A system for determining alignment of a signal includes a light assembly comprising a light source operated by an electronic circuit, a first position sensor configured to measure a geographical direction of the light assembly, a second position sensor configured to measure a tilt angle of the light assembly, and a light communication device configured to receive measurements of the first position sensor and the second position sensor, and wherein the light communication device is configured to evaluate the measurements and determine alignment of the light assembly based on predefined tolerance thresholds for the geographical direction and tilt angle.

A system can include a signal light for regulating traffic, a controller, a first communication module configured to electronically communicate with the controller, a memory and two or more position sensors coupled to the signal light is disclosed. The two or more position sensors comprise at least a first position sensor configured to detect a first position of the signal light according to a first measurable criteria and a second position sensor configured to detect a second position of the signal light according to a second measurable criteria. The memory configured to selectively store as a reference, desired position data. The controller can be configured to electronically communicate with the two or more position sensors to receive an updated data regarding the first position and the second position and is configured to compare the updated data to the desired position data.

A modular lamp system (200) for a railroad crossing warning device includes a crossing lamp (210) and a crossing lamp base (220) controllable by a wayside control device (40), and a module (230) comprising an electronic circuit (250), wherein the crossing lamp base (220) is configured to provide power to the crossing lamp (210) and the module (230), and wherein, when the crossing lamp (210), the crossing lamp base (220) and the module (230) are assembled and in operation, the crossing lamp (210) performs a first action and the module (230) performs a second action, which is different from the first action.

A modular lamp system (200) for a railroad crossing warning device includes a crossing lamp (210) and a crossing lamp base (220) controllable by a wayside control device (40), and a module (230) comprising an electronic circuit (250), wherein the crossing lamp base (220) is configured to provide power to the crossing lamp (210) and the module (230), and wherein, when the crossing lamp (210), the crossing lamp base (220) and the module (230) are assembled and in operation, the crossing lamp (210) performs a first action and the module (230) performs a second action, which is different from the first action.

A signal light assembly is provided that comprises a multi-position Fresnel lens having a circumference, a first side and a second side. The signal light assembly further comprises a main housing configured to attach to the multi-position Fresnel lens. The multi-position Fresnel lens includes a first plurality of pads and a second plurality of pads on the first side of the multi-position Fresnel lens such that the first plurality of pads and the second plurality of pads are different and alternatively disposed. The first plurality of pads corresponds to a first range operation related to a first focal length. The second plurality of pads corresponds to a second range operation related to a second focal length. The multi-position Fresnel lens is disposed in a first position corresponding to the first range operation or in a second position corresponding to the second range operation based on the use of either the first plurality of pads or the second plurality of pads for assembly between the main housing and the multi-position Fresnel lens.

A system for determining alignment of a signal includes a light assembly comprising a light source operated by an electronic circuit, a first position sensor configured to measure a geographical direction of the light assembly, a second position sensor configured to measure a tilt angle of the light assembly, and a light communication device configured to receive measurements of the first position sensor and the second position sensor, and wherein the light communication device is configured to evaluate the measurements and determine alignment of the light assembly based on predefined tolerance thresholds for the geographical direction and tilt angle.

A system can include a signal light for regulating traffic, a controller, a first communication module configured to electronically communicate with the controller, a memory and two or more position sensors coupled to the signal light is disclosed. The two or more position sensors comprise at least a first position sensor configured to detect a first position of the signal light according to a first measurable criteria and a second position sensor configured to detect a second position of the signal light according to a second measurable criteria. The memory configured to selectively store as a reference, desired position data. The controller can be configured to electronically communicate with the two or more position sensors to receive an updated data regarding the first position and the second position and is configured to compare the updated data to the desired position data.

A railroad crossing light detector system is disclosed. The system includes determining a first signal indicative of the amount of light emitted from an illuminated railroad crossing light source and determining a second signal indicative of the orientation of the crossing light. The first and second signals are transmitted to a signal determination module that compares the first and second signals to predetermined stored values. The compared signals are then provided to a railroad crossing controller for relaying to a central/remote monitoring location. In the event that at least one of the signals is out of range relative to the stored value, then an inspection request signal together with information on the location of the crossing light is provided to the central monitoring location. In this manner, the number of in-person inspections to the crossing light may be significantly reduced.

Aspects of the disclosure relate to a lantern/multi-functional hand-held LED light for railways. The lantern/multi-functional LED light may provide a rail worker with one light device to be used for many railway applications. The lantern/multi-functional LED light may have a two-sided light capability and the ability to provide warning and lighting on both a front panel and a back panel of the lantern/multi-functional LED. The lantern/multi-functional hand-held LED light may include one or more of the following features: two-sided with extra-bright warning LEDs orientated in rows that allow the lantern/multi-functional LED light to light-up a work area, multi-color with different flash rates, sensor to allow for orientation position indication and automatic ON/OFF on one side, bottom base magnetic mount, two bright top-mounted LED lights and two side-top LEDs that allow the lantern/multi-functional LED light to be used as a flash light.

A signal light assembly is provided that comprises a multi-position Fresnel lens having a circumference, a first side and a second side. The signal light assembly further comprises a main housing configured to attach to the multi-position Fresnel lens. The multi-position Fresnel lens includes a first plurality of pads and a second plurality of pads on the first side of the multi-position Fresnel lens such that the first plurality of pads and the second plurality of pads are different and alternatively disposed. The first plurality of pads corresponds to a first range operation related to a first focal length. The second plurality of pads corresponds to a second range operation related to a second focal length. The multi-position Fresnel lens is disposed in a first position corresponding to the first range operation or in a second position corresponding to the second range operation based on the use of either the first plurality of pads or the second plurality of pads for assembly between the main housing and the multi-position Fresnel lens.