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    • 1. 发明授权
    • Hydraulic control device and hydraulic control method for vehicle automatic transmission
    • 液压控制装置和车辆自动变速箱液压控制方法
    • US08478497B2
    • 2013-07-02
    • US12814770
    • 2010-06-14
    • Shinji KatoHitoshi Matsunaga
    • Shinji KatoHitoshi Matsunaga
    • G06F19/00F16H61/30
    • F16H61/0021F16H61/061Y10T477/677Y10T477/691Y10T477/693636Y10T477/693958Y10T477/735
    • During a non-shift operation when a predetermined gear of an automatic transmission is kept, a hydraulic control unit increases an engagement hydraulic pressure to a friction engagement device associated with the gear formation by a predetermined hydraulic pressure with respect to a line hydraulic pressure. Therefore, in comparison with a case where a hydraulic pressure equivalent to the line hydraulic pressure is set as an engagement hydraulic pressure to the friction engagement device for obtaining a hydraulic pressure equivalent to the line hydraulic pressure, shift response (hydraulic pressure response) variations when shifting from a non-shift state (steady state) into a shift state are suppressed by the margin of the predetermined hydraulic pressure. In addition, in comparison with a case where the engagement hydraulic pressure to the friction engagement device is set to a maximum hydraulic pressure to reduce the response variations, power consumption of each linear solenoid valve is suppressed.
    • 在保持自动变速器的预定档位的非换档操作期间,液压控制单元相对于线路液压将与齿轮形成有关的摩擦接合装置的接合液压增加预定液压。 因此,与将线路液压相当的液压压力设定为与摩擦接合装置的接合液压来获得与液压相当的液压的情况相比,变速响应(液压响应)变化 通过预定液压的余量来抑制从非换档状态(稳定状态)向变速状态的变速。 此外,与将摩擦接合装置的接合液压设定为最大液压以减小响应变化的情况相比,每个线性电磁阀的功率消耗被抑制。
    • 2. 发明授权
    • Shift controller for automatic transmission
    • 换档控制器进行自动变速
    • US08332107B2
    • 2012-12-11
    • US13058023
    • 2009-09-24
    • Hitoshi MatsunagaKei Kitajima
    • Hitoshi MatsunagaKei Kitajima
    • G06F7/00
    • F16H61/10F16H59/18F16H59/40F16H61/0213
    • A shift controller for an automatic transmission capable of automatically shifting up in a manual mode is provided. In the shift controller, a hysteresis between an automatic upshift line and a downshift permission line is set to be smaller as the accelerator opening degree decreases. As a result, when the accelerator opening degree is larger and therefore hunting is more likely to occur, it is possible to avoid an excessively small time interval between a downshift and an upshift. On the other hand, when the accelerator opening degree is smaller and therefore hunting is less likely to occur, a manual downshift permission region can be expanded to a higher rotational speed region, whereby a driver's manual downshift request can be satisfied in a higher vehicle speed region.
    • 提供一种能够以手动模式自动换档的自动变速器的变速控制装置。 在变速控制器中,自动升档线和降档允许线之间的滞后被设定为随着加速器开度减小而变小。 结果,当加速器开度较大并且因此更可能发生摆动时,可以避免降档和升挡之间的时间间隔过小。 另一方面,当加速器开度较小并且因此不太可能发生振动时,可以将手动降档允许区域扩展到较高转速区域,从而可以在较高车速下满足驾驶员的手动降档要求 地区。
    • 3. 发明申请
    • CONTROLLER OF VEHICLE DRIVE UNIT
    • 车辆驱动单元控制器
    • US20110155534A1
    • 2011-06-30
    • US13060445
    • 2009-09-24
    • Kei KitajimaHitoshi Matsunaga
    • Kei KitajimaHitoshi Matsunaga
    • F16D7/00
    • F16H61/143F16H2057/0012F16H2061/145Y10T477/63385Y10T477/78
    • In a controller of a vehicle drive unit that is one embodiment of the present invention, a plurality of slippage control regions (regions A to C) are set based on the timing of booming noise generation that accompanies engine driving (time from when the vehicle running state enters a region until booming noise is generated) so as to actively use, for example, regions B and C where booming noise is generated if the road load comes to a balance due to a slope or the like and running is then continued and where booming noise is not immediately generated even after the vehicle running state enters the regions, so the frequency of performing lockup slippage control is increased and the fuel saving effects of the lockup slippage control are enhanced.
