Add to ORKGA fully-integrated 950-MHz bandpass amplifier for use in a wireless receiver is designed in a standard 0.5-μm CMOS process. A Q-compensation circuit is embedded to achieve a desired bandwidth of 25 MHz. Unbalanced g<sub>m</sub>-cells are used to maximize the linearity. A notch filter is adopted to achieve an image rejection of 50 dB. A switchable-capacitor array is used to tune the center frequency over 100 MHz range. The amplifier measures a gain of 22 dB with an IIP3 of -17 dBm, a noise figure of 10 dB and draws a current of 25 mA from a 2-V supply
A new second-order lowpass filter based on a single CMOS fully differential current conveyor is pres...
A wideband CMOS variable gain low noise amplifier suitable for multi-standard radio applications bet...
A monolithic tunable bandpass filter for satellite receiver front-ends is presented. The nter freque...
This dissertation demonstrates a monolithic 900-MHz CMOS wireless transceiver. Single-conversion arc...
With the rapid development of information technology, more and more bandwidth is required to transmi...
A truly-monolithic 900-MHz CMOS wireless receiver with on-chip RF and IF filters and a fully-integra...
Design of a sixth-order CMOS high-Q G(m)-C bandpass filter with automatic tunning for channel select...
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...
Ultra wideband (UWB) becomes one of the famous and important technologies nowadays with the coverage...
A 3V CMOS differential bandpass amplifier to be integrated in a GSM RF front-end is presented. With ...
This paper presents a 60 GHz CMOS I/Q receiver for the high-speed wireless communication system. It ...
Despite two decades of research on RF circuits, challenges in RF design abound. The demand for a sin...
An ultrawideband 3.1\u201310.6-GHz low-noise amplifier employing an input three-section band-pass Ch...
A 2-V monolithic CMOS second-order RF filter for GSM receiver front-ends is presented. A negative tr...
A new second-order lowpass filter based on a single CMOS fully differential current conveyor is pres...
A wideband CMOS variable gain low noise amplifier suitable for multi-standard radio applications bet...
A monolithic tunable bandpass filter for satellite receiver front-ends is presented. The nter freque...
This dissertation demonstrates a monolithic 900-MHz CMOS wireless transceiver. Single-conversion arc...
With the rapid development of information technology, more and more bandwidth is required to transmi...
A truly-monolithic 900-MHz CMOS wireless receiver with on-chip RF and IF filters and a fully-integra...
Design of a sixth-order CMOS high-Q G(m)-C bandpass filter with automatic tunning for channel select...
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...
Ultra wideband (UWB) becomes one of the famous and important technologies nowadays with the coverage...
A 3V CMOS differential bandpass amplifier to be integrated in a GSM RF front-end is presented. With ...
This paper presents a 60 GHz CMOS I/Q receiver for the high-speed wireless communication system. It ...
Despite two decades of research on RF circuits, challenges in RF design abound. The demand for a sin...
An ultrawideband 3.1\u201310.6-GHz low-noise amplifier employing an input three-section band-pass Ch...
A 2-V monolithic CMOS second-order RF filter for GSM receiver front-ends is presented. A negative tr...
A new second-order lowpass filter based on a single CMOS fully differential current conveyor is pres...
A wideband CMOS variable gain low noise amplifier suitable for multi-standard radio applications bet...
A monolithic tunable bandpass filter for satellite receiver front-ends is presented. The nter freque...