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An apparatus and method for the actuation of down-hole tools are provided. The down-hole tool that may be actuated and controlled using the apparatus and method may include a reamer, an adjustable gauge stabilizer, vertical steerable tools, rotary steerable tools, by-pass valves, packers, whipstocks

An apparatus and method for the actuation of down-hole tools are provided. The down-hole tool that may be actuated and controlled using the apparatus and method may include a reamer, an adjustable gauge stabilizer, vertical steerable tools, rotary steerable tools, by-pass valves, packers, whipstocks, down hole valves, latch or release mechanisms and/or anchor mechanisms.

대표청구항 ▼

1. An actuator for a downhole tool, comprising: a housing;an actuator, housed in the housing, that generates a force to be applied to a downhole tool that is connectable to the actuator;a shaft, in the housing, that transfers the force of the actuator to the downhole tool that is connectable to the

1. An actuator for a downhole tool, comprising: a housing;an actuator, housed in the housing, that generates a force to be applied to a downhole tool that is connectable to the actuator;a shaft, in the housing, that transfers the force of the actuator to the downhole tool that is connectable to the actuator;an electronic control system that provides control signals to the actuator;the electronic control system having a plurality of sensors that detect operation of the actuator and affect the control signals provided to the actuator and sensorless circuitry that detect the operation of the actuator; andwherein the electronic control system detects that a sensor has failed, switches to the sensorless circuitry when the sensor has failed and uses an output signal from the sensorless circuitry and output signals from the plurality of sensors that did not fail to provide the control signals to the actuator so that the actuator operates even when the sensor has failed. 2. The actuator of claim 1, wherein the electronic control system further comprises a circuit, coupled to the plurality of sensors and the sensorless circuitry, that generates a signal and a drive circuit that generate the control signal for the actuator based on the signal. 3. The actuator of claim 2, wherein the circuit further comprise firmware that detects that the sensor has failed, switches to the sensorless circuitry when the sensor has failed and uses an output signal from the sensorless circuitry and output signals from the plurality of sensors that did not fail to provide the control signals to the actuator so that the actuator operates even when the sensor has failed. 4. The actuator of claim 3, wherein the state machine is a programmable device. 5. The actuator of claim 2, wherein the circuit is a state machine. 6. The actuator of claim 2, wherein the circuit further comprise firmware that detects that each of the sensors has failed and switches to the sensorless circuitry when the sensors have failed and uses an output signal from the sensorless circuitry to provide the control signals to the actuator so that the actuator operates even when the sensor has failed. 7. The actuator of claim 1, wherein each sensor is one of a Hall Effect sensor, a synchroresolver, an optical encoder, a magnet/reed switch combination, a magnet/coil induction sensor, a proximity sensor, a capacitive sensor, an accelerometer, a tachometer, a mechanical switch, a potentiometer and a rate gyro. 8. The actuator of claim 1 further comprising a shock absorbing member, adjacent to the actuator, that absorbs shocks in the actuator and a compensation mechanism, housed in the housing, that balances the pressure within the actuator with a borehole pressure. 9. An actuator for a downhole tool, comprising: a housing;an actuator, housed in the housing, that generates a force to be applied to a downhole tool that is connectable to the actuator;a shaft, housed in the housing, that transfers the force of the actuator to the downhole tool that is connectable to the actuator;an electronic control system that provides control signals to the actuator;the electronic control system having a plurality of sensors that detect operation of the actuator and affect the control signals provided to the actuator and sensorless circuitry that detect the operation of the actuator; andwherein the electronic control system detects that more than one of the sensors has failed, switches to sensorless circuitry when the sensors have failed and uses output signals from the sensorless circuitry to control the actuation of the downhole actuator so that the downhole actuator operates even when the sensor has failed. 10. The actuator of claim 9, wherein the electronic control system further comprises a circuit, coupled to the plurality of sensors and the sensorless circuitry, that generates a signal and a drive circuit that generate the control signal for the actuator based on the signal. 11. The actuator of claim 10, wherein the circuit further comprise firmware that detects that the sensors have failed, switches to the sensorless circuitry when the sensors have failed and uses an output signal from the sensorless circuitry to provide the control signals to the actuator so that the actuator operates even when the sensor has failed. 12. The actuator of claim 11, wherein the state machine is a programmable device. 13. The actuator of claim 10, wherein the circuit is a state machine. 14. The actuator of claim 9, wherein each sensor is one of a Hall Effect sensor, a synchroresolver, an optical encoder, a magnet/reed switch combination, a magnet/coil induction sensor, a proximity sensor, a capacitive sensor, an accelerometer, a tachometer, a mechanical switch, a potentiometer and a rate gyro. 15. The actuator of claim 9 further comprising a shock absorbing member, adjacent to the actuator, that absorbs shocks within the actuator and a compensation mechanism, housed in the housing, that balances the pressure within the actuator with a borehole pressure. 16. A method for operating an downhole actuator, comprising: providing, in the downhole actuator, an electronic control system having a plurality of sensors that controls the actuation of the downhole actuator;detecting, by the electronic control system, that a sensor has failed;switching to sensorless circuitry when the sensor has failed; andusing an output signal from the sensorless circuitry and output signals from the plurality of sensors that did not fail to control the actuation of the downhole actuator so that the downhole actuator operates even when the sensor has failed. 17. The method of claim 16, wherein detecting failure of a sensor further comprising sending a diagnostic signal to the sensor and failing to receive a diagnostic count from the sensor. 18. The method of claim 16, wherein each sensor is a hall effect sensor. 19. The method of claim 18, wherein the output of the sensorless circuitry is an electromotive force position feedback signal. 20. A method for operating an downhole actuator, comprising: providing, in the downhole actuator, an electronic control system having a plurality of sensors that controls the actuation of the downhole actuator;detecting, by the electronic control system, that more than one of the sensors has failed;switching to sensorless circuitry when the sensors have failed; andusing output signals from the sensorless circuitry to control the actuation of the downhole actuator so that the downhole actuator operates even when the sensor has failed. 21. The method of claim 20, wherein detecting failure of the sensors further comprising sending a diagnostic signal to each sensor and failing to receive a diagnostic count from each sensor. 22. The method of claim 20, wherein each sensor is a hall effect sensor. 23. The method of claim 22, wherein the output of the sensorless circuitry is an electromotive force position feedback signal.