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    • 1. 发明申请
    • Shunt calibration for electronic pressure switches
    • 电子压力开关的分流校准
    • US20060191346A1
    • 2006-08-31
    • US11341398
    • 2006-01-26
    • Anthony KurtzWolf Landmann
    • Anthony KurtzWolf Landmann
    • G01L7/00
    • G01L27/007
    • An electronic switch of the type uses a piezoresistive Wheatstone bridge configuration to sense pressure. The output of the Wheatstone bridge is applied to an electronic control circuit which contains a comparator. The comparator monitors the output of the bridge and if the output voltage of the bridge exceeds a predetermined value, as indicated by the comparator, a switch is closed to illuminate a lamp indicating to the operator that the pressure has been exceeded. One terminal of a resistor is connected to an output of the bridge. The other terminal of the resistor is coupled to a switch which when operated, causes the resistor to be connected in parallel with one of the arms of the bridge, thereby producing an imbalance of the bridge. This imbalance, due to the shunting of the arm of the bridge by the resistor, causes the electronic control circuit to recognize an excessive pressure, whereby the electronics control circuit generates an output signal which causes the electronic switch to close, thereby illuminating the lamp.
    • 该类型的电子开关使用压阻式惠斯通电桥配置来感测压力。 惠斯通电桥的输出应用于包含比较器的电子控制电路。 比较器监视桥的输出,并且如果比较器指示的桥的输出电压超过预定值,则关闭开关以点亮指示操作者已经超过压力的指示灯。 电阻器的一个端子连接到桥的输出端。 电阻器的另一个端子耦合到开关,当操作时,电阻器与桥的臂中的一个并联连接,从而产生桥的不平衡。 由于电阻器使桥的臂分流,这种不平衡导致电子控制电路识别过大的压力,由此电子控制电路产生使电子开关闭合的输出信号,从而照亮灯。
    • 2. 发明申请
    • Shunt calibration for electronic pressure switches
    • 电子压力开关的分流校准
    • US20050072244A1
    • 2005-04-07
    • US10677986
    • 2003-10-02
    • Anthony KurtzWolf Landmann
    • Anthony KurtzWolf Landmann
    • G01L9/06G01L27/00
    • G01L27/007
    • An electronic switch of the type uses a piezoresistive Wheatstone bridge configuration to sense pressure. The output of the Wheatstone bridge is applied to an electronic control circuit which contains a comparator. The comparator monitors the output of the bridge and if the output voltage of the bridge exceeds a predetermined value, as indicated by the comparator, a switch is closed to illuminate a lamp indicating to the operator that the pressure has been exceeded. One terminal of a resistor is connected to an output of the bridge. The other terminal of the resistor is coupled to a switch which when operated, causes the resistor to be connected in parallel with one of the arms of the bridge, thereby producing an imbalance of the bridge. This imbalance, due to the shunting of the arm of the bridge by the resistor, causes the electronic control circuit to recognize an excessive pressure, whereby the electronics control circuit generates an output signal which causes the electronic switch to close, thereby illuminating the lamp.
    • 该类型的电子开关使用压阻式惠斯通电桥配置来感测压力。 惠斯通电桥的输出应用于包含比较器的电子控制电路。 比较器监视桥的输出,并且如果比较器指示的桥的输出电压超过预定值,则关闭开关以点亮指示操作者已经超过压力的指示灯。 电阻器的一个端子连接到桥的输出端。 电阻器的另一个端子耦合到开关,当操作时,电阻器与桥的臂中的一个并联连接,从而产生桥的不平衡。 由于电阻器使桥的臂分流,这种不平衡导致电子控制电路识别过大的压力,由此电子控制电路产生使电子开关闭合的输出信号,从而照亮灯。
    • 3. 发明申请
    • High temperature pressure sensing system
    • 高温压力传感系统
    • US20080028863A1
    • 2008-02-07
    • US11709639
    • 2007-02-22
    • Anthony KurtzWolf LandmannAlexander Ned
    • Anthony KurtzWolf LandmannAlexander Ned
    • G01L9/06
    • G01L9/065
    • A high temperature pressure sensing system (transducer) including: a pressure sensing piezoresistive sensor formed by a silicon-on-insulator (SOI) process; a SOI amplifier circuit operatively coupled to the piezoresistive sensor; a SOI gain controller circuit including a plurality of resistances that when selectively coupled to the amplifier adjust a gain of the amplifier; a plurality of off-chip contacts corresponding to the resistances, respectively, for electrically activating the corresponding resistances and using a metallization layer for the SOI sensor and SOI ASIC suitable for high temperature interconnections (bonding); wherein the piezoresistive sensor, amplifier circuit and gain control circuit are suitable for use in environments having a temperature greater than 175 degrees C. and reaching between 250° C. and 300° C., and wherein the entire transducer has a high immunity to nuclear radiation.
