Fluid pressure pulse generator for a downhole telemetry tool

The invention claimed is: 1. A fluid pressure pulse generator for a downhole telemetry tool, comprising: (a) a stator comprising a stator flow diverter radially extending across a flow path for fluid flowing through the fluid pressure pulse generator and having one or more than one stator flow channel therethrough through which the fluid flows; and (b) a rotor comprising: a rotor flow diverter radially extending across the flow path for fluid flowing through the fluid pressure pulse generator and having one or more than one rotor flow channel therethrough through which the fluid flows; and one of a rotor male shaft or a rotor female receiver configured to respectively releasably mate with a driveshaft female receiver or a driveshaft male shaft of a driveshaft of a probe of the downhole telemetry tool to releasably couple the driveshaft with the rotor, wherein the rotor flow diverter is axially adjacent the stator flow diverter and the rotor flow diverter is rotatable relative to the stator flow diverter to move the one or more than one rotor flow channel in and out of fluid communication with the one or more than one stator flow channel to create fluid pressure pulses in the fluid flowing through the fluid pressure pulse generator, and wherein the rotor flow diverter further comprises one or more than one turbine flow channel therethrough, wherein the one or more than one turbine flow channel is angled relative to the axis of rotation of the rotor such that fluid flowing through the one or more than one turbine flow channel causes the rotor to rotate. 2. The fluid pressure pulse generator of claim 1 , wherein the rotor comprises the rotor female receiver. 3. The fluid pressure pulse generator of claim 1 , wherein the rotor further comprises a rotor body and the rotor flow diverter comprises a plurality of radially extending rotor projections spaced around the rotor body, whereby adjacently spaced rotor projections define the rotor flow channels therebetween. 4. The fluid pressure pulse generator of claim 1 , wherein the rotor flow diverter comprises a rotor disc with the one or more than one rotor flow channel extending therethrough. 5. A fluid pressure pulse generator for a downhole telemetry tool, comprising: (a) a stator comprising a stator flow diverter radially extending across a flow path for fluid flowing through the fluid pressure pulse generator and having one or more than one stator flow channel therethrough through which the fluid flows; and (b) a rotor comprising: a rotor flow diverter radially extending across the flow path for fluid flowing through the fluid pressure pulse generator and having one or more than one rotor flow channel therethrough through which the fluid flows; and one of a rotor male shaft with a plurality of ridges on an external surface thereof or a rotor female receiver with a plurality of ridges on an internal surface thereof, wherein the rotor flow diverter is axially adjacent the stator flow diverter and the rotor flow diverter is rotatable about an axis of rotation relative to the stator flow diverter to move the one or more than one rotor flow channel in and out of fluid communication with the one or more than one stator flow channel to create fluid pressure pulses in the fluid flowing through the fluid pressure pulse generator, wherein the plurality of ridges include grooves therebetween and are parallel to the axis of rotation of the rotor, wherein the rotor flow diverter further comprises one or more than one turbine flow channel therethrough, and wherein the one or more than one turbine flow channel is angled relative to the axis of rotation of the rotor such that fluid flowing through the one or more than one turbine flow channel causes the rotor to rotate. 6. The fluid pressure pulse generator of claim 5 , wherein the rotor flow diverter comprises a rotor disc with the one or more than one rotor flow channel extending therethrough and a plurality of turbine projections spaced around a circumference of the rotor disc, whereby adjacently spaced turbine projections define the turbine flow channels therebetween. 7. The fluid pressure pulse generator of claim 1 , wherein one or more of the one or more than one rotor flow channel is angled relative to the axis of rotation of the rotor such that fluid flowing through the one or more than one rotor flow channel causes the rotor to rotate. 8. The fluid pressure pulse generator of claim 1 , wherein the rotor further comprises a longitudinally extending rotor shaft which is received in a bore extending through the stator. 9. The fluid pressure pulse generator of claim 8 , further comprising a fastener configured to fasten to the rotor shaft to retain the rotor shaft in the bore while allowing rotation of the rotor shaft within the bore. 10. The fluid pressure pulse generator of claim 9 , wherein the fastener is configured to releasably fasten to the rotor shaft. 11. The fluid pressure pulse generator of claim 10 , wherein the fastener is a threaded nut and the rotor shaft is threaded to receive the threaded nut. 12. The fluid pressure pulse generator of claim 1 , wherein the stator further comprises a stator body and the stator flow diverter comprises a plurality of radially extending stator projections spaced around the stator body, whereby adjacently spaced stator projections define the stator flow channels therebetween. 13. The fluid pressure pulse generator of claim 12 , further comprising a spider configured to extend between the stator body and a sub when the downhole telemetry tool is downhole, the spider comprising a plurality of apertures for flow of fluid therethrough. 14. The fluid pressure pulse generator of claim 13 , further comprising a castle nut for releasably securing the spider to the sub. 15. The fluid pressure pulse generator of claim 1 , wherein the stator flow diverter comprises a stator disc with the one or more than one stator flow channel extending therethrough. 16. The fluid pressure pulse generator of claim 15 , further comprising a castle nut for releasably securing the stator disc to a sub when the downhole telemetry tool is downhole. 17. A downhole telemetry tool comprising: a probe comprising: (a) a housing enclosing a motor and gearbox subassembly; and (b) a driveshaft having a first end coupled with the motor and gearbox subassembly and an opposed second end extending out of the housing and comprising a driveshaft female receiver or a driveshaft male shaft; and a fluid pressure pulse generator comprising: (a) a stator comprising a stator flow diverter radially extending across a flow path for fluid flowing through the fluid pressure pulse generator and having one or more than one stator flow channel therethrough through which the fluid flows; and (b) a rotor comprising: a rotor flow diverter radially extending across the flow path for fluid flowing through the fluid pressure pulse generator and having one or more than one rotor flow channel therethrough through which the fluid flows; and a rotor male shaft or a rotor female receiver, wherein the rotor flow diverter is axially adjacent the stator flow diverter and the rotor flow diverter is rotatable relative to the stator flow diverter to move the one or more than one rotor flow channel in and out of fluid communication with the one or more than one stator flow channel to create fluid pressure pulses in the fluid flowing through the fluid pressure pulse generator, wherein the probe comprises the driveshaft male shaft and the rotor comprises the rotor female receiver,