搜索资源列表
SG3525
- 有关推挽开关电源设计的资料,可以驱动BUCk电路作为DCDC变换器 -The push-pull switching power supply design information, can drive BUCk DCDC converter circuit as
The-basis-of-DCDC-converter
- 降压DCDC转换器的基础,包括典型电路连接,参数的意义及选择,主要以XC9235/XC9236/XC9237系列为例-Step-down DCDC converter base, including a typical circuit connection, the significance of parameters and options, mainly XC9235/XC9236/XC9237 series, for example
DC-DC-converter-reference-design
- DC-DC转换设计参考资料,对DCDC开发人员很有用-DC-DC converter reference design
bi-directional-DCDC-converter
- 详细介绍了双向直流变化器的结构及控制技术,为电动汽车电池充放电系统的设计提供了一个很好的平台。-Details of the bi-directional changes of the structure and the DC control technology for electric vehicle battery charge and discharge system is designed to provide a good platform.
dc-dc-converter
- DCDC 低电压 高效率 仿真 layout -DCDC convertor low voltage high efficiency simulation layout
fuel-cell-DC-DC-converter
- PEMFC混合动力系统的DCDC变换器设计,包括建模和控制方法。-PEMFC hybrid system DCDC converter design, modeling and control methods.
dcdc-converter-for-fuel-cell-system
- 燃料电池前级DCDC变化器设计技术文章,可用MATLAB实现-Fuel cell level DCDC change design technical articles
DCDC
- DC/DC 变换器小信号建模是研究和分析其稳定性和瞬态响应的主要手段之一。针对单端正激变换器在一个周 期内开关管导通和关断两种工作状态,建立了连续工作模式下的平均状态方程;建立小信号模型设计并仿真控制环 路的幅频特性和相频特性-Small-signal Equivalent Circuit Modeling and Compensation Network Design of DC/DC Converter
dcdc-conv_flyback
- Flyback converter mathematical expressions
DCACSchematic
- DCDC 概述DC/DC转换器分为三类:降压型转换器(BUCK)、升压型转换器(BOOST)以及升降压型转换器(BUCK-BOOST)-DCDCDCDC overview of DC/DC converters are divided into three categories: buck converter (BUCK), boost converter (BOOST) and buck-boost converter (BUCK-BOOST)
dcdc
- 本系统的设计电路由AC-DC变换电路、DC-DC变换电路、设定与显示电路、保护和测量电路等四部分组成。-The system is designed circuit by AC-DC converter circuit, DC-DC converter circuit, four-part setting of the display circuit, protection and measuring circuit.
DC Grid
- Control of Improved Full-Bridge Three-Level DCDC Converter for Wind Turbines in a DC Grid
tidud04
- 此 2kW 隔离式双向直流/直流转换器参考设计 (TIDA-00951) 可在 400V 直流总线和 12 - 14 节锂电池组之间进行电力传输,可用于 UPS、电池备份和电力存储等应用。在备用模式下,此参考设计可用作采用 ZVS 技术的有源钳位升压转换器,将电源从 48V 电池传输至 400V 直流总线。当用作电压馈入式全桥电池充电器,从 400V 直流总线为 48V 电池充电时,此参考设计可实现大于 93% 的效率。此参考设计还设有内置直流总线和电池过流保护,并设有过压保护。(for a 2
三电平双向DCDC变换器及充放电控制
- 三电平双向DC/DC变换器及充放电控制设计(Three level bidirectional DC/DC converter and charge / discharge control design)