本文主旨為研製以數位訊號處理器為基礎的雙向能量控制儲能系統，因家庭用電會有尖峰時段與離峰時段或者電價高低的不同，故本文的儲能系統應用於智慧家庭內用來協助家庭電能管理系統進行電力調配。系統架構包括雙向全橋式換流器、直流鏈電容、雙向直流轉換器及蓄電池。本文的特色為可依據家庭電能管理系統對儲能系統所做的能量排程結果，經由雙向的功率轉換器來即時性調整蓄電池的充/放電量，達到即時性的家庭電能管理進而提高削峰填谷的效果減少用戶端的購電成本。
本文的電路控制策略：雙向全橋式換流器使用預測式電流控制法控制市電端電流進行總能量控制，操作模式分為市電併聯模式與功率因數修正模式。市電併聯模式：將直流鏈電容的能量透過換流器換流產生與市電相同振幅與頻率的交流電。功率因數修正模式：將市電的能量透過換流器整流後饋送至直流鏈電容端。而雙向直流轉換器介於蓄電池與直流鏈電容間，操作模式分為昇/降壓模式，透過比例積分穩壓機制負責直流鏈電容穩壓。
本文以高性能的數位信號處理器(德州儀器生產的TMS320F28335)做為整體系統的控制核心，整體系統的能量管理及控制策略皆由軟體完成達到數位化控制，減少硬體電路降低成本。本文已完成350W且雙向輸出能量控制之儲能系統，實驗結果驗證本文理論分析及控制策略的正確性與可行性。

The objective of this thesis was to develop an “Energy Storage System with Bidirectional Energy Control” based on conventional Digital Signal Processor. For household electricity, there will be some difference due to peak/light load or higher/lower electric rate, so the Energy Storage System in this thesis was applied in smart home to support Home Energy Management System to adjust and allocate power. The Energy Storage System includes bidirectional full bridge inverter, DC bus capacitor, bidirectional DC converter and battery. The feature of this system is to use the bidirectional power converter to adjust the charging/discharging time of the battery according to the energy plan scheduled by the Home Energy Management System to achieve instant home energy management and then enhance peak-shaving effect in order to reduce power usage and cost.
The control strategy of the circuit is to use the bidirectional full bridge inverter with Predictive Current Control method to dispatch the current from the AC-grid. The operating mode can be divided into Grid-Connected mode and Power Factor Correction mode. While Grid-Connected mode enables the inverter to invert the power of the DC bus capacitor through the inverter to generate sinusoidal wave identical to the AC-grid, Power Factor Correction mode enables the inverter to rectify the power of the AC-grid through the inverter and feed it to the DC bus capacitor. On the other hand, the bidirectional DC converter is placed between the battery and the DC bus capacitor, and the operation mode can be set into Buck/Boost converter mode to regulate the voltage of the capacitor by using PI voltage regulation technique.
The central core of the Energy Storage System is a high-efficiency Digital Signal Processor (TMS320F28335 produced by Texas Instruments.) The energy management and control strategies were accomplished by software in order to reduce the cost of hardware circuitry. Furthermore, this thesis has designed a 350W “Energy Storage System with Bidirectional Energy Control” and proved the feasibility of the thesis.

[1]Kim H-S, Ryu M-H, Baek J-W and Jung J-H,“ High-Efficiency Isolated Bidirectional AC-DC Converter for a DC Distribution System,” IEEE Transactionson on Power Electronics, vol.28, no.4, pp.1642-1654, Apr. 2013.
[2]王宗瑋，「家庭能源管理即時性需量因應之研究」，國立台灣科技大學電機工程系碩士論文，民國102年。
[3]梁育誠，「蓄電池儲能系統之功率轉換器研製」，國立台灣科技大學電機工程研究所碩士論文，民國102年。
[4]鄭凱方，「主動式功因修正電路模型建立與設計」，國立中山大學電機工程研究所碩士論文，民國94年。
[5]Wei H, Batarseh I, Zhu G and Kornetzky P,“ A single-switch AC- DC converter with power factor correction,” IEEE Transactions on Power Electronics, vol.15, no.3, pp.421-430, May. 2000.
[6]江建成，「單級功因修正反馳式電源轉換器製作」，國立中山大學電機工程研究所碩士論文，民國96年。
[7]EPARC，「電力電子學綜論」，第二版.全華科技圖書股份公司，民國96年。
[8]江炫樟，「電力電子學」，第三版.全華科技圖書股份有限公司，民國82年。
[9]梁適安，「交換式電源供給器之理論與實務設計」，第二版.全華科技圖書股份公司，民國97年。
[10]姜士凱，「預測式電流控制之雙向換流器研製」，國立中正大學電機工程研究所碩士論文，民國97年。
[11]莊育庭，「具雙向功率控制之儲能系統研製」，國立台灣科技大學電機工程研究所碩士論文，民國103年。
[12]Y-M Chen, K-Y Liu, S-K Chiang and Y-R Chang,“ Bi-directional grid-tied inverter with predictive current control,” IEEE Energy Conversion Congress and Exposition, pp.916-919, Sep. 2009.
