Analog Devices amplifiers deliver high performance by combining circuit design and manufacturing process innovation to simplify signal conditioning design.
Beginning with the industry’s first differential amplifier, ADI has developed a portfolio of ADC drivers to meet any performance requirement.
Beginning with the industry’s first differential amplifier, Analog Devices has developed a portfolio of fully differential amplifiers to meet your performance requirements.
ADI’s portfolio of high speed op amps and precision op amps provides a broad range of single-ended amplifiers that deliver unmatched performance.
ADI single-ended to differential amplifiers enable the processing of both single-ended inputs to complementary differential outputs or differential inputs to differential outputs.
Differential amplifiers from Analog Devices are highly integrated and optimized for a diverse range of differential signaling applications.
ADI single ended to differential amplifiers enable the processing of both single ended inputs to complementary differential outputs or differential inputs to differential outputs.
Analog Devices offers a complete line of precision, low noise, low power in-amps with an excellent common-mode rejection ratio (CMRR) for every application and market.
ADI’s portfolio of high speed op amps and precision op amps provides a broad choice of products delivering unmatched performance.
Analog Devices high speed (> 50 MHz) current feedback op amps allow you to operate at high speeds and have wider bandwidths and higher slew rates than voltage feedback amplifiers.
ADI’s portfolio of general purpose amplifiers includes high speed op amps, precision op amps, and instrumentation amps that deliver unmatched performance and exceptional value.
ADI’s high speed, high output current (≥100 mA), op amps drive low impedance loads with excellent linearity and set the most performance standards for next-generation designs.
Analog Devices high speed (> 50 MHz) amplifiers are the top selling brand of high speed amplifiers in the world today, and set the most standards for next generation designs.
Analog Devices’ new high voltage amplifiers offer industry-leading features improving system performance, cost, and robustness while easing the complexity of system design.
Analog Devices JFET input op amps provide high input impedance and ultralow input bias currents for precision and high speed applications.
Analog Devices has a number of low input bias current op amps that fit the definition and range of applications such as photodiodes, pH meters, and other electrometer functions.
ADI’s low noise (≤10nV/√Hz) op amps include many amps with the lowest noise performance in the industry, enabling better signal fidelity in the most demanding conditions.
ADI low power op amps offer a variety of benefits in many applications such as prolonging battery life, easing waste heat management in end equipment, and reducing self heating.
Analog Devices has a large and growing portfolio of low voltage op amps, offering system designers the flexibility to select specific op amps to fit their diverse applications.
Analog Devices’ broad range of precision amplifiers provides industry-leading support to designers in need of traditional trimmed and zero-drift amplifier technology.
Analog Devices high speed (> 50 MHz) rail-to-rail op amps portfolio offers a wide variety of op amps, including both rail-to-rail input/output as well as just rail-to-rail output.
ADI is the leader in low drift op amp architecture and we offer a broad portfolio of zero-drift amps to help designers overcome problems such as temperature drift and 1/f noise.
ADI’s extensive family of single-ended, input/output fixed-gain RF amplifiers utilize the company’s leading amplifier and RF IC expertise.
ADI’s extensive family of single-ended input/output, fixed-gain RF amplifiers can be used from dc to microwave and include a variety of applications.
ADI’s extensive family of single-ended input/output, fixed-gain RF amplifiers can be used from dc to microwave and include gain blocks, low noise amplifiers, and driver amplifiers.
ADI’s extensive family of single-ended input/output, fixed-gain RF amplifiers includes technology such as low noise amplifiers, gain blocks, and intermediate frequency amplifiers.
ADI’s extensive family of single-ended input/output, fixed-gain RF amplifiers includes technology such as RF/IF differential amplifiers, gain blocks, and low noise amplifiers.
ADI offers a broad portfolio of high performance RF detectors to measure RF and IF signals in wireless systems.
Recognized as the pioneer and leader in RF detectors, ADI offers a broad portfolio of high performance logarithmic amplifiers and TruPwr™ rms detectors.
Recognized as the pioneer and leader in RF detectors, ADI offers a broad portfolio of high performance logarithmic amplifiers and TruPwr™ rms responding detectors.
