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    • 1. 发明授权
    • Method and apparatus for monitoring frequency synthesizer locking time
    • 用于监控频率合成器锁定时间的方法和装置
    • US5982812A
    • 1999-11-09
    • US856257
    • 1997-05-14
    • John W. MensonidesBruce G. WarrenAlan F. Jovanovich
    • John W. MensonidesBruce G. WarrenAlan F. Jovanovich
    • H03L7/095H03L7/18H04L25/64H04L27/00H03L7/00H04B1/06H04B1/18
    • H03L7/095H03L7/18H04L27/0014H04L2027/0016
    • A frequency synthesizer circuit comprises a controller, a synthesizer and a voltage controlled oscillator are used to generate an oscillating signal in response to external commands. The synthesizer provides a lock detect signal to the controller when the synthesizer detects that the oscillating signal has reached a desired frequency following application of a load signal. A first timer, a second timer, and a counter are adapted to receive the load signal and the lock detect signal. The first timer provides a first measurement corresponding to an amount of time between the load signal and a first receipt of the lock detect signal. The second timer provides a second measurement corresponding to an amount of time between the load signal and a final receipt of the lock detect signal. The counter provides a count value corresponding to a total number of times that the lock detect signal is received inclusive of the first receipt and the final receipt of the lock detect signal. A memory device is coupled to each of the first timer, second timer, and counter, which has a data storage portion for storing the first measurement, second measurement and count value.
    • 包括控制器,合成器和压控振荡器的频率合成器电路用于响应于外部命令产生振荡信号。 当合成器在施加负载信号后检测到振荡信号达到期望的频率时,合成器向控制器提供锁定检测信号。 第一定时器,第二定时器和计数器适于接收负载信号和锁定检测信号。 第一定时器提供对应于负载信号和锁定检测信号的第一次接收之间的时间量的第一测量。 第二定时器提供对应于负载信号和锁定检测信号的最终接收之间的时间量的第二测量。 计数器提供对应于接收到锁定检测信号的总次数的计数值,包括第一次接收和锁定检测信号的最终接收。 存储器件耦合到第一定时器,第二定时器和计数器中的每一个,其具有用于存储第一测量值,第二测量值和计数值的数据存储部分。
    • 3. 发明授权
    • RF narrowband/wideband discriminating system for spread spectrum signal differentiation
    • 用于扩频信号分化的RF窄带/宽带鉴别系统
    • US06327312B1
    • 2001-12-04
    • US09103422
    • 1998-06-24
    • Alan F. JovanovichJohn W. MensonidesBruce G. Warren
    • Alan F. JovanovichJohn W. MensonidesBruce G. Warren
    • H04L2706
    • H04L27/0012
    • A radio receiver discriminates between narrowband and wideband radio frequency (RF) signals on the basis of the rate of increase of the integrated energy level of the received signal. The receiver comprises a receive section adapted to receive and downconvert RF input signals to intermediate frequency (IF) signals, and a received signal strength indicator coupled to the receive section and providing a receiver energy signal corresponding to the energy of the IF signals. A discrimination section receives the energy signal, and determines whether the RF input signals are narrowband or wideband by detecting the rate of increase of the integrated level of the receiver energy signal. The discrimination section further comprises a first threshold detector providing a first triggering signal upon the integrated level of the receiver energy signal reaching a first level, a second threshold detector providing a second triggering signal upon the integrated level of the receiver energy signal reaching a second level, and a timer providing a timing signal corresponding to elapsed time between the first and second triggering signal. The RF input signals comprise wideband signals when the timing signal is less than a predetermined value, and narrowband signals when the timing signal is at least equal to the predetermined value.
