輸入電壓 5V/9V/12V/15V/24V DC 輸出電壓 3.3V/5V/9V/12V/15V/24V DC 如需其它規格,請咨詢順源科技公司 電氣特性 以下數據除特殊說明外,均是在TA=25° C, 標稱輸入電壓, 額定輸出電流時測得. 輸入特性 電壓范圍 +/- 10 % 濾波 陶瓷電容 隔離特性 額定電壓 1000 VDC 泄漏電流 1 m A 電阻 109 Ohm 電容 60 p TYP. 輸出特性 電壓精度 +/- 5 %, max. ( 20 MHz BW) 紋波及噪音 150mV p-p, max. 可持續短路時間 即時(
標簽: BxxxxLS-xW
上傳時間: 2014-09-09
上傳用戶:拔絲土豆
移動電源方案功能要求: 1、單芯片控制充電、升壓輸出、電量指示功能,輸出電流可達1A,效率90%以上 按開關鍵開機6燈頻閃幾次后待機, LI為充電指示,L2頻閃指示有輸出。L2I常亮為輸出充滿指示,L3-L6為電量指示。在輸出時L2頻閃。充電時LI頻閃。當有負載設備連接時自動輸出,無負載電流轉為待機。 當按開關工作后,無負載(無操作)10秒自動關機。 2、移動電源方案,單芯片控制為內電池充電、升壓輸出、電量顯示、邊充邊放;輸入電壓5V、300-1000MA,輸出電壓5V、;輸出電流可達1A,輸出效率90%以上 1)、電性能參數: USB輸入電壓:DC 5V 輸出DC5V
上傳時間: 2013-11-19
上傳用戶:wangfei22
該文提出一種新顆的三電平LLc串聯電流諧振型Dc,Dc變換器。每個主開關電壓應力是輸入電壓的一半,并且全范圍實現zvs而不用附加任何電路。整流二極管工作在zcs狀態。該變換器通過_次諧振的手段使得以較小的頻率變化范圍就可以實現較大的輸入輸出調節范圍。整個變換器只需一顆磁元件。
上傳時間: 2013-10-16
上傳用戶:604759954
內涵PCB及其原理圖(原PCB為crazyboye所制,Gavin盡量把雙面改一面,因為學校沒有制版機)
上傳時間: 2013-11-24
上傳用戶:674635689
隨著功率開關器件的發展,電力電子裝置日益小型化和高頻化,電氣性能大幅提高,但是隨之產生的高次諧波卻對電網造成嚴重污染。在電力電子設備中,整流器(AC/DC變流器)占有較大的比例,是主要的污染源。由于固態感應加熱電源對于電網呈現非線性特性,從電網中輸出的電流就不是標準的正弦曲線。高頻諧波電流對電力設施產生過熱或其他危害。 Boost電路應用到功率因數校正方面已經較為成熟,對于幾百瓦小功率的功率因數校正,常規的電路是可以實現的。但是對于大功率諸如感應加熱電源,還存在很多的實際問題。為了解決開關器件由于二極管反向恢復時產生的沖擊電流而易損壞的情況,減少開關器件在高頻下的開關損耗,本文采用一種無源無損緩沖電路取代傳統的LC濾波電路。在分析了軟開關電路的工作原理以及逆變模塊的分時-移相功率控制策略后,應用Matlab軟件進行了仿真,并通過實驗結果驗證了理論分析的正確性。
上傳時間: 2014-12-24
上傳用戶:RQB123
資料都是我搜集的,不是原創。供學習用
上傳時間: 2013-12-30
上傳用戶:ryb
Abstract: Rail splitting is creating an artificial virtual ground as a reference voltage. It is used to set the signalto match the op amp's "sweet spot." An op amp has the most linear- and distortion-free qualities at that sweetspot. Typically, the sweet spot occurs near the center between the single power rail and ground. In the case ofa number of signals, the virtual ground can control channel DC errors when multiplexing or switching thesignals.
上傳時間: 2013-10-23
上傳用戶:wushengwu
高的工作電壓高達100V N雙N溝道MOSFET同步驅動 The D810DCDC is a synchronous step-down switching regulator controller that can directly step-down voltages from up to 100V, making it ideal for telecom and automotive applications. The D810DCDC uses a constant on-time valley current control architecture to deliver very low duty cycles with accurate cycle-by-cycle current limit, without requiring a sense resistor. A precise internal reference provides 0.5% DC accuracy. A high bandwidth (25MHz) error amplifi er provides very fast line and load transient response. Large 1Ω gate drivers allow the D810DCDC to drive multiple MOSFETs for higher current applications. The operating frequency is selected by an external resistor and is compensated for variations in VIN and can also be synchronized to an external clock for switching-noise sensitive applications. Integrated bias control generates gate drive power from the input supply during start-up and when an output shortcircuit occurs, with the addition of a small external SOT23 MOSFET. When in regulation, power is derived from the output for higher effi ciency.
上傳時間: 2013-10-24
上傳用戶:wd450412225
Multiple-voltage electronics systems often requirecomplex supply voltage tracking or sequencing, whichif not met, can result in system faults or even permanentfailures in the fi eld. The design diffi culties in meetingthese requirements are often compounded in distributedpowerarchitectures where point-of-load (POL) DC/DCconverters or linear regulators are scattered across PCboard space, sometimes on different board planes. Theproblem is that power supply circuitry is often the lastcircuitry to be designed into the board, and it must beshoehorned into whatever little board real estate is left.Often, a simple, drop-in, fl exible solution is needed tomeet these requirements.
上傳時間: 2013-10-08
上傳用戶:15071087253
In a recent discussion with a system designer, the requirementfor his power supply was to regulate 1.5Vand deliver up to 40A of current to a load that consistedof four FPGAs. This is up to 60W of power that must bedelivered in a small area with the lowest height profi lepossible to allow a steady fl ow of air for cooling. Thepower supply had to be surface mountable and operateat high enough effi ciency to minimize heat dissipation.He also demanded the simplest possible solution so histime could be dedicated to the more complex tasks. Asidefrom precise electrical performance, this solution had toremovethe heat generated during DC to DC conversionquickly so that the circuit and the ICs in the vicinity do notoverheat. Such a solution requires an innovative designto meet these criteria:
上傳時間: 2013-11-24
上傳用戶:defghi010
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