A low-power analog filter able to be reconfigured in order to be used in UMTS and WLAN applications is reported. The 4th order low-pass continuous-time filter is going to be included in the receiver path of a reconfigurable terminal. The filter is made up by the cascade of two Active-Gm-RC low-pass biquadratic cells. The unity-gain-bandwidth of the opamps embedded in the Active-Gm-RC cells is comparable to the filter cut-off frequency. Thus, the power consumption of the opamp can be strongly reduced. In addition, the filter can be programmed in order to process UMTS and WLAN signals, while a little area overhead is required since the filter can share capacitors as well as opamps in both operations modes. The cut-off frequency deviation due to the technological spread, aging and temperature variation is adjusted by using a tuning circuit.The full device in a 0.13 μm CMOS technology occupies a 2.8 mm2area. © 2005 Springer Science + Business Media, Inc.
D'Amico, S., Giannini, V., Baschirotto, A. (2006). A low-power reconfigurable analog filter for UMTS/WLAN receivers. ANALOG INTEGRATED CIRCUITS AND SIGNAL PROCESSING, 46(1), 65-72 [10.1007/s10470-005-4586-2].
A low-power reconfigurable analog filter for UMTS/WLAN receivers
BASCHIROTTO, ANDREA
2006
Abstract
A low-power analog filter able to be reconfigured in order to be used in UMTS and WLAN applications is reported. The 4th order low-pass continuous-time filter is going to be included in the receiver path of a reconfigurable terminal. The filter is made up by the cascade of two Active-Gm-RC low-pass biquadratic cells. The unity-gain-bandwidth of the opamps embedded in the Active-Gm-RC cells is comparable to the filter cut-off frequency. Thus, the power consumption of the opamp can be strongly reduced. In addition, the filter can be programmed in order to process UMTS and WLAN signals, while a little area overhead is required since the filter can share capacitors as well as opamps in both operations modes. The cut-off frequency deviation due to the technological spread, aging and temperature variation is adjusted by using a tuning circuit.The full device in a 0.13 μm CMOS technology occupies a 2.8 mm2area. © 2005 Springer Science + Business Media, Inc.
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