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    • 4. 发明授权
    • Laser plane generator having self-calibrating levelling system
    • 具有自校准调平系统的激光平面发生器
    • US5689330A
    • 1997-11-18
    • US415344
    • 1995-04-03
    • Philip O. GerardDavid M. FalbBruce A. Boersma
    • Philip O. GerardDavid M. FalbBruce A. Boersma
    • G01B11/26G01C15/00
    • G01B11/26G01C15/004
    • A self-levelling laser generator apparatus (10) includes a housing (12), a light source in the housing which produces a beam of collimated light, and a self-levelling mechanism (18). The self-levelling mechanism includes an electronically controllable signal source, such as a digital potentiometer (46), which is provided a command (44a-44c) from a programmed computer (38) to produce a controllable output (48). The output of (48) the digital potentiometer is summed by a summing circuit (34) with the output (28) of an inclination sensor (24) in order to produce a compensated inclination signal (36) which is provided as an input to computer 38. The computer additionally receives a calibration input (20, 21) indicative of deviation between the inclination of the laser beam and a predetermined grade. The computer produces a drive signal (50a, 50b) for the self-levelling mechanism (52, 54) that is a function of the compensation inclination signal. The output (44a-44c) supplied by computer 38 to the digitally controllable signal source (46) is a function of the tilt of the inclinometer and calibration numbers entered through calibration inputs (20, 21).
    • 自流平激光发生器装置(10)包括壳体(12),壳体中的光源,其产生准直光束,以及自流平机构(18)。 自调平机构包括电子可控信号源,例如数字电位器(46),其从编程计算机(38)提供命令(44a-44c)以产生可控输出(48)。 (48)数字电位器的输出由加法电路(34)与倾斜传感器(24)的输出(28)相加,以便产生补偿的倾斜信号(36),其被提供作为计算机的输入 计算机还接收指示激光束的倾斜与预定等级之间的偏差的校准输入(20,21)。 计算机产生作为补偿倾斜信号的函数的自调平机构(52,54)的驱动信号(50a,50b)。 由计算机38提供给数字可控信号源(46)的输出(44a-44c)是倾斜计的倾斜和通过校准输入(20,21)输入的校准数的函数。
    • 5. 发明授权
    • Laser beam projector power and communication system
    • 激光束投影机电源和通讯系统
    • US06195901B1
    • 2001-03-06
    • US09356758
    • 1999-07-19
    • David M. Falb
    • David M. Falb
    • G01C1500
    • G01C15/004
    • A rotating laser beam projector includes a power controller having a micro controller coupled to a laser power circuit which determines whether the laser beam emitted by the projector is rotating or stationary. When the laser beam is rotating, the laser power circuit delivers a first level of continuance power to the laser. When the laser beam is stationary, the laser power circuit delivers a second level of continuance power to the laser which is less than the first level of power. The micro controller communicates messages from the laser beam projector to a remotely positioned sensor assembly by rotating the laser beam at a first speed when no message is to be communicated and rotating the laser beam at a second speed, different from the first speed, when a message is to be communicated. The laser beam projector includes a bridge for delivering electrical power to a pendulum-supported device from a stationary source. A first conductor is affixed to the stationary source and a second conductor is electrically coupled to the pendulum-supporting device. At least one wire is bonded, such as by ball-and-stitch bonding, from the conductor to the second conductor across a gap.
    • 旋转激光束投影仪包括具有耦合到激光功率电路的微控制器的功率控制器,其确定投影仪发射的激光束是旋转还是静止。 当激光束旋转时,激光功率电路向激光器提供第一级连续功率。 当激光束静止时,激光功率电路向激光器提供小于第一功率级的第二级连续功率。 微控制器将消息从激光投影仪传送到远程定位的传感器组件,其中当不需要传送消息时旋转激光束并以不同于第一速度的第二速度旋转激光束 消息将被传达。 激光束投影仪包括用于从静止源将功率传递给摆式支撑装置的桥。 第一导体固定在固定源上,第二导体电连接到摆支撑装置。 至少一根导线例如通过滚珠和针脚接合,通过间隙从导体连接到第二导体。
    • 6. 发明申请
    • SYSTEM AND METHOD FOR CONTROLLING VEHICLE EQUIPMENT RESPONSIVE TO A MULTI-STAGE VILLAGE DETECTION
    • 用于控制多级车辆检测的车辆设备的系统和方法
    • US20130320193A1
    • 2013-12-05
    • US13486636
    • 2012-06-01
    • Peter LikenDavid M. FalbJeremy A. SchutPhillip R. Pierce
    • Peter LikenDavid M. FalbJeremy A. SchutPhillip R. Pierce
    • H01L27/146
    • H01L27/146B60Q1/143B60Q2300/21B60Q2300/314B60Q2300/3321
    • A system for controlling equipment of a vehicle is provided. The system is configured to image a scene external and forward of the controlled vehicle and to generate image data corresponding to acquired images, including a controller for receiving and analyzing the image data and for generating a control signal in response to analysis of the image data and in response to a selected mode of operation. The controller analyzes the data in order to detect at least one characteristic in the image data and selects a mode of operation from at least one of the following modes of operation: The controller selects a dark village mode if at least one characteristic reaches a first threshold, a bright village mode if at least one characteristic reaches a second threshold, and a non-village mode if the controller is not operating in either the dark village mode or the bright village mode.
