Communication system using low bandwidth wires

The invention claimed is: 1. A method for reconstruction of a reference signal transmitted in a communications system between a master unit having a master local oscillator and a remote unit having a remote local oscillator, the master and remote units connected by conductive wires, the reference signal being transmitted over the conductive wires together with a signal which is down-converted from an original high frequency signal to an intermediate frequency signal at the master unit and up-converted back into the original high frequency signal at the remote unit, the method comprising: at the master unit, embedding the reference signal as a carrier of a management signal using a master modem; transmitting the management signal with the embedded reference signal over the conductive wires to the remote unit; at the remote unit, reconstructing the reference signal from the management signal using a phase locked loop (PLL), wherein the PLL comprises a phased detector, a charge pump, a voltage controlled crystal oscillator and a capacitor; and using the reconstructed reference signal for synchronizing the remote local oscillator with the master local oscillator, wherein the management signal comprises a management data bit stream and wherein the step of reconstructing the reference signal from the management signal further comprises using a charge pump shutter coupled to the PLL and synchronized with the management data bit stream to keep the reconstructed reference signal stable. 2. The method of claim 1 , wherein using a charge pump shutter coupled to the PLL and synchronized with the management data bit stream to keep the reconstructed reference signal stable comprises using the charge pump shutter to shut off the charge pump at least during intervals between transmissions of the management signal. 3. The method of claim 1 , wherein the reference signal is a discontinuous signal and the PLL is adapted to filter the discontinuous reference signal. 4. The method of claim 3 , wherein the charge pump controls a frequency of the voltage controlled crystal oscillator. 5. The method of claim 1 , wherein transmitting the management signal from the master unit to the remote unit comprises transmitting from a first duplexer to an input duplexer in the remote unit. 6. The method of claim 5 , further comprising separating the transmitted management signal with the embedded reference signal by frequency band at the input duplexer. 7. The method of claim 1 , further comprising: demodulating the management signal using a control modem at the remote unit coupled to the charge pump shutter. 8. A method for reconstruction of a reference signal transmitted in a communications system between a master unit having a master local oscillator and a remote unit having a remote local oscillator, the master and remote units connected by conductive wires, the reference signal being transmitted over the conductive wires together with a signal which is down-converted from an original high frequency signal to an intermediate frequency signal at the master unit and up-converted back into the original high frequency signal at the remote unit, the method comprising: at the master unit, embedding the reference signal as a carrier of a management signal using a master modem; transmitting the management signal with the embedded reference signal from a first duplexer over the conductive wires to an input duplexer in the remote unit; separating the transmitted management signal with the embedded reference signal from the first duplexer by frequency band at the input duplexer; at the remote unit, reconstructing the reference signal from the management signal using a phase locked loop (PLL); and using the reconstructed reference signal for synchronizing the remote local oscillator with the master local oscillator, wherein the management signal comprises a management data bit stream and wherein the step of reconstructing the reference signal from the management signal further comprises using a charge pump shutter coupled to the PLL and synchronized with the management data bit stream to keep the reconstructed reference signal stable. 9. The method of claim 8 , further comprising: demodulating the management signal using a control modern at the remote unit coupled to the input duplexer and the charge pump shutter. 10. The method of claim 8 , wherein the reference signal is a discontinuous signal and the PLL is adapted to filter the discontinuous reference signal. 11. The method of claim 8 , wherein the PLL comprises a phased detector, a charge pump, a voltage controlled crystal oscillator and a capacitor, and the method further comprises: controlling, via the charge pump, a frequency of the voltage controlled crystal oscillator. 12. A system for reconstructing a reference signal transmitted in a distributed communications system over electrically conductive wires between a master unit having a master local oscillator and a remote unit having a remote local oscillator, the system comprising: a master modem configured to embed the reference signal at the master unit as a carrier of a management signal carrying a management data bit stream and management messages between the master unit and the remote unit; a first duplexer configured to transfer the management signal to an input duplexer in the remote unit; a phase locked loop (PLL) for reconstructing the reference signal at the remote unit, the reconstructed reference signal used to synchronize the master and remote local oscillators; and a charge pump shutter for keeping the reconstructed reference signal stable during intervals between the management data bit stream and management messages. 13. The system of claim 12 , wherein the input duplexer is configured to separate the management signal with the embedded reference signal from the first duplexer according to frequency band. 14. The system of claim 12 , further comprising a control modem at the remote unit coupled to the input duplexer and to the charge pump shutter and configured to demodulate the management signal. 15. The system of claim 12 , wherein the charge pump shutter is synchronized with the management data bit stream. 16. The system of claim 12 , wherein the PLL comprises a charge pump, a voltage controlled crystal oscillator and a capacitor configured to reconstruct the reference signal. 17. The system of claim 16 , wherein the PLL has a lock time designed to be faster by a factor of at least two than the period of a management data bit. 18. The system of claim 12 , wherein the reference signal is a discontinuous signal and the PLL is configured to filter the discontinuous reference signal. 19. The system of claim 12 , wherein the PLL comprises a phased detector, a charge pump, a voltage controlled crystal oscillator and a capacitor, and wherein the charge pump is configured to control a frequency of the voltage controlled crystal oscillator. 20. A system for reconstructing a reference signal transmitted in a distributed communications system over electrically conductive wires between a master unit having a master local oscillator and a remote unit having a remote local oscillator, the system comprising: a master modem configured to embed the reference signal at the master unit as a carrier of a management signal carrying a management data bit stream and management messages between the master unit and the remote unit; a first duplexer configured to transfer the management signal to an input duplexer in the remote unit; and a phas