A new approach for designing digitally programmable CMOS integrated baseband filters is presented. The proposed technique provides a systematic method for designing filters exhibiting high linearity and low power. A sixth-order Butterworth low-pass filter with 14-bit bandwidth tuning range is designed for implementing the baseband channel-select filter in an integrated multistandard wireless receiver. The filter consumes a current of 2.25 mA from a 2.7-V supply and occupies an area of 1.25 mm2 in a 0.5-μm chip. The proposed filter design achieves high spurious free dynamic ranges (SFDRs) of 92 dB for PDC (IS-54), 89 dB for GSM, 84 dB for IS-95, and 80 dB for WCDM
Abstract: A 2nd order low pass Butterworth filter has been designed for direct conversion receiver. ...
A low-power high linearity CMOS G(m)-C channel select filter for WLAN/WiMax receivers in 90-nm CMOS ...
With the rapid development of information technology, more and more bandwidth is required to transmi...
A new approach for designing digitally programmable CMOS integrated baseband filters is presented. T...
A new approach for designing digitally programmable CMOS integrated baseband filters is presented. T...
A new approach for designing digitally programmable CMOS integrated baseband filters is presented. I...
The technique exhibits the wide frequency range of the transconductance amplifier filters while offe...
The expanding growth of wireless communications has led to the proliferation of different standards....
Design of a sixth-order CMOS high-Q G(m)-C bandpass filter with automatic tunning for channel select...
Abstract—A CMOS transconductor for multimode channel selection filter is presented. The transconduct...
A CMOS fully integrated 12th-order bandpass filter for low interemdiate frequency Bluetooth receiver...
Despite two decades of research on RF circuits, challenges in RF design abound. The demand for a sin...
Recent efforts in the design of wireless RF transceivers focus on high integration and multi-standar...
A low-power high linearity CMOS G(m)-C channel select filter for WLAN/WiMAX receivers in 90-nm CMOS ...
This book presents a new filter design approach and concentrates on the circuit techniques that can ...
Abstract: A 2nd order low pass Butterworth filter has been designed for direct conversion receiver. ...
A low-power high linearity CMOS G(m)-C channel select filter for WLAN/WiMax receivers in 90-nm CMOS ...
With the rapid development of information technology, more and more bandwidth is required to transmi...
A new approach for designing digitally programmable CMOS integrated baseband filters is presented. T...
A new approach for designing digitally programmable CMOS integrated baseband filters is presented. T...
A new approach for designing digitally programmable CMOS integrated baseband filters is presented. I...
The technique exhibits the wide frequency range of the transconductance amplifier filters while offe...
The expanding growth of wireless communications has led to the proliferation of different standards....
Design of a sixth-order CMOS high-Q G(m)-C bandpass filter with automatic tunning for channel select...
Abstract—A CMOS transconductor for multimode channel selection filter is presented. The transconduct...
A CMOS fully integrated 12th-order bandpass filter for low interemdiate frequency Bluetooth receiver...
Despite two decades of research on RF circuits, challenges in RF design abound. The demand for a sin...
Recent efforts in the design of wireless RF transceivers focus on high integration and multi-standar...
A low-power high linearity CMOS G(m)-C channel select filter for WLAN/WiMAX receivers in 90-nm CMOS ...
This book presents a new filter design approach and concentrates on the circuit techniques that can ...
Abstract: A 2nd order low pass Butterworth filter has been designed for direct conversion receiver. ...
A low-power high linearity CMOS G(m)-C channel select filter for WLAN/WiMax receivers in 90-nm CMOS ...
With the rapid development of information technology, more and more bandwidth is required to transmi...