A simple, speedy single-slope ADC with a biphasic conversion cycle and a decent accuracy. Read on to learn more!

Practically every electronic product today contains one or more analog-to-digital converters (ADCs). As an engineer, you have no doubt already encountered the ADC in a design project. If not, then you ...

The design and optimisation of analog-digital converters (ADCs) and digital-analog converters (DACs) play a pivotal role in modern electronic systems, bridging the gap between the analog real world ...

The data converter has acted as the bridge between the analog (real) world and the digital world for a few decades now. Starting with discrete elements that took up multiple rack spaces and burnt lots ...

Digital circuit design is largely automated today, but most analog components still are designed manually. This may change soon. As analog design grows increasingly complex and error-prone, design ...

Adding “intelligence” to measurement systems has become commonplace because 8-bit microcontrollers are inexpensive and widely available, and they can be programmed in many of today’s popular ...

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 ...

We often think of analog computing as a relic of the past, room-sized monstrosities filled with vacuum tubes doing their best to calculate Monte Carlo simulations or orbital velocities. Analog isn’t ...