Adaptable performance MOS current mode logic for use in a 3GHz programmable frequency divider

An adaptable MOS current mode logic (AMCML) family is described. The AMCML circuits enable the drive current and voltage swing of the logic gates to be adaptively controlled, enabling real-time adaptation to achieve an optimum balance between power, speed, and robustness. A programmable frequency di...

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Main Authors: Houlgate, M.P., Olszewski, D.J., Abdelhalim, K., MacEachern, L.
Format: Conference Proceeding
Language:English
Subjects:
adaptable radio
Capacitance
CMOS logic circuits
current mode logic
digital logic
Frequency conversion
frequency divider
Logic gates
MCML
multi-band radio
Noise reduction
Power dissipation
Robust control
Switches
Tail
Working environment noise
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container_end_page 1306 Vol. 3
container_issue
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creator Houlgate, M.P.
Olszewski, D.J.
Abdelhalim, K.
MacEachern, L.
description An adaptable MOS current mode logic (AMCML) family is described. The AMCML circuits enable the drive current and voltage swing of the logic gates to be adaptively controlled, enabling real-time adaptation to achieve an optimum balance between power, speed, and robustness. A programmable frequency divider implemented using AMCML and capable of operating at input frequencies up to 3GHz is described. The divider was implemented in a TSMC 0.18/spl mu/m CMOS process and requires less than 3mA of current for operation at 3GHz from a 1.8V supply.
doi_str_mv 10.1109/MWSCAS.2003.1562534
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subjects adaptable radio
Capacitance
CMOS logic circuits
current mode logic
digital logic
Frequency conversion
frequency divider
Logic gates
MCML
multi-band radio
Noise reduction
Power dissipation
Robust control
Switches
Tail
Working environment noise
title Adaptable performance MOS current mode logic for use in a 3GHz programmable frequency divider
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