2023年全國碩士研究生考試考研英語一試題真題(含答案詳解+作文范文)_第1頁
已閱讀1頁,還剩15頁未讀, 繼續(xù)免費閱讀

下載本文檔

版權(quán)說明:本文檔由用戶提供并上傳,收益歸屬內(nèi)容提供方,若內(nèi)容存在侵權(quán),請進行舉報或認(rèn)領(lǐng)

文檔簡介

1、<p>  Digital Drive Crane Hoist Conversion</p><p>  While working on the bridge of a crane, I remember feeling the intense heat of the speed reduction Resistors. I looked over the prints and tried to fi

2、gure out how to reduce this energy loss. As I understood, heat is the product of energy lost (). I was new to crane maintenance in 1990 and, having an electrical/electronic background,</p><p>  I believed ne

3、w technology existed. Several of the newer devices needed alternating current input. SCRs, VFDs and PMWs were becoming common acronyms in newer plants. The possibility of upgrading our pre-existing 250 VDC distribution w

4、as cost-prohibitive, Various transistors could run DC, but not at the ampere demands we needed. With crane panel replacement under consideration, we challenged our panel suppliers to develop new crane control technology&

5、lt;/p><p>  Digital Hoist Conversion</p><p>  Severstal North America Inc. is an integrated steel mill dating back to 1917, when Henry Ford built it to supply his Ford Motor Co. auto manufacturing

6、enterprise. It was operated as Ford Steel Division ur~ti11982, when it became Rouge Steel Co. In 2004, OAt Severstal Steel purchased the assets of Rouge Industries and Rouge Steel.</p><p>  Figure1.A digital

7、 drive controller was installed Figure2. Preliminary setup of DDC hoist panel</p><p>  on this 135-ton-capacity slab-handling crane</p><p>  The market price for steel was flat in the ear

8、ly part of the new millennium, forcing departmental groups to look for cost-saving improvements. One improvement was the installation of a new type of digital electronic control panel in 2003. This panel represented the

9、introduction of DC electronic crane control to Rouge Steel and the largest duplex crane hoist controller (dual 200-hp) of its type in North America.</p><p>  The original panels were built on a P&H 135-t

10、on slab-handling crane having standard DC hoisting contactor controls. They were industrial and functional, designed to handle the loads of this crane in 1972. The loads are greater now with heavier slabs, runing the cra

11、ne at maximum limits and higher production rates. This caused premature equipment failures and production down-time. With three aging cranes in this bay, maintenance costs were rising to new highs. Those involved in main

12、tenance were fi</p><p>  Figure3. Digital panel installed on crane trolley deck Figure4.Prewired resistors reduced start-up time</p><p>  A novel design approach was asked of the crane panel

13、manufactures. They replied with a proposed partnership and an effort to add some of the newest technology to the oldest methods of crane controls. The result was high-current transistor switching with a 250 VDC input. Th

14、e design was well-thought-out and included integrating the original motors, limits, switches and wiring. Now speeds are controlled by sending the motors only enough current to safely lift and lower the load. The motors a

15、re soft</p><p>  The new panels were designed for installation on the trolley deck, as opposed to the bridge deck.. This aids in troubleshooting and reduces excessive wiring mainly at the weak point of the c

16、able powertrack.. This allowed the time and ability to perform all setup work during mini-downturns without disabling the original hoist. The original panel was left in place as a backup, as failures could not be predict

17、ed. To date, the fail-safe panel has not been required.</p><p>  The panels were pre-wired and pre-tested prior to crane installation, further reducing crane downtime. When the transfer day came, only the ma

18、ster switch, motors and limit leads needed to be rerouted to the new system. On-the-job tuning and monitoring were vital for the first couple of days. It was important to have crane operators involved for that “personal

19、feel” and to obtain their buy-in to the project, to increase awareness and productivity. No-load and full-load current tests were run with</p><p>  An aded benefit to this control is the electrical current s

