DIGITAL SINE WAVE GENERATOR Search Results

precision Sine 1khz Wave Generator

Abstract: MAX filter programmable 5Mhz ML2037 precision Sine Wave Generator ML2037CP ML2037CS ML2037IP ML2037IS IC sine wave generator
Contextual Info: October 1998 ML2037* 500kHz, Serial Input, Programmable Sine Wave Generator with Digital Gain Control GENERAL DESCRIPTION FEATURES The ML2037 is a precision programmable sine wave generator with a frequency range of DC to 500kHz. The device is capable of generating a wide frequency range

Contextual Info: April 1997 MgLMicro Linear ML2036 Serial Input Programmable Sine Wave Generator with Digital Gain Control GENERAL DESCRIPTION FEATURES The ML2036 is a m onolithic sine wave generator whose output is programmable from DC to 50kHz. No external components are required. The frequency of the sinewave

Contextual Info: October 1998 ^ÉL Micro Linear ML2037 500kHz, Serial Input, Programmable Sine Wave Generator with Digital Gain Control GENERAL DESCRIPTION FEATURES TheM L2037 is a precision programmable sine wave generator w ith a frequency range of DC to 500kHz. The device is capable of generating a w ide frequency range

programmable Sine Wave Generator Frequency Generator

Abstract: ML2036 Frequency Generator 10kHz ML2036CS sine and generator and 5khz 12Mhz crystal oscillator ML2036CP programmable Sine Wave Generator ML2003 ML2004
Contextual Info: www.fairchildsemi.com ML2036 Serial Input Programmable Sine Wave Generator with Digital Gain Control Features General Description • Programmable output frequency – DC to 50kHz • Low gain error and total harmonic distortion • 3-wire SPI compatible serial microprocessor interface

SC3011B

Contextual Info: SC3011B 600.00 MHz Differential Sine-Wave Clock • Quartz SAW Frequency Stability • Fundamental Fixed Frequency • Very Low Jitter and Power Consumption • Rugged, Miniature, Surface-Mount Case • Low-Voltage Power Supply 3.3 VDC SMC-8 Case This digital clock is designed for use with high-speed CPUs and digitizers. Fundamental-mode oscillation is made possible by surface-acoustic-wave (SAW) technology. The

Contextual Info: SC3019B 500.00 MHz limi pii Differential Sine-Wave Clock Quartz SAW Frequency Stability Fundamental Fixed Frequency Very Low Jitter and Pow er Consumption Rugged, Miniature, Surface-Mount Case Low-Voltage Pow er Supply 3.3 VDC This digital clock is designed for use with high-speed CPUs and digitizers. Fundamental­

Contextual Info: Preliminary SC3044B • • • • • Quartz SAW Frequency Stability Fundamental Fixed Frequency Very Low Jitter and Power Consumption Rugged, Miniature, Surface-Mount Case Low-Voltage Power Supply 3.3 VDC This digital clock is designed for use in high-speed communications timing systems. Fundamental-mode oscillation is made possible by surface-acoustic-wave (SAW) technology. The design results in low jitter, compact size, and low power consumption. Differential outputs provide a sine wave that is capable of driving

Tektronix 224 oscilloscope

Contextual Info: SC3046B-5 • • • • • Quartz SAW Frequency Stability Fundamental Fixed Frequency Very Low Jitter and Power Consumption Rugged, Miniature, Surface-Mount Case Low-Voltage Power Supply 3.3 VDC This digital clock is designed for use in high-speed communications timing systems. Fundamental-mode oscillation is made possible by surface-acoustic-wave (SAW) technology. The design results in low jitter, compact size, and low power consumption. Differential outputs provide a sine wave that is capable of driving 50 Ω

