C. De Ranter scite author profile

An upconvertor topology for low power, high bandwidth applications is presented. Using specific circuit techniques and local circuit-level optimization, the power consumption of the total system comprising an on-chip LC-type VCO, a polyphase network quadrature generator, a linear mixer block and an RF-current buffer, has been minimized.A chip has been designed and manufactured in a 0.25µm CMOS technology. The VCO oscillates between 1.68 GHz and 2 GHz. Driven by an external LO, the transmitter operates from 900 MHz up to 2 GHz. At 2 GHz, the upconvertor transmits -12 dBm into 50 Ω with a linearity of more than -35 dBc for base band signals up to 33 MHz.

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Design techniques for low power high bandwidth upconversion in CMOS

Ranter

Steyaert

2002

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C. De Ranter

A CMOS dual channel, 100 MHz-1.1 GHz transmitter for cable applications

Design techniques for low power high bandwidth upconversion in CMOS

Design techniques for low power high bandwidth upconversion in CMOS

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