用於低功耗蓝牙(BLE)无线体域网(WBAN)的超低功耗射频IPs与系统芯片平台

用於低功耗蓝牙(BLE)无线体域网(WBAN)的超低功耗射频IPs与系统芯片平台

  • 用於低功耗蓝牙(BLE)无线体域网(WBAN)的超低功耗射频IPs与系统芯片平台
    ART/180CP
    20140519 - 20160318
    12995

    温皓明博士
    a) A verified 0.18um test chip with BLE RF transceiver IPs blocks including Low Noise Amplifier (LNA), mixer, switched capacitor (SC) filter, digital Phase Locked Loop (PLL) and Power Amplifier (PA), BLE digital baseband IPs and BLE SoC peripheral IPs including oscillators, watchdog timer, low dropout regulator, power-on reset, temperature sensor, bandgap reference, 13-bit ADC, SPI and UART. b) An analogue PLL verilog model customized for Sytrons = contract service deliverable. c) A verified 0.18um BLE SOC engineering prototype which integrates the BLE RF transceiver, BLE digital baseband and BLE SOC peripheral IPs for stand-alone products. d) A verified 65nm test chip with BLE RF transceiver IPs blocks including Low Noise Amplifier (LNA), mixer, switched capacitor (SC) filter, digital Phase Locked Loop (PLL) and Power Amplifier (PA), BLE digital baseband IPs and BLE SOC peripheral IPs including oscillators, watchdog timer, low dropout regulator, power-on reset, temperature sensor, bandgap reference, 13-bit ADC, SPI and UART. e) A verified 65nm BLE SOC test chip which integrate the BLE RF transceiver, BLE digital baseband and BLE SOC peripheral IPs for combo chip applications. f) PCB demo module for testing the SOC communication with TI’s BLE SOC as a reference design including a subset of software protocol
    Ms Karen Wan Mr Bryce Yau Mr Andy Wu Dr Zuqiang Tang Mr Xiaoxiang Li Mr Tat Fu Chan Mr K C Wan Ms Gigi Chan Mr Henry Chiu Mr K C Au Mr Jacky Cai Mr Jeff Wong Mr Daniel Wong Mr Edward Wong Ms Sidar Lai Mr Eric Chan Ms Zoe Mak Mr Kai Man Ho Mr Johnny Chan Mr Ka Hung Kwok Mr Yat Tung Lai Mr Zhongliang Zhou
    IssumaTek (Licensee) [赞助机构] IssumaTek Co. Ltd [赞助机构] Sytron (Contract service) [赞助机构] Sytrons Development Company Limited The Imperial College of Science, Technology and Medicine

    本项目提出一个用於低功耗蓝牙(BLE)无线体域网(WBAN)的超低功率射频IPs 与系统芯片平台。目的是开发一个低功耗蓝牙(BLE)系统芯片。它包括身体传感器网络IPs,射频收发器,数字基带及BLE的协议栈一部分。该系统芯片可开发创新WBAN应用示範模块。该项目为期18个月,预算为14.689M。承诺的业界赞助是1.694M。它为本当地业界发展前沿WBAN产品提供了坚实的基础和基本模块。它具有显著的商业潜力和社会效益。