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    • 5. 发明授权
    • Double-integrating silicon acceleration sensing device
    • 双积分硅加速度传感装置
    • US5044201A
    • 1991-09-03
    • US566789
    • 1990-08-13
    • Louis P. FaraceJohn D. Titus
    • Louis P. FaraceJohn D. Titus
    • G01P15/08G01P15/125
    • G01P15/125G01P15/0802
    • A double integrating silicon acceleration sensing device which is solid state and micromachined measures the acceleration of an object and determines the distance travelled by that object through its trajectory. The device comprises a hermetically sealed container. The cavity within the container is divided by a flexible silicon diaphragm into two separate cavities, one shallow and the other deep. The two cavities are filled with a fluid which is relatively incompressible over the range of operating pressure. The fluid can only transfer between the two cavities through an orifice. Two capacitor plates form a capacitor within the shallow cavity. One of the plates is secured to a central portion of the diaphragm, and the other plate is secured adjacent to and opposite of the first plate within the shallow cavity. When the accelerometer is at rest, the two plates are separated by a given distance X.sub.g. When the accelerometer experiences an acceleration, the diaphragm deflects into the deep cavity forcing fluid from the deep cavity into the shallow cavity. The gap between the two capacitor plates X.sub.g increases causing a change in the total capacitance. This capacitance value is exactly proportional to the distance travelled by the object for constant acceleration, and is approximately proportional to the distance travelled for other acceleration pulses. When capacitor plates are coupled adjacent and opposite each other in the deep cavity, in addition to capacitor plates in the shallow cavity, a differential capacitance results.
    • 固体和微加工的双积分硅加速度感测装置测量物体的加速度,并确定该物体通过其轨迹行进的距离。 该装置包括一个气密密封的容器。 容器内的空腔被柔性硅隔膜分成两个分开的空腔,一个是浅的,另一个是深的。 这两个空腔充满了在工作压力范围内相对不可压缩的流体。 流体只能通过孔口在两个空腔之间传递。 两个电容器板在浅腔内形成一个电容器。 其中一个板被固定到隔膜的中心部分,另一个板被固定在浅腔内的第一板的邻近和相对的位置。 当加速度计处于静止状态时,两个平板分隔给定距离Xg。 当加速度计经历加速度时,隔膜偏转到深空腔,迫使流体从深空腔进入浅腔。 两个电容器板Xg之间的间隙增加导致总电容的变化。 该电容值与用于恒定加速度的物体行进的距离精确成比例,并且与其他加速度脉冲的行进距离成正比。 当电容器板在深空腔中彼此相邻且相互耦合时,除了浅腔中的电容器板之外,还会产生差分电容。
    • 7. 发明授权
    • Hermetic electrical connector
    • 气密电连接器
    • US5573428A
    • 1996-11-12
    • US265368
    • 1994-06-24
    • Bradley M. BiggsChristopher F. NortonLouis P. Farace
    • Bradley M. BiggsChristopher F. NortonLouis P. Farace
    • H01R13/533H01R13/658H05K1/00
    • H01R13/533
    • A low profile hermetic electrical connector includes a conductive layer with opposite first and second conductive layer surfaces. An inner electrical isolation layer is coupled between the first conductive layer surface and a first contact and an outer electrical isolation layer is coupled between the second conductive layer surface and a second contact. A contact interconnector electrically couples the first contact and the second contact through the inner electrical isolation layer, the conductive layer, and the outer electrical isolation layer without electrically contacting the conductive layer, creating a serpentine, low flow path for vapor through the adhesive layers. In a hermetic electrical cable end connector, the first contact is electrically coupled to a first conductor through a first interconnector and a second contact is electrically coupled to a second conductor through a second interconnector. Two additional electrical isolation layers are required. Applications include use in electronic safe and arming devices.
    • 薄型密封电连接器包括具有相对的第一和第二导电层表面的导电层。 内电绝缘层耦合在第一导电层表面和第一触点之间,外电隔离层耦合在第二导电层表面和第二触点之间。 接触互连器通过内部电隔离层,导电层和外部电隔离层将第一接触件和第二接触件电耦合,而不与导电层电接触,从而产生用于通过粘合剂层的蒸气的蛇形的低流动路径。 在密封电缆端连接器中,第一触头通过第一互连器电耦合到第一导体,并且第二触点通过第二互连器电耦合到第二导体。 需要两个额外的电隔离层。 应用包括用于电子安全和布防装置。
    • 9. 发明授权
    • Safe and arming device
    • 安全防范装置
    • US4215635A
    • 1980-08-05
    • US969595
    • 1978-12-14
    • Louis P. Farace
    • Louis P. Farace
    • F42C15/188F42C15/22
    • F42C15/188
    • An improved safe and arming device for isolating the fuse from the main eosive charge in spin stabilized shells to prevent premature detonation of such shells. The improved safe and arming device comprises a housing adapted to be positioned intermediate of the fuse and the main explosive charge of such shells for rotation therewith about a shell spin axis when the shell is fired, a rotor mounted in the housing for rotation about a rotor axis, and a rotatable control member engageable with the rotor and being rotatable about an axis extending in the same direction as the rotor axis for controlling the rate of rotation of the rotor. The rotor is positionable in a desired start position and is adapted to rotate in response to rotation of the shell to an armed position to communicate a detonation signal from the fuse to the explosive charge. The rotatable control member carries an oscillatory member which is adapted to periodically move in one direction and then in a different direction in response to rotation of the rotatable control member so that the momentum of the oscillatory member is periodically changed. The rate of periodic change of momentum thus controls the rate of rotation of the rotatable control member, which in turn controls the rate of rotation of the rotor from the start position to the armed position.
    • 一种改进的安全和布防装置,用于将保险丝与自旋稳定的壳体中的主要炸药分离,以防止这种壳体的过早爆炸。 改进的安全和布防装置包括壳体,其适于定位在熔断器的中间和这种壳体的主要爆炸装置之间,以便当壳体被击发时围绕壳体旋转轴线旋转;安装在壳体中用于围绕转子旋转的转子 以及可转动的可旋转的控制构件,其能够绕与转子轴线相同的方向延伸的轴线旋转,以控制转子的旋转速度。 转子可定位在期望的起始位置,并且适于响应于壳体旋转到布置位置而旋转,以将来自保险丝的爆震信号传送到爆炸装药。 可旋转控制构件承载振荡构件,其适于响应于可旋转控制构件的旋转在一个方向上然后沿不同的方向周期性地移动,使得振荡构件的动量周期性地改变。 因此,动量的周期性变化的速率控制了可旋转控制构件的旋转速度,其又控制转子从起始位置到装备位置的转速。