Amplifiers

High-Speed Op Amps (>=50MHz) - Applications

TI's broad, industry-leading portfolio of high speed amplifiers provides the performance and precision needed for today's rigorous system deigns. With devices featuring ultra-low power, offset and drift, to multi-gigahertz operation and market leading linearity, TI has the high speed amplifiers to power applications from high fidelity audio to cutting edge cellular basestations and everything in between.

Learn about high-speed ADCs in the following application areas:

Communications equipment

Combined with our leading data converter portfolio, TI high speed amplifiers have set the standard for broadband communications in applications such as 4G cellular basestations, power line communications, optical communications, and DSL.

Wireless Infrastructure

End Equipment Featured TI Design Key Product
Backhaul - Microwave backhaul Basestation Transceiver with DPD Feedback Path PGA870
Dual-Wideband RF-to-Digital Receiver Design LMH6521
Wideband RF-to-Digital Complex Receiver-Feedback Signal Chain LMH6521
Optimizing LMH6554 to Drive High Speed ADCs LMH6554
THS4509
Optimizing THS4509 to Drive High Speed ADCs Reference Design LMH6554
THS4509
THS770006
Equalization Optimization of a JESD204B Serial Link Reference Design LMH6521
700–2700 MHz Dual-Channel Receiver with 16-Bit ADC and 100 MHz IF Bandwidth Reference Design LMH6521
Two Stage Cascaded 8GHz Amplifier Reference Design Board LMH3401
LMH5401
Digital Repeater Basestation Transceiver with DPD Feedback Path PGA870
Dual-Wideband RF-to-Digital Receiver Design LMH6521
Wideband RF-to-Digital Complex Receiver-Feedback Signal Chain LMH6521
Optimizing LMH6554 to Drive High Speed ADCs LMH6554
THS4509
Optimizing THS4509 to Drive High Speed ADCs Reference Design LMH6554
LMH6881
THS4509
THS770006
Equalization Optimization of a JESD204B Serial Link Reference Design LMH6521
700–2700 MHz Dual-Channel Receiver with 16-Bit ADC and 100 MHz IF Bandwidth Reference Design LMH6521
Low Gain Amplifier Reference Design LMH5401
Cascaded LMH5401 and LMH6401 Reference Design LMH5401
LMH6401
Two Stage Cascaded 8GHz Amplifier Reference Design Board LMH3401
LMH5401
Small Cells - Enterprise Femto Base Station Dual-Wideband RF-to-Digital Receiver Design LMH6521
Wideband RF-to-Digital Complex Receiver-Feedback Signal Chain LMH6521
Optimizing LMH6554 to Drive High Speed ADCs LMH6554
THS4509
Optimizing THS4509 to Drive High Speed ADCs Reference Design LMH6554
LMH6881
THS4509
THS770006
Low Frequency RF Amplifier Reference Design TRF37A73
TRF37B73
TRF37C73
TRF37D73
Equalization Optimization of a JESD204B Serial Link Reference Design LMH6521
700–2700 MHz Dual-Channel Receiver with 16-Bit ADC and 100 MHz IF Bandwidth Reference Design LMH6521
Low Gain Amplifier Reference Design LMH5401
Cascaded LMH5401 and LMH6401 Reference Design LMH5401
LMH6401
Two Stage Cascaded 8GHz Amplifier Reference Design Board LMH3401
LMH5401
Small Cells - Micro Base Station Dual-Wideband RF-to-Digital Receiver Design LMH6521
Wideband RF-to-Digital Complex Receiver-Feedback Signal Chain LMH6521
Optimizing LMH6554 to Drive High Speed ADCs LMH6554
THS4509
Optimizing THS4509 to Drive High Speed ADCs Reference Design
LMH6554
LMH6881
THS4509
THS770006
Low Frequency RF Amplifier Reference Design TRF37A73
TRF37B73
TRF37C73
TRF37D73
Equalization Optimization of a JESD204B Serial Link Reference Design LMH6521
700–2700 MHz Dual-Channel Receiver with 16-Bit ADC and 100 MHz IF Bandwidth Reference Design LMH6521
Low Gain Amplifier Reference Design LMH5401
Cascaded LMH5401 and LMH6401 Reference Design LMH5401
LMH6401
Two Stage Cascaded 8GHz Amplifier Reference Design Board LMH3401
LMH5401
Software Defined Radio (SDR) Basestation Transceiver with DPD Feedback Path PGA870
Dual-Wideband RF-to-Digital Receiver Design LMH6521
Wideband RF-to-Digital Complex Receiver-Feedback Signal Chain LMH6521
Optimizing LMH6554 to Drive High Speed ADCs LMH6554
THS4509
THS3095
Optimizing THS4509 to Drive High Speed ADCs Reference Design LMH6554
LMH6881
THS4509
THS770006
Low Frequency RF Amplifier Reference Design TRF37A73
TRF37B73
TRF37C73
TRF37D73
Equalization Optimization of a JESD204B Serial Link Reference Design LMH6521
700–2700 MHz Dual-Channel Receiver with 16-Bit ADC and 100 MHz IF Bandwidth Reference Design LMH6521
Low Gain Amplifier Reference Design LMH5401
Cascaded LMH5401 and LMH6401 Reference Design LMH5401
LMH6401
Two Stage Cascaded 8GHz Amplifier Reference Design Board LMH3401
LMH5401
TETRA Base Station Basestation Transceiver with DPD Feedback Path PGA870
Dual-Wideband RF-to-Digital Receiver Design LMH6521
Wideband RF-to-Digital Complex Receiver-Feedback Signal Chain LMH6521
Optimizing LMH6554 to Drive High Speed ADCs LMH6554
THS4509
THS3095
Optimizing THS4509 to Drive High Speed ADCs Reference Design LMH6554
LMH6881
THS4509
THS770006
Low Frequency RF Amplifier Reference Design TRF37A73
TRF37B73
TRF37C73
TRF37D73
Equalization Optimization of a JESD204B Serial Link Reference Design LMH6521
700–2700 MHz Dual-Channel Receiver with 16-Bit ADC and 100 MHz IF Bandwidth Reference Design LMH6521

