Title :
A high-speed sample-and-hold technique using a Miller hold capacitance
Author :
Lim, Peter J. ; Wooley, Bruce A.
Abstract :
A technique for increasing the precision of open-loop sample-and-hold circuits without significantly reducing their sampling rate is introduced. With this technique, the sampling error resulting from input-dependent charge injection in the sampling switch is significantly attenuated by sampling the input voltage onto a capacitance that is small during the sample mode but is, in effect, increased during the hold mode through the use of Miller feedback. A sample-and-hold circuit based on this approach has been designed and fabricated in a 1-μm CMOS technology, and an order-of-magnitude reduction in the input-dependent charge injection has been verified experimentally. This circuit is capable of sampling an input to a precision of 8 b with an acquisition time of only 5 ns
Keywords :
CMOS integrated circuits; VLSI; analogue-digital conversion; integrated circuit technology; sample and hold circuits; 1 micron; 5 ns; 8 bit; CMOS technology; Miller effect; Miller feedback; Miller hold capacitance; acquisition time; high-speed sample-and-hold technique; input-dependent charge injection; open-loop sample-and-hold circuits; sampling error; sampling rate; sampling switch;
Conference_Titel :
VLSI Circuits, 1990. Digest of Technical Papers., 1990 Symposium on
Conference_Location :
Honolulu, Hawaii, USA
DOI :
10.1109/VLSIC.1990.111080
