Tape drive

The invention claimed is: 1. A tape drive comprising: first and second spool supports on which spools of tape may be mounted, an optical sensing system comprising a radiation emitter and a radiation detector, said radiation emitter and radiation detector having a fixed positional relationship in use with respect to said two tape spool supports; a controller operative to: energise the radiation emitter to emit radiation; and determine a diameter data indicative of a diameter of a spool mounted on one of the first and second spool supports based on a radiation signal generated by the detector, the radiation signal being indicative of a direct radiation path between the emitter and the detector, the radiation path being defined by the spool, wherein the controller is further operative to determine the diameter data when the tape spool is at a plurality of angular positions so as to obtain diameter data for each of the angular positions and to determine an average value of the diameter data for each of the angular positions. 2. A tape drive as in claim 1 , wherein the controller is further operative to determine the diameter data based on predetermined positional data relating to the optical sensing system. 3. A tape drive as in claim 1 , wherein the controller is further operative to determine the diameter data based on predetermined positional data relating to one of the first or second spool supports. 4. A tape drive as in claim 1 , wherein the optical sensing system further comprises a plurality of radiation emitters, and wherein the controller is further operative to: energise the plurality of radiation emitters to each emit radiation; determine a diameter data indicative of a diameter of a spool mounted on one of the first and second spool supports based on a plurality of radiation signals generated by the detector, the plurality of radiation signals being indicative of two or more direct radiation paths between the emitters and the detector, the radiation paths being defined by the spool. 5. A tape drive as in claim 4 , wherein the controller is further operative to: determine a feature of the plurality of radiation signals; and determine, for each one of the plurality of radiation signals, diameter data indicative of the diameter of the spool based on the respective feature of the plurality of radiation signals. 6. A tape drive as in claim 5 , wherein the feature is positional data relating to the plurality of radiation signals. 7. A tape drive as in claim 6 , wherein the positional data comprises data relating to a boundary, the boundary separating a first region of the detector from a second region of the detector, where the first region corresponds to a region which receives a first level of radiation from an emitter and the second region corresponds to a region which receives a second level of radiation from the emitter. 8. A tape drive as in claim 5 , wherein the controller is further operative to determine an average value of the diameter data, the average value being based on each of the diameter data generated using each one of the plurality of radiation signals. 9. A tape drive as in claim 8 , wherein the controller is further operative to apply a weighting factor to each of the diameter data generated using each one of the plurality of radiation signals. 10. A tape drive as claim 9 , wherein the weighting factor applied to each of the diameter data is dependent on the feature of the respective radiation signal. 11. A tape drive as in claim 5 , wherein the controller is further operative to: energise one or more of the plurality of the radiation emitters such that each one of the one or more of the plurality of the radiation emitters emits radiation a plurality of times; and use the plurality of radiation signals generated by the detector for a given emitter to determine the feature of the radiation signal. 12. A tape drive as in claim 11 , wherein the controller is further operative to: subtract a background noise signal from each of the plurality of radiation signals generated by the detector for a given emitter to obtain a plurality of filtered signals for the given emitter, and determine the feature of the radiation signal using the plurality of filtered radiation signals for the given emitter. 13. A tape drive as in claim 12 , wherein the controller is further operative to: determine a plurality of background noise signals, each one of the background noise signals being determined prior to, or after, detection of each one of the plurality of radiation signals for the given emitter; and subtract each respective one of the background noise signals from each respective one of the plurality of radiation signal for the given emitter. 14. A tape drive as in claim 1 , further comprising a motor with a motor shaft on which the spools of tape are mounted and an encoder associated with the motor shaft, wherein the encoder is configured to provide an output indicative of each of the plurality of angular positions. 15. A tape drive as in claim 1 , wherein the controller is further operative to determine an eccentricity of the tape spool using the diameter data for each of the angular positions. 16. A method of using a tape drive as claimed in claim 1 to determine a diameter data item indicative of a diameter of a tape spool. 17. A thermal transfer printer comprising: a tape drive according to claim 1 arranged to transfer ink carrying tape between said first and second spools; and a printhead arranged to transfer ink from said ink carrying tape to a substrate. 18. A tape drive as in claim 1 , wherein the optical sensing system is configured such that the direct radiation path between the emitter and the detector is defined by a direct line of sight between the emitter and the detector. 19. A tape drive as in claim 1 , wherein the optical sensing system is configured such that the direct radiation path between the emitter and the detector excludes intermediary surfaces that reflect the radiation signal. 20. A tape drive as in claim 1 , the controller further operative to control, based on the determined average value of the diameter data, advancement of the tape. 21. A tape drive comprising: first and second spool supports on which spools of tape may be mounted, an optical sensing system comprising a plurality of radiation emitters and a radiation detector, said radiation emitters and radiation detector having a fixed positional relationship in use with respect to said two tape spool supports; a controller operative to: energize the radiation emitters to emit radiation; and determine a diameter data indicative of a diameter of a spool mounted on one of the first and second spool supports based on a radiation signal generated by the detector, the radiation signal being indicative of a direct radiation path between the emitter and the detector, the radiation path being defined by the spool; the controller further operative to: energize two or more of the radiation emitters in turn to emit a first radiation and a second radiation; determine a first feature of a first radiation signal generated by the detector, the first radiation signal associated with the first radiation; determine a second feature of a second radiation signal generated by the detector, the second radiation signal associated with the second radiation; compare the first feature with the second feature; and determine, based on the comparison, the presence of dirt on the detector.