Analog Engineer's Circuit Cookbooks

To simplify and speed system design, our Analog Engineer's Circuit Cookbooks deliver a comprehensive library of sub-circuit ideas that you can easily adapt to meet your specific end equipment needs. 

Each circuit is a "recipe" that includes step-by-step instructions, basic formulas, schematic diagrams and SPICE simulations.

We'll be adding more circuits in the future, so bookmark this page and check back often to download our latest cookbooks!

Analog-to-Digital Converters (ADCs)

Data Converter Circuit Cookbook

Operational Amplifiers (Op Amps)

Op Amps circuit cookbook

Popular resources for analog signal chain design

Analog Engineer's Pocket Reference

50 years of analog design experience in a single resource; topics include key constants and conversions, basic op amp configurations, A/D and D/A conversions, and more

TI Precision Labs

On-demand training courses for amplifiers, data converters and more; curriculum spans fundamental and advanced topics using theory and practical knowledge

The Signal e-Book

32 little op amp lessons from amplifier expert Bruce Trump; topics include offset voltage, input bias current, stability, noise and more

Find products for your next design

Data converters

Redefine the way you design using our data converter portfolio for applications requiring ultra-high speed, precision and isolation

Operational amplifiers

Differentiate and innovate with our large portfolio of operational amplifiers, spanning precision, high speed, audio and general purpose

Download the individual circuits

Data converter circuits

Low-power / cost-optimized circuits
Driving SAR Directly Without a Front-end Buffer Circuit (low Power, low sampling speed DAQ)
Low-Power Sensor Measurements: 3.3 V, 1 ksps, 12-bit Single-Ended, Dual Supply Circuit
Low-Power Sensor Measurements: 3.3 V, 1ksps, 12-bit Single-Ended, Single Supply12-bit, Single-Ended, Single-Supply Circuit

Level translation input drive circuits

High Voltage Battery Monitor Circuit: ±20 V, 0-10 kHz, 18-Bit Fully Differential
Single-Ended to Differential Circuit Using an Op Amp and Fully Differential Amplifier (FDA) for Bipolar Signals
High-Input Impedance, True Differential, Analog Front End (AFE) Attenuator Circuit for SAR ADCs
Circuit to Increase Input Range on an Integrated Analog Front End (AFE) SAR ADC
Circuit for Driving High-Voltage SAR ADCs for High-Voltage, True Differential Signal Acquisition

Low-level sensor input circuits

Low-Input Bias Current Front End SAR ADC Circuit
Circuit for Driving a Switched-Capacitor SAR ADC with an Instrumentation Amplifier
Circuit for Driving a Switched-Capacitor SAR ADC with a Buffered Instrumentation Amplifier

Input protection, filtering and isolation circuits

Reducing Effects of External RC Filter Circuit on Gain and Drift Error for Integrated Analog Front Ends (AFEs): ±10 V, up to 200 kHz, 16 bit
Antialiasing Filter Circuit Design for Single-Ended ADC Input Using Fixed Cutoff Frequency
Digitally-Isolated ADS8689 Circuit Design

Commonly used auxiliary circuits

Powering a Dual-Supply Op Amp Circuit with One LDO
Isolated Power Supply, Low-Noise Circuit: 5 V, 100 mA