Your search keyword '"Pengyu Lai"' showing total 2 results

1. Development of LTCC-packaged optocouplers as optical galvanic isolation for high-temperature applications

Author

Pengyu Lai, David Gonzalez, Syam Madhusoodhanan, Abbas Sabbar, Salahaldein Ahmed, Binzhong Dong, Jiangbo Wang, H. Alan Mantooth, Shui-Qing Yu, and Zhong Chen

Subjects

Medicine, Science

Abstract

Abstract This paper reports high-temperature optocouplers for signal galvanic isolation. Low temperature co-fired ceramic (LTCC) technology was used in the design and fabrication of the high-temperature optocoupler package. The optimal coupling behaviors, driving capabilities and response speed of the optocouplers were concentrated and investigated in this paper. Emitters and detectors with different emission and spectral wavelengths were studied to achieve optimal coupling behaviors. Relatively high coupling efficiency is achieved with emitters and detectors of emission and spectral wavelength in the red spectrum (i.e., 620–750 nm), leading to higher current transfer ratios (CTR). To further enhance the electrical performance, optocouplers with multiple detectors in parallel were designed and fabricated. CTR, leakage current and response speed (i.e., propagation delay, rise time and fall time) of the optocouplers were characterized over a range of temperatures from 25 to 250 °C. The CTR degrades at high temperatures, while the leakage current and response speed show little degradation with varying temperatures. Furthermore, the behaviors of the optocouplers with varying temperatures are modeled and analyzed.

Published

2022

2. High-temperature analysis of optical coupling using AlGaAs/GaAs LEDs for high-density integrated power modules

Author

Syam Madhusoodhanan, Abbas Sabbar, Huong Tran, Pengyu Lai, David Gonzalez, Alan Mantooth, Shui-Qing Yu, and Zhong Chen

Subjects

Medicine, Science

Abstract

Abstract A low-temperature co-fired ceramic (LTCC)-based optocoupler design is demonstrated as a possible solution for optical isolation in high-density integrated power modules. The design and fabrication of LTCC based package are discussed. Commercially available aluminum gallium arsenide/gallium arsenide (AlGaAs/GaAs) double heterostructure is used both as emitter and photodetector in the proposed optocoupler. A detailed study on the electroluminescence and spectral response of the AlGaAs/GaAs structure is conducted at elevated temperatures. The material figure of merit parameter, D*, is calculated in the temperature range 77–800 K. The fabricated optocoupler is tested at elevated temperatures, and the results are presented.

Published

2022