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    • 1. 发明授权
    • Method and apparatus for transverse electromagnetic induction well
logging
    • 横向电磁感应测井方法和装置
    • US5781436A
    • 1998-07-14
    • US686848
    • 1996-07-26
    • Stanislav ForgangOtto N. FaniniLeonty A. Tabarovsky
    • Stanislav ForgangOtto N. FaniniLeonty A. Tabarovsky
    • E21B41/00G01V3/28G06F19/00
    • G01V3/28E21B2041/0028
    • A method of measuring the conductivity of earth formations penetrated by a wellbore. The method comprises selectively passing an alternating current through transmitter coils inserted into the wellbore. Each of the transmitter coils has a magnetic moment direction different from the magnetic moment direction of the other ones of the transmitter coils. The alternating current includes a first and a second frequency. The amplitude at the first frequency has a predetermined relationship to the amplitude at the second frequency. The relationship corresponds to the first and the second frequencies. The method includes selectively receiving voltages induced in a receiver coil having a sensitive direction substantially parallel to the axis of the corresponding transmitter coil through which the alternating current is passed. A difference in magnitudes between a component of the received voltage at the first frequency and a component of the voltage at the second frequency is measured, and conductivity is calculated from the difference in magnitudes of the components of the received voltage at the two frequencies. In a preferred embodiment, the step of measuring the difference in magnitudes between the voltage components at the two frequencies includes extracting digital signal samples of the received voltage at predetermined times with respect to a cycle of the transmitter current at the first frequency.
    • 测量井眼穿透的地层导电性的方法。 所述方法包括选择性地使交流电流通过插入到井筒中的发射器线圈。 每个发射器线圈具有与其他发射器线圈的磁矩方向不同的磁矩方向。 交流电流包括第一和第二频率。 第一频率处的振幅与第二频率处的振幅具有预定的关系。 该关系对应于第一和第二频率。 该方法包括有选择地接收在接收器线圈中感应的电压,该接收器线圈具有基本上平行于相应发射器线圈的轴线的敏感方向,交流电通过该轴线。 测量第一频率的接收电压的分量与第二频率处的电压分量之间的幅度差,并根据两个频率处的接收电压的分量的大小差来计算导电率。 在优选实施例中,测量两个频率的电压分量之间的幅度差的步骤包括相对于第一频率处的发射机电流的周期,以预定的时间提取接收电压的数字信号样本。
    • 2. 发明授权
    • High performance current switch for borehole logging tools
    • 用于钻孔测井工具的高性能电流开关
    • US5646561A
    • 1997-07-08
    • US575626
    • 1995-12-20
    • Otto N. FaniniStanislav Forgang
    • Otto N. FaniniStanislav Forgang
    • H03K17/687H03K17/64H03K17/56
    • H03K17/6877
    • A current switch for borehole logging tools operating at high temperatures with high load currents, which includes a driver unit that responds to an input digital control signal by holding an output field effect transistor in a turn-off state until its gate electrode is fully charged before allowing the transistor to supply current to an inductive or acoustic load, and by effecting a rapid discharge of the gate electrode to turn the transistor off. A digital coupler is inserted between the source of the input digital control signal and the driver unit to electrically decouple the load current from the source. The effects of spurious noise contaminants including power spikes in the load, fly-back coupling, and Miller's capacitance thereby are minimized and a switching action with minimal transition time is achieved. The current switch is particularly adaptable for use in a complementary-symmetric circuit for a bi-directional switch that causes current to flow first in one direction, and then in the opposite direction through the load with minimal cross propagation of noise.
    • 一种用于钻井测井工具的电流开关,其工作在高负载电流的高温下,其包括驱动器单元,其通过将输出场效应晶体管保持在关断状态来响应输入数字控制信号,直到其栅电极完全充电 允许晶体管将电流提供给感应或声学负载,并且通过实现栅电极的快速放电以使晶体管截止。 数字耦合器插入在输入数字控制信号的源极和驱动器单元之间,以将负载电流与源电耦合。 包括负载中的功率尖峰,飞回耦合和米勒电容的杂散噪声污染物的影响被最小化,并且实现了具有最小转换时间的开关动作。 电流开关特别适用于用于双向开关的互补对称电路,其导致电流首先在一个方向上流动,然后以相反的方向通过负载以最小的噪声交叉传播。
    • 3. 发明授权
    • Method and apparatus for reducing signal-phase error in induction well
logging instruments
    • 感应测井仪器减少信号相位误差的方法和装置
    • US5600246A
    • 1997-02-04
    • US563541
    • 1995-11-28
    • Stanislav ForgangOtto N. Fanini
    • Stanislav ForgangOtto N. Fanini
    • G01N27/72G01V3/28G01R33/12G01V3/18
    • G01N27/72G01V3/28
    • An apparatus for calibrating phase response of a receiver in an induction well logging instrument. The apparatus includes a source of alternating current selectively coupled to a transmitter. A low-gain antenna is disposed proximal to the transmitter for generating voltage in response to a magnetic field generated by the alternating current in the transmitter. The instrument includes a receiver spaced apart from transmitter. A phase comparator is coupled at one input to the low-gain antenna and at its other input to the source of alternating current. The phase comparator generates a signal corresponding to phase difference between the voltage in the low-gain antenna, and the alternating current. A sample and hold circuit is coupled to phase comparator for retaining the most recent signal from the phase comparator. A time-delay circuit is coupled to the source of alternating current and to the sample and hold circuit. The time-delay circuit output consists of the alternating current time-shifted by an amount corresponding to the difference in phase. A current switch is interconnected between the output of the delay line and the receiver for selectively injecting the time-shifted alternating current into the receiver. When the time-shifted alternating current is injected into the receiver, the transmitter is turned off. The receiver output and the time-shifted alternating current are coupled to analog to digital converters and a computer for determining the phase difference between the receiver output and the delayed alternating current.
