Oversampling noise-shaping successive approximation adc

1 . A successive approximation Analogue to Digital Converter (ADC), comprising: a sample and hold device arranged to sample and hold an input signal at the beginning of a conversion cycle; a successive approximation register that sequentially builds up a digital output from its most significant bit to its least significant bit; a digital to analogue converter that outputs a signal based on the output of the successive approximation register; a comparator that compares the output of the analogue to digital converter with an output of the sample and hold device and supplies its output to the successive approximation register; and a residual signal storage device arranged to store the residual signal at the end of a conversion cycle; and wherein the successive approximation ADC is arranged to add the stored residual signal from the residual signal storage device to the input signal stored on the sample and hold device at the start of each conversion cycle. 2 . A successive approximation ADC as claimed in claim 1 , further comprising a time averaging device that averages its input values over time and outputs at a higher resolution than its input. 3 . A successive approximation ADC as claimed in claim 2 , wherein the time averaging device is a filter. 4 . A successive approximation ADC as claimed in claim 1 , wherein the sample and hold device is a capacitor. 5 . A successive approximation ADC as claimed in claim 1 , wherein the residual signal storage device is a capacitor. 6 . A successive approximation ADC as claimed in claim 1 , wherein the ADC is arranged to store the residual signal in a next clock cycle after the successive approximation register sets the least significant bit. 7 . A successive approximation ADC as claimed in claim 1 , further comprising an output register arranged to latch the output of the successive approximation register. 8 . A sensor device comprising: a sensor; a successive approximation ADC as claimed in any preceding claim; and a filter for time averaging the output of the successive approximation ADC. 9 . A sensor device as claimed in claim 8 , wherein the sensor is an accelerometer or a gyroscope. 10 . A sensor device as claimed in claim 8 , wherein the output of the successive approximation ADC is fed back to a driver for driving the sensor. 11 . A sensor device as claimed in any of claim 8 , wherein the filter is a second order filter. 12 . A sensor device as claimed in any of claim 8 , wherein the filter operates at a drive frequency of the sensor. 13 . A method of converting an analogue input signal to a digital value, the method comprising: sampling the input signal; adjusting the sampled input signal according to any stored residual signal from a previous conversion cycle; performing a successive approximation conversion on the input signal to provide a digital value representing the input signal, the digital value being such that when converted to back to analogue, it is as close as possible to the input signal; comparing the analogue version of the final digital value and comparing it to the input signal to provide a residual signal indicative of the difference between the two; and storing said residual signal for a next conversion cycle. 14 . A method as claimed in claim 13 , further comprising a step of averaging the output digital values of the successive approximation conversion over time to produce a higher resolution output. 15 . A method as claimed in claim 13 , wherein the residual signal is stored in a next clock cycle after the last clock cycle of the successive approximation conversion.