Network interface device

What we claim is: 1. A network interface device, comprising: a power supply; an entry port configured to connect the network interface device to a radio-frequency (RF) signal source; a passive port configured to connect the network interface device to a first client device; an active port configured to connect the network interface device to a second client device; a passive RF signal path coupling the entry port to the passive port; an active RF signal path coupling the entry port to the active port and comprising a first relay, a buffer, and a second relay; a splitter/combiner device configured to split a downstream RF signal received by the entry port from the RF signal source between the active RF signal path and the passive RF signal path; and an amplifier circuit configured to amplify the downstream RF signal; wherein the first relay and the second relay, when energized by the power supply, are configured to direct an upstream RF signal received by the active port and the downstream RF signal to bypass the buffer; wherein the first relay and the second relay, when not energized by the power supply, are configured to direct the upstream RF signal and the downstream RF signal through the buffer; and wherein the active port is configured to provide the upstream RF signal through the amplifier circuit and the buffer to the entry port. 2. The network interface device of claim 1 , wherein: the active RF signal path includes at least one active device; and the passive RF signal path lacks any active devices. 3. The network interface device of claim 1 , wherein a common terminal of the splitter/combiner device is configured to receive the downstream RF signal as an input from the RF signal source via the entry port. 4. The network interface device of claim 1 , wherein a first leg of the splitter/combiner device is configured to provide the downstream RF signal as an input to a common terminal of the first relay. 5. The network interface device of claim 4 , wherein a second leg of the splitter/combiner device is configured to output the downstream RF signal to the passive port. 6. The network interface device of claim 1 , wherein: a normally-open terminal of the first relay is configured to provide the downstream RF signal as an input to the buffer; and a normally-open terminal of the second relay is configured to provide the upstream RF signal as an input to the buffer. 7. The network interface device of claim 1 , wherein: a normally-closed terminal of the first relay is configured to provide the downstream RF signal to a normally-closed terminal of the second relay; and a normally-closed terminal of the second relay is configured to provide the upstream RF signal to a normally-closed terminal of the first relay. 8. The network interface device of claim 1 , wherein a common terminal of the second relay is configured to output the downstream RF signal to the active port through the amplifier circuit. 9. A network interface device, comprising: an entry port configured communicate a downstream radio-frequency (RF) signal received from a signal source to an active path of the network interface device and to a passive path of the network interface device; a first port configured to communicate a first upstream RF signal to the entry port via the passive path; a second port configured to communicate a second upstream RF signal to the entry port via the active path; and a buffer having a first state and a second state, the buffer being configured to: in the first state, pass the second upstream RF signal and the downstream RF signal between the entry port and the second port via the active path, and in the second state, prevent passage of the second upstream RF signal and the downstream RF signal between the entry port and the second port by absorbing, attenuating, terminating, or isolating the second upstream RF signal and the downstream RF signal by at least 10 decibels. 10. The network interface device of claim 9 , further comprising a splitter/combiner device configured to: divide the downstream RF signal between the active path and the passive path, and combine the first upstream RF signal from the passive path with the second upstream RF signal from the active path. 11. The network interface device of claim 9 , further comprising an amplifier circuit in the active path configured to amplify the downstream RF signal. 12. The network interface device of claim 11 , wherein the amplifier circuit is further configured to amplify the first upstream RF signal, the second upstream RF signal, or both. 13. The network interface device of claim 11 , wherein, in the second state, the buffer is configured to absorb, attenuate, terminate, or isolate RF signals reflected by the amplifier circuit. 14. The network interface device of claim 13 , wherein the buffer is configured to absorb, attenuate, terminate, or isolate the RF signals reflected by the amplifier circuit by at least 10 decibels. 15. The network interface device of claim 9 , wherein: the buffer is configured to be in the first state during powered operation of the network interface device; and the buffer is configured to be in the second state during unpowered operation of the network interface device. 16. The network interface device of claim 9 , wherein the passive path lacks any active devices. 17. The network interface device of claim 9 , wherein: the buffer comprises a first relay, an attenuator, and a second relay; in the first state, the first and second relays are configured to direct the second upstream RF signal and the downstream RF signal to bypass the attenuator; in the second state, the first and second relays are configured to direct the second upstream RF signal and the downstream RF signal though the attenuator; and the attenuator is configured to absorb, attenuate, terminate, or isolate the downstream RF signal, reflected downstream signals, and the second upstream RF signal. 18. The network interface device of claim 9 , wherein the buffer comprises: a diode configured to: in the first state, communicate the downstream RF signal and the second upstream RF signal between the input port and the second port, and in the second state, block communication of the downstream RF signal and the second upstream RF signal between the input port and the second port; and a circuit configured to, in the second state, absorb, attenuate, terminate, or isolate the downstream RF signal, reflected downstream signals, and the second upstream RF signal. 19. A network interface device, comprising: an active path between an entry port and a first input/output port; a passive path between the entry port and a second input/output port; a buffer in the active path configured to absorb, attenuate, terminate, or isolate radio-frequency (RF) signals; and a switching element in the active path configured to cause the RF signals to: selectively bypass the buffer during normal operating conditions, wherein the normal operating conditions comprise a first state that exists during powered operation of the network interface device, and pass through the buffer during abnormal operating conditions, wherein the abnormal operating conditions comprise a second state that exists during non-powered operation or faulted operation of the network interface device. 20. The network device of claim 19 , wherein the buffer is configured to block signal interference in the passive path from the active path during the non-powered operation o