Wireless control in a cable feeder and puller system

What is claimed is: 1. A control arrangement for use in a cable installing system, the cable installing system including a first apparatus located at a first endpoint, and a second apparatus located at a second endpoint, the first and second apparatus together configured to install a cable through a conduit between the first endpoint and the second endpoint, the control arrangement comprising: a first control module located proximate to the first endpoint and operatively coupled to the first apparatus, the first apparatus having an electric motor coupled to a source of power; a second control module located proximate to the second endpoint and operatively coupled to the second apparatus, the second apparatus having a electric motor coupled to a source of power; each control module having a wireless communication interface to facilitate wireless communication between the first control module and the second control module; each control module having a switch input configured to receive an input signal from an operator-activated switch, the input signal indicating either a ready state or a stop state; each control module further having an apparatus output configured to provide a machine-activation signal or a machine-deactivation signal to the respective first or second apparatus; wherein the machine-activation signal and the machine-deactivation signal are separate and independent form the source of power that drives the motors of the first second apparatus; wherein when the first control module receives the input signal from the corresponding operator-activated switch indicating the ready state, the first control module wirelessly transmits a ready signal to the second control module; and wherein upon receipt of the ready signal by the second control module, and if the second control module receives the input signal from the corresponding operator-activated switch, the second control module wirelessly transmits a start signal to the first control module, and thereafter, both control modules transmit the corresponding machine-activation signal to the correspondingly coupled first apparatus and second apparatus. 2. The control arrangement of claim 1 , further including: a third control module operatively disposed between the first control module and second control module, and configured to operate in a repeater mode; the third control module configured to wirelessly receive the ready signal from the first control module and wirelessly relay the ready signal to the second control module; and the third control module configured to wirelessly receive the start signal from the second control module and wirelessly relay the start signal to the first control module. 3. The control arrangement of claim 2 , wherein each control module is selectively configured to operate in an endpoint mode or in a repeater mode. 4. The control arrangement of claim 3 , wherein each control module further includes a display configured to display an indication whether the respective control module is operating in the endpoint mode or in the repeater mode. 5. The control arrangement of claim 4 , wherein each control module includes a signal strength analyzer and wherein the display is configured to display a signal strength indicator corresponding to a signal strength measured by the signal strength analyzer. 6. The control arrangement of claim 4 , where the display provides an indication according to the ready state or the stop state of the corresponding first and second apparatus. 7. The control arrangement of claim 3 , wherein the first control module and second control module are configured to operate in the endpoint mode, and the third control module is configured to operate in the repeater mode. 8. The control arrangement of claim 1 , wherein the first apparatus is either a cable pulling apparatus or a cable feeding apparatus, and the second apparatus is the other of the cable feeding apparatus or the cable pulling apparatus. 9. The control arrangement of claim 1 , wherein when the first control module receives the input signal from the corresponding operator-activated switch indicating the stop state, the first control module wirelessly transmits a stop signal to the second control module, and upon receipt of the stop signal by the second control module, the second control module wirelessly transmits a stop-acknowledge signal to the first control module, and both control modules transmit the corresponding machine-deactivation signal to the respectively coupled first apparatus and second apparatus to deactivate the first apparatus and the second apparatus. 10. The control arrangement of claim 1 , wherein the first control module further includes a display configured to indicate whether the first apparatus is a cable pulling apparatus or a cable feeding apparatus, and the second control module further includes a display configured to indicate whether the second apparatus is the other of the cable pulling apparatus or the cable feeding apparatus. 11. The control arrangement of claim 1 , wherein transmission of the machine-activation signal by the first control module and second control module causes activation of the corresponding apparatus if the corresponding control module indicates the ready state. 12. The control arrangement of claim 1 , wherein the apparatus output of each control module is operatively coupled by a wired connection to the corresponding apparatus. 13. The control arrangement of claim 1 , wherein the operator-activated switch is a foot switch or a hand switch. 14. The control arrangement of claim 1 , further including a battery in each control module configured to provide electrical power to the corresponding control module. 15. A control arrangement for use in a cable installing system, the cable installing system including a first apparatus located at a first endpoint, and a second apparatus located at a second endpoint, the first and second apparatus together configured to install a cable through a conduit between the first endpoint and the second endpoint, the control arrangement comprising: a first control module located proximate to the first endpoint and operatively coupled to the first apparatus, the first apparatus having an electric motor coupled to a source of power; a second control module located proximate to the second endpoint and operatively coupled to the second apparatus, the second apparatus having an electric motor coupled to a source of power; a repeater control module operatively disposed between the first control module and second control module, and configured to operate as a repeater; wherein the repeater control module, the first control module, and the second control module are configurable according to a repeater operational mode or an endpoint operational mode, and are other wise hardware-identical; each control module having a wireless communication interface to facilitate wireless communication between the control modules; the first control module and second control module having a corresponding switch input configured to receive an input signal from a corresponding operator-activated switch, the input signal indicating either a ready state or a stop state; the first control module and second control module having a corresponding apparatus output configured to provide a machine-activation signal or a machine-deactivation signal to the corresponding first apparatus or second apparatus; wherein the machine-activation signal and the machine-deactivation signal are separate and independent form the source of power that drives the motors of the first and second apparatus; wherein when th