Tape drive and method

The invention claimed is: 1. A method of operating a transfer printer configured to transfer ink from a printer ribbon to a substrate which is transported along a predetermined substrate path adjacent to the printer, the printer comprising: a tape drive comprising two tape drive motors, two tape spool supports on which said spools of ribbon may be mounted, each spool being drivable by a respective one of said motors; a printhead being displaceable towards and away from the predetermined substrate path and being arranged to, during printing, contact one side of the ribbon to press an opposite side of the ribbon into contact with a substrate on the predetermined substrate path, and a printing surface; and a controller configured to control the tape drive to transport ribbon between the first and second ribbon spools; the method comprising: controlling the tape drive to perform a ribbon movement in which ribbon is transported between first and second ribbon spools along a ribbon path, the ribbon path having a first length during a first part of said ribbon movement when the printhead is separated from the printing surface, and a second length during a second part of said ribbon movement when the printhead is in contact with one side of the ribbon, a transition from the first length to the second length being caused by a displacement of the printhead towards the printing surface, wherein control of at least one of the tape drive motors is based upon data indicative of a change in the length of the ribbon path between the first and second lengths. 2. A method according to claim 1 , wherein control of the at least one of the tape drive motors is based upon data indicative of a position of the printhead. 3. A method according to claim 2 , wherein the at least one tape drive motor is controlled based upon data indicative of a change in the length of the ribbon path, said data indicative of a change in the length of the ribbon path being determined based upon said data indicative of the position of the printhead. 4. A method according to claim 1 , wherein when the printhead is displaced so as to cause the ribbon to come into contact with the substrate, the controller is configured to control the at least one tape drive motor to increase the amount of ribbon extending between the spools. 5. A method according to claim 1 wherein, when the printhead is displaced so as to cause the ribbon to come out of contact with the substrate, the controller is configured to control the at least one tape drive motor to reduce the amount of ribbon extending between the spools. 6. A method according to claim 1 , wherein the printer further comprises a printhead drive apparatus, the method comprising: controlling the printhead drive apparatus to drive the printhead towards and away from the predetermined substrate path, and generating the data indicative of a change in the length of the ribbon path based upon a property of the printhead drive apparatus. 7. A method according to claim 6 , wherein the printhead drive apparatus comprises a printhead motor. 8. A method according to claim 7 , wherein the printer further comprises a sensor configured to generate a signal indicative of an angular position of the output shaft of the printhead motor. 9. A method according to claim 8 , wherein the data indicative of the position of the printhead is based upon the generated signal indicative of the angular position of the output shaft of the printhead motor. 10. A method according to claim 9 , wherein the data indicative of the position of the printhead is further based upon further data indicative of a printhead position. 11. A method according to claim 10 , wherein when a predetermined condition is satisfied, the data indicative of the position of the printhead is based upon the generated signal indicative of the angular position of the output shaft of the motor, and when the predetermined condition is not satisfied, the data indicative of the position of the printhead is based upon the further data indicative of a printhead position. 12. A method according to claim 1 , comprising, during a ribbon transport operation, controlling a first one of the tape drive motors to rotate at a first predetermined angular velocity to cause an amount of the ribbon to be paid out and a second one of the tape drive motors to rotate at a second predetermined angular velocity to cause an amount of the tape to be taken up, wherein at least one of the first and second predetermined angular velocities is modified during said ribbon transport operation based upon the data indicative of a position of the printhead. 13. A method according to claim 1 , comprising controlling the tape drive motors to cause a length of tape to be added to or subtracted from a tape extending between the spools, the length of tape being calculated based upon the data indicative of the first and second lengths. 14. A method according to claim 1 , wherein the method comprises performing a printing cycle, the printing cycle comprising the steps of: controlling the tape drive to perform a ribbon movement in which ribbon is transported between first and second ribbon spools along a ribbon path; displacing the printhead relative to the printing surface; generating data indicative of a change in the length of the ribbon path based upon data indicative of the position of the printhead during said displacing; modifying a control signal for at least one of the tape drive motors to cause the amount of ribbon between the first and second ribbon spools to be adjusted by an amount based upon the data indicative of a change in the length of the ribbon path. 15. A method according to claim 14 , wherein the method comprises: displacing the printhead towards the printing surface; when the printhead is pressed against the printing surface, controlling the printhead to be energised to transfer ink from the ribbon to the substrate; generating data indicative of a first change in the length of the ribbon path based upon data indicative of the position of the printhead during said displacing of the printhead towards the printing surface; applying a first adjustment to the amount of ribbon between the first and second ribbon spools by energising at least one of the tape drive motors to cause the amount of ribbon between the first and second ribbon spools to be adjusted by a first amount based upon the data indicative of the first change in the length of the ribbon path; displacing the printhead away from the printing surface; generating data indicative of a second change in the length of the ribbon path based upon data indicative of the position of the printhead during said displacing of the printhead away from the printing surface; and applying a second adjustment to the amount of ribbon between the first and second ribbon spools by energising the tape drive motors to cause the amount of ribbon between the first and second ribbon spools to be adjusted by a second amount based upon the data indicative of the second change in the length of the ribbon path. 16. A method according to claim 15 , wherein the method further comprises moving ribbon past the printhead in a printing direction when the printhead is pressed against the printing surface, wherein each of the first and second adjustments are applied during said movement of the ribbon. 17. A transfer printer configured to transfer ink from a printer ribbon to a substrate which is transported along a predetermined substrate path adjacent to the printer, the printer comprising: a tape drive comprising two tape drive m