在典型的AC-DC开关电源(SMPS)中,交流电源经过整流和滤波后进入功率因数校正(PFC)级。然后,通过高频调制技术(有时为了减小变压器和电感元件的尺寸而使其超过1 MHz的频率)将其输送到具有所需电压和电流额定值的直流负载。 为了找到最好的应用解决方案,设计人员必须选择最佳功率拓扑(反激、降压或准谐振)或者实现(基于高度集成的转换器或使用离散功率开关和控制器),或者甚至决定使用先进的数字实现。 Read more
LLC谐振变换器
LLC转换器是一种有三个电抗元件的谐振转换器,通过半桥接或全桥接的开关网络将直流输入电压转换成方波并输入谐振槽路,以便有效地滤除谐波并提供正弦曲线电压和电流波形。这反过来输入变压器,以实现电压缩放和初级/次级隔离。对谐振槽路的谐振方波频率进行调制可控制转换器的功率流。 在LLC谐振转换器中,所有半导体开关是软开关或零电压开关(针对初级MOSFET而打开)和零电流开关(针对次级端整流器打开和关闭),从而导致较低的电磁辐射水平(EMI)。此外,它支持在磁性元器件中实现高度集成,帮助设计具有更高效率
View application PFC转换器-三相输入
Power Factor Correction is a technique of shaping input current to be as sinusoidal as possible to reduce harmonic distortion and associated losses and in-phase with input voltage in an AC circuit to have a power factor close to one. Placed as a fron
View application PFC转换器-单相输入
功率因数校正旨在将输入电流整形为正弦波,以减少谐波失真及其相关的损耗,并使交流电路中的功率因数接近1。 单相功率因数校正器位于功率相对较高的开关电源(SMPS)前端,可包含在满足特定要求的不同设计拓扑中。具有两个或多个小型交错式功率级的交错架构也有助于实现较高的功率密度。还可实现无桥拓扑,以进一步提高PFC和整流器前端组合的效率,并通过最小化线电流路径中的半导体器件数量来帮助减少导通损耗。
View application PS ZVS FB转换器
In a phase-shifting, zero voltage switching full-bridge converter, the two legs of the full-bridge are switched with two square waves whose phase shift is modulated by the converter’s control loop and the resulting square wave is fed into the primary
View application 双开关反激变换器
In a two-switch flyback topology, a high-side power MOSFET – placed between the input voltage rail and the transformer – and snubber diode are added to help overcome the limitations of conventional flyback topology as the overall voltage stress is eq
View application 双开关正激变换器
In a two-transistor forward or asymmetrical half bridge forward topology, the two transistors of the primary are switched on and power is transferred to the secondary winding of the transformer and then to the output capacitor and the load. When swit
View application 反激式变换器
在它的各种实现(包括初级侧和次级侧稳压、固定开关频率或准谐振模式)中,输出功率从几瓦到100瓦不等的离线转换器通常采用隔离或非隔离反激式拓扑。 电路运行基于单开关拓扑,当功率开关打开时,从输入端获得的能量存储在变压器的初级电感中,当功率开关关闭时,能量转移到次级输出端。 效率、功率密度和低待机功耗是反激式拓扑的关键要求,同时也是可靠性的要求。
View application 正激变换器
单开关正激转换器可有效替代隔离、离线、降压式转换器(高输出电流,要求在100到300W功率范围内电流隔离)中的单开关反激式拓扑。
View application 降压和降压升压变换器
基于buck(或降压式)、以及buck-boost(或升/降压式)拓扑的离线式转换器将电源转换为稳压直流输出(可以是正输出,也可以是负输出),无需隔离变压器,只需调节功率开关的占空比。 电感器件中的电流波形定义转换器的运行模式(当电感器件中的电流从未降到零时是连续模式,当电流在给定的时间间隔内保持为零时是不连续模式)、电感器件电流在某个点为零时的边界模式或过渡模式。这两种拓扑都可以使用低成本的电感器件进行能量存储和从输入到输出的转换。
View application Our products and solutions
Whatever their choice, the right semiconductor products are key to meeting their specific design targets. ST’s broad product portfolio includes highly-integrated AC-DC converters and controllers, silicon and silicon carbide (SiC) power MOSFETs and rectifiers, IGBTs, protection ICs and specifically designed digital controllers and STM32 microcontrollers. We also provide a comprehensive range of hardware and software evaluation and development tools including our eDesignSuite that helps engineers design high efficiency power supplies and converters.
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