Traditional designs of commercial frequency synthesizers for multi-GHz mobile RF wireless applications have almost exclusively employed the use of a charge-pump phase-locked loop (PLL), which acts as a local oscillator (LO) for both transmitter and receiver. Unfortunately, the circuits and techniques required are extremely analog intensive and utilize a process technology which is incompatible with a digital baseband. The author's research related to low-power and low-cost radio solutions has led to a novel all-digital synthesizer architecture that exploits strong advantages of a deep-submicron digital CMOS process technology as well as advances in digital very large scale of integration (VLSI) field. Its underlying theme is to maximize dig...
RF circuits for multi-GHz frequencies have recently migrated to low-cost digital deep-submicron CMOS...
Modern transceiver systems require diversified design aspects as various radio and sensor applicatio...
This frequency synthesizer design aims at achieving low phase and high reliability for X-band digita...
Abstract — A fully-digital frequency synthesizer for RF wireless applications has recently been prop...
The increasingly demanding performance requirements of communications systems, as well as problems p...
grantor: University of TorontoThis thesis presents an integrated solution for generating m...
The use of deep-submicron CMOS processes allows for an unprecedented degree of scaling in digital ci...
It has been a constant challenge in wireless system design to meet the growing demand for an ever hi...
RF circuits for multi-GHz frequencies have recently migrated to low-cost digital deep-submicron CMOS...
The wireless communications technologies are now deeply involved in varies of Internet of Thing (IoT...
CMOS wireless digital transceivers using frequency-shift-keying (FSK) can operate at low power consu...
Frequency synthesizers are widely being used for generating local oscillators for majority of RF, wi...
The wireless communication industry is currently experiencing a tremendous growth. The frequency syn...
The demand for wireless devices is increasing, new standards are constantly evolving and the operat...
The design of a fully-integrated low-noise frequency synthesizer with low supply voltage is one of t...
RF circuits for multi-GHz frequencies have recently migrated to low-cost digital deep-submicron CMOS...
Modern transceiver systems require diversified design aspects as various radio and sensor applicatio...
This frequency synthesizer design aims at achieving low phase and high reliability for X-band digita...
Abstract — A fully-digital frequency synthesizer for RF wireless applications has recently been prop...
The increasingly demanding performance requirements of communications systems, as well as problems p...
grantor: University of TorontoThis thesis presents an integrated solution for generating m...
The use of deep-submicron CMOS processes allows for an unprecedented degree of scaling in digital ci...
It has been a constant challenge in wireless system design to meet the growing demand for an ever hi...
RF circuits for multi-GHz frequencies have recently migrated to low-cost digital deep-submicron CMOS...
The wireless communications technologies are now deeply involved in varies of Internet of Thing (IoT...
CMOS wireless digital transceivers using frequency-shift-keying (FSK) can operate at low power consu...
Frequency synthesizers are widely being used for generating local oscillators for majority of RF, wi...
The wireless communication industry is currently experiencing a tremendous growth. The frequency syn...
The demand for wireless devices is increasing, new standards are constantly evolving and the operat...
The design of a fully-integrated low-noise frequency synthesizer with low supply voltage is one of t...
RF circuits for multi-GHz frequencies have recently migrated to low-cost digital deep-submicron CMOS...
Modern transceiver systems require diversified design aspects as various radio and sensor applicatio...
This frequency synthesizer design aims at achieving low phase and high reliability for X-band digita...