    • 用于校准感应测井仪器中的接收器的相位响应的装置。 该装置包括选择性地耦合到发射器的交流电源。 低增益天线设置在发射机附近,以响应于由发射机中的交流电产生的磁场而产生电压。 仪器包括与发射器间隔开的接收器。 相位比较器在一个输入处耦合到低增益天线,并在其另一个输入端耦合到交流电源。 相位比较器产生对应于低增益天线中的电压与交流电流之间的相位差的信号。 采样和保持电路耦合到相位比较器,用于保持来自相位比较器的最新信号。 时间延迟电路耦合到交流电源和采样保持电路。 时间延迟电路输出由对应于相位差的量的交替电流组合。 电流开关在延迟线的输出端和接收器之间互连,用于选择性地将时移交流电注入接收器。 当将时间偏移的交流电注入接收机时,发射机被关闭。 接收器输出和时移交流电耦合到模数转换器和用于确定接收器输出和延迟交流电流之间的相位差的计算机。
    • 8. 发明授权
    • Conductivity anisotropy estimation method for inversion processing of
measurements made by a transverse electromagnetic induction logging
instrument
    • 横向电磁感应测井仪测量电导率各向异性估算方法
    • US5999883A
    • 1999-12-07
    • US42982
    • 1998-03-17
    • Pravin GuptaBerthold F. KriegshauserOtto N. Fanini
    • Pravin GuptaBerthold F. KriegshauserOtto N. Fanini
    • E21B41/00G01V3/28G06F19/00G01V3/38
    • G01V3/28E21B2041/0028
    • A method for determining an initial estimate of the horizontal conductivity and the vertical conductivity of an anisotropic earth formation. Electromagnetic induction signals induced by induction transmitters oriented along three mutually orthogonal axes are measured. One of the mutually orthogonal axes is substantially parallel to a logging instrument axis. The electromagnetic induction signals are measured using first receivers each having a magnetic moment parallel to one of the orthogonal axes and using second receivers each having a magnetic moment perpendicular to a one of the orthogonal axes which is also perpendicular to the instrument axis. A relative angle of rotation of the perpendicular one of the orthogonal axes is calculated from the receiver signals measured perpendicular to the instrument axis. An intermediate measurement tensor is calculated by rotating magnitudes of the receiver signals through a negative of the angle of rotation. A relative angle of inclination of one of the orthogonal axes which is parallel to the axis of the instrument is calculated, from the rotated magnitudes, with respect to a direction of the vertical conductivity. The rotated magnitudes are rotated through a negative of the angle of inclination. Horizontal conductivity is calculated from the magnitudes of the receiver signals after the second step of rotation. An anisotropy parameter is calculated from the receiver signal magnitudes after the second step of rotation. Vertical conductivity is calculated from the horizontal conductivity and the anisotropy parameter.
    • 一种用于确定各向异性地层的水平导电率和垂直导电率的初始估计的方法。 测量由三个相互正交的轴取向的感应发射器引起的电磁感应信号。 相互正交的轴之一基本上平行于测井仪器轴线。 使用第一接收器测量电磁感应信号,每个接收机具有平行于正交轴之一的磁矩,并且使用第二接收器,每个接收器具有垂直于垂直于仪器轴的正交轴之一的磁矩。 从垂直于仪器轴测量的接收机信号计算垂直轴之一的相对旋转角度。 通过将接收机信号的大小旋转通过旋转角度的负值来计算中间测量张量。 相对于垂直导电率的方向,从旋转的大小计算平行于仪器的轴线的正交轴之一的相对倾斜角。 旋转的大小通过倾斜角度的负值旋转。 在第二个旋转步骤之后,根据接收机信号的幅度计算水平电导率。 从第二步旋转后的接收机信号幅度计算各向异性参数。 垂直电导率由水平电导率和各向异性参数计算。