Industrial

Get the high-precision performance needed for your industrial design. TI high speed amplifiers combine market leading performance and precision while also delivering unmatched low noise, power, and size.

Motor Drives

End Equipment Featured TI Design Key Product
AC Inverter & VF Drives Differential Signal Conditioning Circuit for Current and Voltage Measurement Using Fluxgate Sensors THS4531
Reference Design for Interfacing Current Output Hall Sensors and CTs with Differential ADC/MCU THS4531A
CNC Drives Interface to Sin/Cos Encoders with High-Resolution Position Interpolation Reference Design THS4531A
Interface to a Sin/Cos Encoder with Sitara AM437x Reference Design THS4531A
Interface to a HIPERFACE Position Encoder Reference Design THS4531A
Industrial Stepper Drive Differential Signal Conditioning Circuit for Current and Voltage Measurement Using Fluxgate Sensors THS4531
Position Encoders & Resolvers Interface to Sin/Cos Encoders with High-Resolution Position Interpolation Reference Design THS4531A
Interface to a Sin/Cos Encoder with Sitara AM437x Reference Design THS4531A
Interface to a HIPERFACE Position Encoder Reference Design THS4531A
Motherboard/controller for the AMC1210 OPA1632
Dual Channel Data Acquisition System for Optical Encoders, 12 Bit, 1MSPS THS4521
THS4531
Robotics Axis Motor Drives Interface to Sin/Cos Encoders with High-Resolution Position Interpolation Reference Design THS4531A
Interface to a Sin/Cos Encoder with Sitara AM437x Reference Design THS4531A
Servo Drives & Motion Control Interface to Sin/Cos Encoders with High-Resolution Position Interpolation Reference Design THS4531A
Interface to a Sin/Cos Encoder with Sitara AM437x Reference Design THS4531A
Differential Signal Conditioning Circuit for Current and Voltage Measurement Using Fluxgate Sensors THS4531
Interface to a HIPERFACE Position Encoder Reference Design THS4531A
Reference Design for Interfacing Current Output Hall Sensors and CTs with Differential ADC/MCU THS4531A