20、avings. Without reductin resistors for speed points, and with the added benefit of power produced when regenerative lowering, this single crane installation saves more than $25000 in electricity annually. This can be a v

21、ery important consideration if substation power is near critical usage levels. The demand this system imposes is much less than a similar contactor system. With energy costs on the rise, this is a concern for every proje

22、c</p><p>  How it works in the circuit is not unique. The insulated gate bipolar transistor(IGBT) takes the place of the contactors and acceleration resistors. As the master switch is selected for greater sp

23、eed, the circuitry triggers the transistor at a frequency(pulse width modulated) that allows current to flow through the IGBT. The current circulates in the standard series armature and series field along with the series

24、 brake. The longer the input is turned on, the higher the output average voltage (Fi</p><p>  Figure5.Example of energy saved during lowering sequence.</p><p>  The difference is noticed when th

25、e IGBT is in its off cycle(Figure 7). In this instance, the motor acts as a generator, producing circulating currents through the flyback diode and maintaining self-induced motor currents. This effect reduces ripple and

26、provides current that was not provided by the original power source. The reduction of current loads on system feeders and hardware further adds to the total savings package.</p><p>  The following items are

27、important considerations when determining if this system will work with an application.</p><p>  IGBTs are the newest part of the design that makes this panel work with 250 volts DC. They combine the advanta

28、ges of the bipolar transistor(high voltage and current) with the advantages of the metal oxide semiconductor field effect transistor(MOSFET)(low power consumtion and high switching). IGBTs are semiconductors that combine

29、 a high voltage and high current bipolar junction transistor(BJT) with a low-power and fast-switching MOSFET. Consequently, IGBTs provide faster speeds and better drive a</p><p>  Figure6.Hoist current flow

30、when the IGBT is on</p><p>  Figure7.Hoist continuing motor current flow when the IGBT is off.</p><p>  Heat sinking, including consideration of air temperature and air flow, is essential to the

31、 proper operation of any solid-state reply. It is necessary to rovide an effective means of removing heat from the IGBT. The importance of using a proper heat sink cannot be overstressed, since it directly affects the ma

32、ximum usable load current and maximum allowable ambient temperature. Up to 90 percent of the problems with transistors are directly related to heat. Lack of attention to this detail can resu</p><p>  Care mu

33、st be taken when mounting solid-state relays(SSRs) in a confined area. SSRs should be mounted on individual heat sinks whenever possible. SSRs should never be operated without proper heat sinking or in free air, as they

34、will thermally self-destruct under load. A simple way to monitor temperature is to slip a thermocouple under a mounting screw. If the base temperature does not exceed 45℃, the SSR is operating at its optimal level. Remem

35、ber that the heatsink removes the heat from the SSR a</p><p>  Figure8.IGBT and components mounted on heat Figure9.External mounted fans removed IGBT heat</p><p>  Figure10. Panel fans remove

36、d internal heat buildup Figure11. Semiconductor fuses provide the best protection for solid-state relays</p><p>  Motor switching and dynamic loads, such as motors and solenoids, can create special probl

37、ems for SSPs. High initial surge current is drawn because its star t-up impedance is usually very low. As a motor rotates, it develops a counter electromotive force (CEMF) that resists the flow of currenL This CEMF can a

38、lso add to the applied line voltage and create over-voltage conditions during turn-off and regenerative times. It should be noted that over-voltage caused by inductive voltage doubling or CEM</p><p>  Proble

39、ms encountered while running the200-hp dual drive were few hut worth mentioning. The program allows for setdng many variables (i.e., speed, currents, brake-open voltage). Most of these are detrimental to the drive or mot

40、or if set incorrectly. Although staying within the drive specifications is safe, this may not produce the desired actions. Ambient temperatures must also be considered, since most useful application are near higher-tempe

41、rature areas. Following are several problems(and solut</p><p>  Problem 1:The first problem presented itself when applying excessive brake-open curent. The direction contactors were flashed and pitted. Also,

