哈尔滨理工大学学报
哈爾濱理工大學學報
합이빈리공대학학보
JOURNAL OF HARBIN UNIVERSITY OF SCIENCE AND TECHNOLOGY
2001年
2期
99-103
,共5页
曾鸣%王慧敏%张东纯%苏宝库
曾鳴%王慧敏%張東純%囌寶庫
증명%왕혜민%장동순%소보고
激磁电源%闭环控制%正余弦精密基准
激磁電源%閉環控製%正餘絃精密基準
격자전원%폐배공제%정여현정밀기준
因为设计高精度的闭环激磁电源正、余弦精密基准是保证闭环激磁电源性能指标的关键,所以采用可靠的分频技术和可编程逻辑芯片技术,以确保设计电路的稳定性和可靠性.运行实践证明:该设计方法能满足系统精度指标的要求.
因為設計高精度的閉環激磁電源正、餘絃精密基準是保證閉環激磁電源性能指標的關鍵,所以採用可靠的分頻技術和可編程邏輯芯片技術,以確保設計電路的穩定性和可靠性.運行實踐證明:該設計方法能滿足繫統精度指標的要求.
인위설계고정도적폐배격자전원정、여현정밀기준시보증폐배격자전원성능지표적관건,소이채용가고적분빈기술화가편정라집심편기술,이학보설계전로적은정성화가고성.운행실천증명:해설계방법능만족계통정도지표적요구.
It is the key factor of guaranteeing the performance index of the excitation power supply system that has been designed for the sine and cosine precision reference of high precision excitation power supply with closed loop control. The paper adopts reliable frequency division technique and programmable logic device technique, insures the stability and reliability of designed circuits. The long period usage indicates the validity of the design method and satisfies the requirements of the system precision index.