    • 一种高温压力感测系统(传感器),包括:由绝缘体上硅(SOI)工艺形成的压力感测压阻传感器; 可操作地耦合到压阻传感器的SOI放大器电路; 包括多个电阻的SOI增益控制器电路,当选择性地耦合到放大器时调节放大器的增益; 分别对应于电阻的多个片外触点,用于电激活相应的电阻并且使用用于SOI传感器的金属化层和适合于高温互连(接合)的SOI ASIC; 其中所述压阻传感器,放大器电路和增益控制电路适用于温度高于175摄氏度并达到250℃至300℃的环境中,并且其中整个换能器具有对核的高免疫性 辐射。
    • 4. 发明申请
    • Gas density transducer
    • 气体密度传感器
    • US20060025955A1
    • 2006-02-02
    • US11007681
    • 2004-12-08
    • Anthony KurtzWolf Landmann
    • Anthony KurtzWolf Landmann
    • G01R27/28
    • G01N9/266
    • A gas density transducer including: a piezoresistive bridge sensor operative to provide an output indicative of an applied pressure, a computing processor having multiple inputs and at least one output, with the output of the bridge sensor coupled to an input of the processor; a temperature sensor coupled to an input of the processor for providing at an output a signal indicative of a temperature of the bridge sensor, the output of the temperature sensor coupled to an input of the processor; and, at least one memory accessible by the processor and having stored therein: compensation coefficients for compensating the output of the bridge sensor for temperature variation; gas specific coefficients of the Van der Waal's equation; and, code for providing at an output of the processor a signal indicative of a gas density when the bridge is subjected to a gas containing environment.
    • 一种气体密度传感器,包括:压阻电桥传感器,用于提供指示施加的压力的输出,具有多个输入和至少一个输出的计算处理器,所述桥接传感器的输出耦合到所述处理器的输入; 耦合到所述处理器的输入的温度传感器,用于在输出端提供指示所述桥式传感器的温度的信号,所述温度传感器的输出耦合到所述处理器的输入; 以及至少一个可由处理器访问并且存储在其中的存储器;用于补偿桥式传感器的温度变化的输出的补偿系数; 范德华方程的气体特异系数; 以及用于在处理气体包含环境时在处理器的输出处提供指示气体密度的信号的代码。
    • 5. 发明申请
    • Transducer employing wireless transmissions for sending and receiving signals
    • 传感器采用无线传输发送和接收信号
    • US20050150286A1
    • 2005-07-14
    • US11003238
    • 2004-12-03
    • Anthony KurtzWolf Landmann
    • Anthony KurtzWolf Landmann
    • B60C23/04B60C23/02
    • B60C23/0413B60C23/0433
    • A transducer is implemented to operate with transmitted frequency signals. These transmitted signals provide a bias potential to the transducer and enable the transducer to transmit a transducer output signal to a remote location. The transducer has an antenna for receiving transmitted signals. The antenna is coupled to a rectifier circuit; the rectifier circuit is operative to provide a DC voltage in response to said received transmitted signals. This DC voltage is applied to the piezoresistive array via a switching arrangement coupled between the array and the rectifier circuit. An interface circuit controls the switching arrangement to enable DC bias to be applied to the array in a first mode and to remove the bias in a second mode.
    • 实现传感器以与发射的频率信号一起操作。 这些传输的信号为换能器提供偏置电位,并使换能器将换能器输出信号传输到远程位置。 换能器具有用于接收发射信号的天线。 天线耦合到整流电路; 整流电路可操作以响应于所接收的发送信号而提供DC电压。 该直流电压通过耦合在阵列和整流器电路之间的开关装置施加到压阻阵列。 接口电路控制开关布置以使得能够以第一模​​式将DC偏压施加到阵列并且在第二模式中去除偏置。
    • 6. 发明申请
    • High temperature pressure sensing system
    • 高温压力传感系统
    • US20070068267A1
    • 2007-03-29
    • US11234724
    • 2005-09-23
    • Anthony KurtzWolf LandmannAlexander Ned
    • Anthony KurtzWolf LandmannAlexander Ned
    • G01L9/06
    • G01L9/065
    • A high temperature pressure sensing system (transducer) including: a pressure sensing piezoresistive sensor formed by a silicon-on-insulator (SOI) process; a SOI amplifier circuit operatively coupled to the piezoresistive sensor; a SOI gain controller circuit including a plurality of resistances that when selectively coupled to the amplifier adjust a gain of the amplifier; a plurality of off-chip contacts corresponding to the resistances, respectively, for electrically activating the corresponding resistances and using a metallization layer for the SOI sensor and SOI ASIC suitable for high temperature interconnections (bonding); wherein the piezoresistive sensor, amplifier circuit and gain control circuit are suitable for use in environments having a temperature greater than 175 degrees C. and reaching between 250° C. and 300° C., and wherein the entire transducer has a high immunity to nuclear radiation.
