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公司基本資料信息
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EtherNet/IP網(wǎng)絡(luò)提供一系列通用的特性和服務(wù),并降低成本。當(dāng)用戶進(jìn)行控制、組態(tài)和采集數(shù)據(jù)的時(shí)候,
可以很容易地管理從車間底層到頂層的信息并無縫地將它們集成為一個(gè)完整的系統(tǒng)。
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變頻器輸出為PWM波,含有較多的高次諧波。變頻功率傳感器通過對(duì)輸入的電壓、電流信號(hào)進(jìn)行交流采樣,再將采樣值通過電纜、光纖等傳輸系統(tǒng)與數(shù)字量輸入變頻功率分析儀,數(shù)字量輸入變頻功率分析儀對(duì)電壓、電流的采樣值進(jìn)行運(yùn)算,可以獲取電壓有效值、電流有效值、基波電壓、基波電流、諧波電壓、諧波電流、有功功率、基波功率、諧波功率等參數(shù)。
同整流器相反,逆變器是將直流功率變換為所要求頻率的交流功率,以所確定的時(shí)間使6個(gè)開關(guān)器件導(dǎo)通、關(guān)斷就可以得到3相交流輸出。以電壓型pwm逆變器為例示出開關(guān)時(shí)間和電壓波形。
控制電路是給異步電動(dòng)機(jī)供電(電壓、頻率可調(diào))的主電路提供控制信號(hào)的回路,它有頻率、電壓的“運(yùn)算電路”,主電路的“電壓、電流檢測電路”,電動(dòng)機(jī)的“速度檢測電路”,將運(yùn)算電路的控制信號(hào)進(jìn)行放大的“驅(qū)動(dòng)電路”,以及逆變器和電動(dòng)機(jī)的“保護(hù)電路”組成。
(1)運(yùn)算電路:將外部的速度、轉(zhuǎn)矩等指令同檢測電路的電流、電壓信號(hào)進(jìn)行比較運(yùn)算,決定逆變器的輸出電壓、頻率。
(2)電壓、電流檢測電路:與主回路電位隔離檢測電壓、電流等。
(3)驅(qū)動(dòng)電路:驅(qū)動(dòng)主電路器件的電路。它與控制電路隔離使主電路器件導(dǎo)通、關(guān)斷。
(4)速度檢測電路:以裝在異步電動(dòng)機(jī)軸機(jī)上的速度檢測器(tg、plg等)的信號(hào)為速度信號(hào),送入運(yùn)算回路,根據(jù)指令和運(yùn)算可使電動(dòng)機(jī)按指令速度運(yùn)轉(zhuǎn)。
(5)保護(hù)電路:檢測主電路的電壓、電流等,當(dāng)發(fā)生過載或過電壓等異常時(shí),為了防止逆變器和異步電動(dòng)機(jī)損壞
變頻器(Variable-frequency Drive,縮寫:VFD),也稱為變頻驅(qū)動(dòng)器或驅(qū)動(dòng)控制器,可譯作Inverter(和反變器的英文相同)。變頻器是可調(diào)速驅(qū)動(dòng)系統(tǒng)的一種,是應(yīng)用變頻驅(qū)動(dòng)技術(shù)改變交流電動(dòng)機(jī)工作電壓的頻率和幅度,來平滑控制交流電動(dòng)機(jī)速度及轉(zhuǎn)矩[1][2]:p210–215[3][4]:p4,最常見的是輸入及輸出都是交流電的交流/交流轉(zhuǎn)換器。
在變頻器出現(xiàn)之前,要調(diào)整電動(dòng)機(jī)轉(zhuǎn)速的應(yīng)用需透過直流電動(dòng)機(jī)才能完成,不然就是要透過利用內(nèi)建耦合機(jī)的VS電動(dòng)機(jī),在運(yùn)轉(zhuǎn)中用耦合機(jī)使電動(dòng)機(jī)的實(shí)際轉(zhuǎn)速下降,變頻器簡化了上述的工作,縮小了設(shè)備體積,大幅度降低了維修率。不過變頻器的電源線及電動(dòng)機(jī)線上面有高頻切換的訊號(hào),會(huì)造成電磁干擾,而變頻器輸入側(cè)的功率因素一般不佳,會(huì)產(chǎn)生電源端的諧波。
變頻器的應(yīng)用范圍很廣,從小型家電到大型的礦場研磨機(jī)及壓縮機(jī)。全球約1/3的能量是消耗在驅(qū)動(dòng)定速離心泵、風(fēng)扇及壓縮機(jī)的電動(dòng)機(jī)上,而變頻器的市場滲透率仍不算高。能源效率的顯著提升是使用變頻器的主要原因之一。
變頻器技術(shù)和電力電子有密切關(guān)系,包括半導(dǎo)體切換元件、變頻器拓?fù)洹⒖刂萍澳M技術(shù)、以及控制硬件及固件的進(jìn)步等。
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^ Campbell, Sylvester J. Solid-State AC Motor Controls. New York: Marcel Dekker, Inc. 1987: 79–189. ISBN 0-8247-7728-X.