42、 the emergency brake contactor appears bluish from high heat. Reducing brake-open current and power-on time to a shorter duration solved the problem.</p><p>  Problem 2:Hall effect transistors and IGBT were

43、thought to be faulty parts and/or wiring, but this could not be duplicated. Many suspect parts were replaced, but it was determined that internal panel ambient temperature was the problem. This was solved with cooling fa

44、ns on the doors and on the IGBT cooling fins.</p><p>  Problem 3:Temperature cutbacks usually led to errors. It was found that a new crane operator did not like operating the hoist at full speed. Longer run

45、time and higher IGBT cycles caused unnecessary heating in panels. Reducing field current settings eased this problem. This increased the lowering speeds but greatly reduced the IGBT voltage drop, in turn reducing its hea

46、t dissipation. Cooling fans eliminated the problem.</p><p>  Problem 4:All power must be disconnected from the line because all lines feed from a common bus capacitive filtering system. This means that the t

47、ypical way of “pulling motor disconnect and running the controls only” to troubleshoot does not work. The panel diagnostics and troubleshooting information provided is very helpful.</p><p>  Problem 5:Lack o

48、f electronic knowledge by the electricians is a concern. When production downtime is critical, the time to troubleshoot is a high-priced commodity. This ultimately puts pressure on the electricians, causing frustration.

49、The solutions was to ensure that the crew is involved Mth project design and installation. Training is vital. If the maintenance team is nat up to speed with the technology, failure is probable. Two training classes were

50、 held for all electrical team members.</p><p>  After one year, the actual materials maintenance and labor savings were calculated, with a payback of 6.2 months. Cost savings and efficiency gains were greate

51、r than expected. This led the way to the next drive conversion, which was scheduled for 2006. With a cooperative effort by salespersons, manufacturers, engineers and end-users, Severstal NA vastly improved its ability to

52、 compete successfully.</p><p>  Acknowledgments</p><p>  The author would like to acknowledge the efforts of former general supervisor Fred Schwartz and the crew at Severstal North America. With

53、out their help, the project may never have gotten this far.</p><p>  References</p><p>  1. Creech, R., 'Energy Savings -- DC Digital and DC Contactor Hoist Control System," Iron ~ Stee

54、l Technotogg, May 2005, pp. 225-228.</p><p>  2. http://ray.eeel.nist.gov/modval/database/contents/reports/igbt.html</p><p>  3. http://web.ece.umr.edu/computing/unix/software/matlab/toolbox/pow

55、ersys/igbt.html</p><p>  4. http://www.fujisemiconductor.com/old_pdf/app_ notes/r_ipm.pdf</p><p>  5. http://www.mathworks.com/access/helpdesk_r13/help/toolbox/physmod/powersys/igbt.html</p&g

56、t;<p>  數(shù)字機起重機提升轉(zhuǎn)換</p><p>  雖然工作在橋上的吊車,我記得感覺酷熱的速度減少電阻.我看著圖紙,并試圖弄清楚如何減少這種能源損失.正如我的理解一樣,熱是產(chǎn)品的能源損失( ) 。我是新來起重機維修工于1990年,并在電氣/電子背景下,我認(rèn)為新技術(shù)是存在的.一些較新的設(shè)備需要交流電輸送.在新工廠,SCRs , VFDs andPMWs已成為常用縮寫詞。在新的可能性下,提升我們的

57、預(yù)先分配現(xiàn)有的250伏直流電是成本過高.各種晶體管可以運行直流,但不能以安培的要求,.現(xiàn)在起重機小組正在考慮向我們的面板供應(yīng)商提出制定新的起重機控制技術(shù)。</p><p><b>  數(shù)字提升轉(zhuǎn)換</b></p><p>  韋爾北美公司是一家綜合鋼廠可以追溯到1917年,當(dāng)亨利福特建立它提供了福特汽車公司生產(chǎn)企業(yè). 在1982年之前,這是作為福特鋼司,之后改名為高棉