    • 一种高温压力感测系统(传感器),包括:由绝缘体上硅(SOI)工艺形成的压力感测压阻传感器; 可操作地耦合到压阻传感器的SOI放大器电路; 包括多个电阻的SOI增益控制器电路,当选择性地耦合到放大器时调节放大器的增益; 分别对应于电阻的多个片外触点,用于电激活相应的电阻并且使用用于SOI传感器的金属化层和适合于高温互连(接合)的SOI ASIC; 其中所述压阻传感器,放大器电路和增益控制电路适用于温度高于175摄氏度并达到250℃至300℃的环境中,并且其中整个换能器具有对核的高免疫性 辐射。
    • 7. 发明申请
    • Solid state electronic pressure switch
    • US20050174247A1
    • 2005-08-11
    • US10776707
    • 2004-02-11
    • Anthony KurtzWolf LandmannRichard Martin
    • Anthony KurtzWolf LandmannRichard Martin
    • G08B21/00H03K17/693H03K17/96
    • H03K17/9625H03K17/693
    • There is disclosed an electronic single pole double throw switch which completely replaces a prior art mechanical switch. The mechanical switch normally exists in a suitable vehicle, such as an aircraft or any device, but basically has three output terminals. Two terminals are associated with a first and a second lamp, which lamps have one terminal coupled to an operating voltage. Essentially, in order to replace the mechanical switch, an electronic switch also is wired to the three terminals exactly as a mechanical switch would be so wired. The electronic switch has two states. In each state, one of the lamps is on and the corresponding switch is closed. In this state, the other lamp is off, with its corresponding switch open. This operation is the same operation as that of the mechanical switch. In the electronic switch, the voltage, which is at the output terminal of the lamp that is off, is utilized to drive a low voltage regulator which operates electronic circuitry associated with the electronic switch. The electronic switch contains a timing oscillator which produces a pulse of a narrow interval. This narrow pulse is utilized to supply operating potential to a piezoresistive bridge circuit. The activation of the bridge circuit causes the bridge circuit to produce an output during the pulse interval, which output is directed to a differential amplifier and then to a comparator. The comparator receives an operating voltage during the pulse interval and compares the pressure of the bridge circuit against a threshold pressure. If this threshold pressure is exceeded, the comparator causes a flip-flop to change state. The flip-flop has first and second outputs, each coupled to an associated switching circuit. Each switching circuit will activate an associated lamp to cause the lamp to illuminate when the flip-flop is in a given state. The state of the flip-flop can be changed during the next pulse interval if the pressure applied to the bridge circuit changes.
    • 10. 发明申请
    • SYSTEM FOR DETECTING AND COMPENSATING FOR AERODYNAMIC INSTABILITIES IN TURBO-JET ENGINES
    • 用于涡轮喷气发动机的气动性不稳定性检测和补偿系统
    • US20060288703A1
    • 2006-12-28
    • US11023035
    • 2004-12-23
    • Anthony KurtzJohn ChiversAlan Epstein
    • Anthony KurtzJohn ChiversAlan Epstein
    • F02C7/00
    • F02C9/28F01D17/08F01D21/003F04D27/001F05D2260/80F05D2270/301F05D2300/50F23N5/16F23N2025/04F23N2041/20G01M15/14Y02T50/672
    • The present invention relates to a system for detecting aerodynamic instabilities in a jet turbine engine having a pressure transducer mounted in the engine. The pressure transducer, welded to a circuit in signal communication with a controller, is adapted to send measured pressure readings from air in a combustion chamber to the controller. The controller, located in spaced apart relation from the engine, is adapted by software to detect pressure patterns from the pressure signals generated by the transducer that are indicative of a stall or surge. A series of fuel and air valves located with compression and combustion chambers of the engine are in signal communication with the controller. The controller in response to detecting pressure signals indicating a stall or surge is operative to signals in the valves to change the air flow, air angle, fuel flow or speed to reduce the possibility of a stall or surge.
    • 本发明涉及一种用于检测具有安装在发动机中的压力传感器的喷气涡轮发动机中的空气动力学不稳定性的系统。 焊接到与控制器进行信号通信的电路的压力传感器适于将测量的压力读数从燃烧室中的空气发送到控制器。 与发动机间隔开的关系的控制器通过软件进行调节,以检测由换能器产生的指示失速或喘振的压力信号的压力模式。 位于发动机的压缩和燃烧室的一系列燃料和空气阀与控制器信号通信。 响应于检测到指示失速或喘振的压力信号,控制器可操作以在阀中发出信号以改变空气流量,气流角度,燃料流量或速度,以减少失速或喘振的可能性。