科技通报
科技通報
과기통보
BULLETIN OF SCIENCE AND TECHNOLOGY
2015年
8期
93-95
,共3页
动态增益%控制%供电系统
動態增益%控製%供電繫統
동태증익%공제%공전계통
dynamic gain%control%power supply system
设计一种改进的市电闭环供电系统,提高系统的整流能力和电力稳定控制能力.传统的市电闭环供电系统采用单相桥式整流控制设计方案,不能有效满足市电稳定控制的需求.提出一种基于动态增益控制的市电闭环供电系统设计算法.进行市电闭环供电系统设计总体模型设计,构建单相桥式整流电容滤波电路,得到供电系统机组转动惯量通电线圈在高频下会产生欧姆损耗和辐射损耗,构建电闭环供电系统的定子结构和电机结构,分析供电系统的磁密分布特性,进行动态增益控制算法改进设计.仿真结果得出,设计的市电闭环供电系统能有效提高供电系统的转矩,进而提高输出功率,获得较高的闭环控制增益.
設計一種改進的市電閉環供電繫統,提高繫統的整流能力和電力穩定控製能力.傳統的市電閉環供電繫統採用單相橋式整流控製設計方案,不能有效滿足市電穩定控製的需求.提齣一種基于動態增益控製的市電閉環供電繫統設計算法.進行市電閉環供電繫統設計總體模型設計,構建單相橋式整流電容濾波電路,得到供電繫統機組轉動慣量通電線圈在高頻下會產生歐姆損耗和輻射損耗,構建電閉環供電繫統的定子結構和電機結構,分析供電繫統的磁密分佈特性,進行動態增益控製算法改進設計.倣真結果得齣,設計的市電閉環供電繫統能有效提高供電繫統的轉矩,進而提高輸齣功率,穫得較高的閉環控製增益.
설계일충개진적시전폐배공전계통,제고계통적정류능력화전력은정공제능력.전통적시전폐배공전계통채용단상교식정류공제설계방안,불능유효만족시전은정공제적수구.제출일충기우동태증익공제적시전폐배공전계통설계산법.진행시전폐배공전계통설계총체모형설계,구건단상교식정류전용려파전로,득도공전계통궤조전동관량통전선권재고빈하회산생구모손모화복사손모,구건전폐배공전계통적정자결구화전궤결구,분석공전계통적자밀분포특성,진행동태증익공제산법개진설계.방진결과득출,설계적시전폐배공전계통능유효제고공전계통적전구,진이제고수출공솔,획득교고적폐배공제증익.
An improved design of city electric closed-loop power supply system, improve the system of rectifying ability and stable power control capability. City Electric closed-loop power supply system using the traditional single-phase bridge rectifier control scheme, a receiver will high frequency sinusoidal alternating current when received, it cannot effectively meet the city electricity demand stability control. An electric City closed loop power supply system design algorithm based on dynamic gain control is proposed. Electrical design of city design of the overall model of closed loop supply system, con-struction of single phase bridge rectifier capacitor filter circuit, get the inertia unit power supply system of coil in high fre-quency can be generated under the ohmic loss and radiation loss, stator structure and motor structure electric closed-loop power supply system structure, analysis of the power supply system of magnetic density distribution characteristics, dynam-ic gain improvement of control algorithm design. Simulation results show, the city power close loop power supply system de-sign can effectively improve the torque of the power supply system, so as to increase the output power, the gain obtained higher closed loop control.