The minimum operating voltage (VDDmin) of 90-nm CMOS ring oscillators (RO’s) is investigated in order to clarify the lower limit of supply voltage (VDD) for logic circuits. The measured VDDmin is determined by the intra-die threshold voltage random variations and increased from 91 mV to 224 mV when the number of RO stages increased from 11 to 1001, which hinders the VDD scaling. Lowering VDDmin is difficult, since it would require an impractical inverter-by-inverter adaptive body bias control. Therefore, the fine-grain adaptive VDD control will be more effective for the ultra low voltage logic circuits to reduce the power consumption
Device power dissipation has grown exponentially due to the rapid transistor technology scaling and ...
The advent of deep submicron technologies brings new challenges to digital circuit design. A reduced...
Lowering operating voltage, VDD, is a key to low-power CMOS digital VLSI's. In order to complet...
In order to explore the feasibility of the large scale subthreshold logic circuits and to clarify th...
In this paper, energy and minimum operating voltage (VDDmin) are investigated for extremely-low-volt...
Adaptive circuit techniques enable modification of power-performance efficient circuit operation. Ye...
A post-fabrication dual supply voltage (VDD) control (PDVC) of multiple voltage domains is proposed ...
This paper presents a Wide tuning range voltage controlled ring oscillator (VCO) with a frequency ra...
The demand of extremely long battery life for electronic devices is the driving force for modern sem...
Dissertação (mestrado) - Universidade Federal de Santa Catarina, Centro Tecnológico, Programa de Pós...
In this paper we examine the expectations and limitations of design technologies such as adaptive vo...
Abstract – Ultra-wideband communication requires a carrier frequency of 3-10GHz. A voltage controlle...
Voltage Controlled Oscillator plays significant role in communication system design. The design of V...
Electronic circuits powered at ultra low voltages (500 mV and below) are desirable for their low ene...
The driving force for the semiconductor industry growth has been the elegant scaling nature of CMOS ...
Device power dissipation has grown exponentially due to the rapid transistor technology scaling and ...
The advent of deep submicron technologies brings new challenges to digital circuit design. A reduced...
Lowering operating voltage, VDD, is a key to low-power CMOS digital VLSI's. In order to complet...
In order to explore the feasibility of the large scale subthreshold logic circuits and to clarify th...
In this paper, energy and minimum operating voltage (VDDmin) are investigated for extremely-low-volt...
Adaptive circuit techniques enable modification of power-performance efficient circuit operation. Ye...
A post-fabrication dual supply voltage (VDD) control (PDVC) of multiple voltage domains is proposed ...
This paper presents a Wide tuning range voltage controlled ring oscillator (VCO) with a frequency ra...
The demand of extremely long battery life for electronic devices is the driving force for modern sem...
Dissertação (mestrado) - Universidade Federal de Santa Catarina, Centro Tecnológico, Programa de Pós...
In this paper we examine the expectations and limitations of design technologies such as adaptive vo...
Abstract – Ultra-wideband communication requires a carrier frequency of 3-10GHz. A voltage controlle...
Voltage Controlled Oscillator plays significant role in communication system design. The design of V...
Electronic circuits powered at ultra low voltages (500 mV and below) are desirable for their low ene...
The driving force for the semiconductor industry growth has been the elegant scaling nature of CMOS ...
Device power dissipation has grown exponentially due to the rapid transistor technology scaling and ...
The advent of deep submicron technologies brings new challenges to digital circuit design. A reduced...
Lowering operating voltage, VDD, is a key to low-power CMOS digital VLSI's. In order to complet...