Title :
A clockless, multi-stable, CMOS analog circuit
Author :
Alhawari, M. ; Perrott, M.H.
Author_Institution :
Khalifa Univ., Abu Dhabi, United Arab Emirates
Abstract :
A CMOS analog circuit topology is presented that provides a number of stable operating points based on a laddered inverter quantizer (LIQAF) circuit. An input voltage sets the initial voltage state value when a CMOS transmission gate is turned on, and the voltage state then settles to the nearest stable operating point once the CMOS transmission gate is turned off. The proposed analog circuit achieves its stable operating levels through nonlinear, continuous-time feedback with a circuit that requires only a single supply voltage. An IC prototype demonstrates a 10-level version of the multi-stable circuit with an area of 0.015mm2 in 0.18μm CMOS and current consumption of 300μA at 1.4V and <;45μA at 1V supply for a pair of the multi-stable circuits.
Keywords :
CMOS analogue integrated circuits; digital-analogue conversion; feedback amplifiers; filters; invertors; CMOS analog circuit; CMOS transmission gate; IC prototype; LIQAF circuit; clockless analog circuit; continuous-time feedback; current 300 muA; current consumption; digital-to-analog converters; initial voltage state value; laddered inverter quantizer-amplifier-filter circuit; multistable analog circuit; nonlinear feedback; single supply voltage; size 0.18 mum; stable operating points; voltage 1 V; voltage 1.4 V; Analog circuits; CMOS integrated circuits; Inverters; Logic gates; MOS devices; Prototypes; Voltage measurement; DAC trimming circuit; LIQAF; analog neural network; laddered inverter; multi-stable analog circuit; nonlinear analog circuit; quantizer; static analog memory; storage element;
Conference_Titel :
Circuits and Systems (ISCAS), 2014 IEEE International Symposium on
Conference_Location :
Melbourne VIC
Print_ISBN :
978-1-4799-3431-7
DOI :
10.1109/ISCAS.2014.6865497
