Precision op amps (Vos<1mV)

Broad and innovative op amp portfolio optimized for high accuracy systems

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We offer the industry's broadest portfolio of precision op amps to fit a wide range of applications such as automotive, industrial, instrumentation and aerospace. Our devices are built using state-of-the-art proprietary technologies which provide very low offset, drift, and ultra-low noise to enable high-resolution measurements.

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Find a precision op amp that best fits your design needs

OPA4206
Precision op amps (Vos<1mV)

Input-overvoltage-protected, low-power, low-noise four-channel op amp with super-beta inputs

Approx. price (USD) 1ku | 2.5

TLV4387
Precision op amps (Vos<1mV)

Quad, ultra-high-precision (10 μV) zero-drift (0.01 μV/°C) low-input-bias-current op amp

Approx. price (USD) 1ku | 0.938

TLV2387
Precision op amps (Vos<1mV)

Dual, ultra-high-precision (10 μV) zero-drift (0.01 μV/°C) low-input-bias-current op amp

Approx. price (USD) 1ku | 0.648

OPA328
Precision op amps (Vos<1mV)

Precision, zero-crossover, 50-μV offset voltage, 40-MHz wide-bandwidth RRIO CMOS op amp

Approx. price (USD) 1ku | 0.975

OPA206
Precision op amps (Vos<1mV)

Low-power (240 µA) low-noise (8 nV/√Hz) precision e-trim™ op amp with super-beta inputs and OVP

Approx. price (USD) 1ku | 0.85

OPA928
Precision op amps (Vos<1mV)

High-voltage femtoampere-input-bias precision e-trim™ operational amplifier with RRIO

Approx. price (USD) 1ku | 9.5

Precision op amp technologies

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Zero-drift technology

Amplifiers with zero-drift technology employ a unique, auto-correction technique to avoid system calibration, and no 1/f noise to achieve very high gain circuit configurations.

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e-Trim package-level trim technology

Post-assembly polysilicon fuse  blowing trim technique enables longevity and long term stability without compromising miniaturization.

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Bipolar - super-beta technology

Reduces the input bias current and current drift which minimizes current noise density. The well-matched transistors help achieve very low offset voltages.

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JFET Dielectric Isolation technology

The dielectric isolation helps reduce parasitic capacitance and leakage therefore providing better voltage coefficient when compared to the junction capacitance of a non-dielectrically isolated JFET.

Technical resources

Video series
Video series
TI Precision Labs 
Online classroom for analog engineers with more than 40 hands-on trainings and lab videos 
Resource
Resource
Op amp circuits
Comprehensive library of op amp sub-circuit ideas that you can easily adapt to meet your specific system needs - including a free e-book
E-book
E-book
Analog Engineer’s Pocket Reference Guide Fifth Edition (Rev. C)
E-book that puts commonly used analog formulas at your fingertips (registration required) 
document-pdfAcrobat PDF

Discover featured applications

Multiparameter patient monitoring
Enhance patient monitoring performance by designing with our ultra-low power consumption and low offset devices.
Battery test equipment
Improve your battery test solutions over the entire industrial temperature range with low offset drift devices.
Optical module
Prioritize board space and signal accuracy in your optical module designs with industry's smallest precision devices.
Hybrid, electric & powertrain systems
Design for accuracy and safety in HEV/EV with our versatile portfolio of automotive qualified precision devices.
Analog input module
Optimize the front end of your analog input module design with low offset and low noise devices.
Semiconductor test equipment
Improve your semiconductor test solutions with our diverse range of precision and power amplifiers.

Enhance patient monitoring performance by designing with our ultra-low power consumption and low offset devices.

Our precision amplifiers enable high accuracy measurements to meet your multiparameter patient monitoring requirements. Our small packages and ultra-low power consumption amplifiers offer a solution to the emerging field of portable monitoring.

  • Refer to the video for portable monitoring guidance and device recommendations (see OPA391).
  • Design right leg drive circuitry with a high CMRR precision amp to reject power line noise (see OPA2328).
  • Interface with high impedance electrodes by input buffering with an ultra-low bias current amp (see OPA392).

