應用於智能家居的中距離無線電能傳輸技術 (ART/222CP)

應用於智能家居的中距離無線電能傳輸技術 (ART/222CP)

  • 應用於智能家居的中距離無線電能傳輸技術 (ART/222CP)
    ART/222CP
    平台
    20 / 03 / 2017 - 19 / 09 / 2018
    10,854

    史訓清博士

    1. Report on the platform establishment of medium-range wireless power transfer technology for smart home application, including: User requirements, feasibility and IP analyses for high-Q resonator (e.g., rigid or flexible substrate), automatic impedance matching (e.g., devices, sensors, passive components, matching algorithm) and wireless quick charging circuit; Tx / Rx IC design and verification; Sensors, components & power modules design methodologies and tools. [Completion Date: 6 months after the project start] 2. Report on the development of medium-range wireless power transfer system for smart home applications, including: High-Q resonator structure (e.g., rigid or flexible substrate) design, modeling & simulation, prototype sample builds, performance testing & evaluation; Automatic impedance matching (e.g., devices, sensors, components, algorithms) circuit design, high power current sensor & high voltage tunable capacitor design, modeling & simulation, prototype sample builds, and performance testing & evaluation; Tx / Rx IC tape-out and performance testing & evaluation; Wireless quick charging circuit design, modeling & simulation, prototype sample builds, and performance testing & evaluation. [Completion Date: 12 months after the project start] 3. Report on the integration of the medium-range wireless power transfer product for smart home applications, including: Tx/Rx IC samples with the output power >= 33W; Integrated system with the output power >= 33W, simultaneous PRUs >= 7 and distance >= 150mm; System field test results and long-term reliability evaluation; Sensors, components & power modules manufacturing process recipes, reliability tests and failure analyses. [Completion Date: 18 months after the project start] 4. Contract Service Deliverables with Customer (1) : Report on the design, sample build and testing of wireless charging module for consumer electronic applications. [Completion Date: 18 months after the project start] 5. Contract service deliverables with customer (3) : (a) Design report on power module and control circuit module including interconnect design, substrate design, package design, and electrical modeling & simulation. (b) Report on engineering sample build, electrical testing and performance evaluation of power module and engineering sample build of control circuit module. [Completion Date: 15 months after the project start]1. Report on the platform establishment of medium-range wireless power transfer technology for smart home application, including: User requirements, feasibility and IP analyses for high-Q resonator (e.g., rigid or flexible substrate), automatic impedance matching (e.g., devices, sensors, passive components, matching algorithm) and wireless quick charging circuit; Tx / Rx IC design and verification; Sensors, components & power modules design methodologies and tools. [Completion Date: 6 months after the project start] 2. Report on the development of medium-range wireless power transfer system for smart home applications, including: High-Q resonator structure (e.g., rigid or flexible substrate) design, modeling & simulation, prototype sample builds, performance testing & evaluation; Automatic impedance matching (e.g., devices, sensors, components, algorithms) circuit design, high power current sensor & high voltage tunable capacitor design, modeling & simulation, prototype sample builds, and performance testing & evaluation; Tx / Rx IC tape-out and performance testing & evaluation; Wireless quick charging circuit design, modeling & simulation, prototype sample builds, and performance testing & evaluation. [Completion Date: 12 months after the project start] 3. Report on the integration of the medium-range wireless power transfer product for smart home applications, including: Tx/Rx IC samples with the output power >= 33W; Integrated system with the output power >= 33W, simultaneous PRUs >= 7 and distance >= 150mm; System field test results and lo

    廣東風華高新科技股份有限公司
    斯貝克動力電子(香港)有限公司
    上海卓弘微系统科技有限公司


    無線電能傳輸,因其相對傳統有線技術更為優良的靈活性和可移動性,被認為是一項具有廣泛應用前景的新技術。無線電能傳輸是一項基礎性科技,可移植到多種電子產品中,對整個電子工業都將產生深遠的影響。然而,現有的感應式無線電能傳輸技術仍具有不少缺點,例如:充電距離短,充電角度固定,以及僅限單負載等。因此,業界需要更先進的長期解決方案。 本項目提出的中等距離無線電能傳輸方案是基於磁場耦合共振理論,將在4個方面開發創新性的技術,包括自適應阻抗匹配電路(感測器件、匹配電路及控制演算法)、均勻磁場分佈的諧振器件、快速無線充電電路和支援更大功率的無線充電IC。本項目擬開發出發射功率大於33瓦,充電距離約15cm,支援多個接收器同時工作的中等距離無線充電模塊,建立起一個支援不同類型的產品應用的無線充電技術平台。 無線電能傳輸具有一個快速增長的全球市場,其2020年總產值預計可達120億美元。本項目開發的無線充電模塊,既可以安裝在智慧家居或公共場所,為用戶提供充電便利;又可以內置於可穿戴電子、移動終端、智能製造、電動汽車等多個領域,為本土及海外市場帶來較大的經濟回報與社會效益。