ADI translinear logarithmic amplifiers utilize advanced translinear techniques to provide an exceptionally large dynamic range in a versatile and easily used form.
Analog Devices offers a wide range of instrumentation, current sense, differential, and variable gain amplifiers for special functions and operations.
ADI high performance active RF splitters enable the implementation of the most advanced cable modems and set top boxes on the market.
ADI high performance CATV line drivers enable the implementation of the most advanced cable modems and set top boxes on the market.
Analog Devices’ charge integrator amplifiers convert the charge acquired by X-ray or photodiode detectors to a voltage. The channels use typical high input impedance CMOS gates.
Analog Devices’ current sense amplifiers offer excellent performance for a wide array of automotive and power management applications without sacrificing on cost and package size.
Analog Devices offers a range of difference amplifiers—special purpose amplifiers designed to measure a differential signal, otherwise known as a subtractor.
Analog Devices high gain limiting amplifiers offer low power and excellent sensitivity, and are optimized for SFP/SFF/GBIC datacom and telecom optical transceiver modules.
ADI signal conditioning ICs, together with linear variable differential transformers (LVDTs), can be used to convert mechanical position to a dc voltage.
Analog Devices optical transimpedance amplifiers offer a complete, high performance, single chip solution for converting photodiode current into a differential voltage input.
ADI optoelectronic amplifiers include a range of germanium photodiodes that have been monolithically integrated with silicon transimpedance amplifiers and limiting amplifiers.
Analog Devices’ power monitoring amplifiers provide an integrated solution for digital current and voltage measurement via an on-chip, 12-bit analog-to-digital converter.
Analog Devices offers specialized precision thermocouple interface amplifiers that provide a simple and effective solution for measuring thermocouple temperatures.
Analog Devices offers a portfolio of sample-and-hold amplifiers and track and hold amplifiers that combine speed with precision to acquire the signal you need.
Analog Devices xDSL line driver amplifiers provide industry-leading performance for cable set top boxes, cable modems, xDSL modems, and xDSL central office line cards.
Variable gain amplifiers are used in remote sensing and communications equipment. Their applications include ultrasound, radar, lidar, wireless communications, and speech analysis.
ADI RF VGAs, IF VGAs, and variable gain control products offer the high performance needed for communications, instrumentation, and military designs.
ADI digital controlled variable gain amplifiers provide discrete levels of gain control over a fixed number of control bits for a variety of audio and optical frequency bands.
Analog Devices voltage controlled variable gain amplifiers provide continuous gain control over a wide dynamic range for a variety of audio and optical frequency bands.
Analog Devices’ easy to use video amplifiers are specifically optimized for a particular gain, which helps minimize design time.
Analog Devices high speed, differential receivers and CAT-5 cable equalizers compensate for the transmission losses of UTP and coaxial cables up to 300 meters in length.
Analog Devices provides designers with a robust portfolio of high speed triple, differential, and single-ended input to differential output CAT-5 video drivers.
ADI high speed, differential CAT-5 video receivers and equalizers compensate for the transmission losses of UTP and coaxial cables up to 300 meters in length.
ADI’s X-stream™ family of digital switches includes high speed buffered crosspoints that are ideal for WDM, enterprise, and metro networking systems.
ADI offers the industry’s largest selection of high speed buffered multiplexers, as well as the industry’s best RON performance.
When your design calls for an amplifier with a video buffer gain equal to 1 or 2, Analog Devices has the answer. Our amps are designed for G=1 and G=2 to help minimize design time.
ADI video amplifiers, buffers, and filters provide an ideal solution for your video amplification needs and include on-chip options to help you minimize design time.
ADI high performance video RF splitters and drivers enable the implementation of the most advanced cable modems and set top boxes on the market.
Analog Devices offers the industry’s largest A/D converter portfolio. These converters enable reliable conversion performance with product performance, power, and cost in mind.
Analog Devices A/D converters feature a variety of breakthrough capabilities, including the compact design, low power, and low cost required by today’s most advanced systems.
