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出 处:《电子技术应用》2016年第6期71-73,80,共4页Application of Electronic Technique
基 金:国家自然科学基金资助项目(61303253;61502476)
摘 要:测试验证是SoC设计过程中的重要步骤,针对穿戴式体域网基带SoC在验证中的测试向量复杂、射频可靠性要求高、结果多样化等挑战,设计并实现了体域网基带测试验证平台。在硬件设计上,采用高集成度FPGA(Altera Cyclone Ⅲ)、射频芯片(MAX2837)和混合信号前端芯片(MAX19712),提高了系统的可靠性;在软件上,设计了体域网数据流状态机,对体域网基带自动加载多种速率的数据流,验证其对多种健康信息的服务质量(QoS)。该验证平台已经针对自主开发的IEEE802.15.6基带进行了大量的测试验证工作,主要指标满足体域网基带芯片的验证需求,同时也可以扩展应用到其他近距离无线通信芯片的设计验证应用中。Verification test is an important step in the design process of the SoC. To solve the questions happened in the verifica-tion of the wearable Wireless Body Area Network( WBAN) baseband SoC, such as vector complex, high reliability of RF and results diversification,this paper designed and implemented a WBAN baseband verification platform. In the hardware,highly integrated FPGA( Altera- Cyclone Ⅲ), RF chip( MAX2837) and mixed- signal front- end chip( MAX19712) were used to Improve the reliability of the system. In the software, a WBAN ′ s data stream state machine was designed to load multi- rate data stream automatically, and veri-fy the Quality of Service(QoS). Currently, the platform accomplished a large number of test validation for the IEEE 802. 15. 6 base-band system which is developed independently by ourselves. The key indicators meet the needs of WBAN chip design verification,and also can be extended to verify other short- range wireless communication chips.
关 键 词:无线体域网 SOC验证 IEEE802.15.6基带 状态机 服务质量
分 类 号:TM932[电气工程—电力电子与电力传动]
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