58、鋼公司。在2004年,俄羅斯謝韋爾鋼收購了高棉鋼鐵工業(yè)和高棉鋼公司。</p><p>  在新的千年年初,鋼鐵的市場價格持平,迫使部門團體尋求節(jié)省成本的改進。在2003年,一個改進的方法是安裝一種新型的數(shù)字式電子控制面板,這個小組代表介紹,在北美,直流電子起重機控制高棉最大的鋼鐵和全雙工起重機吊重機控制器(雙200馬力)的類型。</p><p>  圖1.數(shù)字硬盤控制器被安裝在這臺有

59、 圖2.初步安裝DDC的提升小組</p><p>  135噸板坯處理能力的起重機上 </p><p>  原來的面板上建立了一個P&H公司135噸板坯處理起重機在吊裝標(biāo)準(zhǔn)直流接觸器控制。它們的工業(yè)功能被設(shè)計用于處理負(fù)載的這臺于1972生產(chǎn)的起重機。在保證最高限額和更高的生產(chǎn)速度

60、之下,運行起重機的負(fù)載更大了就好比加了巨大的石板。這就造成早產(chǎn)和生產(chǎn)設(shè)備故障停機時間加大。三老化起重機在這灣,維修費用上升到新高。那些參與維修的人發(fā)現(xiàn),分銷商和制造商縮編或已停業(yè),使備件昂貴或過時。市場驅(qū)動的今天,迫使改變新技術(shù)。</p><p>  起重機面板制造商被要求需要一種新的設(shè)計方法。他們回應(yīng)在最基本的起重機控制上努力增加一些最新的技術(shù)。其結(jié)果是高電流晶體管開關(guān)的250伏直流電輸入。設(shè)計是經(jīng)過深思熟慮的

61、,其中包括整合原汽車,限制,交換機和擰。現(xiàn)在速度控制發(fā)送只夠目前的汽車安全升降機及降低負(fù)荷。電機軟停止(反向插入)前剎車密切。這樣可以節(jié)省的磨損部件,降低成本和提高生產(chǎn)效率。而不需要減少電阻,沒有能源浪費,最大限度地節(jié)約能源。小組安裝系統(tǒng)- 4起重機于2003年完成,目前仍在運行。結(jié)果表明,幾乎沒有順暢流動的能量損失(熱)。</p><p>  圖3.數(shù)字面板安裝在起重機小車甲板上 圖4.

62、預(yù)置電阻減少啟動時間</p><p>  新的面板設(shè)計為安裝在甲板上的小車,而不是橋面。這個故障排除和減少過多的電線主要是在于電纜的薄弱。在稍微衰退而停用原來的起重機,在這允許的時間和能力內(nèi)來執(zhí)行所有的安裝工作。原來的面板留在地方作為備用,失敗是無法預(yù)測的。迄今為止,面板沒有達到萬無一失要求。</p><p>  該小組的前有線和預(yù)先測試前,起重機安裝,進一步降低起重機停機。當(dāng)一天的轉(zhuǎn)讓中

63、,只有總開關(guān),汽車和限制導(dǎo)致需要轉(zhuǎn)移至新系統(tǒng)。在職調(diào)整和監(jiān)測至關(guān)重要的第一幾天。這是非常重要的吊機操作員參與的“個人感覺” ,并獲得他們的買進該項目,以提高認(rèn)識和生產(chǎn)力??蛰d和滿負(fù)荷運行試驗,目前取得極大的結(jié)果。</p><p>  一個附加的好處是這個控制電流儲蓄。沒有電阻減少的速度點和再生降低時,功率產(chǎn)生的附加的好處,這種單一的起重機安裝每年節(jié)省超過25000美元的電費。這是一個非常重要的事情是附近變電站電力

