Today's analog system designers face many design challenges. Not only do designers need to select the proper integrated-circuit components, but they also must accurately predict the interactions of ...

Designers of digital systems are familiar with implementing the 'leftovers' of their digital design by using FPGAs and CPLDs to glue together various processors, memories, and standard function ...

This reference design demonstrates Microchip’s solution to accurately measure temperature using a Thermocouple and an 18-bit ADC, MCP3421. It eliminates the need for the traditional analog ...

Time-based analog-to-digital converters (ADCs) represent an innovative shift from traditional voltage-based conversion schemes by utilising time-domain techniques for digitising analog signals.

Confused by analog-to-digital converter specifications? Here's a primer to help you decipher them and make the right decisions for your project. Although manufacturers use common terms to describe ...

Low-power high-speed CMOS comparators and analog-to-digital converters (ADCs) play a pivotal role in modern electronics, from data-intensive computing systems to precision biomedical instrumentation.

Until several years ago, analog was a world apart from digital. Analog engineers could comfortably avoid many of the issues of Moore’s Law, viewing it as a costly bad habit with an equally bad outcome ...

I’ve been following the spectacular success of the James Webb Space Telescope (JWST)—a partnership consisting of NASA, European Space Agency (ESA), and Canadian Space Agency (CSA)—as well as looking ...

A basic building block is often the key to completing an analog signal path in various applications, such as automated test ...

The linchpin technology in a deep space telescope is the ability to efficiently convert analog image sensor data into digital data in order to beam home high-resolution images of astronomical objects.