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    • 1. 发明授权
    • Serving-grant allocation method for high-speed uplink packet access systems
    • 高速上行分组接入系统的服务授权分配方法
    • US08565774B2
    • 2013-10-22
    • US11455221
    • 2006-06-15
    • Bin ChenHongcheng Zhuang
    • Bin ChenHongcheng Zhuang
    • H04W72/00
    • H04W72/14
    • The present invention provides a serving-grant allocation method for a high-speed uplink packet access system. It includes these steps: a. Transmission of the serving-grant initial allocation message to mobile subscribers via network; b. The mobile subscriber decides whether setting the stored-secondary-grant is needed based on the initial allocation message description. If it is needed, then set the stored-secondary-grant to the value indicated in the aforementioned initial allocation message. The present invention solves problems such as the mobile subscriber can not allocate stored-secondary-grant during wireless channel allocation, or the primary/secondary grant can only allocate one out of the two, and the subsequent process issues that occur as a result of stored-secondary-grant not being set up during the initial allocation with the existing technology. The present invention effectively enhances the usage of the wireless channel and network's capacity to exercise control over mobile subscribers, thereby reducing system complexity, and improving system performance.
    • 本发明提供了一种用于高速上行链路分组接入系统的服务授权分配方法。 它包括以下步骤:a。 通过网络向移动用户发送服务授权初始分配消息; b。 移动用户基于初始分配消息描述决定是否需要设置存储二次授权。 如果需要,则将存储次级授权设置为上述初始分配消息中指示的值。 本发明解决了诸如移动用户在无线信道分配期间不能分配存储二次授权的问题,或者主/辅助授权只能分配两者中的一个,以及作为存储的结果而发生的后续过程问题 在现有技术的初始分配过程中没有设立二级补助金。 本发明有效地增强了无线信道和网络对移动用户的控制能力的使用,从而降低了系统复杂度,提高了系统性能。
    • 2. 发明申请
    • Serving-grant allocation method for high-speed uplink packet access systems
    • 高速上行分组接入系统的服务授权分配方法
    • US20070183359A1
    • 2007-08-09
    • US11455221
    • 2006-06-15
    • Bin ChenHongcheng Zhuang
    • Bin ChenHongcheng Zhuang
    • H04Q7/00
    • H04W72/14
    • The present invention provides a serving-grant allocation method for a high-speed uplink packet access system. It includes these steps: a. Transmission of the serving-grant initial allocation message to mobile subscribers via network; b. The mobile subscriber decides whether setting the stored-secondary-grant is needed based on the initial allocation message description. If it is needed, then set the stored-secondary-grant to the value indicated in the aforementioned initial allocation message. The present invention solves problems such as the mobile subscriber can not allocate stored-secondary-grant during wireless channel allocation, or the primary/secondary grant can only allocate one out of the two, and the subsequent process issues that occur as a result of stored-secondary-grant not being set up during the initial allocation with the existing technology. The present invention effectively enhances the usage of the wireless channel and network's capacity to exercise control over mobile subscribers, thereby reducing system complexity, and improving system performance.
    • 本发明提供了一种用于高速上行链路分组接入系统的服务授权分配方法。 它包括以下步骤:a。 通过网络向移动用户发送服务授权初始分配消息; b。 移动用户基于初始分配消息描述决定是否需要设置存储二次授权。 如果需要,则将存储次级授权设置为上述初始分配消息中指示的值。 本发明解决了诸如移动用户在无线信道分配期间不能分配存储二次授权的问题,或者主/辅助授权只能分配两者中的一个,以及作为存储的结果而发生的后续过程问题 在现有技术的初始分配过程中没有设立二级补助金。 本发明有效地增强了无线信道和网络对移动用户的控制能力的使用,从而降低了系统复杂度,提高了系统性能。
    • 6. 发明授权
    • Secure digital card
    • 安全数字卡
    • US08649822B2
    • 2014-02-11
    • US13535288
    • 2012-06-27
    • Bin ChenXia LiuJin-Hua CaoZe-Kang Jin
    • Bin ChenXia LiuJin-Hua CaoZe-Kang Jin
    • H04B1/38
    • H04M1/72522G06K19/0712H04M1/72527H04M2250/04
    • The invention provides a secure digital card. In one embodiment, the secure digital card is coupled to a cell phone, and comprises a smart card, a secure digital card controller (SDC), a first power control circuit, and a second power control circuit. When the cell phone wants to perform a near-end payment process, the SDC controls the first power control circuit to supply a first voltage generated by a first power supply pin of a near field communication (NFC) controller to a power receive pin of the smart card. When the cell phone wants to perform a far-end payment process, the SDC controls a second power control circuit to supply a second voltage generated by a second power supply pin of the SDC to the power receive pin of the smart card.
