起而行電動充電柱

2023/07/21

簡介 Introductions

• 遠端雙向監控管理，突破傳統單向狀態監視限制，可同時進行控制與監視充電機的各個功能與狀態。
• 非均流動態配電，突破傳統電能管理的平均電流控制瓶頸，可進行非平均電流動態控制。
• 已提供廠商充電控制關鍵模組生產充電柱並進行設置，並協助國內業者開發符合國際規範之充電柱並投入台中、新北、台南先導運行專案。

• The Charging Communication Control Module for Electric Vehicles lets clients control and monitor the functions and statuses of the charger by remote two-way monitoring management. It also equipped with on-demand current distribution capability by dynamic current control that breaks through the bottleneck of mean current control in typical power management system.ITRI provides the key module to manufacturers for producing chargers, and has assisted the domestic suppliers to develop chargers compatible with international standards as well as join a pilot run project in the cities of Taichung, New Taipei City, and Tainan.

特色與創新 Characters and Innovations

台灣政府已宣示2040年達成汽車全面電動化目標，積極建構完善的電動車充電環璄。

Taiwan government has announced that it will achieve the goal of all new sale vehicles be powered by electricity in 2040 and actively set up charging infrastructures for operating electric vehicles.

研發little box電力轉換技術、散熱模組及溝通介面技術，進行小型化、智能化、高安全特規等產品模組開發，對應市場需求。

Research the technologies of the little box electric transfer, thermal modules, and communication interface, and develop the downsizing, intelligent, and high safety product module to meet the market requirements.

非均流充電專利技術(2案6件，已獲中/美/陸專利)，有效降低50%契約容量，使營運者獲利加倍

微漏電偵測、高環境耐受度(-40~70度)工程技術，使充電機通過台灣CNS認證，符合美國/歐洲/大陸規範

Non-uniform current charging technique (6 cases in 2 projects, TW/US/CN patent), and reduce 50% contract capacity to double benefit the operator.

Leakage current detection and wide ambient temperature range (-40°C ~ 70°C) could lead to certify CNS standards in Taiwan, and further meet the specifications from US/EUR/CN.

應用與效益 Applications and Benefits

透過軟體和智慧服務使智慧充電柱結合再生能源增加減碳效果，進一步整合發電、輸電、配電及用戶端的現代化電力網路，發展成智慧電網 (Smart Grid) 或微電網 (Microgrid) ，可達到削峰填谷效果以及提升使用端能源效率，達到最大減碳規模效益。

Through the software and intelligent service, the intelligent charger could reduce the carbon dioxide emissions by associating with the renewable energy. Furthermore, to develop as Smart Grid or Microgrid by integrating with electricity generation, electricity transmission, electric power distribution, and the modern client-side power grid. Hence, this technique could balance the uneven power demand and also enhance the efficiency of energy consumption to maximize the benefit of carbon dioxide emissions.