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    • 6. 发明授权
    • Dual-band antenna system
    • 双频天线系统
    • US5652599A
    • 1997-07-29
    • US526814
    • 1995-09-11
    • Thomas A. PittaPaul E. PeterzellRichard K. KornfeldAna L. WeilandRaymond C. Wallace
    • Thomas A. PittaPaul E. PeterzellRichard K. KornfeldAna L. WeilandRaymond C. Wallace
    • H01P1/213H03H7/46H04B1/40H01Q1/50
    • H04B1/406H01P1/213H04B1/005H04B1/18H03H2007/386
    • A dual-band antenna system for use in a portable communications device is disclosed herein. The antenna system includes an antenna element for radiating electromagnetic energy within low-band and high-band wavelength ranges. In a preferred embodiment, a low-band isolator network, coupled to the antenna element, provides signal isolation between high-band and low-band signal paths during high-band operation. Similarly, a high-band isolator network provides signal isolation, during operation over the low-band range of wavelengths, between the high-band and low-band signal paths. During transmit and receive operation, low-band and high-band electromagnetic energy directed through the antenna is passed by the low-band and high-band isolator networks, respectively. Also included are low-band and high-band matching networks which couple the low-band and high-band isolator networks to low-band and high-band transceiver circuitry.
    • 本文公开了一种用于便携式通信设备的双频天线系统。 天线系统包括用于在低频带和高频带波长范围内辐射电磁能的天线元件。 在优选实施例中,耦合到天线元件的低频带隔离器网络在高频带操作期间在高频带和低频带信号路径之间提供信号隔离。 类似地,高带隔离器网络在高频带和低频带信号路径之间的低波段范围内的操作期间提供信号隔离。 在发射和接收操作期间,通过天线引导的低频带和高频带电磁能分别由低频带和高频带隔离网络传递。 还包括将低频带和高带隔离器网络耦合到低频带和高频带收发器电路的低频带和高频带匹配网络。
    • 7. 发明授权
    • Self-attenuating RF transceiver system using antenna and modem
interfaces and cable link
    • 自衰减RF收发系统采用天线和调制解调器接口和电缆链路
    • US5737687A
    • 1998-04-07
    • US398619
    • 1995-03-01
    • Christopher B. MartinRichard K. KornfeldSherman Gregory
    • Christopher B. MartinRichard K. KornfeldSherman Gregory
    • H04B1/06H04B1/38H04B7/00H04B7/005H04B3/36
    • H04W52/52H04B1/3877
    • A transceiver system for interfacing digital modems with radio frequency signals including an antenna, an antenna interface system and a modem interface system separated by a cable. The antenna is placed in a location having optimal reception and in close proximity to the antenna interface system. The cable couples the antenna interface system to the modem interface system. The modem interface system includes a two state variable attenuator and an attenuation register that are configured to either reduce the strength of the receive (Rx) signal when the modems are located near a base station, or to transmit the Rx signal without attenuation when the concentrated subscriber unit is at a more distant location. The outgoing, or transmit (Tx), signal is also attenuated in a similar manner to the incoming signal. A signal loss detection system includes a detector located in the modem interface system that receives an oscillating signal transmitted from the antenna interface system through the coaxial cable. A differentiating integrator then determines the amount of signal loss experienced by this oscillating signal during transmission through the coaxial cable and attenuates the signal from the antenna interface system accordingly so the amount of loss experienced remains constant. DC power is transmitted from the modem interface system to the antenna interface system through the coaxial cable. A maximum power limiting system detects when the signal being generated exceeds the capacity of the transmit power amplifier and transmits an alarm signal to the modem interface system.
    • 用于将数字调制解调器与包括由电缆隔开的天线,天线接口系统和调制解调器接口系统的射频信号进行接口的收发机系统。 将天线放置在具有最佳接收并且靠近天线接口系统的位置。 电缆将天线接口系统耦合到调制解调器接口系统。 调制解调器接口系统包括两个状态可变衰减器和一个衰减寄存器,其被配置为当调制解调器位于基站附近时降低接收(Rx)信号的强度,或者当集中 用户单元处于更远的位置。 输出或发送(Tx)信号也以与输入信号相似的方式衰减。 信号丢失检测系统包括位于调制解调器接口系统中的检测器,其接收通过同轴电缆从天线接口系统发送的振荡信号。 然后,微分积分器确定在通过同轴电缆传输期间该振荡信号所经历的信号损耗的量,并相应地衰减来自天线接口系统的信号,因此所经历的损耗量保持恒定。 直流电源通过同轴电缆从调制解调器接口系统传输到天线接口系统。 最大功率限制系统检测何时产生的信号超过发射功率放大器的容量,并向调制解调器接口系统发送报警信号。