An aIgoritbmic analog-to-digital conversion technique is described which is capable of achieving high-resolution conversion without the use of matched capacitors in an MOS technology. The exact integral multiplication of the signal required by the conversion is realized through an algorithmic circuit method which involves charge summing with an MOS integrator and exchange of capacitors. A first-order cancellation of the charge injection effect from MOS transistor switches is attained with a combination of differential circuit implementation and an optimum timing scheme. An experimental prototype has been fabricated with a standard 5 wm n-well CMOS process. It achieves 12 bit resolution at a sampling rate of 8 kHz. The anafog chip area measures 2400 mils2.
A ratio-independent algorithmic analog-to-digital conversion technique
CASTELLO, RINALDO
1984-01-01
Abstract
An aIgoritbmic analog-to-digital conversion technique is described which is capable of achieving high-resolution conversion without the use of matched capacitors in an MOS technology. The exact integral multiplication of the signal required by the conversion is realized through an algorithmic circuit method which involves charge summing with an MOS integrator and exchange of capacitors. A first-order cancellation of the charge injection effect from MOS transistor switches is attained with a combination of differential circuit implementation and an optimum timing scheme. An experimental prototype has been fabricated with a standard 5 wm n-well CMOS process. It achieves 12 bit resolution at a sampling rate of 8 kHz. The anafog chip area measures 2400 mils2.I documenti in IRIS sono protetti da copyright e tutti i diritti sono riservati, salvo diversa indicazione.
