A/D Converters (ADC)
Analog to Digital Converters (ADC) translate analog electrical signals for data processing purposes. With products matching performance, power, cost, and size needs, Analog Devices offers the industry’s largest A/D converter portfolio. As the world’s leading provider, these data converters enable accurate and reliable conversion performance in a range of applications such as communications, energy, healthcare, instrumentation and measurement, motor and power control, industrial automation, and aerospace/defense. A variety of A/D converter resources are provided to assist the engineer in every project phase, from product selection to circuit design.
High Speed Converter Innovations on 28 nm CMOS
Introducing the first of a new line of RF converters designed for GHz bandwidth applications such as 4G/5G multiband wireless communications base stations, multi-standard production test systems, and defense electronics. Based on 28 nm CMOS technology, these ADCs and DACs provide best-in-class bandwidth, power and dynamic range to cover the largest number of signal bands.
Low-Complexity High-Voltage Switching
A switch or multiplexer that can operate beyond the rails can save costs and simplify the design of products that switch relatively high-voltage analog and digital signals by eliminating the need for high-voltage positive and negative power rails.
Latest Resources
Customer Case Studies
- CERN Customer Case Study
- Mercury Computer Systems Case Study
- Bachmann Case Study
- IceCube Case Study
- Ball Aerospace Case Study
Technical Articles
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NEW
How Edge Processing Is Enabling Next-Gen Millimeter Wave Scanners
Analog Dialogue
- Easy Digital Filter Applications for Not-So-Easy RF System Designs
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Driving Higher Levels of Flexibility, Productivity, and Sustainability in Smart Manufacturing
Thought Leadership
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How to Optimize the MCU SPI Driver to Reach High Speed ADC Throughput
Analog Dialogue
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Practical Input-Referred Calculations in Precision Systems
Analog Dialogue
Application Notes
- NEW Understanding PulSAR ADC Support Circuitry
- Achieving Desired Dynamic Performance in High-Speed, High-Resolution ADCs with Level Translators/Isolators in the System
- ADI’s Medical Ultrasound Solutions
- Analog Devices Electrophysiology 3D Cardiac Mapping Systems Solutions
- How to Interface the MAX30101WING Pulse Oximeter with the MAX32630FTHR
Articles
Videos
- CN0582: USB 3.0 Quad-Channel IEPE Vibration Sensor Measurement System
- CN0554: 10V Analog Input and 15V Analog Output for Raspberry Pi
- AD4696: 8 or 16 Channel Multiplexed SAR ADCs
- Physical Measurements to Actionable Data - Solutions for Inertial, Optical, Capacitance, Temperature, ADCs and more
- ADI X-Band Developer's Kit
Press Releases
- Analog Devices’ Precision ±10V and 0-20mA A/D Converters Simplify PLC Module Development
- Analog Devices’ 12-bit 10.25-GSPS Radio Frequency ADC Sets New Performance Benchmarks for Instrumentation and Defense
- Highly Integrated Analog Front-Ends with 24-bit Converter Cores Achieve Industry’s Best Combination of Low Power and Noise Performance
- FPGA Mezzanine Card Rapid Prototyping Kit Simplifies JESD204B-Compatible A/D Converter-to-FPGA Connectivity
- Analog Devices’ A/D Converter with Internal Reference Delivers Lowest Power, Highest Accuracy and Smallest Package in its Class
Design Notes
- NEW Effective Number of Bits Calculator Tutorial
- NEW Secondary-Side Transformer Termination Improves Gain Flatness in High-Speed ADCs
- NEW MAX5860/MAX5862 Thermal Model Considerations
- NEW Crunching FFTs with Microsoft Excel
- NEW Radio Susceptibility - Cure with Antibiotic, Vaccine, or the Laws of Physics?
Product Selection Guide
Technical Books
- The Data Conversion Handbook, 2005
- Practical Design Techniques for Sensor Signal Conditioning, 1999
- Linear Design Seminar, 1995
- System Applications Guide, 1993
- Amplifier Applications Guide, 1992