[13]Y-T Chang and Y-S Lai,“ Parameter Tuning Method for Digital Power Converter With Predictive Current-Mode Control,” IEEE Transactions on Power Electronics, vol.24, no.12, pp.2910-2919, Dec. 2009.
[14]謝宏燦，「基於DSP控制之獨立型太陽能供電系統」，國立台灣科技大學電機工程研究所碩士論文，民國98年。
[15]黃德銘，「併網型可規劃輸出功率之單向變流器研製」，國立台灣科技大學電機工程研究所碩士論文，民國103年。
[16]Kim J, Choi J and Hong. H,“ Output LC filter design of voltage source inverter considering the performance of controller,” International Confer ence on Power System Technology, vol.3, pp.1659- 1664, 2000.
[17]張瑞騏，「雙向換流器之功因修正模式數位化控制」，國立中正大學電機工程研究所碩士論文，民國99年。
[18]Gegner J-P and Lee C-Q,“ Linear peak current mode control: a simple active power factor correction control technique for continuous condu ction mode,” Power Electronics Specialists Conf erence,1996. PESC'96 Record., 27th Annual IEEE, vol.1, pp.196- 202, Jun. 1996.
[19]S-Y Hui, H-S Chung and S-C Yip,“ A Bidirectional AC-DC Power Converter With Power Factor Correction,” IEEE Transactions on Power Electronics, vol.15, no.5, pp.942-948, Sep. 2000.
[20]Z Yap and L Xiao,“ Control of Single Phase Grid-Connected Inverters With Nonlinear Load,” IEEE Transactions on Industrial Electronics, vol.60, no.4, pp.1384-1389, Apr.2013.
[21]林政達，「數位式市電併聯型換流器與快速鎖相迴路控制器之研製」，國立雲林科技大學電機工程研究所碩士論文，民國92年。
[22]B Yang, W Li, Y Zhao and X He,“ Design and Analysis of a Grid- Connected Photovoltaic Power System,” IEEE Transactions on Power Electronics, vol.10, no.4, pp.992-1000, Apr. 2010.
[23]楊孟勳，「市電併聯模式之雙向換流器研製」，國立中正大學電機工程研究所碩士論文，民國99年。
[24]Silva S-M, Lopes B-M, Filho B-J, Campana R-P and Bosventura W-C,“ Performance evaluation of PLL algorithms for single phase grid-connected systems,” IEEE Industry Applications Conference, vol.4, pp.2259-2263 and pp.3-7, Oct. 2004.
[25]D Dong, F Luo, D Boroyevich and P Mattavelli,“ Leakage Current Reduction in a Single-Phase Bidirectional AC-DC Full-Bridge Inverter,” IEEE Transactions on Power Electronics, vol.27, no.10, pp.4281-4291, Oct. 2012.
[26]張晉銘，「單相換流器市電併網控制系統之研製」，國立台灣科技大學電機工程研究所碩士論文，民國98年。
[27]T-F Wu, K-H Sun, C-L and Kuo,C-H Chang,“ Predictive Current Controlled 5-kW Single-Phase Bidirectional Inverter With Wide Inductance Variation for DC-Microgrid Applications,” IEEE Trans actions on Power Electronics, vol.25, no.12, pp.3076-3084, Dec. 2010.
[28]B Yu and L Chang,“ Improved Predictive Current Controlled PWM for Single-Phase Grid-Connected Voltage Source Inverters,” Power Electr onics Specialists Conference, PESC '05. IEEE 36th, pp.231- 236, June. 2005.
[29]Rodriguez J, Pontt J, Silva C-A, Correa P, Lezana P, Cortes P and Ammann U,“ Predictive Current Control of a Voltage source Inverter,” IEEE Transactions on Industrial Electronics, vol.54, no.1, pp.495-503, Feb. 2007.
[30]童世承，「直流系統雙向電路轉換器之研究」，逢甲大學電機工程研究所碩士論文，民國99年。
[31]J Zhang, J-S Lai and W Yu,“ Bidirectional DC-DC converter modeling and unified controller with digital implementation,” Applied Power Electronics Conference and Exposition, APEC. Twenty-Third Annual IEEE, pp.1747-1753, Feb. 2008.
[32]Hang C-C, Astrom K-J and Ho W-K,“ Refinements of the Zigeler -Nichols tuning formula,” IEEE Proceedings on Control Theory and Applications, vol.138, no.2, pp.111-118, Mar. 1991.
[33]吳財福、陳裕愷、張健軒，「太陽光電能供電與照明系統綜論」，全華科技圖書股份公司，民國96年。
[34]德州儀器生產的數位信號處理器TMS320F28335規格，取自官方網站上： www.ti.com/product/tms320f28335.