A Low-Voltage, Highly Linear Voltage-Controlled Transconductor. Fayed, A. & Ismail, M. IEEE Transactions on Circuits and Systems II: Express Briefs, 2005. abstract bibtex A low-voltage fully differential, voltage-controlled transconductor is described. The proposed transconductor achieves a wide input/control voltage range, with a highly linear transconductance factor and truly fully differential output currents. The transconductor is used to implement a G m —C adaptive forward equalizer (FE) for a 125 Mbps wire line transceiver using digital core transistors with channel length of no more than double the feature size in a typical digital CMOS 180-nm process and supply voltage as low as 1.6 V. The adaptive FE enables IEEE 1394b transceivers to operate over UTP-5 cables for up to 100m in length. The transconductor stage occupies 1945 μ m 2 and consumes an average power of 418 μw at 125 Mbps and 1.8-V supply. © 2005, IEEE
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abstract = {A low-voltage fully differential, voltage-controlled transconductor is described. The proposed transconductor achieves a wide input/control voltage range, with a highly linear transconductance factor and truly fully differential output currents. The transconductor is used to implement a G m —C adaptive forward equalizer (FE) for a 125 Mbps wire line transceiver using digital core transistors with channel length of no more than double the feature size in a typical digital CMOS 180-nm process and supply voltage as low as 1.6 V. The adaptive FE enables IEEE 1394b transceivers to operate over UTP-5 cables for up to 100m in length. The transconductor stage occupies 1945 μ m 2 and consumes an average power of 418 μw at 125 Mbps and 1.8-V supply. © 2005, IEEE},
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author = {Fayed, A.A. and Ismail, M.},
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