Optical fibre installation apparatus

The invention claimed is: 1. A blowing head for installing blown cable, comprising: a low-inertia motor using electrical current, configured to obtain the advance of the cable within the blowing head, a low-inertia sensor configured to sense movement and changes in the level of movement of the cable within the blowing head, and a control unit for controlling installation of the cable, the control unit being configured to capture the level of the electrical current required to start movement of the cable to calculate a cap on the current level, and use the current level cap to prevent excessive pushing on the cable by the motor during an installation session. 2. A blowing head in accordance with claim 1 wherein the current level cap is discarded after end of each installation session. 3. A blowing head in accordance with claim 1 including a rotary encoder operatively connected to the motor, wherein the current required to start movement of the cable within the blowing head is configured to be detected by detecting movement of the rotary encoder. 4. A blowing head in accordance with claim 1 , wherein the sensor includes two drive wheels configured to pass the cable between and in contact with the wheels during an installation session. 5. A blowing head in accordance with claim 1 , wherein each of the wheels are separately and operatively connected to the motor. 6. A blowing head in accordance with claim 5 , wherein the wheels do not touch each other. 7. A system for installing cable into a cable tube, comprising: a low-inertia motor using electrical current, configured to obtain the advance of the cable within the blowing head, a low-inertia sensor configured to sense movement and changes in the level of movement of the cable within the blowing head, and a control unit for controlling installation of the cable, the control unit being configured to capture the level of the electrical current required to start movement of the cable to calculate a cap on the current level, and use the current level cap to prevent excessive pushing on the cable by the motor during an installation session. 8. A system in accordance with claim 7 , wherein the current level cap is discarded after end of each installation session. 9. A system in accordance with claim 7 , wherein the sensor comprises two drive wheels which lightly touch each other or do not touch each other. 10. A method for installing blown cable in an installation session using the blowing head of claim 1 , comprising the steps of: (i) inserting an end of a cable into the blowing head, (ii) increasing the level of current to the motor until the cable has started to advance through the blowing head, and (iii) setting a current level cap for the motor during the installation session, based at least partly on the level of current obtained in step (ii). 11. A method in accordance to claim 10 , further including discarding the current level cap after end of each installation session. 12. A blowing head for installing cable into a cable tube, the blowing head comprising: a motor using electrical current, configured to obtain movement of the cable within the blowing head; a sensor configured to sense movement of the cable within the blowing head; and a processor, coupled to the motor and the sensor, configured to: vary the level of current of the motor used by the motor in response to changes in the level of movement sensed by the sensor; determine the level of current required to start the movement of the cable; determine a cap on the level of current based on the level of current required to start the movement of the cable; and use the cap of the level of current to prevent excessive pushing by the motor on the cable during installation of the cable. 13. A blowing head in accordance with claim 12 wherein, when used during a blown cable installation session, the processor is configured to determine the cap on the level of current at the start of the installation session so that the processor can later use the determined cap during the installation session. 14. A blowing head in accordance with claim 12 , wherein the processor is configured to determine the cap on the level of current by adding a predetermined percentage of current to the level of current required to start the movement of the cable . 15. A blowing head in accordance with claim 12 further comprising a rotary encoder operatively connected to the motor, wherein the current required to start movement of the cable within the blowing head is configured to be detected by detecting movement of the rotary encoder. 16. A blowing head in accordance with claim 12 , wherein the sensor includes a sensing wheel configured to pass the cable by and in contact with the wheel during an installation session. 17. A blowing head in accordance with claim 12 , wherein the sensor comprises two drive wheels which lightly touch each other or do not touch each other. 18. A method for installing blown cable in an installation session using a blowing head having a motor, the method comprising: inserting an end of a cable into the blowing head, increasing a level of electrical current to the motor until the cable has started movement through the blowing head, determining the level of current for starting the movement of the cable, setting a cap on the level of current to be used by the motor during the installation session, based at least partly on the determined level of current for starting the movement of the cable, and operating the motor, using the cap on the level of current, to install the cable during the installation session to prevent excessive pushing on the cable by the motor during the installation session. 19. A method as in claim 18 wherein the cap is set at the start of the installation session so that the set cap can be later used during the installation session. 20. A method as in claim 18 wherein the cap is set by adding a predetermined percentage of current to the determined level of current for starting the movement of the cable. 21. A method as in claim 18 , further comprising sensing movement and changes in the level of movement of the cable within the blowing head using a low-inertia sensor comprising two drive wheels which lightly touch each other or do not touch each other. 22. A blowing head for installing blown cable, comprising: a low-inertia motor using electrical current, configured to obtain the advance of the cable within the blowing head, a low-inertia sensor comprising two drive wheels which lightly touch each other or do not touch each other, configured to sense movement and changes in the level of movement of the cable within the blowing head, and a control unit configured to control installation of the cable. 23. A blowing head in accordance with claim 22 wherein the control unit is configured to capture the level of the electrical current required to start movement of the cable to calculate a cap on the current level, wherein the current level cap is configured to be used to prevent excessive pushing on the cable by the motor during an installation session. 24. A blowing head in accordance with claim 23 wherein the current level cap is discarded after end of each installation session. 25. A blowing head in accordance with claim 23 including a rotary encoder operatively connected to the motor, wherein the current required is configured to start movement of the cable within