Contextual Info: Preliminary SC3046B • • • • • Quartz SAW Frequency Stability Fundamental Fixed Frequency Very Low Jitter and Power Consumption Rugged, Miniature, Surface-Mount Case Low-Voltage Power Supply 3.3 VDC This digital clock is designed for use in high-speed communications timing systems. Fundamental-mode oscillation is made possible by surface-acoustic-wave (SAW) technology. The design results in low jitter, compact size, and low power consumption. Differential outputs provide a sine wave that is capable of driving 50 Ω

sc3042

Abstract: SC3042B
Contextual Info: Preliminary SC3042B • • • • • Quartz SAW Frequency Stability Fundamental Fixed Frequency Very Low Jitter and Power Consumption Rugged, Miniature, Surface-Mount Case Low-Voltage Power Supply 3.3 VDC This digital clock is designed for use in high-speed communications timing systems. Fundamental-mode oscillation is made possible by surface-acoustic-wave (SAW) technology. The design results in low jitter, compact size, and low power consumption. Differential outputs provide a sine wave that is capable of driving 50 Ω

Contextual Info: SC3045B • • • • • Quartz SAW Frequency Stability Fundamental Fixed Frequency Very Low Jitter and Power Consumption Rugged, Miniature, Surface-Mount Case Low-Voltage Power Supply 3.3 VDC This digital clock is designed for use in high-speed communications timing systems. Fundamental-mode oscillation is made possible by surface-acoustic-wave (SAW) technology. The design results in low jitter, compact size, and low power consumption. Differential outputs provide a sine wave that is capable of driving 50 Ω

Contextual Info: Preliminary SC2541B • • • • • Quartz SAW Frequency Stability Fundamental Fixed Frequency Very Low Jitter and Power Consumption Rugged, Miniature, Surface-Mount Case Low-Voltage Power Supply 2.5 VDC This digital clock is designed for use in high-speed communications timing systems. Fundamental-mode oscillation is made possible by surface-acoustic-wave (SAW) technology. The design results in low jitter, compact size, and low power consumption. Differential outputs provide a sine wave that is capable of driving 50 Ω

SC3044

Abstract: 25091
Contextual Info: Preliminary SC3044B • • • • • Quartz SAW Frequency Stability Fundamental Fixed Frequency Very Low Jitter and Power Consumption Rugged, Miniature, Surface-Mount Case Low-Voltage Power Supply 3.3 VDC This digital clock is designed for use in high-speed communications timing systems. Fundamental-mode oscillation is made possible by surface-acoustic-wave (SAW) technology. The design results in low jitter, compact size, and low power consumption. Differential outputs provide a sine wave that is capable of driving

programmable Sine Wave Generator

Abstract: M-tron 16 mhz crystal oscillator ML2039CP sine wave generator 3 phase generator sine IC sine wave generator ML2039 ML2039IP M-tron 1 mhz crystal oscillator sine generator ic
Contextual Info: February 1997 PRELIMINARY ML2039 500kHz, Serial Input Programmable Sine Wave Generator GENERAL DESCRIPTION FEATURES The ML2039 is a programmable sine wave generator with a frequency range of DC to 500kHz. No external components are required to generate a wide range of low

programmable and sine and 5khz

Abstract: ML2032 sine and generator and 5khz sinewave-generator programmable Sine Wave Generator m-tron 3709-010 ml2035 CIRCUIT ML2004 ML2035 12Mhz crystal oscillator
Contextual Info: February 1997 ML2035 Serial Input Programmable Sine Wave Generator GENERAL DESCRIPTION FEATURES The ML2035 is a monolithic sinewave generator whose output is programmable from DC to 25kHz. No external components are required. The frequency of the sinewave

PCR-SIN15V48F00

Abstract: pabx ring generator cadence 40 watt telephone ring generator circuit 50Hz sine wave generator 40 watt telephone ring generator 5052-H32 50hz sine generator QQ-A-250 RING GENERATOR 50hz sine oscillator
Contextual Info: 15 Watt Sine Wave Telephone Ring Generator 15REN@86Vrms to 40REN@45Vrms PCR-SIN15V48F00 PCR-SIN15V48F00 15REN@86Vrms to 40REN@45Vrms SINE WAVE TELEPHONE RING GENERATOR TYPICAL APPLICATION 1 APPLICATIONS ♦ ♦ ♦ ♦ ♦ ♦ ♦ ♦ Floating Output Configuration

