高精度穩(wěn)壓直流電源------外文翻譯 外文文獻.doc
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高精度穩(wěn)壓直流電源------外文翻譯 外文文獻,目前對于可調(diào)式直流電源的設計和應用現(xiàn)在有很多微妙的,多種多樣的,有趣的問題。探討這些問題(特別是和中發(fā)電機組有關),重點是在電路的經(jīng)濟適用性上,而不是要達到最好的性能。當然,對那些精聾@潭紉蠛芨叩某狻L致鄣奈侍獍ㄎ露認凳?,短普~?,壤@?,瞬态响应变性遥笧a涂豴reregualtor型機組及和它的性能特點有關的...
內(nèi)容介紹
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目前對于可調(diào)式直流電源的設計和應用現(xiàn)在有很多微妙的,多種多樣的,有趣的問題。探討這些問題(特別是和中發(fā)電機組有關),重點是在電路的經(jīng)濟適用性上,而不是要達到最好的性能。當然,對那些精聾@潭紉蠛芨叩某狻L致鄣奈侍獍ㄎ露認凳?,短普~疲繞?,瞬态响应变性遥笧a涂豴reregualtor型機組及和它的性能特點有關的的一些科目。
介紹
從商業(yè)的角度來看供電領域可以得到這樣一個事實,在相對較低的成本下就可以可以獲得標準類型的0.01%供電調(diào)節(jié)。大部分的供電用戶并不需要這么高的規(guī)格,但是供應商不會為了減少客戶這么一點的費用而把0.1%改成0.01%。并且電力供應的性能還包括其他一些因素,比如說線路和負載調(diào)解率。本文將討論關于溫度系數(shù)、短期漂移、熱漂移,和瞬態(tài)的一些內(nèi)容。
目前中等功率直流電源通常采用預穩(wěn)壓來提高功率/體積比和成本,但是只有某些電力供應采用這樣的做法。這種技術的優(yōu)缺點還有待觀察。
溫度系數(shù)
十年以前,大多數(shù)的商業(yè)電力供應為規(guī)定的0.25%到1%。這里將氣體二極管的溫度系數(shù)定位百分之0.01[1]。因此,人們往往會忽視TC(溫度系數(shù))是比規(guī)定的要小的?,F(xiàn)在參考的TC往往比規(guī)定的要大的多。為了費用的減少,后者會有很大的提高,但是這并不是真正的TC。因此,如果成本要保持在一個低的水平,可以采用TC非常低的齊納二極管,安裝上差動放大電路,還要仔細的分析低TC繞線電阻器。
如圖1所示,一個典型的放大器的第一階段,其中CR1是參考齊納二極管,R是輸出電位調(diào)節(jié)器。
Abstract-The design and application of highly regulated dc power supplies present many subtle, diverse, and interesting problems. This paper discusses some of these problems (especially inconnection with medium power units) but emphasis has been placed more on circuit economics rather than on ultimate performance.Sophisticated methods and problems encountered in connection with precision reference supplies are therefore excluded. The problems discussed include the subjects of temperature coefficient,short-term drift, thermal drift, transient response degeneration caused by remote sensing, and switching preregualtor-type units and some of their performance characteristics.
INTRODUCTION
ANY SURVEY of the commercial de power supply field will uncover the fact that 0.01 percent regulated power supplies are standard types and can be obtained at relatively low costs. While most users of these power supplies do not require such high regulation, they never-theless get this at little extra cost for the simple reason that it costs the manufacturer very little to give him 0.01 percent instead of 0.1 percent. The performance of a power supply, however, includes other factors besides line and load regulation. This paper will discuss a few of these-namely, temperature coefficient, short-term drift, thermal drift, and transient response. Present medium power dc supplies commonly employ preregulation as a means of improving power/v
介紹
從商業(yè)的角度來看供電領域可以得到這樣一個事實,在相對較低的成本下就可以可以獲得標準類型的0.01%供電調(diào)節(jié)。大部分的供電用戶并不需要這么高的規(guī)格,但是供應商不會為了減少客戶這么一點的費用而把0.1%改成0.01%。并且電力供應的性能還包括其他一些因素,比如說線路和負載調(diào)解率。本文將討論關于溫度系數(shù)、短期漂移、熱漂移,和瞬態(tài)的一些內(nèi)容。
目前中等功率直流電源通常采用預穩(wěn)壓來提高功率/體積比和成本,但是只有某些電力供應采用這樣的做法。這種技術的優(yōu)缺點還有待觀察。
溫度系數(shù)
十年以前,大多數(shù)的商業(yè)電力供應為規(guī)定的0.25%到1%。這里將氣體二極管的溫度系數(shù)定位百分之0.01[1]。因此,人們往往會忽視TC(溫度系數(shù))是比規(guī)定的要小的?,F(xiàn)在參考的TC往往比規(guī)定的要大的多。為了費用的減少,后者會有很大的提高,但是這并不是真正的TC。因此,如果成本要保持在一個低的水平,可以采用TC非常低的齊納二極管,安裝上差動放大電路,還要仔細的分析低TC繞線電阻器。
如圖1所示,一個典型的放大器的第一階段,其中CR1是參考齊納二極管,R是輸出電位調(diào)節(jié)器。
Abstract-The design and application of highly regulated dc power supplies present many subtle, diverse, and interesting problems. This paper discusses some of these problems (especially inconnection with medium power units) but emphasis has been placed more on circuit economics rather than on ultimate performance.Sophisticated methods and problems encountered in connection with precision reference supplies are therefore excluded. The problems discussed include the subjects of temperature coefficient,short-term drift, thermal drift, transient response degeneration caused by remote sensing, and switching preregualtor-type units and some of their performance characteristics.
INTRODUCTION
ANY SURVEY of the commercial de power supply field will uncover the fact that 0.01 percent regulated power supplies are standard types and can be obtained at relatively low costs. While most users of these power supplies do not require such high regulation, they never-theless get this at little extra cost for the simple reason that it costs the manufacturer very little to give him 0.01 percent instead of 0.1 percent. The performance of a power supply, however, includes other factors besides line and load regulation. This paper will discuss a few of these-namely, temperature coefficient, short-term drift, thermal drift, and transient response. Present medium power dc supplies commonly employ preregulation as a means of improving power/v