Fluid pressure pulse generator for a downhole telemetry tool

The invention claimed is: 1. A fluid pressure pulse generator apparatus for a downhole telemetry tool, comprising: (a) a stator comprising a stator body and a plurality of radially extending stator projections spaced around the stator body, whereby adjacently spaced stator projections define stator flow channels extending therebetween; and (b) a rotor comprising a rotor body and a plurality of radially extending rotor projections spaced around the rotor body, whereby adjacently spaced rotor projections define rotor flow channels extending therebetween, wherein the rotor projections are axially adjacent the stator projections and the rotor is rotatable relative to the stator and configured to oscillate from an open flow position an equal span of clockwise and counter clockwise rotation to first and second restricted flow positions, wherein in the open flow position the rotor projections align with the stator projections with an axial central line of the stator projections circumferentially offset from an axial central line of the rotor projections and the rotor flow channels are in fluid communication with the stator flow channels so that drilling fluid flows through the fluid pressure pulse generator apparatus, and in the first and second restricted flow positions the rotor projections are in fluid communication with the stator flow channels to create a pressure pulse in the drilling fluid flowing through the fluid pressure pulse generator apparatus, wherein the equal span of clockwise and counter clockwise rotation is selected so that a gap is formed between the rotor projections and the stator projections in at least one of the first and second restricted flow positions for flow of drilling fluid therethrough and a greater proportion of the rotor projections is in fluid communication with the stator flow channels in one of the first and second restricted flow positions than in the other of the first and second restricted flow positions. 2. The apparatus of claim 1 , wherein the rotor projections are downhole relative to the stator projections. 3. The apparatus of claim 2 , wherein the rotor projections have a radial profile with an uphole end, a downhole end and two opposed side faces extending therebetween and a section of the radial profile of at least one of the rotor projections is tapered towards the uphole end, whereby if rotation is stopped when the tapered section of the at least one rotor projection is in fluid communication with the stator flow channels the drilling fluid impinging on the tapered section moves the rotor until the tapered section of the at least one rotor projection is out of fluid communication with the stator flow channels. 4. The apparatus of claim 3 , wherein at least one of the side faces of the tapered rotor projection has a bevelled uphole edge. 5. The apparatus of claim 3 , wherein both of the side faces of the tapered rotor projection have a bevelled uphole edge. 6. The apparatus of claim 2 , wherein the stator projections have a radial profile with an uphole end, a downhole end and two opposed side faces extending therebetween. 7. The apparatus of claim 6 , wherein the uphole end of at least one of the stator projections is rounded. 8. The apparatus of claim 6 , wherein a section of the radial profile of at least one of the stator projections is tapered towards the uphole end. 9. The apparatus of claim 2 , wherein at least one of the rotor projections tapers radially in the downhole direction. 10. The apparatus of claim 9 , wherein the at least one radially tapered rotor projection is longitudinally extended. 11. The apparatus of claim 2 , wherein an uphole end of the stator body is configured to couple with a downhole end of a pulser assembly of the downhole telemetry tool. 12. The apparatus of claim 11 , wherein the stator body has a bore therethrough and at least a portion of the rotor body is received within the bore. 13. The apparatus of claim 12 , wherein the rotor body has a bore therethrough configured to receive a downhole portion of a driveshaft extending from the pulser assembly. 14. The apparatus of claim 13 , wherein the apparatus further comprises a rotor cap comprising a cap body and a shaft which is received in the bore of the rotor body. 15. The apparatus of claim 14 , wherein the rotor cap is configured to releasably attach the rotor to the driveshaft. 16. The apparatus of claim 14 , wherein a downhole end of the cap body is rounded. 17. A downhole telemetry tool comprising: (a) a pulser assembly comprising: a housing enclosing a motor and a driveshaft rotationally coupled to the motor; and (b) the fluid pressure pulse generator apparatus of claim 1 , wherein the driveshaft is coupled to the rotor and the motor can rotate the driveshaft and the rotor relative to the stator. 18. A method of generating a fluid pressure pulse pattern in downhole drilling fluid comprising a first fluid pressure pulse and a second fluid pressure pulse whereby the first fluid pressure pulse is greater than the second fluid pressure pulse, the method comprising: providing the downhole telemetry tool of claim 17 ; and controlling the motor to oscillate the rotor between the open flow position and the first and second restricted flow positions, whereby rotation to one of the first and second restricted flow positions creates the first pressure pulse and rotation to the other of the first and second restricted flow positions creates the second pressure pulse.