Featured resources

REFERENCE DESIGNS
  • TIDA-010005 – Software-Configurable Cardiac Pacemaker Detection Module Reference Design
  • TIDA-010043 – Efficient, high-current, linear LED driver reference design for SpO2 and other medical applications
PRODUCTS
  • OPA2328 – Dual-channel, precision, 50-µV offset voltage, 40-MHz wide-bandwidth RRIO CMOS op amp
  • OPA392 – Single, low-offset (10 μV), low-noise (6 nV/rtHz) femtoamp-bias-current e-trim™ op amp
  • OPA391 – Micropower, single, high-precision low-bias-current RRIO op amp with high speed-to-power ratio
TECHNICAL RESOURCES

Improve your battery test solutions over the entire industrial temperature range with low offset drift devices.

Our precision amplifiers and reference designs assist you with creating battery test equipment optimized for cost and performance. Our ultra-low drift and low offset devices decrease system errors and ensure accuracy over wide temperature ranges.

  • Optimize response time for control loop circuits. Improve battery formation and test throughput with a precision buffer for DAC output (see OPA2145 with MUX-friendly technology).
  • Improve voltage and current control loop accuracy with a low offset and low offset drift precision amp without sacrificing efficiency or speed (see OPA205 and TLV07).

Featured resources

REFERENCE DESIGNS
  • TIDA-01040 – Battery Tester Reference Design for High Current Applications
  • TIDA-010086 – Digital control cost-optimized 10-A battery formation and test reference design
PRODUCTS
  • OPA205 – Single, rail-to-rail bipolar precision e-trim™ op amp with low input bias current and low noise
  • TLV07 – Precision, 36-V, low noise, rail-to-rail output, operational amplifier
  • OPA2145 – Dual, 5.5-MHz, high slew rate, low-noise, low-power, RRO precision JFET operational amplifier

Prioritize board space and signal accuracy in your optical module designs with industry's smallest precision devices.

We offer the industry's smallest precision amplifier package options to tackle your optical module design requirements.  Our precision amplifiers preserve signal accuracy in high gain stages by providing ultra-low input offset voltage and bias current.

  • Current monitoring with shunt resistors requires low offset precision amplifiers (see OPA2376 and OPA2392 WCSP).
  • Laser biasing solutions are enabled with our high output drive precision amplifiers (see OPA2333P).
  • Transimpedance amplifier alternatives with our low input bias current amps (see OPA3s328 with integrated switches and OPA2328).

Featured resources

REFERENCE DESIGNS
  • TIDA-01525 – 8-channel, 16-bit, 200mA current output DAC reference design
PRODUCTS
  • OPA2392 – Dual, low-offset (10 μV), low-noise (6 nV/√Hz) femptoamp-bias-current e-trim™ operational amplifier
  • OPA2328 – Dual-channel, precision, 50-µV offset voltage, 40-MHz wide-bandwidth RRIO CMOS op amp
  • OPA3S328 – High-speed (40 MHz) high-precision (60 µV) low-noise op amp with integrated gain switches

Design for accuracy and safety in HEV/EV with our versatile portfolio of automotive qualified precision devices.

Industry leading precision amplifiers minimize error for key HEV/EV applications. Combine low offset op amps, high CMRR instrumentation amplifiers (INA333-Q1), and high current output power amplifiers to fulfill design needs.

