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    • 2. 发明授权
    • Computer card having low battery indicator
    • 电池卡片电池电量低
    • US5365221A
    • 1994-11-15
    • US963957
    • 1992-10-19
    • Robert D. FennellGregory L. CannonWilliam J. MackoGregory W. Fuller
    • Robert D. FennellGregory L. CannonWilliam J. MackoGregory W. Fuller
    • G08B3/10G08B21/00
    • G08B3/1066Y10S320/18
    • A battery powered electronic device (105) for coupling to a host computer (205 ) comprises an interface (115) for transmitting data and an annunciator (340) for generating a sensible alert. The electronic device (105) further comprises interface monitoring circuitry (320) coupled to the interface (115) for determining an interface status as being active or inactive and voltage monitoring circuitry (360) coupled to a battery (355) for monitoring the battery voltage. Threshold detection circuitry (360) coupled to the voltage monitoring circuitry (360) detects that the battery voltage has exceeded a predetermined threshold voltage and generates a low battery signal in response thereto. A controller (320) receives the low battery signal and, in response thereto, provides a low battery indication to the interface (115) when the interface (115) has an active status and provides an activation signal to the annunciator (340) when the interface (115) has an inactive status.
    • 用于耦合到主计算机(205)的电池供电的电子设备(105)包括用于发送数据的接口(115)和用于产生敏感警报的信号器(340)。 电子设备(105)还包括耦合到接口(115)的接口监控电路(320),用于将接口状态确定为有效或不活动,以及耦合到电池(355)的电压监测电路(360),用于监视电池电压 。 耦合到电压监视电路(360)的阈值检测电路(360)检测电池电压已经超过预定的阈值电压并响应于此产生低电池信号。 控制器(320)接收低电池信号,并且响应于此,当接口(115)具有活动状态时,向接口(115)提供低电量指示,并且当所述接口(115)具有活动状态时,将激活信号提供给信号器(340) 接口(115)具有非活动状态。
    • 3. 发明授权
    • Method and apparatus for loading a software program from a radio modem
into an external computer
    • 将软件程序从无线电调制解调器加载到外部计算机的方法和装置
    • US5302947A
    • 1994-04-12
    • US923056
    • 1992-07-31
    • Gregory W. FullerRobert D. FennellWilliam J. Macko
    • Gregory W. FullerRobert D. FennellWilliam J. Macko
    • G06F13/10G06F9/06G06F9/445G06F13/14G06F15/16G06F15/177G06K17/00G06K19/07G08B5/22H04B7/26H04L29/10H04W88/02G08B3/10
    • G06F9/4415G08B5/227H04W88/022
    • A method and apparatus in a selective call receiver (100) choose and load a software driver program (124) into an external computer (302). The apparatus comprises a data interface (118) for coupling with the external computer (302) and a memory (122) containing pre-programmed data comprising a plurality of executable software driver programs (124). The apparatus further comprises a processor (108) coupled to the memory (122) and to the data interface (118) for controlling interactions between the memory (122) and the data interface (118). The method comprises the steps of: coupling (402) the data interface (118) to the external computer (302); receiving (404) in response a signal comprising an identifier from the external computer (302); accessing (406) the memory (122) to locate a software driver program (124) compatible with the external computer (302) identified by the identifier; and transmitting (412) to the external computer (302) the software driver program (124) in response to locating the software driver program (124).
    • 选择呼叫接收机(100)中的方法和装置选择并将软件驱动程序(124)加载到外部计算机(302)中。 该装置包括用于与外部计算机(302)耦合的数据接口(118)和包含预编程数据的存储器(122),所述预编程数据包括多个可执行软件驱动程序(124)。 该装置还包括耦合到存储器(122)和数据接口(118)的处理器(108),用于控制存储器(122)和数据接口(118)之间的交互。 该方法包括以下步骤:将数据接口(118)耦合(402)至外部计算机(302); 响应于来自外部计算机(302)的包括标识符的信号来接收(404); 访问(406)存储器(122)以定位与由该标识符标识的外部计算机(302)兼容的软件驱动程序(124); 以及响应于定位所述软件驱动程序(124)向所述外部计算机(302)发送(412)所述软件驱动程序(124)。
    • 5. 发明授权
    • Simulcast scheduler
    • Simulcast调度程序
    • US5287550A
    • 1994-02-15
    • US632575
    • 1990-12-24
    • Robert D. FennellDavid R. Petreye
    • Robert D. FennellDavid R. Petreye
    • H04B7/005H04H20/67H04W84/02
    • H04H20/67H04W84/022
    • A selective call terminal receives selective call information from a message originator. A transmission time is scheduled for the selective call message by a selective call system controller. A plurality of simulcast schedulers coupled to the controller receive and store the selective call message and the transmission time. The simulcast schedulers have an equalization time stored therein, the equalization times for each of the simulcast schedulers calculated by the system controller using simulcast receivers for measuring signal time differences between transmitters. The simulcast schedulers provide the selective call message to corresponding transmitters at a time to transmit the selective call message, the time determined by the transmission time and the equalization time. Transmitter settings and code types defining signalling protocol, data bit rate, carrier frequency and transmitter power, for each message are varied in accordance with information received from the system controller. Each simulcast scheduler can also function as a selective call terminal for a local selective call system.
