A novel low-power and high-speed dual-modulus prescaler based on extended true single-phase clock (E-TSPC) scheme is presented. By restricting the short-circuit current in noncritical branchs, the design reduces the major source of power dissipation in E-TSPC scheme. The presented design enhances the maximum working frequency with shorter critical path and lower load capacitances. Simulation results in SMIC 40nm process show that compared with referenced E-TSPC based designs at least 61.2% (divide-by-2) and 41.1% (divide-by-3) reduction in power delay product (PDP) can be achieved by the proposed design.CPCI-S(ISTP)wangziyipku@163.com2751-275
An extended true-single-phase-clock (E-TSPC) based divide-by-2/3 counter design for low supply volt...
Abstract — This paper presents the design of a 16/17 dual-modulus prescaler with maximum operating f...
A 64-modulus prescaler operating at 5.8 GHz has been designed in a 0.18 μm CMOS process. The prescal...
A novel low-power and high-speed dual-modulus prescaler based on extended true single-phase clock (E...
A new design scheme intended to improve the performance of true single-phase clocked (TSPC) dual mod...
New design improvement aiming to reduce the power consumption of true single-phase clock-based dual-...
Dual-modulus prescaler is a critical block in power conscious PLL design. By modifying the second br...
In this paper the power consumption and operating frequency of true single phase clock (TSPC)...
In this work, new design techniques that aim to reduce power consumption of true single-phase clock-...
Abstract- An extended true-single-phase-clock (E-TSPC) based divide-by-2/3 counter design for low su...
A new leakage-tolerant true single-phase clock dual-modulus prescaler based on a stage-merged scheme...
This project focused on the design and simulation of dual-modulus prescalars for 4 GHz to 12 GHz low...
Abstract — A dual-modulus (divide-by-16/17) prescaler has been designed using a 0.35µm CMOS technolo...
A new 5T TSPC based Multimodulus (32/33/47/48) prescaler is proposed. It is optimized in terms of av...
This paper present a low-power 10-GHz divide-by-3/4 prescaler for 60-GHz high data rate short range ...
An extended true-single-phase-clock (E-TSPC) based divide-by-2/3 counter design for low supply volt...
Abstract — This paper presents the design of a 16/17 dual-modulus prescaler with maximum operating f...
A 64-modulus prescaler operating at 5.8 GHz has been designed in a 0.18 μm CMOS process. The prescal...
A novel low-power and high-speed dual-modulus prescaler based on extended true single-phase clock (E...
A new design scheme intended to improve the performance of true single-phase clocked (TSPC) dual mod...
New design improvement aiming to reduce the power consumption of true single-phase clock-based dual-...
Dual-modulus prescaler is a critical block in power conscious PLL design. By modifying the second br...
In this paper the power consumption and operating frequency of true single phase clock (TSPC)...
In this work, new design techniques that aim to reduce power consumption of true single-phase clock-...
Abstract- An extended true-single-phase-clock (E-TSPC) based divide-by-2/3 counter design for low su...
A new leakage-tolerant true single-phase clock dual-modulus prescaler based on a stage-merged scheme...
This project focused on the design and simulation of dual-modulus prescalars for 4 GHz to 12 GHz low...
Abstract — A dual-modulus (divide-by-16/17) prescaler has been designed using a 0.35µm CMOS technolo...
A new 5T TSPC based Multimodulus (32/33/47/48) prescaler is proposed. It is optimized in terms of av...
This paper present a low-power 10-GHz divide-by-3/4 prescaler for 60-GHz high data rate short range ...
An extended true-single-phase-clock (E-TSPC) based divide-by-2/3 counter design for low supply volt...
Abstract — This paper presents the design of a 16/17 dual-modulus prescaler with maximum operating f...
A 64-modulus prescaler operating at 5.8 GHz has been designed in a 0.18 μm CMOS process. The prescal...