在電源管理以及電網發展越顯重要的時代，電源供應器不再只是由硬體或簡單的控制系統所組成，電源供應系統透過通信及資料交換自成網絡，讓管理者能遠距監控。例如，在太空科技(如衛星電源控制等)以及有安全考量(如核電廠電源多重性控制等深度防禦設計之系統)此類的遠距監控系統下，如何能在遠端監控，並同時驗證複雜且多功能的電源管理系統將顯得非常重要。
本研究目的在設計一套測試系統，透過通訊遠端觀測軟硬體的動作結果來驗證或判別電源管理系統動作之正確性。測試裝備研製透過需求瞭解、概念設計、規格訂定、實體設計(軟體設計及硬體設計)等階段，以一套標準的程序來實現多重性電源測試。
此測試系統能即時擷取遙測(Telemetry)監控畫面配合硬體實際動作來證實電源模組處於何種狀態，此項功能讓測試者能即時而準確的判斷出電源管理系統軟硬體的狀態及缺失。並且為了驗證此電源管理系統的備援設計，測試系統除了由軟體來控制切換備援系統以外，亦平行設計了能獨立手動的硬體控制電路，達成了若測試軟體失效時，仍舊能有手動切換備援硬體電路功能的設計。

When the development of power management and smart grid become more and more important, power supply is not only composed of hardware and simple control systems. Power supply can form networks through communications and information exchange, and it can be remotely controlled by operators. Example of “smart” power supplies include the space technology ( like the power management of a satellite) and the remote control systems for safety issues (like the multiple and redundant power control system in a nuclear power plant). Therefore, how to remotely control and verify complex multiple-function power management systems will be critical.
The purpose for this thesis is to design a set of test systems. Through the software and hardware with remote communication, the correctness of power control and hardware system can be examined or identified. Furthermore, the test equipment are manufactured through the following steps: demand understanding, concept designing, and implementation ( including software and hardware design). Using a set of this test system can obtain telemetry monitoring pictures immediately. With these pictures and hardware actions, the user can examine the operating situations. This function can help testing staff immediately and correctly identify the software and hardware status and drawbacks. Moreover, in order to examine the redundancy design, the test system can be operated by software but also can be controlled manually to verify the functionalities of the redundant power.

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