    • 无线电接收机基于接收信号的积分能级的增加速率来区分窄带和宽带射频(RF)信号。 接收机包括适于接收和下变频RF输入信号到中频(IF)信号的接收部分,以及耦合到接收部分的接收信号强度指示符,并提供对应于IF信号的能量的接收机能量信号。 识别部分接收能量信号,并且通过检测接收机能量信号的积分电平的增加率来确定RF输入信号是窄带还是宽带。 鉴别部分还包括第一阈值检测器,在接收器能量信号的集成电平达到第一电平时提供第一触发信号;第二阈值检测器,在接收器能量信号的集成电平达到第二电平时提供第二触发信号 以及定时器,提供与第一和第二触发信号之间经过的时间相对应的定时信号。 当定时信号小于预定值时,RF输入信号包括宽带信号,当定时信号至少等于预定值时,窄带信号。
    • 4. 发明授权
    • Method and apparatus for controlling country specific frequency
allocation
    • 控制国家特定频率分配的方法和装置
    • US5703950A
    • 1997-12-30
    • US497698
    • 1995-06-30
    • Alan F. JovanovichBruce G. WarrenDuane G. CharronSteven B. Duke
    • Alan F. JovanovichBruce G. WarrenDuane G. CharronSteven B. Duke
    • H04K3/00H04L9/32
    • H04K3/20H04L9/3226H04L2209/80
    • A secure communication system is provided for transmitting a country specific frequency allocation in encrypted form between a host processor and a remote device. The secure communication system comprises a host processor and a remote device capable of communicating with the host processor over a communication link. The host processor has a plurality of stored data sets and a predefined encryption algorithm. Each one of the stored data sets comprises a country specific frequency allocation. The remote device has a unique identifier code and also has the predefined encryption algorithm. Responsive to the unique identifier code, the host processor provides a selected one of the plurality of data sets in encrypted form by utilizing the predefined encryption algorithm. The unique identifier code provides an encryption key for the predefined encryption algorithm. The remote device then decrypts the encrypted data set using the predefined encryption algorithm with the identifier code as a decryption key.
    • 提供了一种安全通信系统,用于在主处理器和远程设备之间以加密形式发送国家特定频率分配。 安全通信系统包括主处理器和能够通过通信链路与主机处理器进行通信的远程设备。 主处理器具有多个存储的数据集和预定义的加密算法。 所存储的数据集中的每一个包括国家特定的频率分配。 远程设备具有唯一的标识符代码,并且还具有预定义的加密算法。 响应于唯一标识符代码,主机处理器通过利用预定义的加密算法提供加密形式的多个数据集中的所选择的一个。 唯一标识符代码为预定义的加密算法提供加密密钥。 然后,远程设备使用具有标识码作为解密密钥的预定义加密算法对加密数据集进行解密。
    • 5. 发明授权
    • Homodyne radio architecture for direct sequence spread spectrum data
reception
    • 用于直接序列扩频数据接收的零差无线电架构
    • US5495500A
    • 1996-02-27
    • US287645
    • 1994-08-09
    • Alan F. JovanovichBruce G. Warren
    • Alan F. JovanovichBruce G. Warren
    • G01S7/03G01S13/28G01S13/32H04B1/707
    • H04B1/707G01S13/325G01S13/288G01S7/032
    • A homodyne radio system for receiving direct sequence spread spectrum communications enables a received signal to be down-converted directly to a baseband signal. An input RF amplifier receives and amplifies a carrier signal modulated by a digital code sequence. A local oscillator provides a signal having a frequency substantially equal to the frequency of the carrier signal. A phase splitter coupled to the input RF amplifier receives the modulated carrier signal, and splits the signal into corresponding quadrature component signals. The mixer combines a first one of the quadrature component signals with the local oscillator signal to generate a first quadrature baseband output signal. A second one of the quadrature component signals is combined with the local oscillator signal shifted in phase by 90.degree. to generate a second quadrature baseband output signal. A transmitted signal can be generated by mixing quadrature baseband input signals with the same local oscillator and phase shifted local oscillator signals.
