Data_Converter_U
Increasing the Accuracy of ADC Measurements Usi...
Two-Point Calibration for Any ADC (Code-Space Version) This Tutorial guides you through the process of drastically increasing your ADC circuit's measurement accuracy using the Two-Point Calibration method. To perform this...
Increasing the Accuracy of ADC Measurements Usi...
Two-Point Calibration for Any ADC (Code-Space Version) This Tutorial guides you through the process of drastically increasing your ADC circuit's measurement accuracy using the Two-Point Calibration method. To perform this...
Understanding Nyquist Theorem, Nyquist Zones, a...
Nyquist Theorem — The Foundation of Sampling Theory The Nyquist-Shannon Sampling Theorem states:To perfectly reconstruct a continuous-time signal from discrete samples, the sampling frequency (fs) must be at least twice...
Understanding Nyquist Theorem, Nyquist Zones, a...
Nyquist Theorem — The Foundation of Sampling Theory The Nyquist-Shannon Sampling Theorem states:To perfectly reconstruct a continuous-time signal from discrete samples, the sampling frequency (fs) must be at least twice...
How SAR ADCs Work — and How to Drive Them with ...
Successive Approximation Register (SAR) ADCs are among the most popular analog-to-digital converters in embedded systems, instrumentation, and precision data acquisition. They strike a great balance between resolution, conversion speed, power...
How SAR ADCs Work — and How to Drive Them with ...
Successive Approximation Register (SAR) ADCs are among the most popular analog-to-digital converters in embedded systems, instrumentation, and precision data acquisition. They strike a great balance between resolution, conversion speed, power...
List of Common ADC Specifications, Their Defini...
A comprehensive list of common ADC (Analog to Digital Converter) specifications, their definitions, and example use cases where they are important.
List of Common ADC Specifications, Their Defini...
A comprehensive list of common ADC (Analog to Digital Converter) specifications, their definitions, and example use cases where they are important.
Understanding ENOB (Effective Number of Bits) i...
When selecting or evaluating an analog-to-digital converter (ADC) for dynamic or AC signal measurements, ADC users often encounter a dizzying array of dynamic specifications: SNR, SINAD, THD, and more. But...
Understanding ENOB (Effective Number of Bits) i...
When selecting or evaluating an analog-to-digital converter (ADC) for dynamic or AC signal measurements, ADC users often encounter a dizzying array of dynamic specifications: SNR, SINAD, THD, and more. But...