A high-speed programmable frequency divider for a Ka-band phase-locked loop (PLL)-type frequency synthesizer system is presented and fabricated in 90 nm CMOS technology. It consists mainly of a divided-by-8/9 dual-modulus prescaler (DMP) and pulse swallow counters. An active-inductor-based source-coupled logic (SCL) D flip-flop (DFF) and the “OR” gate are used in the DMP in order to promote its locking range and operation frequency. The measured operation frequency range of the improved programmable frequency divider covers from 6 to 20 GHz with a low phase noise of less than −136 dBc/Hz at a 1 MHz offset of output signals, an optimum sensitivity of −27 dBm at 15 GHz, and a low power consumption of 9.1 mW
The analysis and design of two novel high-speed CMOS clock dividers is discussed. The realizations o...
A programmable frequency divider for the use in a fractional-N frequency synthesizer is presented. T...
In this thesis, the design of a fully integrated RF CMOS phase-locked loop is explored. The goal of ...
The adoption of dynamic dividers in CMOS phase-locked loops for multigigahertz applications allows t...
The design of a high-speed wide-band high resolution programmable frequency divider is investigated....
A programmable frequency divider operating at input frequencies from DC to 80 GHz for the use in fra...
As RF transceivers move into the mm-wave frequency range, one of the key issues faced in the design ...
A frequency divider is one of the most fundamental and challenging blocks used in high-speed communi...
A 4GHz ADPLL-based integer-N frequency synthesizer is reported in this paper. It employs a low-compl...
A divider-less all digital phase locked loop (ADPLL) with a high frequency resolution is implemented...
Phase-locked loop is the most widely used module in the latest generation communication systems. It ...
The fractional-N frequency synthesis based on Digital Phase Locked Loop (DPLLs) has become a conven...
The architecture of a high-speed low-power-consumption CMOS dual-modulus frequency divider is presen...
[[abstract]]A fully integrated frequency divider with an operation frequency up to 20 GHz is designe...
One of the key components common in integrated receiver designs is a RF local oscillator. This parti...
The analysis and design of two novel high-speed CMOS clock dividers is discussed. The realizations o...
A programmable frequency divider for the use in a fractional-N frequency synthesizer is presented. T...
In this thesis, the design of a fully integrated RF CMOS phase-locked loop is explored. The goal of ...
The adoption of dynamic dividers in CMOS phase-locked loops for multigigahertz applications allows t...
The design of a high-speed wide-band high resolution programmable frequency divider is investigated....
A programmable frequency divider operating at input frequencies from DC to 80 GHz for the use in fra...
As RF transceivers move into the mm-wave frequency range, one of the key issues faced in the design ...
A frequency divider is one of the most fundamental and challenging blocks used in high-speed communi...
A 4GHz ADPLL-based integer-N frequency synthesizer is reported in this paper. It employs a low-compl...
A divider-less all digital phase locked loop (ADPLL) with a high frequency resolution is implemented...
Phase-locked loop is the most widely used module in the latest generation communication systems. It ...
The fractional-N frequency synthesis based on Digital Phase Locked Loop (DPLLs) has become a conven...
The architecture of a high-speed low-power-consumption CMOS dual-modulus frequency divider is presen...
[[abstract]]A fully integrated frequency divider with an operation frequency up to 20 GHz is designe...
One of the key components common in integrated receiver designs is a RF local oscillator. This parti...
The analysis and design of two novel high-speed CMOS clock dividers is discussed. The realizations o...
A programmable frequency divider for the use in a fractional-N frequency synthesizer is presented. T...
In this thesis, the design of a fully integrated RF CMOS phase-locked loop is explored. The goal of ...