会员体验
专利管家(专利管理)
工作空间(专利管理)
风险监控(情报监控)
数据分析(专利分析)
侵权分析(诉讼无效)
联系我们
交流群
官方交流:
QQ群: 891211   
微信请扫码    >>>
现在联系顾问~
热词
    • 62. 发明公开
    • SATELLITE NAVIGATION/DEAD-RECKONING NAVIGATION INTEGRATED POSITIONING DEVICE
    • 卫星通信/ KOPPELNAVIGATION INTEGRIERTE POSITIONIERUNGSVORRICHTUNG
    • EP2249172A1
    • 2010-11-10
    • EP09715707.7
    • 2009-01-21
    • Furuno Electric Co., Ltd.
    • TODA, Hiroyuki
    • G01S5/14G01C21/00
    • G01C21/165G01C21/28G01S19/49
    • Even when inertial navigation is performed, whether or not the correction of a value detected by an external sensor is appropriate can be judged, so that a dramatically degraded positioning result is prevented from being outputted. A navigation device (100) comprises a GPS receiver (11), an acceleration sensor (12) for detecting at least two-axis accelerations in an X-axis direction that is the front-back direction of a moving body and a Y-axis direction that is the right-left direction of the moving body, and a at least one-axis angular velocity sensor (13) for detecting the angular velocity in an azimuth direction around a Z-axis orthogonal to the X-axis direction and the Y-axis direction. A sensor detection value appropriate correction judgment module (22) of an integrated calculation module (30) having a CPU or the like finds the product of the value (velocity) obtained by integrating the acceleration detection value in the X-axis direction and the angular velocity detection value in the azimuth direction, acquires the error between the value of the product and the acceleration detection value in the Y-axis direction, and judges whether or not corrections made by the acceleration sensor and the angular velocity sensor are appropriate by judging whether or not the error exceeds a predetermined threshold value.
    • 即使进行惯性导航,也可以判断由外部传感器检测到的值的校正是否适当,从而防止定位结果的显着劣化被输出。 导航装置(100)包括GPS接收器(11),加速度传感器(12),用于检测作为移动体的前后方向的X轴方向的至少两轴加速度,Y轴 方向为移动体的左右方向,以及至少一个轴角速度传感器(13),用于检测在与X轴方向正交的Z轴方向的方位角方向的角速度,Y 方向。 具有CPU等的综合计算模块(30)的传感器检测值适当校正判断模块(22)找到通过将加速度检测值在X轴方向和角度上积分而获得的值(速度)的乘积 在方位方向上的速度检测值,获取乘积值与Y轴方向的加速度检测值之间的误差,判断加速度传感器和角速度传感器的修正是否合适,判定是否适当 或者不是误差超过预定阈值。
    • 63. 发明公开
    • Vented closure assembly for a container
    • Verschlusskörper
    • EP2248732A1
    • 2010-11-10
    • EP09252748.0
    • 2009-12-08
    • Rieke Corporation
    • Baughman, Gary M.Brooks, Lynn A.
    • B65D25/44B65D47/06B65D47/10B65D47/12
    • B65D47/063B65D25/44B65D47/103B65D47/123B65D2101/0023
    • A vented closure assembly (120) for a container, the container including a raised outlet defining a dispensing opening, includes a closure body (22) having a nestable and extendable spout (31) formed with a generally cylindrical section (53), a frustoconical section (54), and a transition region (38), including an invertible fold (48), located between these two sections. The generally cylindrical section defines an outlet opening and a threaded closing cap (23) is assembled to the generally cylindrical section for closing off the outlet opening. A retainer (24) is used for connecting the closure body to the raised outlet wall and the spout includes a thicker wall portion (222, 322) for enabling the generally cylindrical section to maintain a selected orientation. A plurality of venting ears (57) are used to help provide the venting capability.
