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In this paper, we propose a fully integrated and area-efficient resistor-less relaxation oscillator (ROSC) for ultra-low power real-time clock (RTC) applications. The proposed ROSC is based on a conventional ROSC and modified to be area-efficient circuit configuration, without using resistors. The proposed ROSC consists of a bias current source, proportional to absolute temperature (PTAT) voltage...
We propose a sub-1-μs start-up time, fully integrated 32-MHz relaxation oscillator (ROSC) for intermittent VLSI systems. Our proposed ROSC employs current mode architecture that is different from conventional voltage mode architecture. This enables compact and fast switching speed to be achieved. The measurement results demonstrated that the ROSC achieved sub-1-μs start-up time and generated stable...
A compact and low-power current-mode RC oscillator (RCO) with process, voltage, and temperature (PVT) stability has been developed. The circuit employs a current-mode RCO architecture without using a conventional comparator based voltage-mode architecture. The current-mode architecture enables a compact RCO and faster switching speed to be achieved. By designing transistor sizes equally between one...
This paper proposes a fully integrated 32-MHz relaxation oscillator (ROSC) capable of fast start-up time operation for low-power intermittent VLSI systems. The proposed ROSC employs current mode architecture that is different from conventional voltage mode architecture. This enables compact and fast switching speed to be achieved. By designing transistor sizes equally between one in a bias circuit...
A low-power current reference circuit was developed in a 0.35-μm standard CMOS process. The proposed circuit utilizes an offset-voltage generation subcircuit consisting of sub-threshold MOS resistor ladder and generates temperature compensated reference current. Experimental results demonstrated that the proposed circuit generated a 95-nA reference current, and that the total power dissipation was...
This paper proposes CMOS bandgap reference (BGR) and sub-BGR circuits without resistors for nanowatt power LSIs. The BGR circuit consists of a nano-ampere current reference, a bipolar transistor, and a proportional to absolute temperature (PTAT) voltage generator. The PTAT voltage generator consists of source-coupled differential pairs and generates a positive temperature dependent voltage. The PTAT...
We have developed a nano-ampere CMOS current reference circuit that is tolerant to threshold voltage variations. This paper describes the circuit and its temperature dependence control technique for ultra-low power LSIs. Because the generated current increases with temperature, we propose a temperature dependence control architecture for a reference current by using the different temperature characteristics...
In this paper, we propose a low-power current reference circuit with little temperature dependence for micro-power electronics applications. The current reference circuit consists of a bias-voltage subcircuit, a current-source subcircuit, and an offset-voltage generation subcircuit. The offset-voltage generation subcircuit is used to compensate for temperature dependence of the reference current....
In this paper, we propose a subthreshold Static Random Access Memory (SRAM) circuit architecture with improved write ability. In subthreshold digital circuits, though the circuits can achieve ultra-low power dissipation, the performance is significantly degraded with threshold voltage variations due to the fabrication process and temperature. In particular, because the write operation of SRAM is prone...
We propose the use of a super-resolution (SR) technique for thermographies. This system captures several thermal images for a reconstruction-based SR. However, it does not require the subpixel registration required by conventional SRs. In this system, a pair of a low-resolution thermal image and a high-resolution visible image is captured synchronously. While the thermal images are used as source...
This paper describes a switching-voltage detector and compensation circuits for an ultra-low-voltage CMOS inverter. The switching voltage of an inverter is an important design parameters for a digital circuit, and is determined by the difference in threshold voltages between MOSFETs. However, switching voltage varies significantly with fabrication process conditions and temperature. To address this...
In this paper, we propose delay-compensation techniques for subthreshold digital circuits. Delay in digital circuits that are operated in the subthreshold region of a MOSFET changes exponentially with variations in threshold voltage. To mitigate such variations, threshold-voltage monitoring and supply-voltage scaling techniques are adopted. By monitoring the threshold voltage of each LSI chip and...
The DOT5 gene was originally cloned as one of the DOT (disrupter of telomeric silencing) genes; and later it was re-discovered as a nuclear thioredoxin peroxidase in Saccharomyces cerevisiae. Here, we demonstrate that the telomeric-silencing disruption activity of Dot5 is independent of thioredoxin peroxidase activity. In addition, Dot5 cannot suppress the increased susceptibility to peroxides of...
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