Many measurement applications require converting a slowly varying analog signal into digital with high accuracy and linearity. These often occur in industrial control, environmental monitoring, ...

本文用图解的方式分享影响A/D转换精度的主要误差类型。通过图解可以更形象地理解数据手册中列举的常见的ADC的误差参数 ...

There’s another dimension to the THD versus linearity problem as well. This plot represents the linearity error for every code for an 18-bit precision ADC. Using ...

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 most important thing to remember about both DACs and ADCs is that either the input or output is digital, and therefore the signal is quantized. That is, an N-bit word represents one of 2N possible ...

Functionality of ADC/DACs, their performance characteristics, and how they have been improved. Advantages, disadvantages, and applications of various ADC/DAC architectures. How ADC/DACs are used in ...

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.