    • 一种用于容器的通风闭合组件(120),所述容器包括限定出分配开口的升高的出口,包括具有可嵌套和可延伸的喷口(31)的封闭体(22),所述封闭体(22)形成有大致圆柱形部分(53),截头圆锥体 以及位于这两个部分之间的包括可逆折叠(48)的过渡区域(38)。 大致圆柱形部分限定出口开口,并且螺纹封闭盖(23)组装到大致圆柱形部分以封闭出口开口。 保持器(24)用于将封闭体连接到升高的出口壁,并且出口包括较厚的壁部分(222,322),以使得大致圆柱形部分能够保持选定的取向。 多个排气孔(57)用于帮助提供通气能力。
    • 64. 发明公开
    • SYNCHRONIZATION DEVICE AND SYNCHRONIZATION METHOD
    • 同步异步电机同步发电机组
    • EP2237471A1
    • 2010-10-06
    • EP08868196.0
    • 2008-12-26
    • Furuno Electric Co., Ltd.
    • TSUDAKA, Kentaro
    • H04L7/00G08G3/00
    • G04G7/02G08G3/00
    • There is provided a synchronization device capable of, even when transmission timings of a plurality of other ships are different, almost reliably synchronizing with the other ships during a transmission of a ship concerned and is also provided a synchronization method. The synchronization device 1, when the ship concerned performs a transmission, obtains timing differences DTi occurring over the past one minute from the transmission timing of the ship concerned (S102) and creates a histogram of the timing differences DTi (S103). The synchronization device 1 selects a class with the highest frequency from classes of the timing differences DTi (S104) and obtains a corrected timing DT' associated with the selected class (S105). The synchronization device 1 corrects a reference timing of the transmission of the ship concerned using the corrected timing DT' and performs the transmission of the ship concerned (S106).
    • 提供了一种同步装置,即使在多个其他船舶的发送定时不同的情况下,在相关船舶的发送期间几乎可以与其他船舶几乎可靠地同步,并且还提供了同步方法。 当相关船舶进行传输时,同步装置1从相关船舶的发送定时获得在过去一分钟内发生的定时差DTi(S102),并创建定时差DTi的直方图(S103)。 同步装置1从定时差DTi(S104)的类别中选择具有最高频率的类别,并获得与所选择的类别相关联的校正定时DT'(S105)。 同步装置1使用校正时间DT'来校正有关船舶的发送的基准定时,并执行有关船舶的发送(S106)。
    • 67. 发明公开
    • Termination resistor scheme
    • 终端电阻计划
    • EP2166458A3
    • 2010-04-07
    • EP09169706.0
    • 2009-09-08
    • Furuno Electric Company, LimitedAIRMAR TECHNOLOGY CORPORATION
    • Boericke II, Frederic S.Fladung, Danny J.Boucher, Stephen G.Kunz, Eric
    • G06F13/40
    • G06F13/4086
    • An example embodiment of the present invention relates to a method and corresponding apparatus that terminates circuit connectivity in a bus (510) by determining location of an instrument on the bus, and based on coupling a terminating resistance (635) to the instrument. The example embodiment may couple a terminating resistance with the instrument placed at the end of a bus by employing at least one male-to-male connector (620) arranged to establish a connection between the female receptacles (619A, 619B) of the terminating resistance and the bus. In order to determine a state of termination of circuit connectivity in a bus, an example embodiment of the present invention may connect a transceiver (650) to a terminating resistance and determine a state of termination of circuit connectivity in the bus as a function of sensing receive activity in the transceiver.
