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Pipelined Analog-to-digital Converters (ADCs)

 

Analog-to-digital converters (ADCs) that use pipeline architecture effectively overcome the limitations of flash architecture. Pipelined ADCs divide the conversion task into several consecutive stages. Each of these stages consists of a sample and hold circuit, an m-bit ADC (e.g., a flash converter), and an m-bit D/A converter (DAC). First, the sample-and-hold circuit of the first stage acquires the signal. The m-bit flash converter then converts the sampled signal to digital data. The conversion result forms the most significant bits of the digital output. This same digital output is fed into an m-bit digital-to-analog converter, and its output is subtracted from the original sampled signal. The residual analog signal is then amplified and sent on to the next stage in the pipeline to be sampled and converted as it was in the first stage. This process is repeated through as many stages as are necessary to achieve the desired resolution. Pipelined ADCs achieve higher resolutions than flash converters containing a similar number of comparators. This comes at the price of increasing the total conversion time from one cycle to p cycles.

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Analog Comparators
Analog comparators are amplifiers that compare the magnitude of voltages at two inputs. An analog comparator is an operational amplifier with negative feedback removed, and with no feedback and very high gain, the output voltage goes to one extreme to the other.
Sample-and-Hold Amplifiers
Sample-and-hold amplifiers freeze analog voltage instantly. During this process the HOLD command is issued and analog voltage is available for an extended period.
Signal Conditioners
Signal conditioners provide amplification, filtering, converting, and other processes required to make sensor output suitable for reading by computer boards.
Analog-to-Digital Converters
Analog-to-digital converters (ADC) sample an analog signal and convert it to a series of digital values to represent the signal to a computer processor.
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