Outdoor lighting system controlled using motion sensor interface

1 . A dimming control node comprising: a photocontrol interface comprising: a sensor power terminal that is electrically couplable to a motion sensor and configured for providing power to the motion sensor, and a sensor input terminal that is communicatively couplable to the motion sensor and configured for receiving sensor data via a wired connection to the motion sensor; and a processing device communicatively coupled to the sensor input terminal, wherein the processing device is configured for: determining a sensor output state of the motion sensor from the sensor data received via the wired connection, selecting a dim-level configuration corresponding to the sensor output state of the motion sensor, and causing the dimming control node to set a luminaire ballast or luminaire driver to the selected dim-level configuration. 2 . The dimming control node of claim 1 , wherein the processing device is further configured for: determining, from the sensor data, that the sensor output state indicates a motion duration greater than or equal to a minimum occupancy-detection pulse width and less than a minimum response duration, wherein the dim-level configuration comprises: (i) the luminaire ballast or luminaire driver being set to a high dim-level state based on the motion duration being greater than or equal to the minimum occupancy-detection pulse width, and (ii) the luminaire ballast or luminaire driver being set to a low dim-level state after the minimum response duration has elapsed and based on the motion duration being less than the minimum response duration; and transmitting control signals for (i) setting the luminaire ballast or luminaire driver to the high dim-level state in accordance with selected the dim-level configuration and (ii) setting the luminaire ballast or luminaire driver to the low dim-level state in accordance with the selected dim-level configuration. 3 . The dimming control node of claim 1 , wherein the processing device is further configured for: determining, from the sensor data, that the sensor output state indicates a motion duration that is (i) greater than or equal to a minimum occupancy-detection pulse width and (ii) greater than or equal to a minimum response duration, wherein the dim-level configuration comprises: (i) the luminaire ballast or luminaire driver being set to a high dim-level state based on the motion duration being greater than or equal to the minimum occupancy-detection pulse width, and (ii) a subsequent dim-level state of the luminaire ballast or luminaire driver being synchronized with a subsequent sensor output state based on the motion duration being greater than or equal to the minimum response duration; and transmitting a control signal for (i) setting the luminaire ballast or luminaire driver to the high dim-level state in accordance with selected the dim-level configuration and (ii) synchronizing the subsequent dim-level state of the luminaire ballast or luminaire driver to the sensor output state in accordance with the selected dim-level configuration. 4 . The dimming control node of claim 1 , wherein the processing device is further configured for: receiving, via the sensor input terminal, additional sensor data; determining, from the additional sensor data, that an additional sensor output state has a duration less than a minimum occupancy-detection pulse width; and maintaining, based the duration being less than the minimum occupancy-detection pulse width, a low dim-level state of the luminaire ballast or luminaire driver. 5 . The dimming control node of claim 1 , wherein the dim-level configuration comprises: (i) the luminaire ballast or luminaire driver being set to a high dim-level state based on a motion duration, as indicated by the sensor output state, being greater than or equal to a minimum occupancy-detection pulse width, and (ii) the luminaire ballast or luminaire driver being set to a low dim-level state after a minimum response duration has elapsed and based on the motion duration being less than the minimum response duration, wherein the processing device is further configured for: determining an additional sensor output state of the motion sensor from additional sensor data received via the wired connection, selecting an additional dim-level configuration corresponding to the additional sensor output state, wherein the additional dim-level configuration comprises: (i) the luminaire ballast or luminaire driver being set to a high dim-level state based on an additional motion duration, as indicated by the additional sensor output state, being greater than or equal to the minimum occupancy-detection pulse width, and (ii) a subsequent dim-level state of the luminaire ballast or luminaire driver being synchronized with a subsequent sensor output state based on the additional motion duration being greater than or equal to the minimum response duration; and and causing the dimming control node to transmit a control signal to the luminaire ballast or luminaire driver, the control signal configured for setting the luminaire ballast or luminaire driver to the selected additional dim-level configuration. 6 . The dimming control node of claim 1 , further comprising a hardware filter configured to prevent additional sensor data, which indicates a sensor output duration less than a minimum occupancy-detection pulse width, from being provided to the processing device. 7 . The dimming control node of claim 1 , wherein the photocontrol interface further comprises a sensor power terminal, a line terminal, a low-voltage common terminal, and a neutral terminal, wherein the sensor power terminal and the low-voltage common terminal are configured to form a first electrical connection providing power to the motion sensor, wherein the line terminal and the neutral terminal are configured to form a second electrical connection providing power to the luminaire ballast or luminaire driver. 8 . A method comprising: providing, by a dimming control node, power to a motion sensor via a photocontrol interface; receiving, by the dimming control node, sensor data from the motion sensor via a wired connection to the motion sensor: determining, by the dimming control node, a sensor output state of the motion sensor from the sensor data received via the wired connection; selecting, by the dimming control node, a dim-level configuration corresponding to the sensor output state of the motion sensor; and configuring, by the dimming control node, a luminaire ballast or luminaire driver with the selected dim-level configuration. 9 . The method of claim 8 , further comprising: determining, by the dimming control node and from the sensor data, that the sensor output state indicates a motion duration greater than or equal to a minimum occupancy-detection pulse width and less than a minimum response duration, wherein the dim-level configuration comprises: (i) the luminaire ballast or luminaire driver being set to a high dim-level state based on the motion duration being greater than or equal to the minimum occupancy-detection pulse width, and (ii) the luminaire ballast or luminaire driver being set to a low dim-level state after the minimum response duration has elapsed and based on the motion duration being less than the minimum response duration; generating, by the dimming control node, a control signal for setting the luminaire ballast or luminaire driver to the high dim-level state in accordance with selected the dim-level configuration and for setting the luminaire ballast or luminaire driver to the low dim-level state in accordance with the selected dim-level configuration; and transmitting the control signal from the dimming control node to the lumi