    • 用于接收直接序列扩频通信的零差无线电系统使接收的信号能够被直接下变频成基带信号。 输入RF放大器接收并放大由数字码序列调制的载波信号。 本地振荡器提供具有与载波信号的频率基本相等的频率的信号。 耦合到输入RF放大器的相位分离器接收经调制的载波信号,并将信号分离成对应的正交分量信号。 混频器将正交分量信号中的第一个与本地振荡器信号组合以产生第一正交基带输出信号。 正交分量信号中的第二个与本相振荡器信号相位90°相移,产生第二正交基带输出信号。 可以通过将正交基带输入信号与相同的本地振荡器和相移的本地振荡器信号混合来产生发送信号。
    • 6. 发明授权
    • Methodology for received signal enhancement utilizing delay diversity
processing
    • 使用延迟分集处理的接收信号增强方法
    • US6118807A
    • 2000-09-12
    • US535947
    • 1995-09-28
    • Bruce G. WarrenAlan F. JovanovichFrank J. Pergal
    • Bruce G. WarrenAlan F. JovanovichFrank J. Pergal
    • H04B1/7073H04B1/7117H04N5/225A61F2/06H04L27/30
    • H04B1/7073H04B1/7117
    • A delay diversity processor for use in receiving direct sequence spread spectrum data utilizes multipath signals to enhance bit synchronization performance by integrating the magnitude of each multipath signal to allow for erratic fluctuations in the multipath signal. As a result, the receiver is less prone to sudden signal strength variation that might trigger erroneous bit resynchronization. The delay diversity processor comprises a first circuit which determines a magnitude value for each of a plurality of correlated signal samples of individual data bits of plural data streams of the received spread spectrum data. A second circuit integrates each of the magnitude values over a period of time corresponding to receipt of a plurality of the individual data bits. The integrated magnitude values provide a measure of confidence of a particular one of the correlated signal samples with respect to remaining ones of the correlated signal samples. The correlated signal sample having the most consistently high measure of confidence is thus most likely to contain reliable and valid data. In an embodiment of the delay diversity processor, the digital delay circuit of the second circuit provides for resetting of the integrated magnitude values within following interruption of receipt of the spread spectrum data. The data values within the digital delay circuit can be reset either to zero, or to a predetermined value. The use of a predetermined value improves the ability of the delay diversity processor to generate valid data following an interruption of the spread spectrum data.
    • 用于接收直接序列扩展频谱数据的延迟分集处理器利用多径信号来增强比特同步性能,通过对每个多路径信号的幅度进行积分以允许多径信号中的不稳定波动。 结果,接收机不太容易发生可能触发错误位重新同步的突发信号强度变化。 延迟分集处理器包括第一电路,其确定接收到的扩展频谱数据的多个数据流的各个数据比特的多个相关信号样本中的每一个的幅度值。 第二电路在对应于多个单独数据位的接收的一段时间内对每个幅度值进行积分。 集成的幅度值提供相对于相关信号样本中的特定一个相对于相关信号样本中的剩余信号样本的置信度的量度。 因此,具有最一致的高置信度的相关信号样本最有可能包含可靠且有效的数据。 在延迟分集处理器的实施例中,第二电路的数字延迟电路提供在接收扩展频谱数据的随后中断之前复位积分幅度值。 数字延迟电路内的数据值可以重置为零或预定值。 使用预定值提高延迟分集处理器在扩展频谱数据的中断之后产生有效数据的能力。
    • 8. 发明授权
    • Adaptive power leveling of an RF transceiver utilizing information
stored in non-volatile memory
    • 利用存储在非易失性存储器中的信息,RF收发器的自适应功率调平
    • US6009119A
    • 1999-12-28
    • US823611
    • 1997-03-25
    • Alan F. JovanovichJohn W. MensonidesBruce G. Warren
    • Alan F. JovanovichJohn W. MensonidesBruce G. Warren
    • H03F1/34H04B1/04H04B7/005H04B1/38H04L27/04H04L27/28
    • H04W52/30H03F1/34H04W52/52H04B2001/0433
    • A radio frequency (RF) transceiver adaptively maintains power output level linearity across a broad spectrum of transmitting frequencies. The RF transceiver comprises a frequency synthesizer adapted to modulate an information signal across a plurality of distinct channels and an amplifier adapted to amplify the modulated information signal to a desired power level for transmission as an RF signal. The transceiver includes a table of offset values having individual entries corresponding to each of the distinct channels. A portion of the amplified and modulated information signal is sampled to provide binary values corresponding to instantaneous power levels of the transceiver. The offset values are calculated by comparing the sampled binary values to optimal binary values. Thereafter, an amount of amplification provided by the amplifier for an associated one of the channels is controlled in accordance with a corresponding one of the offset values from the table.
