This paper describes the SOI implementation of a low-voltage low-power programmable delay locked loop (DLL) for linear delay generation in graphics display applications. In order to achieve the best linearity performance, a new scale structure with programmable delay stages is introduced. Since a programmable stage increases the complexity and thus the minimum achievable delay, a high performance technology is required to implement the target specifications. Simulation results in 0.25 μm bulk, partially-depleted (PD) and fully-depleted (FD) SOI CMOS are compared and experimental results are reported for the most promising FD proces
International audienceReducing voltage is a traditional strategy for designing and activating low-po...
A programmable CMOS delay line circuit with microsecond delay range and adjustable duty cycle is pro...
A review on CMOS delay lines with a focus on the most frequently used techniques for high-resolution...
Abstract—Contemporary digitally controlled delay elements trade off power overheads and delay quanti...
A Delay-Locked Loop (DLL) with a modified charge pump circuit is proposed for generating high-resolu...
Development of high-performance CMOS delay lines is becoming a crucial necessity for many advanced a...
Abstract: Problem statement: In any multimedia processor, controller may consume most of the on-chip...
In this paper a modified Constant Delay Logic is been proposed to provide improved performance. Cont...
Abstract Analog DLLs are formed of a voltage-controlled delay line (VCDL), a phase detector (PD), a...
This paper describes recent semidigital architectures of the phase-locked loop (PLL) systems for low...
Low-power will be the primary focus of the semiconductor industry in the next decade. The threshold ...
Abstract- This paper presents high speed and low power full adder cells designed with an alternative...
A novel three-stage architecture programmable digital delay line (DDL) with a picosecond resolution,...
Abstract—This brief presents a low-power small-area digitally controlled oscillator (DCO). The coars...
As technology advances, the rise in electronic products such as mobile phone, tablets and other hand...
International audienceReducing voltage is a traditional strategy for designing and activating low-po...
A programmable CMOS delay line circuit with microsecond delay range and adjustable duty cycle is pro...
A review on CMOS delay lines with a focus on the most frequently used techniques for high-resolution...
Abstract—Contemporary digitally controlled delay elements trade off power overheads and delay quanti...
A Delay-Locked Loop (DLL) with a modified charge pump circuit is proposed for generating high-resolu...
Development of high-performance CMOS delay lines is becoming a crucial necessity for many advanced a...
Abstract: Problem statement: In any multimedia processor, controller may consume most of the on-chip...
In this paper a modified Constant Delay Logic is been proposed to provide improved performance. Cont...
Abstract Analog DLLs are formed of a voltage-controlled delay line (VCDL), a phase detector (PD), a...
This paper describes recent semidigital architectures of the phase-locked loop (PLL) systems for low...
Low-power will be the primary focus of the semiconductor industry in the next decade. The threshold ...
Abstract- This paper presents high speed and low power full adder cells designed with an alternative...
A novel three-stage architecture programmable digital delay line (DDL) with a picosecond resolution,...
Abstract—This brief presents a low-power small-area digitally controlled oscillator (DCO). The coars...
As technology advances, the rise in electronic products such as mobile phone, tablets and other hand...
International audienceReducing voltage is a traditional strategy for designing and activating low-po...
A programmable CMOS delay line circuit with microsecond delay range and adjustable duty cycle is pro...
A review on CMOS delay lines with a focus on the most frequently used techniques for high-resolution...