Low power/low voltage high speed CMOS differential track and latch comparator with rail-to-rail input

A new CMOS differential latched comparator suitable for low voltage, low-power application is presented. The circuit consists of constant-gm rail-to-rail common-mode operational transconductance amplifier followed by a regenerative latch in a track and latch configuration to achieve a relatively con...

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Bibliographic Details
Main Authors: Fayomi, C.J.B., Roberts, G.W., Sawan, M.
Format: Conference Proceeding
Language:English
Subjects:
Circuit simulation
CMOS digital integrated circuits
CMOS process
Delay
Latches
Low voltage
Operational amplifiers
Rail to rail amplifiers
Rail to rail operation
Transconductance
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Description
Summary:A new CMOS differential latched comparator suitable for low voltage, low-power application is presented. The circuit consists of constant-gm rail-to-rail common-mode operational transconductance amplifier followed by a regenerative latch in a track and latch configuration to achieve a relatively constant delay. The use of a track and latch minimizes the total number of gain stages required for a given resolution. Potential offset from the constant-g/sub m/ differential input stage, estimated as the main source of offset, can be minimized by proper choice of transistors sizes. Simulation results show that the circuit requires less than 86 /spl mu/A with a supply voltage of 1.65 V in a standard CMOS 0.18 /spl mu/m digital process. The average delay is less than 1 ns and is approximately independent of the common-mode input voltage.
DOI:10.1109/ISCAS.2000.857549