Circuit and system techniques for reducing phase noise in frequency synthesizers, and cancelling phase noise effect in quadrature receivers are presented. Phase noise performance of digital phase-locked loops (PLLs) is limited by the time resolution of time-to-digital converters (TDC). In contrast to TDCs in the past that concentrate on the arrival time difference between the divider feedback edge and the reference signal edge. Our approach extracts the timing information that is embedded in voltage domain. This approach not only achieves a higher time resolution, lower phase noise, but also consumes less power. A digital background calibration circuit is also presented to reduce the output spurious tones when the digital PLL operates under...
Abstract—A CMOS frequency synthesizer for 5~6 GHz UNII-band sub-harmonic direct-conversion receiver ...
This paper presents the design of phase-lock loop in which composed of voltage control oscillator (...
The fractional-N frequency synthesis based on Digital Phase Locked Loop (DPLLs) has become a conven...
Delta-sigma fractional-N phase-locked loops are used to generate high quality radio-frequency signal...
In a wide-band RF system, the RF channel is located within 50 MHz to 9 GHz. A high-frequency resolut...
Thanks to its ability to generate a stable yet programmable output frequency, Phase Locked Loop (PLL...
In wirelesscommunication systems, a local oscillator (LO) aims at demodulating radio-frequency signa...
Digital fractional-N phase-locked loops (PLLs) are an attractive alternative to analog PLLs in the d...
The advent of next-generation wireless standards demands ever-increasing data-rate communication sys...
Phase-Locked Loop based frequency synthesis is an essential technique employed in wireless communica...
The advanced wireless communication standards (e.g., 5G) placed stringent specifications on the RF/m...
Phase-locked loops (PLLs) are critical components in modern electronics communication systems, where...
Wireless communication systems are based on frequency synthesizers that generate carrier signals, w...
A fractional-N PLL phase quantization cancellation architecture using adaptive digital delay word sc...
This paper presents a feedforward phase noise cancellation technique to reduce phase noise of the ou...
Abstract—A CMOS frequency synthesizer for 5~6 GHz UNII-band sub-harmonic direct-conversion receiver ...
This paper presents the design of phase-lock loop in which composed of voltage control oscillator (...
The fractional-N frequency synthesis based on Digital Phase Locked Loop (DPLLs) has become a conven...
Delta-sigma fractional-N phase-locked loops are used to generate high quality radio-frequency signal...
In a wide-band RF system, the RF channel is located within 50 MHz to 9 GHz. A high-frequency resolut...
Thanks to its ability to generate a stable yet programmable output frequency, Phase Locked Loop (PLL...
In wirelesscommunication systems, a local oscillator (LO) aims at demodulating radio-frequency signa...
Digital fractional-N phase-locked loops (PLLs) are an attractive alternative to analog PLLs in the d...
The advent of next-generation wireless standards demands ever-increasing data-rate communication sys...
Phase-Locked Loop based frequency synthesis is an essential technique employed in wireless communica...
The advanced wireless communication standards (e.g., 5G) placed stringent specifications on the RF/m...
Phase-locked loops (PLLs) are critical components in modern electronics communication systems, where...
Wireless communication systems are based on frequency synthesizers that generate carrier signals, w...
A fractional-N PLL phase quantization cancellation architecture using adaptive digital delay word sc...
This paper presents a feedforward phase noise cancellation technique to reduce phase noise of the ou...
Abstract—A CMOS frequency synthesizer for 5~6 GHz UNII-band sub-harmonic direct-conversion receiver ...
This paper presents the design of phase-lock loop in which composed of voltage control oscillator (...
The fractional-N frequency synthesis based on Digital Phase Locked Loop (DPLLs) has become a conven...