    • 射频(RF)收发器在广泛的发射频率上自适应地维持功率输出电平线性度。 RF收发器包括适于调制跨多个不同通道的信息信号的频率合成器和适于将经调制的信号信号放大到期望功率电平以用于作为RF信号进行传输的放大器。 收发器包括具有对应于每个不同信道的各个条目的偏移值表。 被放大和调制的信息信号的一部分被采样以提供对应于收发器的瞬时功率电平的二进制值。 通过将采样的二进制值与最佳二进制值进行比较来计算偏移值。 此后,根据来自该表的偏移值的对应的一个来控制由放大器为相关联的一个信道提供的放大量。
    • 9. 发明授权
    • Methodology for discontinuous radio reception utilizing embedded frame
length words
    • 使用嵌入式帧长度字的不连续无线电接收方法
    • US6005885A
    • 1999-12-21
    • US570982
    • 1995-12-12
    • Bruce G. WarrenAlan F. JovanovichJohn W. Mensonides
    • Bruce G. WarrenAlan F. JovanovichJohn W. Mensonides
    • H04B1/707
    • H04B1/707
    • A radio receiver for direct sequence spread spectrum radio frequency (RF) signals is provided which discontinues radio reception when it is recognized that a received signal is intended for another such receiver. As a result, the receiving apparatus draws substantially less electrical current than conventional spread spectrum receivers. The apparatus provides for demodulation of an RF signal to recover digital information in the form of a transmitted message packet having a header portion and a data portion. The apparatus determines a message address and data length from the header portion. If the determined address does not correspond to the distinct apparatus address of the particular receiver, the apparatus disables the signal demodulation operation for a discrete period of time corresponding to the determined data length.
    • 提供了一种用于直接序列扩频射频(RF)信号的无线电接收机,当识别出接收到的信号用于另一个这样的接收机时,其停止无线电接收。 结果,与传统的扩频接收机相比,接收设备的电流大大减少。 该装置提供RF信号的解调以以具有标题部分和数据部分的传输消息分组的形式恢复数字信息。 该装置从报头部分确定消息地址和数据长度。 如果所确定的地址不对应于特定接收机的不同装置地址,则装置在对应于确定的数据长度的离散时间段内禁止信号解调操作。
    • 10. 发明授权
    • Switched gain antenna for enhanced system performance
    • 开关增益天线,提高系统性能
    • US6005530A
    • 1999-12-21
    • US961959
    • 1997-10-31
    • Alan F. JovanovichJohn W. MensonidesBruce G. Warren
    • Alan F. JovanovichJohn W. MensonidesBruce G. Warren
    • H01Q1/00H01Q1/24H01Q3/24H01Q9/30H01Q21/10
    • H01Q3/247H01Q1/007H01Q1/242H01Q21/10H01Q9/30
    • A switched gain antenna array comprising a plurality of dipole elements disposed in series with a phasing stub coupled between adjacent ones of the dipole elements. An antenna feed line is coupled to a first one of the dipole elements to couple the RF signals into and out of the plurality of dipole elements. The phasing stubs are adapted to adjust phase of the RF signals provided to each of the dipole elements so that the dipole elements operate in phase. A switch is disposed between the first one of the dipole elements and a second one of the dipole elements. The switch is adapted to disconnect the first one of the dipole elements from remaining ones of the dipole elements during transmit operations of the antenna array and to connect each of the dipole elements together during receive operations of the antenna array. As a result, the antenna array has greater gain during receive operations than during transmit operations.
    • 一种开关增益天线阵列,包括与耦合在相邻偶极子元件之间的相位短柱串联设置的多个偶极子元件。 天线馈电线耦合到偶极元件中的第一个,以将RF信号耦合到多个偶极子元件中和从多个偶极元件中抽出。 相位桩适于调整提供给每个偶极元件的RF信号的相位,使得偶极子元件同相工作。 开关设置在第一个偶极子元件和第二个偶极子元件之间。 开关适于在天线阵列的发射操作期间将偶极子中的第一个偶极子元件与剩余的偶极元件断开,并且在天线阵列的接收操作期间将每个偶极子元件连接在一起。 结果,天线阵列在接收操作期间比在发射操作期间具有更大的增益。