Basic review of how the different kinds of analog-to-ditital converters wor, with a sidebar relating them to appropriate applications. ADCs quantize time-varying analog voltages into a sequence of ...

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 ...

As its name implies, the function of an analog-to-digital converter (ADC) is to convert analog signals to digital representations for processing by a microcontroller (MCU), field-programmable gate ...

Have you ever experienced unexpected droop when you’ve plotted out the frequency response of a signal processing system when you expected that the frequency response would be flat (or at least, ...

It is common for an ADC or DAC to be required to meet a SFDR (spurious free dynamic range) specification. Definition: “Spurious-free dynamic range (SFDR) is the strength ratio of the fundamental ...

NuForce introduced the DAC-9 Digital-to-Analog Converter, Preamplifier and Headphone Amplifier offering six digital inputs to cover the full range of current digital formats. Each input feeds a pair ...

Teledyne e2v and Logic-X have developed an FPGA mezzanine card incorporating GHz ADCs and DACs from Telydyne. The 12bit EV12DS460A DAC provides an analogue bandwidth extending beyond 7GHz ...

Teledyne e2v and Logic-X have developed an FPGA mezzanine card incorporating GHz ADCs and DACs from Telydyne. The 12bit EV12DS460A DAC provides an analogue bandwidth extending beyond 7GHz ...