ADI high speed A/D converters (>10 MSPS) offer the best performance and highest sampling speed in the market and include solutions for all high speed conversion applications.
Analog Devices low IF A/D converters feature sampling ranges between 10 MSPS to 125 MSPS while providing a best-in-class signal-to-noise ratio and spurious-free dynamic range.
ADI high IF A/D converters have been optimized for SFDR and SNR while including digital signal processing features to provide best-in-class dynamic range across the Nyquist zone.
ADI wideband A/D converters provide sampling rates over 1 GSPS to help meet the increasing demand for flexible platforms, higher data rates, and optimized signal portioning.
To meet the varied demands of the worldwide market, ADI provides an extensive portfolio of integrated and special purpose converters to support a broad range of industries.
ADI’s audio codecs feature extended temperature ranges, low noise and distortion, and easy multichannel interfacing for use in common DSPs such as SHARC®.
ADI offers the first high precision, fully integrated CDCs that address the complex signal processing challenges of direct capacitance-to-digital conversion.
Analog Devices CapTouch™ controllers deliver highly accurate and robust measurement of capacitance sensors used to implement user interface functions.
ADI’s digital up/downconverters act as the frequency translator and digital filter between data converters and DSP blocks, while meeting many digital data conversion requirements.
ADI’s energy measurement ICs address the challenges of smart meter architecture and are ideal for measuring active energy, apparent energy, reactive energy, rms, and power quality.
Analog Devices offers RF transceivers with integrated converters and amplifiers for Multimedia over Coax Alliance (MoCA) 1.1 in set top box and gateway cable applications.
ADI’s analog and digital temperature sensors provide users with temperature sensing and measurement with precise accuracy and reliability.
ADI offers a range of controller ICs for use with 4-wire resistive touch screens. These controllers have 12-bit resolution, SPI/I2C interface options, and low power consumption.
A resolver-to-digital or a synchro-to-digital converter converts electric signals noting a rotating shaft’s angular position and/or velocity into a corresponding digital output.
For designs requiring complementary high precision, high speed video digital-to-analog and analog-to-digital converters, Analog Devices offers a single generation of video codecs.
ADI voltage-to-frequency converters are ideally suited for use in ADCs, long-term integration, linear frequency modulation and demodulation, and frequency to voltage conversion.
When you select an ADI precision ADC, you are selecting from the industry-leading portfolio in ac and dc performance, with products ranging from 8-bit to 32-bit resolution.
ADI’s integrated monitoring and control component portfolio combines ADCs, DACs, temperature sensors, GPIOs, and current sensing technologies in a wide range of configurations.
In the motor control arena, ADI’s converters solve the challenges associated with current and voltage monitoring, optical encoder feedback, and resolver-to-digital conversion.
ADI multichannel precision ADCs span 8-bit to 24-bit resolutions, throughputs from kSPS to 10 MSPS, and offer leading performance in noise, linearity, and dynamic range.
ADI single-channel precision ADCs span 8-bit to 24-bit resolutions, throughputs from kSPS to 10 MSPS, and offer industry-leading performance in noise, linearity, and dynamic range.
ADI simultaneous sampling precision ADCs offer multiple discrete A/D converters in a single package and accommodate up to 12 channels and span resolutions from kSPS to 5 MSPS.
To meet increasingly diverse market needs, ADI offers application-specific standard products for automotive, industrial, ATE, medical, and military and aerospace applications.
ADI provides a complete portfolio of automatic test equipment signal chain solutions to meet today's demanding SOC, DRAM, and flash memory tester applications.
ADI ATE level setting D/A converters help attain precise control for ATE functionality, with our products offering between two channels and 40 channels with up to 16-bit accuracy.
ADI high performance, highly integrated PMUs include programmable modes to force a pin voltage and measure the corresponding current or force a current and measure the voltage.
The ADI ADATE207 offers a capable solution for automatic test equipment with four independent channels and a 100 MHz base vector rate of timing and formatting for ATE digital pins.
ADI mixed-signal, MEMS, and digital processing medical technologies result from our true systems approach to functional integration and collaboration with the healthcare industry.