本文選題：不間斷電源 + UPS系統(tǒng)��； 參考：《湖北工業(yè)大學》2017年碩士論文

【摘要】：隨著時代的不斷發(fā)展,科技變得越來越發(fā)達,尤其是以計算機技術以及互聯(lián)網技術為代表的先進技術更是實現了跨越式的發(fā)展。不僅如此,還催生出了很多新型的信息化技術,其中大數據技術、云技術就是其中典型的代表�？梢院敛豢鋸埖卣f未來時代的發(fā)展將會逐漸趨向大數據時代,在這種情況下,很多企業(yè)覓尋到其中的商機,開始將發(fā)展的重心逐漸轉移到云端業(yè)務。但是在這里需要著重強調的是要想高效、快速地承辦起云端業(yè)務,首先最重要的就是要擁有一個標準化的機房,因為只有憑借完善的硬件設施,才能夠進行相關業(yè)務的開展。但是要想創(chuàng)建一個完善的標準機房,電源可以說是其中不可或缺的設備之一,因為從某種程度上來說,這些設備均屬于用電設備,離開了電源就無法正常工作。而在不同的環(huán)境下,對于電源的要求也存在一定的差異;不僅如此,為了確保系統(tǒng)的安全穩(wěn)定運行,對于電源的要求也愈來愈苛刻,傳統(tǒng)的電源已經無法滿足市場的需求,因此急需一種新型電源的出現,在這種情況下,UPS電源(不間斷電源)便應用而生了,并且一經推出,就得到了業(yè)界專家學者的廣泛關注,實現了突飛猛進的發(fā)展。當下隨著時代的不斷發(fā)展,標準化機房對于電源的要求越來越高,因此基于上述背景,憑借卓越的性能,高頻UPS電源逐漸受到市場的歡迎。然而不得不承認的是此種電源也存在一定的缺陷以及不足之處,其主要體現在存在一定量的諧波。因此要想做到萬無一失,就必要進行諧波處理工作,以期能夠有效改進與完善輸入端的諧波因數。但是由于種種因素的影響,在此之前幾乎沒有任何企業(yè)以及個人對充電器實施針對性的功率因數校正處理�；谏鲜霰尘�,本次畢業(yè)設計主要詳細闡述了當下幾種常用的充電器線路,并在此基礎上,構建了一種新的充電器線路,以此來消除充電器諧波,進而確保系統(tǒng)安全穩(wěn)定運行。本次畢業(yè)設計主要深入探究了憑借BUCK架構為基礎,所構建的UPS系統(tǒng)新型充電器,此種類型的充電設備能夠借助單顆電感實現雙BUCK充電線路。就充電器線路來說,主要由正負兩部分構成,但是在這里需要著重強調的是這兩部分也有重疊的部分。其最顯著的特點是能夠整合UPS系統(tǒng),實現線路的調整。除此之外,整個線路構造較為簡單,且易于控制,成本較低、性能卓越、適用范圍較廣,因此具有廣闊的開發(fā)空間。本次畢業(yè)設計主要深入探究了UPS系統(tǒng)的內部構成,同時詳細闡述了各個功能模塊的相關特點以及工作原理,并且還全面分析對比了不同架構充電器的優(yōu)缺點。最后詳細闡述了新充電器的相關特征以及工作原理,同時對其硬件性能以及軟件性能進行了對此檢測試驗,結果發(fā)現新型充電器線路能夠改進UPS系統(tǒng)的數據,完全能夠符合市場實際需求。
[Abstract]:With the continuous development of the times, science and technology have become more and more developed, especially the advanced technology represented by computer technology and Internet technology. Not only that, but also a lot of new information technology, among which large data technology, cloud technology is a typical representative. It can be no exaggeration. In this case, in this case, many enterprises seek to find the business opportunities, and begin to shift the focus of development to the cloud business. However, it is important to emphasize the high efficiency and fast hosting of the cloud business. First, the most important thing is to have a standard. In order to create a perfect standard room, power can be said to be one of the indispensable equipment, because, to some extent, these devices are all electrical equipment, leaving the power can not work normally. In the same environment, there are certain differences in the demand for power supply. In addition, in order to ensure the safe and stable operation of the system, the demand for the power supply is becoming more and more demanding. The traditional power supply has been unable to meet the demand of the market. Therefore, a new type of power supply is urgently needed. In this case, the UPS power supply (uninterrupted power) will be applied. And born, and after the introduction of the industry experts and scholars have been widely concerned, to achieve rapid development. With the continuous development of the times, the standardization machine room for power supply is more and more high, so based on the above background, with excellent performance, high frequency UPS power is gradually welcomed by the market. However, it has to be supported by the market. It is recognized that there are some defects and shortcomings in this kind of power supply, which is mainly reflected in the existence of a certain amount of harmonics. Therefore, in order to achieve all the losses, it is necessary to carry out harmonic processing so as to improve and improve the harmonic factor of the input terminal effectively. However, there are almost no enterprises before it, because of the influence of various factors. Based on the above background, this graduation design mainly describes several current charger lines, and on this basis, a new charger circuit is constructed to eliminate the charger harmonics and ensure the safe and stable operation of the system. The design of the industry mainly deeply explores the new UPS system charger based on the BUCK architecture. This type of charging device can use a single inductor to realize the double BUCK charging line. For the charger line, it is mainly composed of positive and negative two parts, but it is important to emphasize that these two parts also have overlapping parts here. The most remarkable feature is that it can integrate the UPS system to realize the adjustment of the line. In addition, the whole line structure is simple, easy to control, low cost, excellent performance, wide application scope, so it has a broad development space. This graduation design is mainly to explore the internal structure of the UPS system, and elaborate the various aspects. The characteristics and working principles of the functional modules are also analyzed and compared with the advantages and disadvantages of different architecture chargers. Finally, the characteristics and working principles of the new charger are described in detail. At the same time, the hardware performance and the software performance are tested. The results show that the new charger line can improve the UPS system. The data of the system can fully meet the actual demand of the market.

【學位授予單位】：湖北工業(yè)大學
【學位級別】：碩士
【學位授予年份】：2017
【分類號】：TM910.6

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