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    • 1. 发明申请
    • FAST SYNCHRONIZATION FOR HALF DUPLEX DIGITAL COMMUNICATIONS
    • 用于半双工数字通信的快速同步
    • WO2005002119A3
    • 2006-02-23
    • PCT/US2004018448
    • 2004-06-09
    • MOTOROLA INCLIU BINKHAWAND CHARBELMILLER JIANPING W
    • LIU BINKHAWAND CHARBELMILLER JIANPING W
    • H04B1/713H04J3/06H04L7/00
    • H04B1/7156H04B2001/71563H04B2001/71566
    • Half duplex, Frequency Hopped-Spread Spectrum wireless transceivers (102), operating without a central controller, maintain time synchronization with the frequency hopping sequence for a period after transmission of a half duplex signal ceases. The wireless transceiver (102) operates their receivers (308) according to the RF frequency hopping sequence and schedule (200). The wireless transceiver (102) is then able to send a short transmission request to signal that it will start transmitting on the Frequency Hopping schedule (200) of the previously ceased transmission. A wireless transceiver (102) that was either the original transmitter or the original receiver is able to transmit this transmission request. A subset of time slots within the hopping schedule (200) can be optionally assigned to the original transmitter and original receiver to obviate collisions of the transmit request transmissions from both device at the same time.
    • 半双工,跳频扩频无线收发器(102)在没有中央控制器的情况下运行,在半双工信号传输停止之后的一段时间内保持与跳频序列的时间同步。 无线收发器(102)根据RF跳频序列和时间表(200)操作其接收机(308)。 无线收发器(102)然后能够发送短的传输请求,以发信号通过先前停止的传输的跳频计划(200)开始发送。 作为原始发送器或原始接收器的无线收发器(102)能够发送该发送请求。 可以可选地将跳频计划(200)内的时隙的子集分配给原始发射机和原始接收机,以同时消除来自两个装置的发射请求传输的冲突。
    • 5. 发明申请
    • METHOD AND APPARATUS FOR SHARING MEMORY IN A MULTIPROCESSOR SYSTEM
    • 用于在多处理器系统中共享存储器的方法和设备
    • WO2007037843A3
    • 2007-08-02
    • PCT/US2006032634
    • 2006-08-22
    • MOTOROLA INCKHAWAND CHARBELKHAWAND JEANLIU BIN
    • KHAWAND CHARBELKHAWAND JEANLIU BIN
    • G06F3/00
    • G06F9/5016
    • A multiprocessor system (100) for sharing memory has a memory (102), and two or more processors (104). The processors are programmed to establish (202) memory buffer pools between the processors, and for each memory buffer pool, establish (204) an array of buffer pointers that point to corresponding memory buffers. The processors are further programmed to, for each array of buffer pointers, establish (206) a consumption pointer for the processor owning the memory buffer pool, and a release pointer for another processor sharing said memory buffer pool, each pointer initially pointing to a predetermined location of the array, and adjust (208-236) the consumption and release pointers according to buffers consumed and released.
    • 用于共享存储器的多处理器系统(100)具有存储器(102)和两个或更多个处理器(104)。 处理器被编程为在处理器之间建立(202)存储器缓冲池,并且对于每个存储器缓冲池,建立(204)指向对应的存储器缓冲器的缓冲器指针阵列。 处理器被进一步编程以针对每个缓冲区指针阵列建立(206)拥有存储器缓冲池的处理器的消耗指针以及用于共享所述存储器缓冲池的另一处理器的释放指针,每个指针最初指向预定的 阵列的位置,并且根据消耗和释放的缓冲器来调整(208-236)消耗和释放指针。
    • 6. 发明专利
    • Mercury-free lead-free button battery
    • GB2514014A8
    • 2014-11-19
    • GB201409496
    • 2011-11-30
    • LIU BIN
    • LIU BIN
    • H01M2/02H01M2/04H01M2/14
    • A mercury-free lead-free button battery includes a negative cap, a cathode material, a gasket ring, a positive can, an anode material, and a diaphragm. The positive can and the negative cap are combined. The gasket ring is clamped between the positive can and the negative cap for separating the positive can from the negative cap. The cathode material is arranged on the bottom of the positive can. The diaphragm is arranged on the cathode material. The anode material is arranged between the negative cap and the diaphragm. A partition unit is arranged between the negative cap and the anode material for separating the anode material from the negative cap and conductively connecting the anode material and the negative cap. The partition unit ensures disconnection between the anode material and the negative cap and therefore safety of the battery by preventing expansion, weeping and even that would otherwise happen.
