The design of a high-speed wide-band high resolution programmable frequency divider is investigated. A new reloadable D flip-flop for the high speed programmable frequency divider is proposed. It is optimized in terms of propagation delay and power consumption as compared with the existing designs. Measurement results show that an all-stage programmable counter implemented with this D flip-flop using the Chartered 0.18 μm CMOS process is capable of operating up to 1.8 GHz for a 1.8 V supply voltage and a 5.8-mW power consumption. By using this counter, an ultra-wide range high resolution frequency divider is achieved with low power consumption for 5-6-GHz wireless LAN applications.Published versio
Abstract-Selection of dynamic dividers in CMOS PLLs for GHzs applications allows remarkable reductio...
Abstract—In this paper we present the design of a pro-grammable frequency divider in 28 nm FD-SOI CM...
A high speed low power consumption positive edge triggered Delayed (D) flip-flop was designed for in...
Background: The frequency divider is a critical element in ultra-high-speed applications of communic...
A 1-V low-power high-speed dynamic-loading frequency divider is proposed using novel D flip-flops wi...
Abstract—Frequency dividers play an important role in highspeed communications systems. In particula...
Phase-locked loop is the most widely used module in the latest generation communication systems. It ...
A low-voltage programmable frequency divider with wide input frequency range is fabricated in standa...
In this paper design and simulation of a 10 GHz, divide by 16…511 programmable frequency divider bas...
A high-speed broadband programmable frequency divider chip is designed and implemented in 0.18μm SiG...
A high-speed programmable frequency divider for a Ka-band phase-locked loop (PLL)-type frequency syn...
A CMOS high speed wide-range programmable divide-by-N counter was designed and the performance was v...
A divide-by-four circuit divides frequencies from 31GHz to 41GHz at input signal amplitudes ≤0.5Vpp....
Abstract- A low power and high speed 8/9 CMOS programmable dynamic frequency divider has been design...
High speed and low power designs are desirable for newer Wi-Fi technologies that are to be implement...
Abstract-Selection of dynamic dividers in CMOS PLLs for GHzs applications allows remarkable reductio...
Abstract—In this paper we present the design of a pro-grammable frequency divider in 28 nm FD-SOI CM...
A high speed low power consumption positive edge triggered Delayed (D) flip-flop was designed for in...
Background: The frequency divider is a critical element in ultra-high-speed applications of communic...
A 1-V low-power high-speed dynamic-loading frequency divider is proposed using novel D flip-flops wi...
Abstract—Frequency dividers play an important role in highspeed communications systems. In particula...
Phase-locked loop is the most widely used module in the latest generation communication systems. It ...
A low-voltage programmable frequency divider with wide input frequency range is fabricated in standa...
In this paper design and simulation of a 10 GHz, divide by 16…511 programmable frequency divider bas...
A high-speed broadband programmable frequency divider chip is designed and implemented in 0.18μm SiG...
A high-speed programmable frequency divider for a Ka-band phase-locked loop (PLL)-type frequency syn...
A CMOS high speed wide-range programmable divide-by-N counter was designed and the performance was v...
A divide-by-four circuit divides frequencies from 31GHz to 41GHz at input signal amplitudes ≤0.5Vpp....
Abstract- A low power and high speed 8/9 CMOS programmable dynamic frequency divider has been design...
High speed and low power designs are desirable for newer Wi-Fi technologies that are to be implement...
Abstract-Selection of dynamic dividers in CMOS PLLs for GHzs applications allows remarkable reductio...
Abstract—In this paper we present the design of a pro-grammable frequency divider in 28 nm FD-SOI CM...
A high speed low power consumption positive edge triggered Delayed (D) flip-flop was designed for in...