Test & Measurement

End Equipment Featured TI Design Key Product
Data Acquisition (DAQ) Low Power Fully Differential Programmable Gain Amplifier Reference Design OPA2683
Optimizing LMH6554 to Drive High Speed ADCs LMH6554
THS770006
THS4509
Optimizing THS4509 to Drive High Speed ADCs Reference Design LMH6554
LMH6881
THS4509
THS770006
Quad-Channel 250-Msps Digitizer with Variable Gain Amplifier Reference Design LMH6881
LMH6882
Data Acquisition for MUX and Step Inputs, 18 bits, 1uS Full Scale Response Reference Design THS4281
Data Acquisition Optimized for Lowest Distortion, Lowest Noise, 18 bit, 1Msps Reference Design THS4281
THS4521
Dual Channel Data Acquisition System for Optical Encoders, 12 Bit, 1MSPS THS4521
THS4531
16 bit 1MSPS Data Acquisition Reference Design for Single-Ended Multiplexed Applications THS4281
Network Analyzers (Vector Network Analyzers - VNA) Optimizing LMH6554 to Drive High Speed ADCs LMH6554
THS4509
THS770006
Optimizing THS4509 to Drive High Speed ADCs Reference Design LMH6554
LMH6881
THS4509
THS770006
Quad-Channel 250-Msps Digitizer with Variable Gain Amplifier Reference Design LMH6881
LMH6882
Oscilloscopes (DSO) Reference Design for Implementation of the Load Sharing Concept for Large-Signal Applications THS3091
Low Power Fully Differential Programmable Gain Amplifier Reference Design OPA2683
Reference Design for High-Gain Multistage Amplifier OPA684
Optimizing LMH6554 to Drive High Speed ADCs LMH6554
THS4509
THS770006
Optimizing THS4509 to Drive High Speed ADCs Reference Design LMH6554
LMH6881
THS4509
THS770006
Quad-Channel 250-Msps Digitizer with Variable Gain Amplifier Reference Design LMH6881
LMH6882
Scales & Weight Reference Design for High-Gain Multistage Amplifier OPA684
LMH6629
Extending Rail-to-Rail Output Range for Fully Differential Amplifiers to Include True Zero Volts THS4531A
High Perf Single Ended to Diff Active Interface for High Speed ADC Developed by Dallas Logic Corp THS4541
Signal Analyzers (Vector Signal Analyzers - VSA) Reference Design for Implementation of the Load Sharing Concept for Large-Signal Applications THS3091
Low Power Fully Differential Programmable Gain Amplifier Reference Design OPA2683
Reference Design for High-Gain Multistage Amplifier OPA684
Optimizing LMH6554 to Drive High Speed ADCs LMH6554
THS4509
THS770006
Optimizing THS4509 to Drive High Speed ADCs Reference Design LMH6554
LMH6881
THS4509
THS770006
Quad-Channel 250-Msps Digitizer with Variable Gain Amplifier Reference Design LMH6881
LMH6882
Reference Design for Implementation of the Load Sharing Concept for Large-Signal Applications THS3091
Low Power Fully Differential Programmable Gain Amplifier Reference Design OPA2683
Reference Design for High-Gain Multistage Amplifier
OPA684
Signal Generators (Vector Signal Generators - VSG) Wide-Bandwidth and High-Voltage Arbitrary Waveform Generator Front End OPA695
THS3091
THS3095
Spectrum Analyzers Optimizing LMH6554 to Drive High Speed ADCs LMH6554
THS4509
THS770006
Optimizing THS4509 to Drive High Speed ADCs Reference Design LMH6554
LMH6881
THS4509
THS770006
Quad-Channel 250-Msps Digitizer with Variable Gain Amplifier Reference Design LMH6881
LMH6882

Personal Electronics

TI low-power high speed amplifiers can help you extend the battery life of portable devices, such as mobile phones, tablets and laptops, and deliver high-performance audio in space-constrained designs.