A wideband frequency synthesizer architecture is presented. The proposed topology employs a direct digital frequency synthesizer (DDFS) to control the output frequency of an offset-PLL. In this way, the synthesizer features a very fine frequency resolution, 24 Hz, as in delta-sigma fractional-N PLLs, but without being affected by the quantization-induced phase noise. This, in turn, allows enlarging the loop bandwidth. The frequency synthesizer is designed to be employed as a direct modulator for Bluetooth transmitter in a low-cost 0.35- m CMOS technology. At 2.5 GHz it achieves 1.8-MHz bandwidth, while the settling time within 30 ppm for an 80-MHz step is 3 s. The integrated phase noise gives less than 1 degree of rms phase error and the...
Frequency-hopping-spread-sprectrum wireless digital communication-systems impose stringent requireme...
Abstract — A fully-digital frequency synthesizer for RF wireless applications has recently been prop...
The use of deep-submicron CMOS processes allows for an unprecedented degree of scaling in digital ci...
A wideband frequency synthesizer architecture is presented. The proposed topology employs a direct ...
A wideband frequency synthesizer architecture is presented. The proposed topology employs a direct d...
A low power, fully integrated 2.4 GHz fractional-N frequency synthesizer for Bluetooth in a 0.25 /sp...
Abstract: Recent research on frequency synthesis concentrates mainly on specific wireless applicatio...
Traditional designs of commercial frequency synthesizers for multi-GHz mobile RF wireless applicatio...
Frequency synthesizers are widely being used for generating local oscillators for majority of RF, wi...
Thanks to its ability to generate a stable yet programmable output frequency, Phase Locked Loop (PLL...
A new frequency synthesizer based on combining the analog phase-locked loop (PLL) and the all digita...
The fractional-N frequency synthesis based on Digital Phase Locked Loop (DPLLs) has become a conven...
While extremely scaled CMOS transistors are believed to cause many design concerns especially for co...
University of Minnesota M.S. thesis. July 2012. Major: Electrical and computer engineering. Advisor:...
This paper presents a frequency synthesizer for the frequency of 2.4 GHz, which were designed to pr...
Frequency-hopping-spread-sprectrum wireless digital communication-systems impose stringent requireme...
Abstract — A fully-digital frequency synthesizer for RF wireless applications has recently been prop...
The use of deep-submicron CMOS processes allows for an unprecedented degree of scaling in digital ci...
A wideband frequency synthesizer architecture is presented. The proposed topology employs a direct ...
A wideband frequency synthesizer architecture is presented. The proposed topology employs a direct d...
A low power, fully integrated 2.4 GHz fractional-N frequency synthesizer for Bluetooth in a 0.25 /sp...
Abstract: Recent research on frequency synthesis concentrates mainly on specific wireless applicatio...
Traditional designs of commercial frequency synthesizers for multi-GHz mobile RF wireless applicatio...
Frequency synthesizers are widely being used for generating local oscillators for majority of RF, wi...
Thanks to its ability to generate a stable yet programmable output frequency, Phase Locked Loop (PLL...
A new frequency synthesizer based on combining the analog phase-locked loop (PLL) and the all digita...
The fractional-N frequency synthesis based on Digital Phase Locked Loop (DPLLs) has become a conven...
While extremely scaled CMOS transistors are believed to cause many design concerns especially for co...
University of Minnesota M.S. thesis. July 2012. Major: Electrical and computer engineering. Advisor:...
This paper presents a frequency synthesizer for the frequency of 2.4 GHz, which were designed to pr...
Frequency-hopping-spread-sprectrum wireless digital communication-systems impose stringent requireme...
Abstract — A fully-digital frequency synthesizer for RF wireless applications has recently been prop...
The use of deep-submicron CMOS processes allows for an unprecedented degree of scaling in digital ci...