Vehicle sensor assembly having a radio frequency (RF) sensor to wirelessly communicate data to outside the vehicle sensor assembly

What is claimed is: 1. A sensor assembly comprising: a housing extending from an insertion end that is configured to receive a connector to an opposite coupling end, the housing including a sensor end; a sensor dish outwardly projecting from the sensor end of the housing, the sensor dish having a container in which one or more sensors are disposed; and a radio frequency (RF) transparent sensor cap configured to be secured to the sensor dish to secure the one or more sensors within the sensor dish, wherein the coupling end of the housing is configured to be secured against a component of a vehicle for the one or more sensors to measure one or more operational conditions of the vehicle; wherein the housing is configured to receive the connector through a channel of size and shape for securing the connector to a jacking hole of the component of the vehicle, wherein the housing also includes the channel extending through the housing from the insertion end to the coupling end, the channel configured to receive a connector that extends through the channel and connects with the vehicle to secure the housing to the vehicle. 2. The sensor assembly of claim 1 , wherein the one or more sensors include one or more of an accelerometer or a temperature sensor. 3. The sensor assembly of claim 2 , further comprising: communication circuitry configured to be disposed in the sensor dish and configured to wirelessly communicate data that is output by the one or more sensors to a location outside of the housing. 4. The sensor assembly of claim 1 , wherein the housing also extends from a sensor end to an opposite back end and from a top end to an opposite bottom end. 5. The sensor assembly of claim 4 , wherein each of the insertion end, the coupling end, the sensor end, the back end, the top end, and the bottom end is a planar surface. 6. The sensor assembly of claim 4 , wherein each of the sensor end, the back end, the top end, and the bottom end intersects both the insertion end and the coupling end. 7. A sensor assembly comprising: a housing that is elongated from an insertion end that is configured to receive a connector to an opposite coupling end, the housing having a sensor end that extends from the insertion end to the coupling end, the housing having a sensor dish outwardly projecting from the sensor end, the sensor dish having a container in which sensors are disposed, the insertion end shaped to receive the connector into a channel extending through the housing from the insertion end to the coupling end, the coupling end shaped to engage a component of a vehicle to which the connector secures the housing, wherein the channel of the housing is shaped to receive the connector without being secured to one or more threads of the connector; and one or more sensors configured to measure one or more operational conditions of the vehicle; wherein the housing is configured to receive the connector through the channel of size and shape for securing the connector to a jacking hole of the component of the vehicle. 8. The sensor assembly of claim 7 , wherein the one or more sensors include an accelerometer. 9. The sensor assembly of claim 7 , wherein the one or more sensors include a temperature sensor. 10. The sensor assembly of claim 7 , further comprising communication circuitry configured to be disposed in the housing and configured to wirelessly communicate data output by the one or more sensors to a location outside of the housing. 11. The sensor assembly of claim 7 , wherein the channel is elongated and has a first length that is less than a second length of the connector such that one end of the connector protrudes out of the insertion end of the housing and an opposite end of the connector protrudes out of the coupling end of the housing while the connector extends through the channel and secures the housing to the vehicle. 12. A sensor assembly comprising: a housing extending from a first end to an opposite second end along a first direction, the housing extending from a third end to an opposite fourth end along a second direction that is different than the first direction, the housing having a connector channel extending entirely through the housing from the first end to the second end, the housing including a sensor container on the third end and disposed between the first end and the second end, the sensor container configured to hold one or more sensors, the sensor container extending from a front surface to an opposite, second surface with a first distance from the front surface to the second surface of the sensor container being shorter than a second distance that the housing extends from the first end to the second end; a radio frequency (RF) transparent cap configured to couple with the housing on the third end of the housing to enclose the one or more sensors within the sensor container; and a threaded connector configured to extend through the connector channel of the housing and couple the housing with a component of a vehicle. 13. The sensor assembly of claim 12 , further comprising the one or more sensors that include one or more of a temperature sensor or a movement sensor. 14. The sensor assembly of claim 12 , further comprising RF communication circuitry disposed in the sensor container, the RF communication circuitry configured to wirelessly communicate data from the one or more sensors to a location outside of the housing. 15. The sensor assembly of claim 12 , further comprising, RF communication circuitry disposed in the sensor container, the RF communication circuitry configured to wirelessly communicate data from the one or more sensors and through the RF transparent cap to a location that is off-board the vehicle. 16. The sensor assembly of claim 12 , wherein the threaded connector extends through the connector channel without engaging threads within the connector channel to permit the housing to be rotated relative to the threaded connector without moving the threaded connector relative to the component of the vehicle. 17. The sensor assembly of claim 12 , wherein the threaded connector is shaped to extend through the connector channel and couple with a jacking hole in the component of the vehicle. 18. The sensor assembly of claim 12 , wherein the housing includes multiple opposing pairs of planar outer surfaces. 19. The sensor assembly of claim 12 , wherein the connector channel is a threadless channel.