Issue link: https://resources.mouser.com/i/1512203
30 The results show that a major contribution to the losses is given by the bridge rectifier along with the Schottky diode D2, both used for reverse polarity protection. Both components could be replaced with a similar circuit based on MOSFET transistors and an ideal diode controller to gain higher efficiency without losing this type of protection. At higher currents, the contribution of the DC resistance of the coupled inductors used for input and output supply filtering becomes dominant, so to improve current capability, similar inductors with higher current ratings are also needed. Conclusion Industry 4.0 is pushing the boundaries of intelligent automation. ADI Trinamic technology used along with the ADIN1100, ADIN1110, and 10BASE-T1L transceivers enable the remote control of sensors and actuators up to 1700 m from their controller without requiring power at the edge. With a reliable method of remote control, stepper motors can easily be controlled in real-time at longer distances without sacrificing any performance or speed. Systems solutions are paving the way toward an industrial transformation that promises unprecedented response times along with maximum performance capabilities. 6 Figure 6: Power losses for each passive component, as a function of current. ADI | Engineering a More Sustainable Future Adobe Stock / Monsitj – stock.adobe.com