Surinder KrishnaManuel L. Torreno Jr.Michael S. AdlerUSUS4958210 * Nov 20, 1989 Sep 18, 1990 General Electric Company High voltage integrated circuitsUS4958210 * 1989年11月20日 1990年9月18日 General Electric Company High voltage integrated circuits...
These circuits were implemented with 0.8μm CMOS/DMOS HV DALSA process. Simulation and experimental results prove the good functionality of the designed HV circuits using the proposed protection technique for voltages up to 200V. 展开 关键词: High voltage DMOS technology ICs for sensing applications...
New high voltage integrated circuits using self-shielding technique A self-shielding technique in a self-isolation structure which\nmakes it possible to obtain a high-voltage interconnection without\ndegrading the blocking capability of the electrical isolation structure\nhas been introduced and demonstr....
drive a high and a low side power MOSFET, a bootstrap circuit to energize the high side driver cell, a high voltage PMOS transistor (HVPMOS) between a voltage source and the bootstrap circuit, wherein the HVPMOS is embedded in an N-isolation layer and is integrated with the driver ...
The present invention relates to the field of integrated circuit test equipment, it aims to provide a high efficiency and good safety test integrated circuit high voltage high current testing device. 一种集成电路高压大电流测试装置,所述的集成电路高压大电流测试装置包括底板,送料轨道,安装板,金手指,...
Circuit analysis techniques for high-frequency integrated circuits; 6. Tuned power amplifier design; 7. Low-noise tuned amplifier design; 8. Broadband low-noise and transimpedance amplifiers; 9. Mixers, switches, modulators, and other control circuits; 10. Design of voltage-controlled oscillators; ...
SAN JOSE, Calif.--(BUSINESS WIRE)--Power Integrations (Nasdaq: POWI), the leader in high-voltage integrated circuits (ICs) for energy
A high-voltage semiconductor integrated circuit consists of an N- -type substrate, a P+-type diffusion layer formed on the surface region of the substrate, an N+-type
Circuit analysis techniques for high-frequency integrated circuits; 6. Tuned power amplifier design; 7. Low-noise tuned amplifier design; 8. Broadband low-noise and transimpedance amplifiers; 9. Mixers, switches, modulators, and other control circuits; 10. Design of voltage-controlled oscillators; ...
In a high-withstand-voltage integrated circuit, several circuits are included at different potentials. Each circuit of a different potential has a power source, and interface circuits mediate signals between the circuits of different potentials. By this design, the required number of high-withstand-vo...