – Design Note 66 William Rempfer Complete ADCs Provide Lowest Power and Highest Speed on Single or Dual Supplies The LTC1273/5/6 and LTC1282 provide complete A/D solutions at previously impossible speed/power levels. As


    Original     		PDF 12-Bit 300kHz 140kHz LTC1273/5/6 LTC1282 LTC1273 LTC1275 LTC1276 AD7870 AD7880 ADS7800 LTC1292

    circuit diagram of IRDA transmitter and receiver

    Abstract: IRDA TRANSMITTER DN152 BPV22NF LT1328 Digital TV transmitter receivers block diagram Temic 2N7002 irda transmitter and receiver circuit 2N7002 HSDL-4220
    Text: advertisement The LT1328: A Low Cost 4Mbps IrDA Receiver in MS8 and SO-8 Packages – Design Note 152 Alexander Strong Introduction The need for ever increasing data rates required by a vast array of devices, such as notebook computers, printers, mobile phones, pagers and modems, has been satisfied by


    Original     		PDF LT1328: 2400bps LT1328, cir152Mbps. LT1328 1-800-4-LINEAR. 434-0507q dn152f circuit diagram of IRDA transmitter and receiver IRDA TRANSMITTER DN152 BPV22NF Digital TV transmitter receivers block diagram Temic 2N7002 irda transmitter and receiver circuit 2N7002 HSDL-4220

    wima fkc

    Abstract: T80-52B WIMA MKS 10 CTX75-2-52 wima FKC2 wima fkc 2 T68-52A FKC capacitor z5u capacitor sprague 1N4148
    Text: advertisement High Performance Frequency Compensation Gives DC-to-DC Converter 75µs Response With High Stability — Design Note 53 Ron Vinsant This Design Note describes four high performance, low cost, 1.75A step-down converter circuits based on the LT1076 five terminal switching regulator. All four circuits


    Original     		PDF LT1076 T68-52A CTX75-2-52 CTX75-2-KM T80-52B CTX91-2-52 CTX91-2-KM CTX180-2-52 CTX180-2-KM wima fkc T80-52B WIMA MKS 10 CTX75-2-52 wima FKC2 wima fkc 2 T68-52A FKC capacitor z5u capacitor sprague 1N4148

    100hz notch filter ic

    Abstract: lowpass filter 20khz Herman lt LTC1569-7 design bandpass filter RC krieger matlab Seminar LTC1563-3 LTC1565-31 LTC1569-6
    Text: advertisement Free FilterCAD 3.0 Software Designs Filters Quickly and Easily Design Note 245 Philip Karantzalis Analog filters must satisfy multiple design specifications i.e., gain, phase and time response and implementation constraints (i.e., component tolerance, IC package


    Original     		PDF 1-800-4-LINEAR. dn245f 100hz notch filter ic lowpass filter 20khz Herman lt LTC1569-7 design bandpass filter RC krieger matlab Seminar LTC1563-3 LTC1565-31 LTC1569-6