Authors designed an obstacle radar transceiver for ISM band. This work is focused on rectangular microstrip transceiver integrated with innovative metamaterial structure at a height of 3.276 mm from the ground plane. ...Authors designed an obstacle radar transceiver for ISM band. This work is focused on rectangular microstrip transceiver integrated with innovative metamaterial structure at a height of 3.276 mm from the ground plane. Two rectangular microstrip transceiver is designed for transmitting and receiving purpose. This work is mainly focused on increasing the potential parameters of rectangular microstrip transceiver. RMT along with the proposed innovative metamaterial structure is designed to resonate at 2.259 GHz. Simulation results showed that the impedance bandwidth of the RMT is improved by 575%, return loss is reduced by 391% and efficiency is improved by 28% by incorporating the proposed innovative metamaterial structure. For verifying that the proposed innovative metamaterial structure possesses negative values of Permeability and Permittivity within the operating frequency range, Nicolson-Ross-Weir method (NRW) has been employed. An op-amp and comparator is used to compare the return loss of transmitting and receiving RMT. An indicator is used to indicate difference of return loss and power of transmitting and receiving rectangular microstrip transceiver. For all simulation purpose, computer simulation technology-microwave studio (CST-MWS) software has been used.展开更多
针对微纳卫星的测控数传需求,利用业务无线电及ISM(Industrial-Scientific-Medical,工业-科学-医疗)频段和设备,设计了适用微纳卫星的便携式测控站,包括ISM和VHF/UHF(Very High Frequency/Ultra High Frequency,甚高频/超高频)2个通道;...针对微纳卫星的测控数传需求,利用业务无线电及ISM(Industrial-Scientific-Medical,工业-科学-医疗)频段和设备,设计了适用微纳卫星的便携式测控站,包括ISM和VHF/UHF(Very High Frequency/Ultra High Frequency,甚高频/超高频)2个通道;优选了COTS(Commercial Off The Shelf,商用现货)ISM通信电台和VHF/UHF全模式电台、VHF/UHF八木天线、S频段花瓣式网状抛物面天线等部组件,3副天线共用1个伺服机构;并对ISM和VHF/UHF信道的上/下行链路电平进行估算。结果表明:该多频段多通道便携测控站的设计方案可行性好,效费比高,并已在相关微纳卫星的测控应用中得到验证。展开更多
文摘Authors designed an obstacle radar transceiver for ISM band. This work is focused on rectangular microstrip transceiver integrated with innovative metamaterial structure at a height of 3.276 mm from the ground plane. Two rectangular microstrip transceiver is designed for transmitting and receiving purpose. This work is mainly focused on increasing the potential parameters of rectangular microstrip transceiver. RMT along with the proposed innovative metamaterial structure is designed to resonate at 2.259 GHz. Simulation results showed that the impedance bandwidth of the RMT is improved by 575%, return loss is reduced by 391% and efficiency is improved by 28% by incorporating the proposed innovative metamaterial structure. For verifying that the proposed innovative metamaterial structure possesses negative values of Permeability and Permittivity within the operating frequency range, Nicolson-Ross-Weir method (NRW) has been employed. An op-amp and comparator is used to compare the return loss of transmitting and receiving RMT. An indicator is used to indicate difference of return loss and power of transmitting and receiving rectangular microstrip transceiver. For all simulation purpose, computer simulation technology-microwave studio (CST-MWS) software has been used.
文摘针对微纳卫星的测控数传需求,利用业务无线电及ISM(Industrial-Scientific-Medical,工业-科学-医疗)频段和设备,设计了适用微纳卫星的便携式测控站,包括ISM和VHF/UHF(Very High Frequency/Ultra High Frequency,甚高频/超高频)2个通道;优选了COTS(Commercial Off The Shelf,商用现货)ISM通信电台和VHF/UHF全模式电台、VHF/UHF八木天线、S频段花瓣式网状抛物面天线等部组件,3副天线共用1个伺服机构;并对ISM和VHF/UHF信道的上/下行链路电平进行估算。结果表明:该多频段多通道便携测控站的设计方案可行性好,效费比高,并已在相关微纳卫星的测控应用中得到验证。