    • 本发明的示例实施例涉及一种通过确定总线上的仪器的位置并且基于将终端电阻(635)耦合到仪器来终止总线(510)中的电路连通性的方法和相应的装置。 示例性实施例可以通过采用至少一个雄 - 雄连接器(620)将终端电阻与放置在总线末端的器械耦合,所述雄 - 雄连接器布置成建立终端电阻的母插座(619A,619B) 和公共汽车。 为了确定总线中的电路连通性的终止状态,本发明的示例实施例可以将收发器(650)连接到终端电阻并根据感测确定总线中电路连通性的终止状态 在收发器中接收活动。
    • 68. 发明公开
    • Termination resistor scheme
    • Endwiderstandschema
    • EP2166458A2
    • 2010-03-24
    • EP09169706.0
    • 2009-09-08
    • Furuno Electric Company, LimitedAIRMAR TECHNOLOGY CORPORATION
    • Boericke II, Frederic S.Fladung, Danny J.Boucher, Stephen G.Kunz, Eric
    • G06F13/40
    • G06F13/4086
    • An example embodiment of the present invention relates to a method and corresponding apparatus that terminates circuit connectivity in a bus (510) by determining location of an instrument on the bus, and based on coupling a terminating resistance (635) to the instrument. The example embodiment may couple a terminating resistance with the instrument placed at the end of a bus by employing at least one male-to-male connector (620) arranged to establish a connection between the female receptacles (619A, 619B) of the terminating resistance and the bus. In order to determine a state of termination of circuit connectivity in a bus, an example embodiment of the present invention may connect a transceiver (650) to a terminating resistance and determine a state of termination of circuit connectivity in the bus as a function of sensing receive activity in the transceiver.
    • 本发明的一个示例性实施例涉及一种方法和相应的装置,其通过确定总线上的仪器的位置,并且基于将终端电阻(635)耦合到仪器来终止总线(510)中的电路连通性。 示例性实施例可以通过采用布置成在终端电阻的母插座(619A,619B)之间建立连接的至少一个阳对连接器(620)将终端电阻与放置在总线终端处的仪器耦合, 和公共汽车。 为了确定总线中的电路连接性的终止状态,本发明的一个示例性实施例可以将收发器(650)连接到终端电阻并且确定作为感测的函数的总线中的电路连接性的终止状态 在收发器中接收活动。
    • 69. 发明公开
    • HIGH-FREQUENCY LIMITER
    • 高频限制器
    • EP2161834A1
    • 2010-03-10
    • EP08765090.9
    • 2008-06-04
    • Furuno Electric Company, Limited
    • KOREYASU, MisaTAKASHIMA, Tetsuya
    • H03G11/00H01P1/15H01P5/103H01P7/04H03G11/02
    • H03G11/025H01P5/103H01P7/04
    • In order to provide a high-frequency limiter capable of absorbing variation in characteristic parameters of a PIN diode to acquire a desired limiting characteristic, an external re-entrant coaxial cavity is constituted by an external pedestal 15 and a cavity 34 inside a lower conductor part 13 and an upper conductor part 14, and an internal re-entrant coaxial cavity is constituted by an inner wall of the external pedestal 15 and by an internal pedestal 16 and a post 17. A PIN diode 18 is joined between the post 17 and the internal pedestal 16. Resonance windows 11 and 12 are provided between the resonator part and a waveguide connected thereto. A projected amount x of the external pedestal 15 with respect to the cavity 34 and an insertion amount y of the post 17 into the external pedestal 15 are adjustable independently. Further, a partition 30 is provided between each of the resonance parts 10 and 20 to form a coupling hole 60, and electromagnetic fields of the adjacent resonance parts 10 and 20 are made to be an even mode coupling, and thereby, the coupling hole 60 has a low-pass characteristic. Thus, generation of unnecessary resonance mode can be suppressed and a band expansion of a cutoff characteristic can be realized.
    • 为了提供能够吸收PIN二极管的特性参数变化以获得期望的限制特性的高频限制器,外部凹入同轴腔由外部基座15和下部导体部分内的腔体34构成 13和上部导体部分14组成,并且内部凹入同轴腔由外部基座15的内壁以及内部基座16和柱17构成.PIN二极管18连接在柱17和 内部基座16.共振窗口11和12设置在谐振器部分和与其连接的波导之间。 外部基座15相对于空腔34的突出量x和柱17插入外部基座15的插入量y可独立调节。 此外,在每个谐振部分10和20之间设置隔板30以形成耦合孔60,并且使相邻的谐振部分10和20的电磁场成为偶模耦合,从而耦合孔60 具有低通特性。 因此,可以抑制不需要的谐振模式的产生,并且可以实现截止特性的频带扩展。