Contextual Info: April 1997 ^ÉL Micro Linear ML2035 Serial Input Programmable Sine Wave Generator GENERAL DESCRIPTION FEATURES The ML2035 is a monolithic sinewave generator whose output is programmable from DC to 25kHz. No external components are required. The frequency of the sinewave

Contextual Info: 4 W a t t Sin e W a ve Telephone Ring Generator 4 REN @8 6 Vr m s t o 1 2 REN @4 5 Vr m s PCR- SI N 0 6 Se r ie s !" PCR- SI N 0 6 V1 2 F0 0 !" PCR- SI N 0 6 V2 4 F0 0 !" PCR- SI N 0 6 V4 8 F0 0 !" PCR- SI N 0 6 V1 2 F0 0 - L 9 PCR-SIN06 Series 4REN@86Vrms to 12REN@45Vrms SINE WAVE TELEPHONE RING GENERATOR

TB6556FG

Abstract: pwm sinewave timing
Contextual Info: TB6556F/FG TOSHIBA Bi-CMOS Integrated Circuit Silicon Monolithic TB6556F/FG 3-Phase Full-Wave Sine-Wave PWM Brushless Motor Controller Features • Sine-wave PWM control • Built-in triangular-wave generator carrier cycle = fosc/252 (Hz • Built-in lead angle control function (0° to 58° in 32 steps)

sine wave pwm circuit

Abstract: wave Generator IC 3 phase pwm signal generator ic electrical circuit diagram reverse forward move square wave generator ic TB6556FG pwm sinewave timing monolithic sine square generator
Contextual Info: TB6556F/FG TOSHIBA Bi-CMOS Integrated Circuit Silicon Monolithic TB6556F/FG 3-Phase Full-Wave Sine-Wave PWM Brushless Motor Controller Features • Sine-wave PWM control • Built-in triangular-wave generator carrier cycle = fosc/252 (Hz • Built-in lead angle control function (0° to 58° in 32 steps)

Contextual Info: TB6539N/NG/F/FG TOSHIBA Bi-CMOS Integrated Circuit Silicon Monolithic TB6539N/NG, TB6539F/FG 3-PHASE FULL-WAVE SINE-WAVE PWM BRUSHLESS MOTOR CONTROL Features TB6539N/NG • Sine-wave PWM control • Built-in triangular-wave generator carrier cycle = fosc/252 (Hz

TB6551FG

Contextual Info: TB6551F/FG TOSHIBA Bi-CMOS Integrated Circuit Silicon Monolithic TB6551F/FG 3-PHASE FULL-WAVE SINE-WAVE PWM BRUSHLESS MOTOR CONTROLLER Features • Sine-wave PWM control • Built-in triangular-wave generator carrier cycle = fosc/252 (Hz • Built-in lead angle control function (0° to 58° in 32 steps)

TB6551FG

Abstract: triangular wave
Contextual Info: TB6551F/FG TOSHIBA Bi-CMOS Integrated Circuit Silicon Monolithic TB6551F/FG 3-PHASE FULL-WAVE SINE-WAVE PWM BRUSHLESS MOTOR CONTROLLER Features • Sine-wave PWM control • Built-in triangular-wave generator carrier cycle = fosc/252 (Hz • Built-in lead angle control function (0° to 58° in 32 steps)

Contextual Info: June 1997 P R EL IM IN A R Y Micro Linear ML2039 500kHz, Serial Input Programmable Sine Wave Generator GENERAL DESCRIPTION FEATURES The M L2 0 3 9 is a program m able sine w ave generator w ith a frequ en cy range of D C to 5 0 0 k H z . No external com ponents are required to generate a w id e range of lo w