后勤工程学院学报
後勤工程學院學報
후근공정학원학보
JOURNAL OF LOGISTICAL ENGINEERING UNIVERSITY
2014年
3期
86-90,96
,共6页
任俊%张晓清%易斌%黄立川
任俊%張曉清%易斌%黃立川
임준%장효청%역빈%황립천
UPS%蓄电池%均衡%FPGA%NiosⅡ
UPS%蓄電池%均衡%FPGA%NiosⅡ
UPS%축전지%균형%FPGA%NiosⅡ
UPS%battery%equalization%FPGA%NiosⅡ
为消除UPS蓄电池组单体电池之间的容量差异,设计了一套基于均衡模块对称分布的充电均衡系统,并在此基础上提出了一种提高均衡效率的控制策略。主控芯片选用FPGA,通过定制PWM(脉宽调制)核,构建NiosⅡ嵌入式系统以控制整个均衡电路。实验结果表明,该系统能有效减小电池之间的容量差异,具有良好的均衡效果。
為消除UPS蓄電池組單體電池之間的容量差異,設計瞭一套基于均衡模塊對稱分佈的充電均衡繫統,併在此基礎上提齣瞭一種提高均衡效率的控製策略。主控芯片選用FPGA,通過定製PWM(脈寬調製)覈,構建NiosⅡ嵌入式繫統以控製整箇均衡電路。實驗結果錶明,該繫統能有效減小電池之間的容量差異,具有良好的均衡效果。
위소제UPS축전지조단체전지지간적용량차이,설계료일투기우균형모괴대칭분포적충전균형계통,병재차기출상제출료일충제고균형효솔적공제책략。주공심편선용FPGA,통과정제PWM(맥관조제)핵,구건NiosⅡ감입식계통이공제정개균형전로。실험결과표명,해계통능유효감소전지지간적용량차이,구유량호적균형효과。
In order to eliminate the capacity difference among battery cells in UPS, a battery charge equalization system is de-signed based on equalization circuit with equilibrium module symmetrically distributed, and a new equalization control strategy which can further improve the efficiency of equilibrium is proposed. FPGA is chosen as master control chip to regulate the whole equalizing circuit by customing PWM(pulse width modulation)core and constructing the NiosⅡembedded system. The result of experiment shows that the system can effectively reduce the capacity difference between battery cells, and also have a good equalizing effect.
