In this paper, we describe circuits and microsystems applications of a disruptive ultra-low-leakage design technique for drastically reducing the off current in CMOS analog and digital functions without reducing the functional performance. The technique uses a pair of source-connected n- and p-MOSFETs, implementing an auto-bias of the stand-by gate-to-source voltage of the nMOS transistor at a negative voltage and that of the p-device at a positive level, thereby reducing the off current towards its physical limits. Changing the gate and drain connections, we propose a series of ultra-low-power basic blocks : a 2-terminal diode, a 3-terminal transistor and a voltage follower. These blocks can be combined to yield a 7-transistor SRAM cell an...
Abstract- This paper enumerates low power, high speed designed circuits like 5T TSPC D-Flip Flop and...
With aggressive scaling of device dimensions, threshold voltages and oxide-thicknesses, leakage-powe...
The need for low power dissipation in portable computing and wireless communication systems is makin...
In this paper, we describe applications of a disruptive ultra-low-leakage design technique for drast...
We introduce a disruptive ultra-low-leakage design technique, based on a pair of source-connected n-...
In this paper, it is attempted to analyze the power performances of few CMOS digital circuits such a...
In order to reduce the power dissipation of CMOS products, semiconductor manufacturers are reducing ...
nevertheless the leakage currents are leftover as an adverse effect. The problem has taken a serious...
For a few years now, everything has been getting “green”. Reduction of the ecological footprint has ...
Leakage current is the main source of power dissipation in low-frequency digital circuits implemente...
An electronic system/appliance/portable device with high speed, low power, and feasible area has bec...
The continuous scaling of CMOS technologies results in a strong increase of leakage currents in digi...
Power dissipation is a key consideration in the design of nano-scale CMOS VLSI circuits. Various tec...
Scaling of CMOS technology has enabled a phenomenal growth in computing capability throughout the la...
Power consumption is the bottleneck of system performance. Power reduction has become an important i...
Abstract- This paper enumerates low power, high speed designed circuits like 5T TSPC D-Flip Flop and...
With aggressive scaling of device dimensions, threshold voltages and oxide-thicknesses, leakage-powe...
The need for low power dissipation in portable computing and wireless communication systems is makin...
In this paper, we describe applications of a disruptive ultra-low-leakage design technique for drast...
We introduce a disruptive ultra-low-leakage design technique, based on a pair of source-connected n-...
In this paper, it is attempted to analyze the power performances of few CMOS digital circuits such a...
In order to reduce the power dissipation of CMOS products, semiconductor manufacturers are reducing ...
nevertheless the leakage currents are leftover as an adverse effect. The problem has taken a serious...
For a few years now, everything has been getting “green”. Reduction of the ecological footprint has ...
Leakage current is the main source of power dissipation in low-frequency digital circuits implemente...
An electronic system/appliance/portable device with high speed, low power, and feasible area has bec...
The continuous scaling of CMOS technologies results in a strong increase of leakage currents in digi...
Power dissipation is a key consideration in the design of nano-scale CMOS VLSI circuits. Various tec...
Scaling of CMOS technology has enabled a phenomenal growth in computing capability throughout the la...
Power consumption is the bottleneck of system performance. Power reduction has become an important i...
Abstract- This paper enumerates low power, high speed designed circuits like 5T TSPC D-Flip Flop and...
With aggressive scaling of device dimensions, threshold voltages and oxide-thicknesses, leakage-powe...
The need for low power dissipation in portable computing and wireless communication systems is makin...