  • Use our zero-drift amplifiers (OPAx388-Q1) for accurate battery measurements, fast reaction safety interlocks, and accurate temperature readings.
  • Use our integrated solution, the ALM240x-Q1 resolver driver with built in protection features required for position sensing.
  • Hit ASIL design requirements with TI Functional Safety-Capable devices

Featured resources

REFERENCE DESIGNS
  • TIDA-01168 – Bidirectional DC/DC Converter Reference Design for 12-V/48-V Automotive Systems
  • TIDA-03050 – Automotive, mA-to-kA Range, Current Shunt Sensor Reference Design
  • TIDA-020018 – Automotive shunt-based isolated current sensor reference design for DC/DC and OBC applications
PRODUCTS
  • ALM2403-Q1 – Automotive, dual-channel, high-voltage, power op amp with low distortion for resolver applications
  • OPA2388-Q1 – Dual, automotive qualified, wide-bandwidth, zero-drift, zero-crossover, precision amplifier
  • INA333-Q1 – Automotive low-power, zero-drift, precision instrumentation amplifier

Optimize the front end of your analog input module design with low offset and low noise devices.

Precision amplifiers permit highly accurate signal conditioning in the front end of analog input modules. With low noise, low drift, and low power options, our precision amplifiers are high performing in a variety of analog input module designs.

  • Analog front ends require low offset voltage and low drift amp to maintain high accuracy (see OPA2387).
  • Input buffering using an integrated input overvoltage protected amplifier (±60V, max) avoids errors caused by external protection schemes (see OPA2206).
  • Low noise amp often needed to maintain high resolution and signal to noise ratio (see OPA182).

Featured resources

REFERENCE DESIGNS
  • TIDA-00764 – 8-ch Isolated High Voltage Analog Input Module Reference Design
  • TIPD164 – Analog Input Module for Industrial Outputs and Temperature Sensors Reference Design
PRODUCTS
  • OPA2387 – Ultra-high-precision zero-drift low-input-bias-current operational amplifier
  • OPA2206 – OVP ±40-V, low-power, low-noise, precision amplifier with e-trim™ and super beta input transistors
  • OPA182 – Highest-precision, 36-V, 5-MHz, single, low-noise, zero-drift, MUX-friendly amplifier

Improve your semiconductor test solutions with our diverse range of precision and power amplifiers.

Our precision amps help you to achieve high-accuracy semiconductor test solutions. Precise measurements are enabled through our large selection of wide-supply voltage, wide bandwidth, and low offset-drift precision amplifiers.

  • DUT excitation circuits with our power amps (see OPA462 and OPA593) permit wide-supply voltage operation (8 to 180 V), wide bandwidth (up to 18 MHz), and high output current (200 mA, typ).
  • Voltage/current measurements are highly accurate with our power amps due to their low noise (2.2 nV/Hz at 1 kHz) and low offset voltage drift (35 µV, max) operation (see OPA2210).

Featured resources

REFERENCE DESIGNS
  • TIDA-01055 – ADC Voltage Reference Buffer Optimization Reference Design for High Performance DAQ Systems
PRODUCTS
  • OPA593 – 85-V, 100-µV wide-bandwidth (10 MHz) high-output-current (250 mA) precision operational amplifier
  • OPA2210 – Ultra-low noise (2.2-nV/√Hz), super beta (0.3nA), high precision (5µV, 0.1µV/°C), 36-V, dual op amp
  • OPA462 – 180-V, wide bandwidth (6.5 MHz), high-slew rate (25 V/µs) unity-gain stable op amp

Design & development resources

Evaluation board
Universal do-it-yourself (DIY) amplifier circuit evaluation module

The DIYAMP-EVM is an evaluation module (EVM) family that provides engineers and do it yourselfers (DIYers) with real-world amplifier circuits, enabling you to quickly evaluate design concepts and verify simulations. It is available in three industry-standard packages (SC70, SOT-23 and SOIC) (...)

Simulation tool
PSpice® for TI design and simulation tool
PSpice® for TI is a design and simulation environment that helps evaluate functionality of analog circuits. This full-featured, design and simulation suite uses an analog analysis engine from Cadence®. Available at no cost, PSpice for TI includes one of the largest model libraries in the (...)
Evaluation board
DIP adapter evaluation module

Speed up your op amp prototyping and testing with the DIP adapter evaluation module (DIP-ADAPTER-EVM), which provides a fast, easy and inexpensive way to interface with small surface-mount ICs. You can connect any supported op amp using the included Samtec terminal strips or wire them (...)