    • 本发明提供了一种安全的数字卡。 在一个实施例中,安全数字卡耦合到蜂窝电话,并且包括智能卡,安全数字卡控制器(SDC),第一功率控制电路和第二功率控制电路。 当手机想要执行近端支付处理时,SDC控制第一功率控制电路,以将由近场通信(NFC)控制器的第一电源引脚产生的第一电压提供给 智能卡。 当手机想要执行远端支付处理时,SDC控制第二功率控制电路,以将由SDC的第二电源引脚产生的第二电压提供给智能卡的电源接收引脚。
    • 7. 发明申请
    • POINT TOUCH SWITCHING MECHANISM
    • 点触式切换机制
    • US20140001289A1
    • 2014-01-02
    • US14004578
    • 2012-03-05
    • Huasong ZhouZhongcheng JinJianmin ChenBin Chen
    • Huasong ZhouZhongcheng JinJianmin ChenBin Chen
    • B05B1/18
    • B05B1/185B05B1/1663B05B1/18B05B15/62B05B15/654
    • A point touch switching mechanism has a ball head component, a water separation unit, a switching unit, and a swinging block. The water separation unit can swing with respect to the ball head. The switching unit comprises a slide base connected to the water separation unit and a water separation disk fixedly connected to the slide base, so that the water separation disk can rotate forward when sliding with respect to the water separation unit, and water separation switching can be implemented when the water separation disk rotates with respect to the water separation unit. The swinging block can be connected to the water separation unit in a sliding manner, and the sliding of the swinging block and of the slide base form a connection, so that the water separation unit can drive the swinging block and drive the slide base to slide with respect to the water separation unit.
    • 点触式切换机构具有球头部件,水分离单元,切换单元和摆动块。 水分离单元可以相对于球头摆动。 开关单元包括连接到水分离单元的滑动基座和固定地连接到滑动基座的水分离盘,使得当相对于水分离单元滑动时,水分离盘可以向前旋转,并且水分离切换可以 当水分离盘相对于水分离单元旋转时实施。 摆动块可以以滑动方式连接到水分离单元,并且摆动块和滑动基座的滑动形成连接,使得水分离单元可以驱动摆动块并驱动滑动基座滑动 相对于水分离单元。
    • 8. 发明授权
    • Revolving switching device
    • 旋转开关装置
    • US08573256B2
    • 2013-11-05
    • US12701952
    • 2010-02-08
    • Libin ShenTianyu ChenBin ChenHuasong Zhou
    • Libin ShenTianyu ChenBin ChenHuasong Zhou
    • F16K11/085E03C1/04
    • F16K11/085Y10T137/86566Y10T137/87676Y10T137/87909
    • A revolving switch device with a sleeve and an operating handle comprising: a body with two inlet holes, a first water passage and an installation hole connected between the upper inlet hole and said first water passage; a plug, sealed and mounted in the installation hole, is capable of revolving between a first and second position, said plug having an outer revolving surface with an arc groove, and the bottom of said plug is concave to form a second water passage, said outer revolving surface of said plug has a connecting hole, which having an inner end for connecting said second water passage and an outer end in the outer revolving surface. When the plug occupies the first position, said arc groove connects the upper inlet hole and first water passage. In the second position, the lower inlet connects to the outer end of the connecting hole.
    • 一种具有套筒和操作手柄的旋转开关装置,包括:具有两个入口孔的主体,第一水通道和连接在上部入口孔和所述第一水通道之间的安装孔; 密封并安装在安装孔中的插头能够在第一和第二位置之间旋转,所述插头具有带有弧形槽的外部旋转表面,并且所述插头的底部是凹形的,以形成第二水通道,所述 所述塞子的外旋转表面具有连接孔,该连接孔具有用于连接所述第二水通道的内端和外旋转表面中的外端。 当插头占据第一位置时,所述弧槽连接上入口孔和第一水通道。 在第二位置,下入口连接到连接孔的外端。
    • 10. 发明申请
    • PULLING-WIRE WATERWAY SWITCHING MECHANISM
    • 抽绳式水路开关机构
    • US20120318391A1
    • 2012-12-20
    • US13580037
    • 2011-02-22
    • Huasong ZhouYanhui ZhongJianmin ChenBin Chen
    • Huasong ZhouYanhui ZhongJianmin ChenBin Chen
    • F16K11/074
    • B05B1/1636B05B1/18E03C1/0408E03C1/08Y10T137/86863
    • A pulling-wire waterway switching mechanism has a fixed unit, a water division body, a ratchet shaft, a stopping claw, a returning body and a pulling wire. The water division body can be rotationally arranged in the fixed unit, and can use the rotation between the water division body and the fixed unit to achieve the switch of the outlet functions, a plurality of lower ratchets in anuular array are arranged on the top surface of the water division body, and a plurality of stopping teeth in anuular array are arranged on the outer rotative surface of the water division body. The ratchet shaft provided with a pulling block extending out of the fixed unit and a plurality of upper ratchets in annular array. The pulling block drives the ratchet shaft to rotate forward. The upper ratchets can drive the water division to rotate forward.
    • 拉线水路切换机构具有固定单元,分水体,棘轮轴,止动爪,返回体和牵引线。 分水体可以旋转地布置在固定单元中,并且可以使用分水体和固定单元之间的旋转来实现出口功能的切换,在顶表面上布置有多个下方棘轮 并且在分水体的外旋转表面上布置有多个排列的止动齿。 棘轮轴设置有从固定单元延伸出的拉动块和多个环形阵列的上棘齿。 拉动块驱动棘轮轴向前旋转。 上部棘轮可以驱动水分向前旋转。