System for processing an end of a cable

The invention claimed is: 1. A system for processing an end of a cable, the system comprising: a cable delivery system; a plurality of cable processing modules situated at respective workstations accessible to the cable delivery system; a pair of wheels operable to push the cable into one of the cable processing modules when the cable is in a nip between the wheels; an apparatus configured to hold the wheels; a motor having an output shaft operatively coupled to drive rotation of the wheels; and a rotation encoder configured to output pulses representing incremental angular rotations of the output shaft of the motor, wherein each cable processing module of the plurality of cable processing modules comprises: respective cable processing equipment configured to perform a respective operation on the end of the cable; a respective funnel affixed to the respective cable processing equipment in a location facing the pair of wheels; and a respective photoelectric sensor positioned and configured to issue a cable tip position signal indicating that interruption of transmitted light in a scanning plane in front of the funnel has started, and a computer system configured to perform the following operations when the cable arrives at each of the workstations in sequence: activate the motor to drive rotation of the wheels in the cable pushing direction to cause the end of the cable to be inserted into the cable processing equipment of the cable processing module which the apparatus configured to hold the wheels is adjacent to; start a count of pulses output by the rotation encoder in response to the cable tip position signal; de-activate the motor in response to the count reaching a specified value corresponding to a specific target length of cable inserted in the cable processing equipment; activate the cable processing equipment in which the end of the cable is inserted to perform the respective operation on the inserted end of the cable; and activate the motor to drive rotation of the wheels in a cable pulling direction to cause the end of the cable to be removed from the cable processing equipment. 2. The system as recited in claim 1 , wherein one of the plurality of cable processing modules comprises a shield trimming module configured to automatically trim an exposed portion of a shield of the cable in an area where the portion of the jacket was removed. 3. The system as recited in claim 2 , wherein another of the plurality of cable processing modules comprises a sleeve installation module situated downstream from the shield trimming module and configured to automatically place and then shrink a sleeve on a portion of the cable that includes an untrimmed exposed portion of the shield. 4. The system as recited in claim 1 , wherein the cable processing equipment of one of the cable processing modules is configured to automatically form a circumferential laser score line in a jacket of a cable. 5. The system as recited in claim 1 , wherein the cable processing equipment of one of the cable processing modules is configured to automatically pull a portion of a jacket off of the end of the cable, the portion of the jacket pulled off having a tip formed by the laser score line, thereby exposing a portion of a shield of the cable. 6. The system as recited in claim 1 , wherein the cable processing equipment of one of the cable processing modules is configured to automatically trim a portion of an exposed portion of a shield of the cable. 7. The system as recited in claim 1 , wherein the cable processing equipment of one of the cable processing modules is configured to automatically install a solder sleeve on a portion of the cable, and wherein the solder sleeve surrounds a portion of an exposed portion of a shield. 8. The system as recited in claim 1 , wherein the photoelectric sensor comprises a scanning light beam transmitter and an array of light-detecting elements. 9. The system as recited in claim 8 , wherein the computer system is further configured to perform the following operations: compute a length of an interruption in light received by the array of light-detecting elements from the scanning light beam transmitter; compare the computed length of the interruption to reference data representing a diameter of a cable; and issue an alert signal when a difference of the computed length of the interruption and the reference data exceeds a specified threshold. 10. A system for processing an end of a cable, the system comprising: a cable delivery system; a plurality of cable processing modules situated at respective workstations accessible to the cable delivery system; a pair of wheels operable to push the cable into one of the cable processing modules when the cable is in a nip between the wheels; an apparatus configured to hold the wheels; and a motor operatively coupled to drive rotation of the wheels, wherein each cable processing module of the plurality of cable processing modules comprises: respective cable processing equipment configured to perform a respective operation on the end of the cable; and a computer system configured to perform the following operations when the cable arrives at each of the workstations in sequence: activate the motor to drive rotation of the wheels in the cable pushing direction to cause the end of the cable to be inserted into the cable processing equipment of the cable processing module which the apparatus configured to hold the wheels is adjacent to; activate the cable processing equipment in which the end of the cable is inserted to perform the respective operation on the inserted end of the cable; and activate the motor to drive rotation of the wheels in a cable pulling direction to cause the end of the cable to be removed from the cable processing equipment, wherein the plurality of cable processing modules comprise the following cable processing modules arranged along the cable delivery system in sequence as recited: first cable processing equipment configured to automatically form a circumferential laser score line in a jacket of a cable; second cable processing equipment configured to automatically pull a portion of the jacket off of the end of the cable, the portion of the jacket pulled off having a tip formed by the laser score line, thereby exposing a portion of a shield of the cable; third cable processing equipment configured to automatically trim a portion of the exposed portion of the shield of the cable; and fourth cable processing equipment configured to automatically install a solder sleeve on a portion of the cable, wherein the solder sleeve surrounds a portion of the exposed portion of the shield remaining after trimming. 11. A system for processing an end of a cable, the system comprising: a cable delivery system; a cable processing module situated at a workstation accessible to the cable delivery system; a pallet supported by the cable delivery system; a drive wheel rotatably coupled to the pallet; a motor operatively coupled for driving rotation of the drive wheel; and an idler wheel rotatably coupled to the pallet and forming a nip with the drive wheel, wherein the cable processing module comprises: cable processing equipment configured to perform an operation on the end of the cable; and a computer system configured to perform the following operations: activate the motor to drive rotation of the drive wheel in a cable pushing direction to cause the end of the cable to be inserted into the cable processing equipment; activate the cable processing equipment to perform the operation on the end of the cable; and activate the motor to drive rotation of the drive wheel in a cable pulling directi