公开(公告)号：US5663927A

公开(公告)日：1997-09-02

申请号：US652206

申请日：1996-05-23

Applicant: Jack R. Olson ,  J. Mark Stevenson ,  Barbara J. Sotirin

Inventor： Jack R. Olson ,  J. Mark Stevenson ,  Barbara J. Sotirin

IPC: G01V1/22 ,  G01V1/38 ,  H04B11/00 ,  H04B13/02 ,  H04B1/59

CPC classification number: G01V1/22 ,  G01C13/00 ,  G01V1/38 ,  H04B11/00 ,  H04B13/02

Abstract: A buoyed sensor array communications system comprises multiple sensor syss electrically connected to a signal transmission line which are positioned at predetermined locations along the signal transmission line to form a linear sensor array. Each of the sensor systems generates a data signal in response to receiving an address signal. The system further includes; a processor system electrically connected to the signal transmission line for transmitting address signals to enable any one of the sensor systems at a time in a selectively accessed order and has a data storage memory for storing the data signal from each of the sensor systems as stored data. A radio frequency transmitting system is coupled to the data processor and transmits the stored data at a predetermined time. A negatively buoyant structure connected to the signal transmission line pulls the communications system to the bottom of a body of water upon deployment. A positively buoyant structure supports the processor system and radio frequency transmitting system, and is connected to the signal transmission line. A signal transmission line cutting system mounted in the buoyant structure severs the signal transmission line upon receipt of a cutting system enablement signal generated by said processor system, whereupon the buoyant structure floats to the surface of said body of water. Then the transmitting system transmits the stored data.

Abstract translation: 浮体传感器阵列通信系统包括电连接到信号传输线的多个传感器系统，信号传输线位于沿着信号传输线的预定位置处以形成线性传感器阵列。 每个传感器系统响应于接收地址信号而生成数据信号。 系统还包括： 电连接到信号传输线的处理器系统，用于发送地址信号，以使得任何一个传感器系统能够以有选择地访问的顺序一次，并具有用于存储来自每个传感器系统的数据信号作为存储数据的数据存储存储器 。 射频发射系统耦合到数据处理器，并在预定时间发送存储的数据。 连接到信号传输线的负浮力结构在通信时将通信系统拉到水体的底部。 积极浮力的结构支持处理器系统和射频发射系统，并连接到信号传输线。 安装在浮力结构中的信号传输线切割系统在接收到由所述处理器系统产生的切割系统启用信号时，切断信号传输线，于是浮力结构浮动到所述水体表面。 然后发送系统发送存储的数据。

公开(公告)号：USH1650H

公开(公告)日：1997-06-03

申请号：US27483

申请日：1993-02-26

Applicant: Jack R. Olson

Inventor： Jack R. Olson

IPC: G01V1/20 ,  H01R4/70 ,  H01R13/504 ,  H01R43/00

CPC classification number: G01V1/201 ,  H01R4/70 ,  H01R13/504 ,  H01R43/005

Abstract: An impervious cable connected electrical component assembly is provided wh includes an electrical component which has a conductive wire extending therefrom. An impervious container is provided which has an open top and a closed bottom. The electrical component is located within the container with its conductive wire extending out of and beyond the container's top. A cable is provided which has a conductive wire within an impervious sheath. A lengthwise portion of this wire is exposed. The conductive wire extending from the top of the container and the exposed conductive wire portion of the cable are electrically joined at a junction outside the container. An impervious sleeve is bonded to the cable sheath so as to hermetically seal the wire junction along the cable. The open top of the container and the sleeve are bonded to hermetically seal the electrical component. With this arrangement the assembly can be easily constructed with minimal effect on the electrical component and, after construction, the assembly can be used with maximum protection of the electrical component.

Abstract translation: 提供了一种连接电气元件组件的不透水电缆，其中包括一个电气元件，该元件具有从其延伸的导线。 提供了一种具有开口顶部和封闭底部的不透水容器。 电气部件位于容器内，其导线延伸出容器顶部并超出容器的顶部。 提供了一种在不透水护套内具有导线的电缆。 该线的纵向部分露出。 从容器的顶部延伸出来的导线和电缆的暴露的导电线部分在容器外部的接合处电连接。 不可渗透的套筒结合到电缆护套上，以沿电缆气密地密封电线接头。 容器和套筒的敞开的顶部被粘合以密封电气部件。 利用这种布置，可以容易地构造组件，对电气部件具有最小的影响，并且在构造之后，组件可以用于电气部件的最大保护。

公开(公告)号：USH1371H

公开(公告)日：1994-11-01

申请号：US115964

申请日：1993-08-25

Applicant: Homer P. Bucker ,  Michael F. Morrison ,  R. Bruce Williams ,  Jack R. Olson ,  Richard C. Shockley

Inventor： Homer P. Bucker ,  Michael F. Morrison ,  R. Bruce Williams ,  Jack R. Olson ,  Richard C. Shockley

IPC: G01V1/22 ,  H04B11/00

CPC classification number: G01V1/22

Abstract: An underwater sensing system has a trunk cable that transmits a plurality clock signals from its first end to its second end. A plurality of signal handling nodes are installed successively along the trunk cable in a spaced apart relationship. Each of a plurality of linear sensor arrays extend from one signal handling node. Each sensor in the sensor arrays receives the clock signals and generates a data output signal in response thereto at specifically ordered time sampled intervals based on a count of the clock signals. The data output signals are transmitted to the one signal handling node associated with the sensor array. At each of the signal handling nodes, a multiplexer interleaves the data output signals received from its sensor array in a continual throughput, time-division multiplexed fashion with concatenated data output signals received from the next successive signal handling node located further from the first end of the trunk cable.

Abstract translation: 水下感测系统具有从其第一端向其第二端传输多个时钟信号的干线电缆。 多个信号处理节点沿着干线电缆以间隔开的关系连续安装。 多个线性传感器阵列中的每一个从一个信号处理节点延伸。 传感器阵列中的每个传感器接收时钟信号，并且基于时钟信号的计数以特定有序的时间采样间隔响应于此生成数据输出信号。 数据输出信号被传送到与传感器阵列相关联的一个信号处理节点。 在每个信号处理节点处，多路复用器以连续的吞吐量时分多路复用方式将从其传感器阵列接收的数据输出信号进行交织，从连续的数据输出信号接收的下一个连续的信号处理节点 干线电缆。