4-QUADRANT MULTIPLIER Search Results

Contextual Info: MP8840 X-EXflR 8-Channel, Voltage Output, 2 MHz, 4 Quadrant Multiplying, 8-Bit DAC with Serial Digital Data Port FEATURES APPLICATIONS • 8 Independent 4-Quadrant Multiplying 8-Bit DACs • High Speed: Settling Time: 3.5 |is to ± 1 LSB Slew Rate: 4 V/|xs

Contextual Info: MP8840 8-Channel, Voltage Output, 2 MHz, 4 Quadrant Multiplying, 8-Bit DAC with Serial Digital Data Port FEATURES APPLICATIONS • 8 Independent 4-Quadrant Multiplying 8-Bit DACs • High Speed: – Settling Time: 3.5 µs to 1 LSB – Slew Rate: 4 V/µs – Voltage Reference Input Bandwidth:

4-Quadrant Multiplier

Abstract: MPY634 circuits x10 frequency multiplier z2 30 MPY534 MPY534J MPY534JD MPY534JH MPY534K MPY534L
Contextual Info: MPY534 Precision ANALOG MULTIPLIER FEATURES DESCRIPTION ● ±0.25% max 4-QUADRANT ACCURACY The MPY534 is a high accuracy, general purpose four-quadrant analog multiplier. Its accurately laser trimmed transfer characteristics make it easy to use in a wide variety of applications with a minimum of

Contextual Info: MPY534 Precision ANALOG MULTIPLIER FEATURES DESCRIPTION ● ±0.25% max 4-QUADRANT ACCURACY The MPY534 is a high accuracy, general purpose four-quadrant analog multiplier. Its accurately laser trimmed transfer characteristics make it easy to use in a wide variety of applications with a minimum of

MPY534

Abstract: MPY534J MPY534JD MPY534JH MPY534K MPY534L MPY534S MPY534T Analog Multiplier for am modulation
Contextual Info: MPY534 Precision ANALOG MULTIPLIER FEATURES DESCRIPTION ● ±0.25% max 4-QUADRANT ACCURACY The MPY534 is a high accuracy, general purpose four-quadrant analog multiplier. Its accurately laser trimmed transfer characteristics make it easy to use in a wide variety of applications with a minimum of

Contextual Info: MP7670 8-Channel, Voltage Output, 5 MHz, 4 Quadrant Multiplying 8-Bit D/A Converter with Serial Digital Data Port FEATURES APPLICATIONS • 8 Independent 4-Quadrant Multiplying 8-Bit DACs • High Speed: Settling Time: 2.5 us to ±1 LSB typ Slew Rate: 5 V/|is (typ)

Contextual Info: MP8840 8-Channel, Voltage Output, 2 MHz, 4 Quadrant Multiplying, 8-Bit DAC with Serial Digital Data Port JE’ E X q R September 1998-2 FEATURES APPLICATIONS • 8 Independent 4-Quadrant Multiplying 8-Bit DACs • High Speed: Settling Time: 3.5 ^is to ± 1 LSB

Contextual Info: Or, Call C ustom Service at 1-800-548-6132 USA Only MPY534 BURR-BROWN FEATURES DESCRIPTION • ±0.25% max 4-QUADRANT ACCURACY • WIDE BANDWIDTH: 1MHz mln, 3MHz typ • ADJUSTABLE SCALE FACTOR The MPY534 is a high accuracy, general purpose four-quadrant analog multiplier. Its accurately laser

Contextual Info: QuickLogic PolarPro Data Sheet • • • • • • Combining Low Power, Performance, Density, and Embedded RAM Device Highlights • Quadrant-based segmentable clock networks  20 quad clock networks per device Flexible Programmable Logic  4 quad clock networks per quadrant

Contextual Info: QuickLogic PolarPro Data Sheet • • • • • • Combining Low Power, Performance, Density, and Embedded RAM Device Highlights • Quadrant-based segmentable clock networks  20 quad clock networks per device Flexible Programmable Logic  4 quad clock networks per quadrant

ql1p100

Contextual Info: QuickLogic PolarPro Data Sheet • • • • • • Combining Low Power, Performance, Density, and Embedded RAM Device Highlights • Quadrant-based segmentable clock networks  20 quad clock networks per device Flexible Programmable Logic  4 quad clock networks per quadrant

Contextual Info: QuickLogic PolarPro Data Sheet • • • • • • Combining Low Power, Performance, Density, and Embedded RAM • Quadrant-based segmentable clock networks Device Highlights  20 quad clock networks per device Flexible Programmable Logic  4 quad clock networks per quadrant

Contextual Info: QuickLogic PolarPro II Device Data Sheet •••••• Combining Low Power, Performance, Density, and Embedded RAM • Quadrant-based segmentable clock networks Device Highlights  20 quad clock networks per device Low Power Programmable Logic  4 quad clock networks per quadrant

