Here, from the above derivation, we can get the ripple factor of a full-wave rectifier is 0.48. Therefore it is very clear that in the o/p of this rectifier, the DC component is above the AC component. As a result, the pulsations within the o/p will be less than within half-wave ...
Thecharacteristics of the center tapped full wave rectifier includeripple factor, rectifier efficiency, PIV, DC o/p current, DC o/p voltage, RMS, VRMS, and form factor. Efficiency The efficiency of this rectifier specifies how the rectifier efficiently changes from AC to DC. Once the rectifier ...
It has been shown that the signals featuring high peak-to-average power ratio (PAPR) are able to improve RF-DC conversion efficiency in rectifier circuits. Several real-life RF-powered applications for different practical scenarios have recently been implemented and described in [24–26]. Particula...
Square wave signals SYNC1 and SYNC2 were obtained after the first-stage and second-stage amplifiers. The zero-crossing current signals were used to judge the function of the MOSFET switch in the synchronous rectifier. Figure 9. Power block diagram of the synchronous rectifier. 4.2. ...
3.1. Analysis of Output Voltage and Current Ripple of the Rectifier Bridge According to (9), the output voltage of the rectifier bridge is a DC component superimposed several times of AC harmonic components, so the DC component of the output voltage can be ignored when analyzing the harmonics ...
High-Efficiency AC-DC Switch Mode Power Supply Using Full-Bridge Converter Circuit. Int. J. Control Autom. 2014, 7, 189–200. [CrossRef] 11. Krismer, F.; Kolar, J.W. Accurate power loss model derivation of a high-current dual active bridge converter for an automotive application. IEEE...