datasheetbank_Logo
Integrated circuits, Transistor, Semiconductors Search and Datasheet PDF Download Site

P/N + Description + Content Search

Search Word's :
Micro-Linear
Micro Linear Corporation
Description : 500kHz, Serial Input, Programmable Sine Wave Generator with Digital Gain Control

GENERAL DESCRIPTION
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 of low distortion Sine Waves with no external passive components. The frequency of the Sine Wave output is programmed by a 16-bit word that is loaded through a Serial Input.

FEATURES
Programmable output frequency:
    DC to 400kHz—using a crystal
    DC to 500kHz—using an external Digital clock
■3-wire SPI compatible Serial interface with double buffered latch for programming the frequency
Digital Gain Control for programming output amplitude
■SYNC Input for synchronization of multiple Sine Waves
■Shutdown pin for sleep mode
■Single 5V power supply operation

Fairchild
Fairchild Semiconductor
Description : Serial Input Programmable Sine Wave Generator with Digital Gain Control

General Description
The ML2036 is a monolithic Sine Wave Generator whose output is Programmable from DC to 50kHz. No external components are required. The frequency of the SineWave output is derived from either an external crystal or clock Input, providing a stable and accurate frequency reference. The frequency is programmed by a 16-bit Serial data word.

Features
Programmable output frequency – DC to 50kHz
• Low Gain error and total harmonic distortion
• 3-wire SPI compatible Serial microprocessor interface with double buffered data latch
• Fully integrated solution – no external components required
• Frequency resolution of 1.5Hz (±0.75Hz) with a 12MHz clock Input
• Onboard 3 to 12MHz crystal oscillator
• Clock outputs of 1/2 or 1/8 of the Input clock frequency
• Synchronous or asynchronous data loading capability
• Compatible with ML2004 logarithmic Gain/attenuator

Micro-Linear
Micro Linear Corporation
Description : Serial Input Programmable Sine Wave Generator with Digital Gain Control

GENERAL DESCRIPTION
The ML2036 is a monolithic Sine Wave Generator whose output is Programmable from DC to 50kHz. No external components are required. The frequency of the SineWave output is derived from either an external crystal or clock Input, providing a stable and accurate frequency reference. The frequency is programmed by a 16-bit Serial data word.

FEATURES
Programmable output frequency - DC to 50kHz
Low Gain error and total harmonic distortion
3-wire SPI compatible Serial microprocessor interface with double buffered data latch
Fully integrated solution - no external components required
Frequency resolution of 1.5Hz (±0.75Hz) with a 12MHz clock Input
Onboard 3 to 12MHz crystal oscillator
Clock outputs of 1/2 or 1/8 of the Input clock frequency
Synchronous or asynchronous data loading capability
Compatible with ML2031 and ML2032 tone detectors and ML2004 logarithmic Gain/attenuator

Micro-Linear
Micro Linear Corporation
Description : Serial Input Programmable Sine Wave Generator

GENERAL DESCRIPTION
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 output is derived from either an external crystal or clock
Input, providing a stable and accurate frequency reference. The frequency is programmed by a 16-bit Serial
data word. The ML2035 has a VOUT amplitude of ±VCC/2.

FEATURES
Programmable output frequency - DC to 25kHz
■ Low Gain error and total harmonic distortion
■ 3-wire SPI compatible Serial microprocessor interface with double buffered data latch
■ Fully integrated solution - no external components required
■ Frequency resolution of 1.5Hz (±0.75Hz) with a 12MHz clock Input
■ Onboard 3 to 12MHz crystal oscillator
■ Synchronous or asynchronous data loading capability
■ Compatible with ML2031 and ML2032 tone detectors and ML2004 logarithmic Gain/attenuator

Fairchild
Fairchild Semiconductor
Description : Serial Input Programmable Sine Wave Generator

GENERAL DESCRIPTION
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 output is derived from either an external crystal or clock Input, providing a stable and accurate frequency reference. The frequency is programmed by a 16-bit Serial data word. The ML2035 has a VOUT amplitude of ±VCC/2.

FEATURES
Programmable output frequency - DC to 25kHz
■ Low Gain error and total harmonic distortion
■ 3-wire SPI compatible Serial microprocessor interface with double buffered data latch
■ Fully integrated solution - no external components required
■ Frequency resolution of 1.5Hz (±0.75Hz) with a 12MHz clock Input
■ Onboard 3 to 12MHz crystal oscillator
■ Synchronous or asynchronous data loading capability
■ Compatible with ML2031 and ML2032 tone detectors and ML2004 logarithmic Gain/attenuator

Part Name(s) : EG8010
ETC
Unspecified
Description : SPWM - Single-phase pure Sine Wave inverter ASIC

[EG micro]

* 5V single power supply
* pin set four kinds of pure Sine Wave output frequency:
 - 50Hz fixed frequency pure Sine Wave
 - 60Hz fixed frequency pure Sine Wave
 - 0-100Hz pure Sine Wave frequency is adjustable
 - 0-400Hz pure Sine Wave frequency is adjustable
 - unipolar and bipolar modulation mode

EUROQUARTZ
EUROQUARTZ limited
Description : 14 pin Dual-in-line Sine Wave Clock Oscillators

DESCRIPTION
HS14 Sine Wave clock oscillators provide a true Sine Wave out output while being packaged in the industry-standard, 14 pin DIL outline package. The oscillator is capable of being produced with close tolerances and exhibits low current consumption.

FEATURES
Sine Wave output in industry-standard 14 DIL package
• Choice of output loads
• Harmonics -25dBc maximum
• Very low current consumption <1.0mA for HSR14

Part Name(s) : SC3048B
RFM
RF Monolithics, Inc
Description : 444.0 MHz Differential Sine-Wave Clock

This Digital clock is designed for use in critical timing applications. 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 made to drive 50 Ω loads.

• Quartz SAW Frequency Stability
• Fundamental Fixed Frequency
• Excellent Jitter and Symmetry
• Rugged, Miniature, Surface-Mount Case
• Low-Voltage Power Supply (3.3 VDC)

Part Name(s) : SC3018B
RFM
RF Monolithics, Inc
Description : 250.0 MHz Differential Sine-Wave Clock

This Digital clock is designed for use with high-speed CPUs and communication equipment. Fundamentalmode 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 W loads.

• 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)

Part Name(s) : SC3041B
RFM
RF Monolithics, Inc
Description : 300.0 MHz Differential Sine-Wave Clock

This Digital clock is designed for use in abrizio’s chipset for Terabit Router applications. 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 made to drive 50 W loads.

• Quartz SAW Frequency Stability
• Fundamental Fixed Frequency
• Excellent Jitter and Symmetry
• Rugged, Miniature, Surface-Mount Case
• Low-Voltage Power Supply (3.3 VDC)

12345678910 Next

All Rights Reserved© datasheetbank.com  [ Privacy Policy ] [ Request Datasheet ] [ Contact Us ]