^ 2.0 2.1 2.2 Jaeschke, Ralph L. Controlling Power Transmission Systems. Cleveland, OH: Penton/IPC. 1978.
^ 3.0 3.1 Siskind, Charles S. Electrical Control Systems in Industry. New York: McGraw-Hill, Inc. 1963: 224. ISBN 0-07-057746-3.
^ 4.0 4.1 4.2 NEMA Standards Publication. Application Guide for AC Adjustable Speed Drive Systems. Rosslyn, VA USA: National Electrical Manufacturers Association (now The Association of Electrical Equipment and Medical Imaging Manufacturers). 2007 [Mar. 27, 2008].
^ Campbell, pp. 79-83
^ Bose, Bimal K. Power Electronics and Motor Drives : Advances and Trends. Amsterdam: Academic. 2006: 22. ISBN 978-0-12-088405-6.
^ 8.0 8.1 8.2 8.3 Bartos, Frank J. AC Drives Stay Vital for the 21st Century. Control Engineering (Reed Business Information). Sep. 1, 2004.
^ Eisenbrown, Robert E.. AC Drives, Historical and Future Perspective of Innovation and Growth. Keynote Presentation for the 25th Anniversary of The Wisconsin Electric Machines and Power Electronics Consortium (WEMPEC). University of Wisconsin, Madison, WI, USA: WEMPEC. May 18, 2008: pp. 6–10 [Mar. 28, 2008].
^ Jahn, Thomas M.; Owen, Edward L. AC Adjustable-Speed Drives at the Millennium: How Did We Get Here?. IEEE Transactions on Power Electronics (IEEE). Jan. 2001, 16 (1): 17–25. doi:10.1109/63.903985.
^ Basics of AC drives. Hardware-Part 2: slide 2 of 9. [Apr. 18, 2012].
^ Bose, Bimal K. Adjustable Speed AC Drive Systems. New York: IEEE Press. 1980. ISBN 0-87942-146-0.
^ Bose (2006), p. 183
^ Campbell, pp. 82–85
^ Bose, Bimal K.PEIA 2011 - Workshop on Power Electronics for Insdustrial Applicationa and Renewable Energy Conversion. Doha,Qatar. 12. 2011 [Feb.8, 2012].
^ Basics of AC Drives, p. Programming: slide 3 of 7
^ Basics of AC Drives, p. Hardware - Part 2: slide 7 of 9
^ Cleaveland, Peter. AC Adjustable Speed Drives. Control Engineering (Reed Business Information). Nov. 1, 2007.
^ Campbell, pp. 107-129
^ 24.0 24.1 Basics of AC Drives, pp. Hardware - Part 1: slides 9-10 of 11
^ Energy Regeneration, slide 3
^ Energy Regeneration, slide 6
二年正月甲寅,降死罪,流以下原之。乙卯,劉展伏誅。二月己未,奴剌、黨 項(xiàng)羌寇寶雞,焚大散關(guān),寇鳳州,刺史蕭忄曳死之,鳳翔尹李鼎敗之。戊寅,李光 弼及史思明戰(zhàn)于北邙,敗績。思明陷河陽。癸未,貶李揆為袁州長史。河中節(jié)度使 蕭華為中書侍郎、同中書門下平章事。乙酉,來瑱及史思明戰(zhàn)于魯山,敗之。三月 甲午,史朝義寇陜州,神策軍節(jié)度使衛(wèi)伯玉敗之。戊戌,史朝義殺其父思明。李光 弼罷副元帥。四月己未,吏部侍郎裴遵慶為黃門侍郎、同中書門下平章事。乙亥, 青密節(jié)度使尚衡及史朝義戰(zhàn),敗之。丁丑,袞鄆節(jié)度使能元皓又?jǐn)≈H晌纾瑒δ?東川節(jié)度兵馬使段子璋反,陷綿州,遂州刺史嗣虢王巨死之,節(jié)度使李?yuàn)J奔于成都。 五月甲午,史朝義將令狐彰以滑州降。戊戌,平盧軍節(jié)度使侯希逸及史朝義戰(zhàn)于幽 州,敗之。庚子,李光弼為河南道副元帥。劍南節(jié)度使崔光遠(yuǎn)克東川,段子璋伏誅。 七月癸未朔,日有食之。八月辛巳,殿中監(jiān)李國貞都統(tǒng)朔方、鎮(zhèn)西、北庭、興平、 陳鄭、河中節(jié)度使。九月壬寅,大赦,去“乾元大圣光天文武孝感”號(hào),去“上元” 號(hào),稱元年,以十一月為歲首,月以斗所建辰為名。賜文武官階、勛、爵,版授侍 老官,先授者敘進(jìn)之。停四京號(hào)。
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