AD533JH

Abstract: AD533LH AD533-JH AD533KD AD533LD AD533KH AD533D AD533S AD533H
Contextual Info: ANALOG DEVICES LowCostIC Multiplier,Divider ,Squarer ,SquareRooter FEATURES Simplicity of Operation: Only Four External Adjustments Max 4.Quadrant Error Below 0.5% AD533L Low Temperature Drift: 0.01%tC (AD533L) Multiplies, Divides, Squares, Square Roots

ADS32

Abstract: JM38510/13903BCA AD530 AD532 AD532J AD532K AD532S AD532-SPECIFICATIONS 10VZ/X/
Contextual Info: ANALOG ► DEVICES Internally Trimmed Integrated Circuit Multiplier AD532 PIN CONFIGURATIONS FEATU RES Pretrimmed to ±1.0% AD532K NvrExternal Components Required Guaranteed ±1.0% max 4-Quadrant Error (AD532K) D iff Inputs for ( X i- X 2 ) (Y1- Y 2 )/10V

amplitude modulation using AD633

Abstract: ad633 AD633 an AD633ARZ 1N914S wideband linear four-quadrant multiplier AD633JN Quadrature Oscillator
Contextual Info: Low Cost Analog Multiplier AD633 Data Sheet FEATURES FUNCTIONAL BLOCK DIAGRAM 4-quadrant multiplication Low cost, 8-lead SOIC and PDIP packages Complete—no external components required Laser-trimmed accuracy and stability Total error within 2% of full scale

Contextual Info: ANALOG DEVIC ES Internally Trimmed Integrated Circuit Multiplier AD532 FEATURES Pretrimmed to ±1.0% AD532K No External Components Required Guaranteed ±1.0% max 4-Quadrant Error (AD532K) Diff Inputs for ( X i—X2 > ( Y , - Y 2)/10V Transfer Function Monolithic Construction, Low Cost

AD633JNZ

Abstract: amplitude modulation using AD633 AD633ANZ AD633ARZ AD633JN DC to 500 MHz RMS-to-DC Converter AD7121 AD736 1N4148 AD633A
Contextual Info: Low Cost Analog Multiplier AD633 CONNECTION DIAGRAMS 4-quadrant multiplication Low cost, 8-lead SOIC and PDIP packages Complete—no external components required Laser-trimmed accuracy and stability Total error within 2% of full scale Differential high impedance X and Y inputs

AD531J

Abstract: AD531 AD531JD AD531KD analog multiplier AD531K AD531L AD531LD AD531S AD531SD
Contextual Info: ANALOG ► DEVICES 1C Programmable Multiplier Divider Computation Circuit FEATURES Transfer Function: X Y /Z Guaranteed ±0.5% max 4-Quadrant Error A D 531L Guaranteed Accuracy over Temperature (A D 531L and A D531S) High Speed: 45V/;us Fully Protected Inputs and Output

mpy534jd

Abstract: EW 6132
Contextual Info: Or, Call Customer Service a1 1-800-548-S132 USA Only Precision ANALOG MULTIPLIER FEATURES DESCRIPTION • ±0.25% max 4-QUADRANT ACCURACY • WIDE BANDWIDTH: 1MHz min, 3MHz typ • ADJUSTABLE SCALE FACTOR • STABLE AND RELIABLE MONOLITHIC CONSTRUCTION • LOW COST

AD531

Abstract: 100hz SQUARE WAVE TO SINE WAVE schematic diagram AD531LD AD531K kl block AD531J AD531L AD531S AD531JD AD531KD
Contextual Info: ANALOG DEVICES *1 liiii 1C Programmable Multiplier Divider Computation Circuit : FEATURES Transfer Function: X Y /Z Guaranteed ±0.5% max 4-Quadrant Error A D 531L Guaranteed Accuracy over Temperature (A D 531L and AD531S) High Speed: 45V/jus Fully Protected Inputs and Output

C526a-1-6

Abstract: C526a AD535 AD632 application AD532 AD632 AD632A AD632AD HPAC AD632B
Contextual Info: a Internally Trimmed Precision IC Multiplier AD632 FEATURES Pretrimmed to ±0.5% Max 4-Quadrant Error All Inputs X, Y and Z Differential, High Impedance for [(X1–X2)(Y1–Y2)/10] + Z2 Transfer Function Scale-Factor Adjustable to Provide up to X10 Gain

Contextual Info: MP8840 8-Channel, Voltage Output, 2 MHz, 4 Quadrant Multiplying, 8-Bit DAC with Serial Digital Data Port JZ T E X A R September 1998-2 FEATURES APPLICATIONS Analog Multiplier Replacement High-Frequency Gain Control using DACs Convergence Adjustment for Displays and

AD535

Abstract: AD632 application AD632-SPECIFICATIONS ad632 MO-006-AF AD532 AD632A AD632B AD632S AD632T
Contextual Info: a Internally Trimmed Precision IC Multiplier AD632 FEATURES Pretrimmed to ±0.5% Max 4-Quadrant Error All Inputs X, Y and Z Differential, High Impedance for [(X1–X2)(Y1–Y2)/10] + Z2 Transfer Function Scale-Factor Adjustable to Provide up to X10 Gain