64、使用水平的關(guān)鍵。在實行這一制度的需求遠低于類似的聯(lián)系人制度。隨著能源成本上升,圖5顯示的一個例子電流儲蓄潛力比較接觸小組負(fù)載(頂部)到數(shù)字驅(qū)動負(fù)載(下)。</p><p>  如何運作的電路并不是獨一無二的。絕緣柵雙極晶體管( IGBT )取代電流接觸器和加速度電阻。作為主開關(guān)是選擇更大的速度,晶體管電路觸發(fā)的頻率( 脈寬調(diào)制) ,使電流流過IGBT的。目前流通中的標(biāo)準(zhǔn)系列電樞和一系列領(lǐng)域隨著一系列制動。投入的時

65、間越長,,輸出更高的平均電壓(圖6 ) 。高的電壓保證高馬力生產(chǎn)。此系統(tǒng)可以提供高扭矩,低電流(熱)由于電機再生的緣故。高速無負(fù)載時也可以完成。這在很大程度上是不可能實現(xiàn)的在原來的面板上。</p><p>  圖5.節(jié)省能源降低序列</p><p>  所不同的是發(fā)現(xiàn)時的IGBT是在其起飛周期(圖7 ) 。在這種情況下,電機作為發(fā)電機,產(chǎn)生循環(huán)電流通過反激式二極管和維護自誘導(dǎo)電動機電流。這

66、種效應(yīng)降低了紋波,并規(guī)定這是目前所無法提供的原始動力源。減少電流負(fù)載饋線系統(tǒng)和硬件進一步增加了總儲蓄封裝。</p><p>  下列項目是重要的考慮因素當(dāng)確定是否該系統(tǒng)將與應(yīng)用程序一起運作。</p><p>  IGBT是最新的部分設(shè)計,使得面板在250伏特直流下工作。他們結(jié)合了雙極型晶體管(高電壓和電流)的優(yōu)勢,金屬氧化物半導(dǎo)體場效應(yīng)晶體管( MOSFET )的電源(低功耗和高開關(guān)) 。

67、 IGBT是半導(dǎo)體,結(jié)合高電壓和高電流雙極型晶體管(雙極晶體管)的低功耗和快速開關(guān)的MOSFET 。因此, IGBT提供更快的速度和更好的驅(qū)動器和輸出特性比功率晶體管,并提供更高的電流能力比同等高功率晶體管。</p><p>  圖6.IGBT開啟時提升了電流</p><p>  散熱,包括考慮空氣溫度和空氣流通,是必不可少的正常運作的任何固態(tài)繼電器。有必要提供一種有效的手段,消除熱的IG

68、BT 。必要時,使用適當(dāng)?shù)纳崞膊贿^分,因為它直接影響最大可用負(fù)載電流和最高允許環(huán)境溫度。高達百分之九十的問題晶體管是直接相關(guān)的熱量。沒有注意這個細(xì)節(jié)可能會導(dǎo)致不適當(dāng)?shù)拈_關(guān)(鎖定) ,甚至完全破壞IGBT 。如果該設(shè)備以往的內(nèi)部溫度達到105攝氏度 ,這將是永久摧毀。一個韋爾北美公司遇到的問題,那是程序溫度在降低由于過度的熱量。當(dāng)電流減少到不能控制驅(qū)動器,它將會停止對軟件的限制。晶體管開發(fā)熱而導(dǎo)致的正向壓降通過路口的IGBT。除了這一

69、點,將導(dǎo)致熱量減少(軟件削減)的負(fù)載電流可處理。如果需求過大,該計劃旨在關(guān)閉。</p><p>  圖7.IGBT關(guān)閉時電機電流在繼續(xù)提升</p><p>  當(dāng)安裝固態(tài)繼電器(序列)在一個封閉的地區(qū)時,應(yīng)當(dāng)十分小心。只要有可能,固態(tài)繼電器應(yīng)安裝在單獨的散熱片上。序列不應(yīng)該沒有適當(dāng)?shù)牟僮骰蛏嶙杂煽諝?,因為它們將在這個負(fù)荷下自毀。一個簡單的方法來監(jiān)測溫度就是將在熱電偶下安裝螺釘。如果基溫度

