ABOUT ME
Originally from Mexico, Luis A. Mizquez obtained his engineering degree in Electronics Technology Engineering back in 2014 at the University of Sonora. After that, In 2015, he moved to the port of Ensenada to study his Master’s Degree in Electronics and Telecommunications with orientation in control and instrumentation at Center for Scientific Research and Higher Education at Ensenada (CICESE). For his Master’s thesis he defended the work “RF/microwave energy harvesting in Front-End systems using a directional filter” and obtained his degree in 2018.
His research interests are mainly in instruments and technology for aquatic environments monitoring and variable measurements but his studies have brought him to different topics like sensors, telecommunications technologies, energy harvesting, RF circuits and filters design/simulation.
As of today, Luis is a PhD student doing his thesis research in HOWLab. He got accepted into the PhD in Electronics Engineering program at the University of Zaragoza back in 2018 and moved to Zaragoza in 2019 to begin working on his project.
PUBLICATIONS
2019
Mizquez, Luis; Lobato-Morales, Humberto; Chávez-Pérez, RA; Medina-Monroy, JL
RF/Microwave Energy Harvesting System in a Front-End using a Directional Filter Proceedings Article
En: 2019 International Conference on Electronics, Communications and Computers (CONIELECOMP), pp. 27-30, 2019, ISSN: 2474-9044.
@inproceedings{8673148,
title = {RF/Microwave Energy Harvesting System in a Front-End using a Directional Filter},
author = {Luis Mizquez and Humberto Lobato-Morales and RA Chávez-Pérez and JL Medina-Monroy},
doi = {10.1109/CONIELECOMP.2019.8673148},
issn = {2474-9044},
year = {2019},
date = {2019-02-01},
booktitle = {2019 International Conference on Electronics, Communications and Computers (CONIELECOMP)},
pages = {27-30},
abstract = {A novel design of an RF/microwave energy harvesting circuit making use of a directional filter for front-end system implementation is presented in this paper. The proposed setup consists of a rectifying circuit fed by the rejectband output port of a planar directional filter, using a microstrip resonator as the matching network. This particular configuration allows the overall reflection to be suppressed without affecting the passband channel, which is an important issue for any communications front-end performance. Design of all the stages are presented, and simulated and measured responses are shown as well as the obtained DC voltage levels from the rectifying circuit.},
keywords = {},
pubstate = {published},
tppubtype = {inproceedings}
}