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    • 3. 发明授权
    • Line-side out-of-band electrical interface for optoelectronic modules
    • 用于光电子模块的线路侧带外电接口
    • US08083415B2
    • 2011-12-27
    • US12181484
    • 2008-07-29
    • Joshua MooreGreta Light
    • Joshua MooreGreta Light
    • G02B6/38
    • G02B6/4201G02B6/4261G02B6/4281G02B6/4283G02B6/4292H05K1/147H05K1/189H05K2201/10121H05K2201/10446
    • Electrical connections from the printed circuit board (“PCB”) of an optoelectronic device through the front or line-side of the device enable a microcontroller or other component on the PCB to electrically communicate with an optical connector or other line-side device. The electrical connections can be integrated within a lead frame and trace structure providing mechanical support for the electrical connections and the PCB, with each electrical connection including a PCB-side contact and a line-side contact supported by the integrated structure. Alternately, the electrical connections can be integrated within one or more flex circuits. The optical connector can include traces and contacts configured to be electrically coupled to corresponding line-side contacts when the optical connector is received within the device.
    • 通过光电器件的印刷电路板(“PCB”)通过器件的前面或线路侧的电气连接使得微控制器或PCB上的其他部件能够与光学连接器或其他线路侧器件电连通。 电连接可以集成在引线框架内,并且轨迹结构为电气连接和PCB提供机械支撑,每个电气连接包括一个PCB侧触点和由一体化结构支撑的线路侧接触。 或者,电连接可以集成在一个或多个柔性电路内。 光学连接器可以包括迹线和触点,其构造成当光学连接器被接收在装置内时被电耦合到相应的线侧触点。
    • 6. 发明申请
    • INTELLIGENT BAIL
    • 智能BAIL
    • US20090261955A1
    • 2009-10-22
    • US12116327
    • 2008-05-07
    • Joshua MooreGreta Light
    • Joshua MooreGreta Light
    • H04Q5/22H04B10/00
    • H04B10/2575G02B6/3895G02B6/4284G02B6/4292H04B10/40H04Q9/00
    • An identification device is configured to be coupled externally to an optoelectronic device to provide connectivity and/or identification information in an optical network in which the optoelectronic device is implemented. The identification device may include an integrated circuit with unique identification information and a plurality of contacts coupled to the integrated circuit and configured to be coupled to an outside identification system. The outside identification system communicates with the identification device via the plurality of contacts to collect unique identification information, the ability to retrieve the unique identification information additionally implicating connectivity in some embodiments. The identification device may include a plurality of clips configured to engage corresponding posts on a latch of the optoelectronic device.
    • 识别装置被配置为外部耦合到光电子装置,以在其中实现光电装置的光网络中提供连接和/或识别信息。 识别装置可以包括具有唯一识别信息的集成电路和耦合到集成电路并被配置为耦合到外部识别系统的多个触点。 外部识别系统通过多个联系人与识别装置进行通信,以收集唯一的识别信息,在一些实施例中能够检索附加地涉及连接性的唯一标识信息。 识别装置可以包括多个夹子,其被配置为接合光电装置的闩锁上的对应的柱。
    • 7. 发明申请
    • ACTIVE OPTICAL CABLE
    • 主动光缆
    • US20120057821A1
    • 2012-03-08
    • US13294863
    • 2011-11-11
    • Lewis B. AronsonGreta Light
    • Lewis B. AronsonGreta Light
    • G02B6/26
    • G02B6/4292G02B6/3817G02B6/4249G02B6/4284
    • Integrated cables are disclosed that can include a first optical fiber for optical communication over the length of the integrated cables from a first connector at a first end to a second connector at a second end. The integrated cable can further include a second electrical connector configured to connect with a second electrical port external to the integrated cable. The integrated cable can further include an electrical conductor extending from the first electrical connector to the second electrical connector and configured to supply operating power to an electronic device connected to the second electrical connector but external to the integrated cable.
    • 公开了集成电缆,其可以包括用于在整个电缆的长度上的光通信的第一光纤,从第一端的第一连接器到第二端的第二连接器。 集成电缆还可以包括被配置为与集成电缆外部的第二电气端口连接的第二电连接器。 集成电缆还可包括从第一电连接器延伸到第二电连接器并被配置为向连接到第二电连接器但在集成电缆外部的电子设备提供工作电力的电导体。
    • 8. 发明授权
    • Eye safety logic with compensation for transient conditions
    • 眼睛安全逻辑,补偿瞬态
    • US07280575B2
    • 2007-10-09
    • US10835701
    • 2004-04-30
    • Timothy G. MoranGreta Light
    • Timothy G. MoranGreta Light
    • H01S3/00
    • H01S5/06825
    • An eye safety detection circuit for use in a laser transmitter. The eye safety detection circuit shuts the laser down if the laser is emitting excessive optical energy to the point of being unsafe to a user. The eye safety detection circuit includes a laser current detection circuit that is configured to detect when there is a potential that the laser is emitting light at levels that exceed a predetermined threshold. If the laser were to immediately turn off under this condition, the laser may be turned off prematurely. Instead, the eye safety detection circuit includes a timer circuit that causes the laser to cease operation only after one or more such conditions have been met for a predetermined period of time.
    • 一种用于激光发射器的眼睛安全检测电路。 眼睛安全检测电路如果激光发射过多的光能到使用者不安全的位置,则会将激光器关闭。 眼睛安全检测电路包括:激光电流检测电路,被配置为检测何时有激光以超过预定阈值的水平发光的电位。 如果激光器在这种条件下立即关闭,激光器可能会过早关闭。 相反,眼睛安全检测电路包括定时器电路,其仅在已经满足预定时间段的一个或多个这样的条件之后激光才停止操作。
    • 9. 发明授权
    • Polarity-insensitive signal detect circuit for use with any signal sequence
    • 用于任何信号序列的极性不敏感信号检测电路
    • US07689122B2
    • 2010-03-30
    • US11072788
    • 2005-03-04
    • Tim MoranGreta Light
    • Tim MoranGreta Light
    • H04B7/00
    • G01R19/16557
    • A signal detect circuit includes a signal strength measuring differential output linear amplifier. A positive peak detection circuit is coupled to the positive output terminal of the linear amplifier and generates a signal that represents a peak magnitude of a signal received from the positive output terminal. Likewise, a negative peak detection circuit is coupled to the negative output terminal of the linear amplifier and generates a signal that represents a peak magnitude of a signal received from the negative output terminal. Upon power up of the signal detect circuit, a comparison circuit detects when the positive and negative peak signal magnitudes has both exceed respective values at least once. Once this occurs, the comparison circuit compares an interpolation of the positive peak signal and the negative peak signal with the value. If the interpolated signal falls below the value, the comparison circuit generates a signal representing that no signal is being received.
    • 信号检测电路包括信号强度测量差分输出线性放大器。 正峰值检测电路耦合到线性放大器的正输出端,并产生表示从正输出端接收的信号的峰值幅度的信号。 类似地,负峰值检测电路耦合到线性放大器的负输出端,并产生表示从负输出端接收的信号的峰值幅度的信号。 在信号检测电路上电时,比较电路检测正和负峰值信号幅度何时两者都至少超过相应值一次。 一旦发生这种情况,比较电路将正峰值信号和负峰值信号的插值与该值进行比较。 如果内插信号低于该值,则比较电路产生表示没有接收到信号的信号。