    • 提供一种用于控制车辆设备的系统。 该系统被配置为对受控车辆的外部和前部的场景进行成像,并且生成与所获取的图像相对应的图像数据,包括用于接收和分析图像数据并响应于图像数据的分析产生控制信号的控制器,以及 响应于所选择的操作模式。 控制器分析数据以便检测图像数据中的至少一个特征,并且从以下操作模式中的至少一个中选择操作模式:如果至少一个特征达到第一阈值,则控制器选择暗村模式 ,如果至少一个特征达到第二阈值,则明亮的村庄模式,以及如果控制器不在黑暗村庄模式或明亮村庄模式下操作,则为非村庄模式。
    • 9. 发明授权
    • Laser system for generating a reference plane
    • 用于产生参考平面的激光系统
    • US06314650B1
    • 2001-11-13
    • US09502353
    • 2000-02-11
    • David M. Falb
    • David M. Falb
    • G01C502
    • G01C15/004Y10S33/21
    • A laser system comprising a laser transmitter and a laser receiver is operable to adjust the laser beam or the laser plane generated by the laser transmitter in response to one or more inputs by a user of the system. The system is operable in one or more modes, such that communication from the laser receiver to the laser transmitter results in various adjustments to the laser beam or tilt or slope of the plane generated by the beam. The present invention is preferably operable to automatically account for any drift in the system, or to adjust the slope of the plane generated by the transmitter in response to a detected location of the laser receiver. Additionally, the laser transmitter may be operable to automatically oscillate the beam in a given area in response to detection of the laser receiver in that area. Each of these modes may be actuated via a simple user input at the laser receiver and/or the laser transmitter. The present invention thus provides a simplified process for implementing a laser leveling system, which may be set up and operated by a single user.
    • 包括激光发射器和激光接收器的激光系统可操作以响应于系统的用户的一个或多个输入来调节由激光发射器产生的激光束或激光平面。 该系统可以以一种或多种模式操作,使得从激光接收器到激光发射器的通信导致对激光束的各种调整或由光束产生的平面的倾斜或斜率。 本发明优选地可操作以响应于检测到的激光接收器的位置而自动考虑系统中的任何漂移,或者调整由发射器产生的平面的斜率。 此外,激光发射器可以可操作以响应于该区域中的激光接收器的检测而在给定区域内自动振荡光束。 可以通过在激光接收机和/或激光发射器处的简单用户输入来致动这些模式中的每一个。 因此,本发明提供了一种用于实现可由单个用户建立和操作的激光校准系统的简化过程。
    • 10. 发明授权
    • Laser beam projector power and communication system
    • 激光束投影机电源和通讯系统
    • US5953108A
    • 1999-09-14
    • US961463
    • 1997-10-31
    • David M. FalbBrian G. ZombergBruce A. Boersma
    • David M. FalbBrian G. ZombergBruce A. Boersma
    • G01C5/00G01C15/00H01S3/00G01C3/08
    • G01C15/004
    • A rotating laser beam projector includes a power controller having a micro controller coupled to a laser power circuit which determines whether the laser beam emitted by the projector is rotating or stationary. When the laser beam is rotating, the laser power circuit delivers a first level of continuance power to the laser. When the laser beam is stationary, the laser power circuit delivers a second level of continuance power to the laser which is less than the first level of power. The micro controller communicates messages from the laser beam projector to a remotely positioned sensor assembly by rotating the laser beam at a first speed when no message is to be communicated and rotating the laser beam at a second speed, different from the first speed, when a message is to be communicated. The laser beam projector includes a bridge for delivering electrical power to a pendulum-supported device from a stationary source. A first conductor is affixed to the stationary source and a second conductor is electrically coupled to the pendulum-supporting device. At least one wire is bonded, such as by ball-and-stitch bonding, from the conductor to the second conductor across a gap.
    • 旋转激光束投影仪包括具有耦合到激光功率电路的微控制器的功率控制器,其确定投影仪发射的激光束是旋转还是静止。 当激光束旋转时,激光功率电路向激光器提供第一级连续功率。 当激光束静止时,激光功率电路向激光器提供小于第一功率级的第二级连续功率。 微控制器将消息从激光投影仪传送到远程定位的传感器组件,其中当不需要传送消息时旋转激光束并以不同于第一速度的第二速度旋转激光束 消息将被传达。 激光束投影仪包括用于从静止源将功率传递给摆式支撑装置的桥。 第一导体固定在固定源上,第二导体电连接到摆支撑装置。 至少一根导线例如通过滚珠和针脚接合,通过间隙从导体连接到第二导体。