便携式电子器件(如智能手机、GPS导航系统和平板电脑)的电源可以来自低压太阳能电池板、电池或AC/DC电源。电池供电系统通常将电池串联叠置以实现更高的电压,但由于空间不足,此技术未必总是可行。开关转换器使用电感的磁场来交替地存储电能,并以不同电压释放至负载。因为损耗很低,所以开关转换器是个不错的高效率选择。连接至转换器输出端的电容可减少输出电压纹波。升压转换器提供较高的输出电压;而应用笔记AN-1125(如何运用DC-DC降压调节器)所讨论的降压转换器则提供较低的输出电压。内置FET作为开关的开关转换器称为开关调节器,需要外部FET的开关转换器则称为开关控制器。
上传时间: 2013-11-04
上传用户:edisonfather
Battery powered applications that have a signifi cantamount of time in standby mode, require electrical circuitsto operate with a low quiescent current to preserve batterylife. The LTC3835 synchronous step-down controlleris an excellent solution with its ultralow quiescent current(80μA). Other features make it uniquely qualifi ed tosatisfy the needs of automotive applications. A wide 4Vto 36V input voltage range protects the supply againsthigh input voltage transients and is compatible with lowvoltage cold crank conditions. The constant frequencycurrent-mode architecture with high-side inductor current
上传时间: 2013-11-20
上传用户:stewart·
A number of conventional solutions have been available forthe design of a DC/DC converter where the output voltageis within the input voltage range—a common scenarioin Li-Ion battery-powered applications—but none werevery attractive until now. Conventional topologies, suchas SEPIC or boost followed by buck, have numerousdisadvantages, including low effi ciency, complex magnetics,polarity inversion and/or circuit complexity/cost. TheLTC®3785 buck-boost controller yields a simple, effi cient,low parts-count, single-converter solution that is easyto implement, thus avoiding the drawbacks associatedwith traditional solutions.
上传时间: 2013-10-21
上传用户:ljt101007
Many telecommunications and computing applicationsneed high effi ciency step-down DC/DC converters thatcan operate from a very low input voltage. The highoutput power synchronous controller LT3740 is idealfor these applications, converting input supplies rangingfrom 2.2V to 22V to outputs as low as 0.8V with loadcurrents from 2A to 20A. Applications include distributedpower systems, point-of-load regulation and conversionof logic supplies.
上传时间: 2013-11-05
上传用户:zhf01y
Today’s computer, datacom, and telecom systems demandpower supplies that are effi cient, respond quicklyto load transients and accurately regulate the voltageat the load. For example, load current can be measuredby using the inductor DCR, thus eliminating the needfor a dedicated sense resistor. Inductor DCR sensingincreases effi ciency—especially at heavy load—whilereducing component cost and required board space.The LTC®3856 single-output 2-phase synchronous buckcontroller improves the accuracy of inductor DCR sensingby compensating for changes in DCR due to temperature.
上传时间: 2013-11-05
上传用户:guobing703
High voltage buck DC/DC controllers such as the LTC3890(dual output) and LTC3891 (single output) are popular inautomotive applications due to their extremely wide 4V to60V input voltage range, eliminating the need for a snubberand voltage suppression circuitry. These controllersare also well suited for 48V telecom applications whereno galvanic isolation is required.
上传时间: 2013-10-31
上传用户:wwwe
功能简述:本控制器采用微控制器控制,其功能如下:1. 12V/24V 蓄电池自动识别2. 自动开关灯智能感知外界光线,天黑时延时自动开启路灯,天亮时自动关闭路灯3. 自动充放电(以12V 蓄电池为例)进入白天后太阳能电池板电压高于蓄电池电压时自动进入充电状态,充电至蓄电池电压高于14.4V 就进入涓流状态充电。而当天黑且蓄电池电压高于10.6V 就允许向LED 放电。4. 蓄电池保护(以12V 蓄电池为例):当蓄电池电压低(低于10.6V)时,会自动关闭路灯,防止过放,以保护电池。当电池充满(14.4V)时,会停止其他充电状态,而进入涓流充充电状态,以防止过充。5. 采用PWM 调光技术对LED 路灯进行调光,可以和各种可调光恒流源匹配工作。6. 为了节能而调光,可以有各种节能调光模式,以实现不同程度的节能。
上传时间: 2013-11-07
上传用户:wyc199288
XRP7714是一款四输出脉宽调制(PWM)分级降压(step down)DC-DC控制器,并具有内置LDO提供待机电源。该器件在单个IC上为电池供电的产品提供了整套的电源管理方案,并且通过内含的I2C串行接口进行整体的编程配置。XRP7714器件的每一路输出电压的编程范围是0.9V~5.1V,此范围内无需外部分压器。可编程DPWM开关频率的范围从300kHz到1.5MHz,使用户能够在效率和元件大小之间取得最优方案。为了让用户能够在设计的多路电源XRP7714系统能够取得最优的方案,下文将详细的介绍影响XRP7714系统效率的参数设置以及外围器件的选型。
上传时间: 2013-10-31
上传用户:chendawei
在LED太阳能路灯系统中,本方案用于跟踪太阳能电池板的最大功率,以最大效率为蓄电池充电。基于MPPT控制器NCP1294的参考设计最大功率点追踪误差小于5%,可以为串联或并联的四个电池充电,能配置10W到30W的太阳能电池板。MPPT控制器即最大功率点跟踪控制器。
上传时间: 2013-10-31
上传用户:JIMMYCB001
时序电源控制器是本公司生产的具有自动按时间次序开关的电源控制切换设备。当操作员发出电源开的触发控制命令时,控制器将按时间次序顺序打开1至8路电源;当操作员发出电源关的触发控制命令时,控制器将按时间次序顺序关闭8至1路电源,从而实现电源的顺序开关控制。
上传时间: 2014-01-22
上传用户:wxqman