    • 选择呼叫终端(10)从消息发起者接收选择呼叫信息。 由选择性呼叫系统控制器(12')为选呼信息调度传输时间。 耦合到控制器的多个同步广播调度器(45)接收并存储选择呼叫消息和传输时间。 联播调度器(45)具有存储在其中的均衡时间,由系统控制器(12')使用用于测量发射器(15')之间的信号时间差的联播接收器(50)计算的每个同播广播调度器(45)的均衡时间 )。 联播调度器(45)一次向对应的发射机(15')提供选择呼叫消息,以发送选呼信息,由传输时间和均衡时间确定的时间。 根据从系统控制器(12')接收的信息,每个消息的定义信令协议,数据比特率,载波频率和发射机功率的发射机设置和代码类型是变化的。 每个联播调度器(45)还可以用作本地选呼系统的选呼终端。
    • 6. 发明授权
    • Encoder for transmitted message activation code
    • 用于发送消息激活码的编码器
    • US4427980A
    • 1984-01-24
    • US310591
    • 1981-10-13
    • Robert D. FennellAllen J. WeidlerDavid F. Bailey
    • Robert D. FennellAllen J. WeidlerDavid F. Bailey
    • H04B7/26H04M11/02H04W88/18H04Q7/00H04Q9/00
    • H04W88/187
    • The encoder which preferably produces a transmitted digital word which serves as an activation code for a single receiver or a group of receivers. The activation code effects only the receiver(s) that have previously detected their digital address and are therefore prepared to enter a message receive state. The activation code transmitted by the encoder will cue the receiver(s) simultaneously thereby allowing the encoder to send a single message to a plurality of receivers. The activation code also allows the encoder to interleave messages to receivers by utilizing the customary transmitter down time in a single message transmission. During this down time, the activation code allows the transmitter to begin transmission of a second message to a second receiver. The use of the activation code to interleave messages is especially important in tone and voice transmissions since it significantly increases the efficiency of a heavily loaded system.
    • 编码器优选地产生用作单个接收机或一组接收机的激活码的发送数字字。 激活码仅影响先前检测到其数字地址的接收机,因此准备进入消息接收状态。 由编码器发送的激活码同时提示接收机,从而允许编码器向多个接收机发送单个消息。 激活码还允许编码器在单个消息传输中利用传统的发射机停机时间将消息交织到接收机。 在该停机期间,激活码允许发射机开始向第二接收机发送第二消息。 使用激活码来交织消息在音调和语音传输中尤其重要,因为它显着地提高了重负载系统的效率。
    • 8. 发明授权
    • Monolithic alternately stacked IF amplifier
    • 单片交替堆叠中频放大器
    • US3999139A
    • 1976-12-21
    • US498348
    • 1974-08-19
    • Robert D. Fennell
    • Robert D. Fennell
    • H03F1/02H03F1/22H03F3/34H03F3/42H03F3/04
    • H03F3/34H03F1/0283H03F1/22
    • The IF amplifier combines the high frequency and low noise figure characteristics of a cascode stage with the large signal handling capability and accurate gain control of a direct emitter coupled amplifier controlled by a constant current source. The amplifier uses a technique of alternately stacked cascode stages which results in minimizing both the total current drain and the value of DC potential necessary to operate the amplifier. A current mirror, independent of power supply variation, is used to control the gain of the amplifier and is also used to provide temperature compensation for amplifier gain. Special bias techniques along with the current mirror minimize the variation of the amplifier gain with respect to DC power supply variations. Novel use of semiconductor devices minimizes the number of leadout connections on an I.C. chip needed for attaching large external bypass capacitors.
    • IF放大器将共源共栅级的高频和低噪声系数特性与大信号处理能力和由恒定电流源控制的直接发射极耦合放大器的精确增益控制相结合。 该放大器采用交替堆叠的共源共栅级的技术,从而最大限度地减小了操作放大器所需的总电流消耗和DC电位值。 电流镜独立于电源变化,用于控制放大器的增益,并且还用于为放大器增益提供温度补偿。 与电流镜一起使用特殊偏置技术可以减小放大器增益相对于直流电源变化的变化。 半导体器件的新颖使用最大限度地减少了I.C.上的导出连接的数量。 连接大型外部旁路电容所需的芯片。