Piezoelectric-Based Power Conversion for Lunar Surface Systems
- Piezoelectric-based power conversion systems are being developed for small power systems on the lunar surface.
- These systems aim to offer high power density, reducing size, weight, and cost while maintaining high efficiency.
- The extreme lunar environment poses challenges, but piezoelectric systems can withstand prolonged exposure to cold and radiation.
- The project involves building and testing prototype piezoelectric DC-to-DC power converters and DC-to-DC power supplies.
- The goal is to create reliable and efficient power solutions for future lunar surface missions.
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Jessica Boles
University of California, Berkeley
This project will develop piezoelectric-based power conversion for small power systems on the lunar surface. These piezoelectric systems can potentially offer high power density to significantly reduce size, weight, and cost. They can also offer high efficiency as well as resistance to the extreme lunar environment with its expected prolonged exposure to extreme cold and radiation. The effort will build and test prototype piezoelectric DC-to-DC power converters and DC-to-DC power supplies.
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Last Updated
Apr 18, 2025
Editor
Loura Hall
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Q. What is the main objective of this project?
A. The main objective of this project is to develop piezoelectric-based power conversion for small power systems on the lunar surface.
Q. How can piezoelectric systems benefit lunar surface systems?
A. Piezoelectric systems can offer high power density, reducing size, weight, and cost, as well as high efficiency and resistance to extreme temperatures and radiation.
Q. What are some of the challenges that the project aims to address?
A. The project aims to build and test prototype piezoelectric DC-to-DC power converters and DC-to-DC power supplies to overcome the challenges of extreme lunar environments.
Q. Who is the author of this project?
A. Unfortunately, the text does not mention the specific author of this project.
Q. What is ECF 2024?
A. ECF 2024 refers to Early Career Faculty (ECF), a program that supports early-career faculty in their research endeavors.
Q. What is the expected outcome of this project?
A. The expected outcome of this project is to develop reliable and efficient piezoelectric-based power conversion systems for lunar surface applications.
Q. Why are piezoelectric systems suitable for lunar surface systems?
A. Piezoelectric systems are suitable for lunar surface systems due to their ability to withstand extreme temperatures, radiation, and other harsh conditions found on the lunar surface.
Q. What is the significance of this project in the context of space technology research grants?
A. This project is significant because it falls under the category of Space Technology Research Grants, which support innovative research projects like this one.
Q. When was the last update to this project’s details?
A. The last update to this project’s details was on April 18, 2025.
Q. Who edited this project?
A. This project was edited by Loura Hall.