70、不超過45攝氏度,是操作系統(tǒng)的SSR在其最佳水平。請記住,移除SSR的熱量和轉(zhuǎn)讓熱空氣中的電器附件。反過來,這必須空氣流通和轉(zhuǎn)讓其熱量到外面。噴口和強制通風(fēng)良好這一途徑來實現(xiàn)這個目標(biāo)。</p><p>  圖8. IGBT和元件安裝在散熱片上 圖9.在IGBT的外部安裝風(fēng)扇散熱 </p><p>  半導(dǎo)體引信是唯一可靠的方式來保護序列。他們也被稱為限流熔斷器

71、,提供極快的開放,同時限制讓通過遠低于目前的故障電流,可以摧毀半導(dǎo)體。這種類型的導(dǎo)火索往往是昂貴的,但比較便宜的損害可能發(fā)生,提供了一個手段,充分保護序列對高電流超載。一個保險絲評價是有用的幫助在適當(dāng)?shù)脑O(shè)計,SSR的能力是處理短路輸出條件。設(shè)備,如斷路器和熔斷器緩慢打擊不能作出迅速反應(yīng),足以保護SSR在短路條件和不推薦。每一個SSR有一個類別。這樣做是為了選擇一個引信匹配的能力,固態(tài)繼電器的同一時間。</p><p&

72、gt;  電機開關(guān)和動態(tài)載荷,如汽車和螺線管,可以建立特殊問題的序列。要注意高初始浪涌電流,因為它的啟動阻抗通常很低。作為電機轉(zhuǎn)動時,它開發(fā)了一個反電動勢( CEMF )來抵制流動的電流。這CEMF也可以添加到線電壓的應(yīng)用,并創(chuàng)造過電壓條件在關(guān)閉和再生次。應(yīng)當(dāng)指出的是,過電壓引起的感應(yīng)電壓一倍或CEMF從電機不能得到有效處理,增加電壓瞬態(tài)抑制器。抑制器,如金屬氧化物變阻器( MOVs )通常是專為簡短的高電壓尖峰,并可能被摧毀的持續(xù)高能

73、量傳導(dǎo)。電壓轉(zhuǎn)儲電阻可能需要在極端的情況下,應(yīng)設(shè)計,以滿足系統(tǒng)的需求。因此,重要的是序列中選出能承受的最高預(yù)期持續(xù)的電壓。</p><p>  圖10.面板風(fēng)扇散去內(nèi)部熱量積聚 圖11.安森美半導(dǎo)體提供最好的熔斷器保護固態(tài)繼電器</p><p>  遇到的問題,同時運行的200馬力的雙驅(qū)動器很少,但值得一提。該計劃允許設(shè)置許多變量(即,速度,電流,制動

74、初始電壓) 。大多數(shù)這些不利于驅(qū)動器或電機如果設(shè)置不正確。雖然留在驅(qū)動器的規(guī)格是安全的,這可能不會產(chǎn)生預(yù)期的行動。環(huán)境溫度也必須加以考慮,因為最有用的應(yīng)用是近高溫度區(qū)。以下是幾個問題(和解決方案)觀察在安裝過程中和試驗:</p><p>  (1)第一個問題出現(xiàn)當(dāng)提出過度制動初始電流。接觸了方向閃現(xiàn)和進站。此外,緊急制動接觸出現(xiàn)高熱量。減少制動初始電流和功率上的時間更短的時間解決了這個問題。</p>

75、<p>  (2)霍爾效應(yīng)晶體管和IGBT被認(rèn)為是錯誤的部分和/或線路系統(tǒng),但這無法復(fù)制的。許多人懷疑部分取代,但它的內(nèi)部面板確定,環(huán)境溫度是這個問題。這是解決散熱風(fēng)扇的入口和IGBT的散熱片的方法。</p><p>  (3)溫度削減通常導(dǎo)致錯誤。結(jié)果發(fā)現(xiàn),一個新的起重機操作員不喜歡經(jīng)營提升全速。長遠來說,時間和更高的IGBT周期中造成不必要的加熱板。減少外地當(dāng)前設(shè)置來緩解這一問題。這增加了降低速度

