A low-power impulse-radio ultra-wideband receiver is demonstrated for low data-rate applications. A topology selection study demonstrates that the quadrature analog correlation is a good receiver architecture choice when energy consumption must be minimized. The receiver operates in the 3.1–5 GHz band of the UWB FCC spectrum mask on channels of 500MHz bandwidth. The pulse correlation operation is done in the analog domain in order to reduce the ADC sampling speed down to the pulse repetition rate, thereby reducing the power consumption. The receiver comprises a low-noise amplifier with full on-chip matching network, an RF local oscillator generation, two quadrature mixers, two analog baseband chains followed by two ADCs,and a clock generation network. The receiver is implemented in 0.18um CMOS technology and achieves 16 mA power consumption at 20 Mpulses/s pulse repetition rate.
A CMOS Ultra-Wideband Receiver for Low Data-Rate Communication
D'AMICO, STEFANO;BASCHIROTTO, Andrea;
2007-01-01
Abstract
A low-power impulse-radio ultra-wideband receiver is demonstrated for low data-rate applications. A topology selection study demonstrates that the quadrature analog correlation is a good receiver architecture choice when energy consumption must be minimized. The receiver operates in the 3.1–5 GHz band of the UWB FCC spectrum mask on channels of 500MHz bandwidth. The pulse correlation operation is done in the analog domain in order to reduce the ADC sampling speed down to the pulse repetition rate, thereby reducing the power consumption. The receiver comprises a low-noise amplifier with full on-chip matching network, an RF local oscillator generation, two quadrature mixers, two analog baseband chains followed by two ADCs,and a clock generation network. The receiver is implemented in 0.18um CMOS technology and achieves 16 mA power consumption at 20 Mpulses/s pulse repetition rate.I documenti in IRIS sono protetti da copyright e tutti i diritti sono riservati, salvo diversa indicazione.