Abstract
Components such as amplifiers and analogue-digital converters are not usually available as part of a standard digital gate array system. A technique is presented by which lowlevel analogue input signals can be amplified and converted into a digital representation using only the digital cells on a standard gate array in conjunction with a few external passive components. An analysis of the basic method of negative feedback around a clocked flip-flop is presented, which demonstrates that a pseudoanalogue amplifier device can be produced whose gain and zero offset are controllable to within 1% or better by the passive components. This device is then developed into an A/D converter with a typical 8 bit accuracy and 10 μs conversion time.
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