76、,但大大降低了IGBT的電壓下降,反過來又減少其散熱。冷卻風(fēng)扇來消除這個問題。</p><p>  (4)一切功能必須同線路分開,因為所有線路由一個共同的電容過濾系統(tǒng)提供。這意味著,典型的方式“拉電機斷開和運行控制只有”排查不工作。該小組的診斷和故障排除提供的信息是非常有幫助的。</p><p>  (5)缺乏電子知識的電工是一個關(guān)切的問題。當(dāng)生產(chǎn)停工是至關(guān)重要的,解決的時間是一個高價位的

77、商品。這最終對電工造成壓力,造成挫折。該解決方案是確保工作人員是參與項目的設(shè)計和安裝的工作中。培訓(xùn)是至關(guān)重要的。如果維修人員不是提高維修技術(shù)的速度,失敗是有可能的。兩個所有電氣團隊成員的培訓(xùn)班被成立了。</p><p>  一年后,維修的實際材料和勞動力節(jié)省了計算,回收期為6.2個月。節(jié)約成本和提高效率大于預(yù)期。這導(dǎo)致了下一個驅(qū)動器轉(zhuǎn)換,這是定于2006年。與合作努力的銷售商,制造商,工程師和終端用戶, 韋爾北美

78、公司那大大改善其競爭能力為競爭成功。</p><p><b>  致謝</b></p><p>  作者要感謝前總務(wù)主管弗雷德施瓦茲和韋爾北美公司全體工作人員的努力。沒有他們的幫助,該項目可能永遠不會走到這么遠的地步。</p><p><b>  參考資料</b></p><p>  1 克里奇,河

79、, “節(jié)能---直流數(shù)字和直流接觸器提升機控制系統(tǒng), ”鋼鐵學(xué)院, 2005年5月, 225-228頁。</p><p>  2 http://ray.eeel.nist.gov/modval/database/contents/reports/igbt.html</p><p>  3 http://web.ece.umr.edu/computing/unix/software/matl

80、ab/toolbox/powersys/igbt.html</p><p>  4 http://www.fujisemiconductor.com/old_pdf/app_notes/r_ipm.pdf</p><p>  5 http://www.mathworks.com/access/helpdesk_r13/help/toolbox/physmod/powersys/igbt.h

溫馨提示

  • 1. 本站所有資源如無特殊說明,都需要本地電腦安裝OFFICE2007和PDF閱讀器。圖紙軟件為CAD,CAXA,PROE,UG,SolidWorks等.壓縮文件請下載最新的WinRAR軟件解壓。
  • 2. 本站的文檔不包含任何第三方提供的附件圖紙等,如果需要附件,請聯(lián)系上傳者。文件的所有權(quán)益歸上傳用戶所有。
  • 3. 本站RAR壓縮包中若帶圖紙,網(wǎng)頁內(nèi)容里面會有圖紙預(yù)覽,若沒有圖紙預(yù)覽就沒有圖紙。
  • 4. 未經(jīng)權(quán)益所有人同意不得將文件中的內(nèi)容挪作商業(yè)或盈利用途。
  • 5. 眾賞文庫僅提供信息存儲空間,僅對用戶上傳內(nèi)容的表現(xiàn)方式做保護處理,對用戶上傳分享的文檔內(nèi)容本身不做任何修改或編輯,并不能對任何下載內(nèi)容負(fù)責(zé)。
  • 6. 下載文件中如有侵權(quán)或不適當(dāng)內(nèi)容,請與我們聯(lián)系,我們立即糾正。
  • 7. 本站不保證下載資源的準(zhǔn)確性、安全性和完整性, 同時也不承擔(dān)用戶因使用這些下載資源對自己和他人造成任何形式的傷害或損失。

最新文檔

評論

0/150

提交評論