    • 7. 发明专利
    • Knopfbatterie ohne Quecksilber und Blei
    • DE112011105904T5
    • 2014-09-11
    • DE112011105904
    • 2011-11-30
    • LIU BIN
    • LIU BIN
    • H01M2/04H01M2/12H01M2/14
    • Die Erfindung betrifft einen Knopfbatterie ohne Quecksilber und Blei, die eine Negativkappe (10), ein Kathodenmittel (20), einen Dichtring (30), ein Anodenmittel (40), das mit der Negativkappe (10 elektrisch verbunden ist, ein Positivgehäuse (50) und eine Trennmembran (60) für das Kathodenmittel (20) und das Anodenmittel (40) umfasst, wobei das Positivgehäuse (50) mit der Negativkappe (10) verbunden ist, wobei der Dichtring (30) zwischen dem Positivgehäuse (50) und der Negativkappe (10) angeordnet ist, um das Positivgehäuse (50) und die Negativkappe (10) voneinander zu trennen, wobei das Kathodenmittel (20) auf dem Boden des Positivgehäuses (50) angeordnet ist, wobei die Trennmembran (60) auf dem Kathodenmittel (20) angeordnet ist, wobei das Anodenmittel (40) zwischen der Negativkappe (10) und der Trennmembran (60) angeordnet ist, dadurch gekennzeichnet, dass zwischen der Negativkappe (10) und dem Anodenmittel (40) eine Isoliereinheit (70) vorgesehen ist, die das Anodenmittel (40) von der Negativkappe (10) isoliert und gleichzeitig das Anodenmittel (40) mit der Negativkappe (10) elektrisch verbindet. Durch die Isoliereinheit (70) steht das Anodenmittel (40) mit der Negativkappe (10) nicht in Kontakt, wodurch eine Wasserstoffgas bildende Reaktion verhindert wird, sodass eine Gassammlung, einen Flüssigkeitsaustritt und eine Gasexplosion vermieden werden.
    • 9. 发明专利
    • Mercury-free lead-free button battery
    • GB2514014A
    • 2014-11-12
    • GB201409496
    • 2011-11-30
    • LIU BIN
    • LIU BIN
    • H01M2/02H01M2/04H01M2/14
    • Disclosed in the present invention is a mercury-free lead-free button battery which comprises a cathode cover, an anode material, a seal ring, an anode shell, a cathode material, and a diaphragm, wherein the anode shell and the cathode cover are connected in a buckling manner; the seal ring is clamped between the anode shell and the cathode cover so as to separate the anode shell from the cathode cover; the anode material is arranged on the bottom of the anode shell, the diaphragm is arranged above the anode material, and the cathode material is arranged between the cathode cover and the diaphragm; an isolated unit is arranged between the cathode cover and the cathode material and used for separating from the cathode material and the cathode cover, and connected with the cathode material and the cathode cover in a conduction manner; therefore, the isolated unit is arranged between the cathode cover and the cathode material so as to ensure isolation of the cathode material and the cathode cover; and the phenomena such as, product appearing flatulence caused by contacting the cathode material and the cathode cover, weeping and explosion are effectively avoided, potential safety hazard is stopped, and the security of a product is improved.