| Distributed power systems, compared with the centralized ones, possess lots of merits in capability, reliability, redundancy, and modularity. They are widely utilized in the cases of high current and high power in order to achieve high efficiency, high availability, low-cost maintenance, and low-cost upgrade. Among the existing configurations of them, the parallel one is the most commonly used. By adopting the parallel configuration, the risky high-current stresses of the systems can be safely shared by several power modules (PMs) of the same low power rating. However, in practice, few PMs can be identical due to manufacture tolerance and aging. When the non-identical PMs are paralleled together, how to even the load-current distribution among them becomes an important issue. In order to achieve a perfect current distribution, an amount of current-sharing (CS) techniques, including the ones about active current programming, have been developed and improved. Up to now, they are directly applied into the PMs. Further for the sake of the system availability, in most cases, between the paralleled PMs and the common load an ORing-MOSFET circuit is inserted. It can offer many protection functions like under voltage protection (UVP) and over voltage protection (OVP) so that the faulty PMs can be detected and isolated from the system.; When the CS techniques are directly applied into the ORing-MOSFET circuits, they evolve into the CS control interface circuits. The content of this thesis is about the design of the CS control interface circuits. All the CS control loops are placed in the CS interface circuit. The voltage-regulating control loops in the paralleled PMs and the CS control loops in the CS interface circuit are connected in cascade, which makes it possible to design and optimize these two kinds of the control loops relatively independently. All the CS control interconnections exist inside of the CS interface circuit. No interconnection fault will happen to harm the system reliability. It becomes possible to connect and disconnect the paralleled PMs while the system is hot and operative. Although newly-developing, the CS interface circuits are expected to become popular for the high-availability parallel PM systems. |
