Difference between revisions of "Precise Ultra-low-power Timer"
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=== Introduction === | === Introduction === | ||
The rapid growth of the internet of things leads to high demand for the continuous monitoring of environmental and biomedical signals. The circuits operate on the sensor node should be insensitive to temperature variation. Especially for on-chip timers, they have to have high frequency accuracies, meaning that they need to be insensitive to PVT variations and they have to have long-term frequency stability. | The rapid growth of the internet of things leads to high demand for the continuous monitoring of environmental and biomedical signals. The circuits operate on the sensor node should be insensitive to temperature variation. Especially for on-chip timers, they have to have high frequency accuracies, meaning that they need to be insensitive to PVT variations and they have to have long-term frequency stability. | ||
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=== Project Description === | === Project Description === | ||
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* Develop a control loop to compensate temperature variation of the on-chip timer. | * Develop a control loop to compensate temperature variation of the on-chip timer. | ||
Revision as of 10:19, 12 May 2021
Contents
Introduction
The rapid growth of the internet of things leads to high demand for the continuous monitoring of environmental and biomedical signals. The circuits operate on the sensor node should be insensitive to temperature variation. Especially for on-chip timers, they have to have high frequency accuracies, meaning that they need to be insensitive to PVT variations and they have to have long-term frequency stability.
Project Description
- Develop a control loop to compensate temperature variation of the on-chip timer.
Status: Available
- Looking for Semester and Master Project Students
- Supervision: Jiawei Liao, Giorgio Cristiano, Hesam Omdeh Ghiasi, Liza Zaper
Prerequisites
- VLSI I
- Solid state device physics will be a plus