Network interface device and method having passive operation mode and noise management

What is claimed is: 1. A network interface device comprising: an active branch circuit configured to transmit an active branch signal to an active subscriber device; a noise controller configured to detect whether the upstream signal includes a noise indicative power level, and control transmission of the upstream signal through the active branch circuit based on the detection of whether the upstream signal includes a noise indicative power level and based on whether the noise controller is in a powered state and an unpowered state; and a bypass circuit configured to transmit the active branch signal through a bypass signal path when the noise controller detects that the upstream signal includes a noise indicative power level so as to prevent the upstream signal from being transmitted through the active branch circuit when the upstream signal includes the noise indicative power level and when the noise controller is in the unpowered state, and wherein the bypass circuit is configured to transmit the upstream signal through the active branch circuit only when the noise controller detects that the upstream signal does not include the noise indicative power level so as to allow the upstream signal to be transmitted through the active branch circuit only when the upstream signal does not include the noise indicative power level and when the noise controller is in a powered state. 2. The network interface device of claim 1 , wherein the noise controller is configured to detect an instantaneous power of the upstream signal and control transmission of the upstream signal through the active branch circuit based on the detected instantaneous power of the upstream signal. 3. The network interface device of claim 1 , wherein the noise controller is further configured to detect whether an instantaneous power level of the upstream signal exceeds a threshold limit, and allow transmission of the upstream signal through the active branch circuit only when the detected instantaneous power level of the upstream signal exceeds the threshold limit. 4. The network interface device of claim 1 , wherein the noise controller is further configured to detect whether a power level of the upstream signal comprises the noise indicative power level, and allow transmission of the upstream signal through the active branch circuit only when the detected power level of the upstream signal does not comprise the noise indicative power level. 5. The network interface device of claim 1 , wherein the noise controller is configured to maintain a signal path for the upstream signal until a designated condition is detected and block the signal path after the designated condition is detected. 6. The network interface device of claim 5 , wherein the designated condition comprises a predetermined amount of time, the predetermined amount of time based on an amount of time to transmit a single valid upstream signal packet of a maximum time duration permitted by a signaling protocol. 7. The network interface device of claim 1 , wherein the noise controller is located in a separate enclosure. 8. A network interface device comprising: an active branch circuit configured to transmit an active branch signal to an active subscriber device; a noise controller configured to detect whether the upstream signal includes a noise indicative power level, and control transmission of the upstream signal through the active branch circuit based on the detection of whether the upstream signal includes the noise indicative power level; and a bypass circuit configured to transmit the active branch signal through a bypass signal path when the noise controller detects that the upstream signal includes the noise indicative power level so as to prevent the upstream signal from being transmitted through the active branch circuit when the upstream signal includes the noise indicative power level, and wherein the bypass circuit is configured to transmit the upstream signal through the active branch circuit only when the noise controller detects that the upstream signal does not include the noise indicative power level so as to allow the upstream signal to be transmitted through the active branch circuit only when the upstream signal does not include the noise indicative power level. 9. The network interface device of claim 8 , wherein the noise controller is configured to detect an instantaneous power of the upstream signal and control transmission of the upstream signal through the active branch circuit based on the detected instantaneous power of the upstream signal. 10. The network interface device of claim 8 , wherein the noise controller is further configured to detect whether an instantaneous power level of the upstream signal exceeds a threshold limit, and allow transmission of the upstream signal through the active branch circuit only when the detected instantaneous power level of the upstream signal exceeds the threshold limit. 11. The network interface device of claim 8 , wherein the noise controller is further configured to detect whether a power level of the upstream signal comprises the noise indicative power level, and allow transmission of the upstream signal through the active branch circuit only when the detected power level of the upstream signal does not comprise the noise indicative power level. 12. The network interface device of claim 8 , wherein the noise controller is configured to maintain a signal path for the upstream signal until a designated condition is detected and block the signal path after the designated condition is detected. 13. The network interface device of claim 12 , wherein the designated condition comprises a predetermined amount of time, the predetermined amount of time based on an amount of time to transmit a single valid upstream signal packet of a maximum time duration permitted by a signaling protocol. 14. The network interface device of claim 8 , wherein the noise controller is located in a separate enclosure.