自动化仪表
自動化儀錶
자동화의표
PROCESS AUTOMATION INSTRUMENTATION
2014年
6期
31-34
,共4页
最大功率点跟踪(MPPT)%电导增量法%系统误判%电流预测%变步长
最大功率點跟蹤(MPPT)%電導增量法%繫統誤判%電流預測%變步長
최대공솔점근종(MPPT)%전도증량법%계통오판%전류예측%변보장
Maximum power point tracking(MPPT)%Incremental conductance(INC) method%System misjudgment%Current forecasts%Variable step length
在太阳能最大功率点跟踪( MPPT)控制中,传统的扰动观察法( P&O)和电导增量法( INC)在跟踪精度和跟踪速度之间存在矛盾。当外界条件剧烈变化时,还可能产生误判而使跟踪失败。在简要论述误判发生的原因、电流预测的原理和变步长扰动特点的基础上,提出了一种基于电流预测和变步长相结合的INC,通过对传统的INC判据和变步长算法的改进,使MPPT控制的速度和精度均得到提升,并能有效避免系统的误判。仿真和试验证明,该方法较传统P&O 和INC有明显优势。
在太暘能最大功率點跟蹤( MPPT)控製中,傳統的擾動觀察法( P&O)和電導增量法( INC)在跟蹤精度和跟蹤速度之間存在矛盾。噹外界條件劇烈變化時,還可能產生誤判而使跟蹤失敗。在簡要論述誤判髮生的原因、電流預測的原理和變步長擾動特點的基礎上,提齣瞭一種基于電流預測和變步長相結閤的INC,通過對傳統的INC判據和變步長算法的改進,使MPPT控製的速度和精度均得到提升,併能有效避免繫統的誤判。倣真和試驗證明,該方法較傳統P&O 和INC有明顯優勢。
재태양능최대공솔점근종( MPPT)공제중,전통적우동관찰법( P&O)화전도증량법( INC)재근종정도화근종속도지간존재모순。당외계조건극렬변화시,환가능산생오판이사근종실패。재간요논술오판발생적원인、전류예측적원리화변보장우동특점적기출상,제출료일충기우전류예측화변보장상결합적INC,통과대전통적INC판거화변보장산법적개진,사MPPT공제적속도화정도균득도제승,병능유효피면계통적오판。방진화시험증명,해방법교전통P&O 화INC유명현우세。
In solar energy MPPT control, there are contradictions between tracking accuracy and tracking speed in traditional perturbation observation ( P&O ) method and incremental conductance ( INC ) method. Furthermore, when external conditions dramatically change, misjudgement may occur and lead to tracking fails. On the basis of brief description of the reasons of misjudgement, the principle of current prediction, and the features of disturbance with variable step lengths, the INC based on combination of current prediction and variable step length is proposed. Through improving the traditional INC criterion and variable step length algorithm, the control speed and accuracy of MPPT are upgraded, and misjudgement of the system can be avoided. The experimental simulation shows that the method proposed is obviously better than P&O and INC.
