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The authors appreciate being made aware of the bandwidth enhancement technique. Indeed, this bandwidth enhancement technique is similar to ours. The major difference is that the n-stage current mirror amplifier consists of n forward amplifiers.
A 10-Gb/s low-power analog equalizer for a 10-m coaxial cable has been realized in 0.13-mum CMOS technology. To compensate the cable loss of 20 dB at 5 GHz, this equalizer with an interleaved active feedback topology is proposed without using inductors. Moreover, additional capacitive and resistive source degenerations are incorporated to meet low-frequency losses. This circuit consumes only 14 mW...
In this paper, an adaptive 3.125Gbps coaxial cable equalizer is realized in a 0.18-mum CMOS technology. For the length of 15m and 20m Belden 8219 cables, the signal attenuation are -12dB and -16dB, respectively, at 1.5625GHz. Due to the signal attenuation after passing through the coaxial cable, this adaptive 3.125Gbps coaxial cable equalizer compensates the broadband loss to be adaptive to different...
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