A method of transmitting pressure pulses from a downhole location through a flowing fluid in a wellbore comprises using a linear actuator to controllably move a reciprocating member axially back and forth between a first position and a second position to at least partially obstruct flow of the flowi
A method of transmitting pressure pulses from a downhole location through a flowing fluid in a wellbore comprises using a linear actuator to controllably move a reciprocating member axially back and forth between a first position and a second position to at least partially obstruct flow of the flowing fluid to generate the pressure pulses. A reciprocating pulser for generating pressure pulses in a fluid flowing in a wellbore, comprises a fluid passage that allows flow of the fluid through the pulser, and a reciprocating member. A linear actuator is coupled to the reciprocating member, such that the linear actuator moves the reciprocating member in a first axial direction and then in a reverse direction to at least partially obstruct flow of the fluid through the pulser to generate pressure pulses in the flowing fluid.
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What is claimed is: 1. A method of transmitting pressure pulses through a flowing fluid in a wellbore, the method comprising: placing a pulser in the flowing fluid, the pulser including a fluid passage that allows flow of the fluid through the pulser, a reciprocating member, a drive system and a mo
What is claimed is: 1. A method of transmitting pressure pulses through a flowing fluid in a wellbore, the method comprising: placing a pulser in the flowing fluid, the pulser including a fluid passage that allows flow of the fluid through the pulser, a reciprocating member, a drive system and a motor; and rotating the motor to cause the drive system to convert rotary motion of the motor into axial motion of the reciprocating member to move the reciprocating member between a first position and a second position to at least partially obstruct flow of the flowing fluid to generate the pressure pulses. 2. The method of claim 1, further comprising substantially continuously controlling the movement of the reciprocating member by the motor. 3. The method of claim 1, further comprising rotating a spindle coupled to the motor to move the reciprocating member. 4. The method of claim 3, wherein the motor is chosen from the group consisting of: (i) a DC motor, and (ii) a stepper motor. 5. The method of claim 2 further comprising substantially continuously controlling movement of the reciprocating member to control a characteristic of the pressure pulses. 6. The method of claim 5 wherein the characteristic of the pressure pulses is selected from a group consisting of (i) an amplitude of the pressure pulses, (ii) a frequency of the pressure pulses, (iii) a shape of the pressure pulses; and (iv) a phase of the pressure pulses. 7. The method of claim 1 further comprising directly coupling a linear actuator to the reciprocating member. 8. The method of claim 5 further comprising controlling the characteristic of the pressure pulses in response to one of (i) a downhole measured parameter, (ii) according to instructions stored in a downhole controller, (iii) a pressure measured downhole, (iv) information sent from a surface location, and (v) rotation of the motor. 9. The method of claim 2 further comprising controlling the movement of the reciprocating member to encode information to be transmitted to the surface according to an encoding scheme chosen from the group consisting of: (i) an amplitude shift key scheme; (ii) a frequency shift key scheme; (iii) a phase shift key scheme; (iv) a combination of an amplitude shift key scheme and a frequency shift key scheme; and (v) a combination of an amplitude shift key scheme and a phase shift key scheme. 10. The method of claim 1, further comprising providing a spring acting cooperatively with a linear actuator coupled to the motor to reduce power required to move the reciprocating member. 11. The method of claim 10, wherein the spring is chosen from a group consisting of: (i) a coil spring, and (ii) a magnetic spring. 12. A reciprocating pulser for generating pressure pulses in a fluid flowing in a wellbore, comprising: a fluid passage that allows flow of the fluid through the pulser; a reciprocating member; and a motor coupled to a drive system, wherein the drive system converts rotary motion of the motor into linear motion of the reciprocating member to move the reciprocating member in a first direction and a second reverse direction to at least partially obstruct flow of the fluid through the pulser to generate the pressure pulses in the fluid. 13. The reciprocating pulser of claim 12 further comprising a controller that controls the motor to substantially continuously control movement of the reciprocating member. 14. The reciprocating pulser of claim 12, further comprising a spindle connected to the motor that rotates the reciprocating member. 15. The reciprocating pulser of claim 14, wherein the motor is chosen from the group consisting of: (i) a DC motor, and (ii) a stepper motor. 16. The reciprocating pulser of claim 13 wherein the controller controls the motor in response to one of (i) a sensor providing information about a position of the reciprocating member, (ii) a pressure measured downhole, (iii) a signal sent from a surface location, (iv) instructions associated with the controller, and (v) rotation of the motor. 17. The reciprocating pulser of claim 12 wherein a linear actuator is directly coupled to the reciprocating member. 18. The reciprocating pulser of claim 12 wherein the reciprocating member is a poppet that acts cooperatively with a nozzle in the pulser to obstruct the fluid flowing through the nozzle in the pulser. 19. The reciprocating pulser of claim 14, further comprising a gear drive acting cooperatively with the motor and the spindle to rotate the reciprocating member. 20. The reciprocating pulser of claim 13, wherein the controller continuously controls movement of the reciprocating member to control a characteristic of the pressure pulses. 21. The reciprocating pulser of claim 20 wherein the characteristic of the pressure pulses is selected from a group consisting of (i) an amplitude of the pressure pulses, (ii) a frequency of the pressure pulses, (iii) a shape of the pressure pulses; and (iv) a phase of the pressure pulses. 22. The reciprocating pulser of claim 12, further comprising a spring acting cooperatively with a linear actuator to reduce power required to move the reciprocating member. 23. The reciprocating pulser of claim 22, wherein the spring is chosen from a group consisting of: (i) a coil spring, and (ii) a magnetic spring. 24. The reciprocating pulser of claim 12, further comprising a seal configured to prevent the flowing fluid to penetrate into the motor. 25. The reciprocating pulser of claim 24, wherein the seal is chosen from the group consisting of (i) a lip seal, and (ii) a bellows seal. 26. The reciprocating pulser of claim 25, wherein the bellows seal is made from a material chosen from the group consisting of: (i) an elastomeric material, and (ii) a metal material.
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