    • 在作为本发明的一个实施例的车辆驱动单元的控制器中,基于伴随发动机驱动的繁忙的噪声产生的定时(从车辆行驶的时间)来设定多个滑动控制区域(区域A至C) 状态进入区域,直到产生繁荣的噪声),以便主动使用例如如果由于坡度等导致道路负载达到平衡并且继续运行的区域B和C,其中产生了繁忙的噪声,并且其中 即使在车辆行驶状态进入区域之后,也不会立即产生兴奋的噪音,因此执行锁定滑动控制的频率增加,并且提高了锁定滑动控制的节省燃料的效果。
    • 5. 发明授权
    • Anisotropically conductive sheet
    • 各向异性导电片
    • US07446545B2
    • 2008-11-04
    • US11417072
    • 2006-05-03
    • Hitoshi Matsunaga
    • Hitoshi Matsunaga
    • G01R31/02
    • H01R13/2414G01R1/067G01R1/06711G01R1/073G01R1/0735G01R31/02H01L23/49822H01L23/49827H01L2224/16225H01R13/24H01R13/2407H01R2201/20
    • An anisotropic conductivity sheet (10) comprising an insulating sheet (11) having a number of through-holes (12) and a number of conductive bodies is provided. The insulating sheet (11) has an inner layer (11A) of a heat resistant fuloro-elastomer and surface thin layers (11B, 11C) of heat-resistant engineering plastics. Each of the conductive bodies is a wire loop (13) formed to generally elliptic shape. They are arranged within each of the through-holes (12) so that long axis of each wire loop (13) extends in the thickness direction of the insulating sheet (11). The anisotropic conductivity sheet (10) is suitable to use for electrical test of a semiconductor devise (16), such as IC. A signal waveform-rectifying sheet (20) is preferably arranged on the anisotropic conductivity sheet (10). The signal waveform-rectifying sheet (20) has though-holes (22) in which electrical components for rectifying signals and currents, such as resistors (23A), LEDs (23B), LR circuits (23C) and capacitors (23D), are filled up.
    • 提供了包括具有多个通孔(12)和多个导电体的绝缘片(11)的各向异性导电片(10)。 绝缘片(11)具有耐热的富含弹性体的内层(11A)和耐热工程塑料的表面薄层(11B,11C)。 每个导电体是形成为大致椭圆形状的导线环(13)。 它们布置在每个通孔(12)内,使得每个线环(13)的长轴在绝缘片(11)的厚度方向上延伸。 各向异性导电片(10)适合用于诸如IC的半导体设备(16)的电气测试。 信号波形整流片(20)优选设置在各向异性导电片(10)上。 信号波形整流片(20)具有通孔(22),其中用于整流信号和电流的电气元件(例如电阻器(23A),LED(23B),LR电路(23C)和电容器(23) D)填满了。
    • 9. 发明授权
    • Connector for electronic parts
    • 电子零件连接器
    • US6079987A
    • 2000-06-27
    • US206424
    • 1998-12-07
    • Hitoshi MatsunagaYukie Hayashi
    • Hitoshi MatsunagaYukie Hayashi
    • G01R1/04H01R13/24H01R4/58
    • H01R13/2414G01R1/0416H01R12/714
    • Herein disclosed a connector for electrically connecting an integrated circuit having a plurality of IC terminals with an electronic circuit having a plurality of electronic pads each corresponding to each of the IC terminals of the integrated circuit.The connector comprises an insulating elastic sheet having first and second surfaces and formed with a plurality of through bores at the positions corresponding to the IC terminals of the integrated circuit and a plurality of conductive portions to be respectively received in the through bores of the insulating elastic sheet. Each of the conductive portions comprises first and second conductive pressing plates respectively disposed on the first and second surfaces of the insulating elastic sheet to cover each of the through bores of the insulating elastic sheet; a lead member positioned in each of the through bores of the insulating elastic sheet to have its both ends respectively connected with the first and second conductive pressing plates; and first and second conductive terminals having their one ends connected to the first and second conductive pressing plates to have their other ends face to each of the IC terminals of the integrated circuit and the electronic pads of the electronic circuit, respectively. The lead member of each of the conductive portions is formed with a twisted bundle of a plurality of fine leads each being fine enough to bend in accordance with the elastic movement of the insulating elastic sheet and to cause rotation of the conductive terminal.
    • 这里公开了一种用于将具有多个IC端子的集成电路与具有多个电子焊盘的电子电路电连接的连接器,每个电子焊盘各自对应于集成电路的每个IC端子。 连接器包括具有第一和第二表面的绝缘弹性片,并且在与集成电路的IC端子相对应的位置处形成有多个通孔,并且多个导电部分分别容纳在绝缘弹性体的通孔中 片。 每个导电部分包括分别设置在绝缘弹性片的第一和第二表面上以覆盖绝缘弹性片的每个通孔的第一和第二导电按压板; 定位在所述绝缘弹性片的每个通孔中的引线构件,其两端分别与所述第一和第二导电压板连接; 以及第一和第二导电端子,其一端连接到第一和第二导电按压板,以分别将它们的另一端面对集成电路的每个IC端子和电子电路的电子焊盘。 每个导电部分的引导部件形成有多个细小引线的扭绞束,每个细导线根据绝缘弹性片的弹性运动而足够细小并使导电端子旋转。