Return path noise reducing amplifier with bypass signal

Having fully and clearly described the invention so as to enable one having skill in the art to understand and practice the same, the invention claimed is: 1. An amplifier system for communicating an RF signal, the system comprising: an amplified path including an amplified forward circuit for communicating the RF signal downstream; a return path for communicating the RF signal upstream; a bypass path configured to communicate the RF signal upstream and downstream through the system; switching means coupled to the amplified, return, and bypass paths, wherein the switching means includes a first switch, a second switch, and a DC voltage sensing circuit coupled in electrical communication to the amplified path to detect voltage in the amplified path and not coupled in electrical communication to the return path; wherein the switching means communicates the RF signal downstream through the amplified path in response to a normal condition in the amplified path, and communicates the RF signal through the bypass path in response to an abnormal condition in the amplified path; and the switching means provides power to the return path in response to a normal condition in the return path, and removes power from the return path in response to an abnormal condition in the return path. 2. The system of claim 1 , wherein the switching means further includes detection circuitry coupled in electrical communication to the return path to detect power in the return path. 3. The system of claim 2 , wherein a return amplifier in the return path receives power from the detection circuitry in response to the detection circuitry detecting power in the return path. 4. The system of claim 1 , further including a filter, wherein: the filter is configured to filter a band of the RF signal in the return path in a range from 1125 MHz to 1525 MHz; and the filter is configured to pass a band of the RF signal downstream in a range from 5 MHz to 1002 MHz. 5. An amplifier system for communicating an RF signal, the system comprising: an amplified path including an amplified forward circuit and a return circuit including power detection circuitry to provide power to the return circuit in response to a normal condition in the return circuit, and to remove power from the return circuit in response to an abnormal condition in the return circuit; a DC voltage sensing circuit coupled in electrical communication to the forward circuit to detect voltage in the forward circuit and not coupled in electrical communication to the return circuit; a bypass path; and a switch coupled in electrical communication to the amplified and bypass paths to route the RF signal through the amplified path in response to a normal condition in the amplified path, and to route the RF signal through the bypass path in response to an abnormal condition in the amplified path. 6. The system of claim 5 , further comprising: the DC voltage sensing circuit detects voltage above a threshold value in the normal condition of the amplified path; and the DC voltage sensing circuit detects voltage below a threshold value in the abnormal condition of the amplified path. 7. The system of claim 6 , wherein the switch is coupled in electrical communication to the DC voltage sensing circuit to route the RF signal through the amplified path in response to the DC voltage sensing circuit detecting voltage above the threshold value, and to route the RF signal through the bypass path in response to the DC voltage sensing circuit detecting voltage below the threshold value. 8. The system of claim 5 , wherein the return circuit includes a return amplifier. 9. The system of claim 8 , wherein the power detection circuitry comprises: a power detector configured to detect power in the return circuit; a power switch coupled in electrical communication to the power detector and coupled in electrical communication to the return amplifier to provide power to the return amplifier; the power switch provides power to the return amplifier in response to the power detector detecting power in the return circuit; and the power switch removes power to the return amplifier in response to the power detector failing to detect power in the return circuit. 10. The system of claim 5 , further including a filter, wherein: the filter is configured to filter a band of the RF signal in the return circuit in a range from 1125 MHz to 1525 MHz; and the filter is configured to pass a band of the RF signal downstream in a range from 5 MHz to 1002 MHz. 11. An amplifier system for communicating an RF signal, the system comprising: an input connector for receiving the RF signal from a plant and returning the RF signal to the plant; an output connector adapted for connection to telecommunication equipment; an amplified path connecting the input connector to the output connector, the amplified path including: a first diplex filter for separating the RF signal into downstream and upstream signals; an amplified forward circuit for amplifying the downstream signal; a return circuit for the upstream signal; and a second diplex filter for combining the downstream and upstream signals; a bypass path connecting the input connector to the output connector, the bypass path including a DC voltage sensing circuit coupled in electrical communication to the amplified path to detect voltage in the amplified path and not coupled in electrical communication to the return circuit; a switch coupled in electrical communication between the input and output connectors to route the RF signal through one of the amplified path and bypass path; and the switch is coupled in electrical communication to the DC voltage sensing circuit for routing the RF signal through the amplified path in response to the DC voltage sensing circuit detecting a normal condition in the amplified path and for routing the RF signal through the bypass path in response to the DC voltage sensing circuit detecting an abnormal condition in the amplified path; wherein the return circuit of the amplified path includes: a return amplifier; power detection circuitry coupled in electrical communication to the return amplifier; the power detection circuitry provides power to the return amplifier in response to the power detection circuitry detecting a normal condition in the return circuit; and the power detection circuitry removes power to the return amplifier in response to the power detection circuitry detecting an abnormal condition in the return circuit. 12. The amplifier system of claim 11 , wherein the normal condition in the amplified path exists when the amplified path has a characteristic above a threshold value. 13. The amplifier system of claim 12 , wherein the characteristic is voltage and the threshold value is a predetermined voltage in the amplified path. 14. The amplifier system of claim 11 , wherein the abnormal condition in the amplified path exists when the amplified path has a characteristic below a threshold value. 15. The amplifier system of claim 14 , wherein the characteristic is voltage and the threshold value is a predetermined voltage in the amplified path. 16. The amplifier system of claim 11 , wherein the normal condition in the return circuit exists when only noise is transmitted along the return circuit by telecommunication equipment coupled to the output connector. 17. The amplifier system of claim 11 , wherein the abnormal condition in the return circuit exists when no signal is transmitted along the return circuit by telecommunication equipment coupled to the output connector.