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In a world where electronics is becoming increasingly ubiquitous, the challenge of powering devices is progressively becoming more difficult. Often it is impractical to replace batteries or line power numerous devices. Energy harvesting is an attractive alternative but has the inherent disadvantage of frequent power loss. For processing systems like microcontrollers (MCUs) power restoration usually...
In this paper, we describe a fully-integrated digitally-controlled low-dropout regulator (LDO) with dual-loop architecture, providing core voltage to an ultra-low-power microcontroller (MCU). The fine-grained loop dynamically modulates the active-mode LDO drive-strength using the MCU power-modes information for a maximum load current of 6mA, thereby improving the active-mode current efficiency. The...
This paper presents a single inductor energy harvesting and power management (EHM) unit for ultra-low power (ULP) systems. The proposed circuit harvests energy from solar cells from 0.38V input voltage (Vin) and provides 4 output voltages - storage at 5V and VDDs at 3.3V, 1.5V and 1.2V. A peak inductor current control scheme enables high efficiency operation across wide input and output voltage range...
Catalog ULP microcontrollers (MCUs) have to balance the needs of diverse customers by providing high performance along with near zero standby power and fast wakeup times for real time applications. We present a full HVT 8MHz 75uA/MHz Non-Volatile Logic (NVL) based MCU that has zero standby power and an ultrafast 384ns wakeup time. Non-volatile mini-arrays distributed throughout the logic domain of...
In the effort to achieve low access energy non-volatile memory, challenges are encountered in sensing data at low power supply voltage. This work presents the design of a ferroelectric random access memory (FRAM) as a promising candidate for this need. The challenges of sensing diminishingly small charge and developing circuits compatible with the scaling of FRAM technology to low voltage and more...
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