Signal amplifiers that switch to an attenuated or alternate communications path in response to a power interruption

That which is claimed is: 1. A bi-directional RF signal amplifier, comprising: an RF input port; a first RF output port; a second RF output port; an amplified communications path that connects the RF input port to the first RF output port; a non-amplified communications path that connects the RF input port to the second RF output port; a first switching device that is part of both the amplified communications path and the non-amplified communication path; and a second switching device that is part of the non-amplified communications path; wherein the bi-directional RF signal amplifier is configured to simultaneously carry signals on both the amplified communications path and the non-amplified communications path when power is supplied to the RF signal amplifier. 2. The bi-directional RF signal amplifier of claim 1 , wherein the second switching device is not part of the amplified communications path. 3. The bi-directional RF signal amplifier of claim 1 , further comprising a first directional coupler that is part of both the amplified and the non-amplified communications paths when power is supplied to the RF signal amplifier. 4. The bi-directional RF signal amplifier of claim 1 , further comprising an auxiliary communications path that connects the RF input port to the second RF output port when power is not supplied to the RF amplifier. 5. The bi-directional RF signal amplifier of claim 4 , further comprising a second directional coupler that is between the first switching device and the second switching device. 6. The bi-directional RF signal amplifier of claim 5 , wherein a first output of the second directional coupler is coupled to the second RF output port when power is not supplied to the RF amplifier, and a second output of the second directional coupler is coupled to a third RF output port. 7. The bi-directional RF signal amplifier of claim 1 , further comprising an attenuator coupled between the first and second switching devices. 8. The RF signal amplifier of claim 1 , wherein the first and second switching devices each comprise a non-latching relay. 9. A bi-directional RF signal amplifier, comprising: an RF input port; a first RF output port; a second RF output port; a first switching device having an input that is coupled to the RF input port, a first output that is coupled to an amplified communications path and to a first non-amplified communications path, and a second output that is coupled to a second non-amplified communications path; wherein the bi-directional RF signal amplifier is configured to pass signals from the RF input port to the first RF output port via the amplified communications path when power is supplied to the bi-directional RF signal amplifier, wherein the bi-directional RF signal amplifier is configured to pass signals from the RF input port to the second RF output port through the first non-amplified communications path when power is supplied to the bi-directional RF signal amplifier, and wherein the bi-directional RF signal amplifier is configured to pass signals from the RF input port to the second RF output port through the second non-amplified communications path when power to the bi-directional RF signal amplifier is interrupted. 10. The bi-directional RF signal amplifier of claim 9 , further comprising a first directional coupler that is coupled to the first output of the first switching device, the directional coupler being part of the amplified communications path and part of the first non-amplified communications path. 11. The bi-directional RF signal amplifier of claim 9 , further comprising a second switching device that is part of the first non-amplified communications path and that is part of the second non-amplified communications path. 12. The bi-directional RF signal amplifier of claim 9 , further comprising: a first directional coupler having an input that is coupled to the first output of the first switching device, a first output that is coupled to the first RF output port and a second output; a second switching device having a first input that is coupled to the second output of the first directional coupler, a second input that is coupled to the second output of the first switching device, and an output that is coupled to the second RF output port. 13. The bi-directional RF signal amplifier of claim 12 , further comprising a second directional coupler that has an input that is coupled to the second output of the first switching device, a first output that is coupled to the second input of the second switching device, and a second output that is coupled to a third RF output port. 14. The bi-directional RF signal amplifier of claim 12 , further comprising: a power input for receiving electrical power; wherein the first switching device is configured to pass signals between the input of the first switching device and the first output of the switching device when electrical power is received at the power input and that is further configured to pass signals between the input of the first switching device and the second output of the switching device when an electrical power feed to the power input is interrupted. 15. The RF signal amplifier of claim 12 , wherein the first and second switching devices each comprise a non-latching relay. 16. The bi-directional RF signal amplifier of claim 12 , further comprising an attenuator coupled between the first and second switching devices. 17. A bi-directional RF signal amplifier, comprising: an RF input port; a switching device having an input that is coupled to the RF input port, a first output and a second output; a first diplexer having a common port, a high frequency port and a low frequency port, wherein the first output of the switching device is coupled to the common port; a second diplexer that is connected to the first diplexer; a power divider network that includes a plurality of directional couplers coupled to a common port of the second diplexer; and a plurality of RF output ports coupled to the power divider network; wherein the second output of the switching device is coupled to at least one of the RF output ports via a communications path that bypasses the first and second diplexers, wherein the communications path is selected from the group consisting of: the second output of the switching device is directly connected to a node that is between two of the directional couplers of the power divider network, the second output of the switching device is directly connected to a node that is between one of the directional couplers of the power divider network and one of the RF output ports, and the second output of the switching device is directly connected to a node that is between the second diplexer and the power divider network. 18. The bi-directional RF signal amplifier of claim 17 , wherein the second output of the switching device is directly connected to a node that is between two of the directional couplers of the power divider network. 19. The bi-directional RF signal amplifier of claim 17 , wherein the second output of the switching device is directly connected to a node that is between one of the directional couplers of the power divider network and one of the RF output ports. 20. The bi-directional RF signal amplifier of claim 17 , wherein the second output of the switching device is directly connected to a node that is between the second diplexer and the power divider network.