In this work, new design techniques that aim to reduce power consumption of true single-phase clock-based (TSPC) prescalers is presented. The proposed design technique is applied to a divide-by-2/3 unit, and its performance is compared with previous work to demonstrate the improvement. Simulation results show at least a 49% reduction of PDP is achieved by the proposed unit. ? 2014 IEEE.EI
Abstract-Selection of dynamic dividers in CMOS PLLs for GHzs applications allows remarkable reductio...
Abstract — A dual-modulus (divide-by-16/17) prescaler has been designed using a 0.35µm CMOS technolo...
In this brief, a 1/10-rate bang-bang phase detector (BBPD) using a single edge-tracking clock and a ...
New design improvement aiming to reduce the power consumption of true single-phase clock-based dual-...
A novel low-power and high-speed dual-modulus prescaler based on extended true single-phase clock (E...
A novel low-power and high-speed dual-modulus prescaler based on extended true single-phase clock (E...
Abstract- An extended true-single-phase-clock (E-TSPC) based divide-by-2/3 counter design for low su...
In this paper the power consumption and operating frequency of true single phase clock (TSPC)...
A new design scheme intended to improve the performance of true single-phase clocked (TSPC) dual mod...
Dual-modulus prescaler is a critical block in power conscious PLL design. By modifying the second br...
A new 5T TSPC based Multimodulus (32/33/47/48) prescaler is proposed. It is optimized in terms of av...
Capitalizing on the human insatiable need for information, many consumer products has incorporated w...
An extended true-single-phase-clock (E-TSPC) based divide-by-2/3 counter design for low supply volt...
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-Selection of dynamic dividers in CMOS PLLs for GHzs applications allows remarkable reductio...
Abstract — A dual-modulus (divide-by-16/17) prescaler has been designed using a 0.35µm CMOS technolo...
In this brief, a 1/10-rate bang-bang phase detector (BBPD) using a single edge-tracking clock and a ...
New design improvement aiming to reduce the power consumption of true single-phase clock-based dual-...
A novel low-power and high-speed dual-modulus prescaler based on extended true single-phase clock (E...
A novel low-power and high-speed dual-modulus prescaler based on extended true single-phase clock (E...
Abstract- An extended true-single-phase-clock (E-TSPC) based divide-by-2/3 counter design for low su...
In this paper the power consumption and operating frequency of true single phase clock (TSPC)...
A new design scheme intended to improve the performance of true single-phase clocked (TSPC) dual mod...
Dual-modulus prescaler is a critical block in power conscious PLL design. By modifying the second br...
A new 5T TSPC based Multimodulus (32/33/47/48) prescaler is proposed. It is optimized in terms of av...
Capitalizing on the human insatiable need for information, many consumer products has incorporated w...
An extended true-single-phase-clock (E-TSPC) based divide-by-2/3 counter design for low supply volt...
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-Selection of dynamic dividers in CMOS PLLs for GHzs applications allows remarkable reductio...
Abstract — A dual-modulus (divide-by-16/17) prescaler has been designed using a 0.35µm CMOS technolo...
In this brief, a 1/10-rate bang-bang phase detector (BBPD) using a single edge-tracking clock and a ...