Tape drive and transfer printer

1 . A tape drive comprising: first and second motors; first and second spool supports, respectively receiving first and second spools of tape, the first spool support being driveable by the first motor and the second spool support being drivable by the second motor; a sensor arranged to provide a signal indicative of linear movement of tape between the tape spools along a predetermined tape path; a controller arranged to control energization of said first and second motors for transport of the tape in at least one direction between the first and second spools of tape along the predetermined tape path; wherein the controller is arranged to generate data indicating the diameter of said first and second spools of tape based upon said signal provided by the sensor and data indicating rotation of each of said first and second spools; wherein the controller is further arranged to monitor data indicating rotation of the second spool of tape, to generate a drive signal for said second motor based upon said rotation signal, and to provide said drive signal to said second motor. 2 . A tape drive according to claim 1 , wherein said sensor comprises a roller and an encoder monitoring rotation of said roller, and wherein tape passes at least partially around said roller on said predetermined tape path. 3 . A tape drive according to claim 2 , wherein the encoder generates a signal indicating a number of rotations of said roller. 4 . A tape drive according to claim 1 , wherein the controller is arranged to provide a first signal to the first motor to cause rotation of the first spool of tape and movement of the tape between the spools along the predetermined path, and wherein the data indicating rotation of the first spool comprises said first signal. 5 . A tape drive according to claim 4 , wherein the controller is arranged to receive a second signal from the second motor indicating rotation of the second spool of tape caused by movement of the tape along the predetermined path and wherein the data indicating rotation of the second spool and said rotation signal comprises said second signal. 6 . A tape drive according to claim 5 , wherein said second signal comprises a plurality of pulses generated by rotation of a rotor of the second motor within a stator of the second motor. 7 . A tape drive according to claim 6 , wherein said pulses are back-EMF pulses. 8 . A tape drive according to claim 5 , wherein the controller is arranged to receive a third signal being a signal provided by the sensor. 9 . A tape drive according to claim 8 , wherein the controller is arranged to generate said data indicating the diameter of each of said first and second spools based upon said first, second and third signals. 10 . A tape drive according to claim 9 , wherein data indicating the diameter of the first spool is generated based upon said first and third signals. 11 . A tape drive according to claim 9 , wherein data indicating the diameter of the second spool is generated based upon the second signal and at least one of the first and third signals. 12 . A tape drive according to claim 4 , wherein the first signal indicates a number of rotations of the first spool. 13 . A tape drive according to claim 5 , wherein the second signal indicates a number of rotations of the second spool. 14 . A tape drive according to claim 1 , wherein the drive signal is synchronised with the data indicating rotation of the second spool of tape. 15 . A tape drive according to claim 1 , where the controller is arranged, during an operation to generate data indicating the diameter of said first and second spools, to energise the first motor and de-energise the second motor. 16 . A tape drive according to claim 15 , wherein the de-energised second motor provides resistance to tape movement thereby causing tension in the tape. 17 . A tape drive according to claim 16 , wherein the operation to generate data indicating the diameter of the first second spools comprises a termination phase in which the first motor is decelerated at a rate of deceleration selected to maintain said tension in the tape. 18 . (canceled) 19 . (canceled) 20 . (canceled) 21 . A tape drive according to claim 1 , wherein the controller is arranged, in a tape transport operation, to generate control signals for at least one of the first and second motors based upon said generated data indicating the diameter of said first and second spools. 22 . A tape drive according claim 1 , wherein the controller is arranged to control energization of the first and second motors for transport of the tape in both directions between the first and second spools of tape along the predetermined tape path. 23 . A tape drive according to claim 1 , wherein the data indicating the diameter of said first and second spools comprises a first linear quantity indicative of the diameter of the first spool and a second linear quantity indicative of the diameter of the second spool. 24 . A tape drive according to claim 23 , wherein the first linear quantity is a ratio or diameter of the first spool and the second linear quantity is a ratio or diameter of the second spool. 25 . (canceled) 26 . (canceled) 27 . A method for generating data indicating the diameter of first and second spools of tape in a tape drive in which tape is transported in at least one direction between the first and second spools along a predetermined tape path, the spools being respectively drivable by first and second motors, the method comprising: receiving a sensor signal indicating linear movement of tape between the tape spools along the predetermined tape path; and generating data indicating the diameter of said first and second spools of tape based upon said sensor signal and data indicating rotation of each of said first and second spools; and monitoring data indicating rotation of the second spool of tape, generating a drive signal for said second motor based upon said rotation of the second spool, and providing said drive signal to said second motor. 28 .- 32 . (canceled)