Low cost small size LiDAR for automotive

What is claimed is: 1. A LiDAR sensor comprising a plurality of vertical cavity surface emitting laser (VCSEL) arrays each including a plurality of VCSELs, said sensor further including a separate lens positioned proximate each VCSEL array that receives and focuses a laser beam from each VCSEL in the particular array, said sensor further comprising a detector assembly for detecting reflected beams reflected from objects that receive the laser beams, where the sensor is configured to increase laser beam on-time for the VCSELs in a particular array in response to detection of said objects. 2. The sensor according to claim 1 wherein the sensor is configured to be used on an automobile. 3. The sensor according to claim 1 wherein the sensor has a 180° field-of-view. 4. The sensor according to claim 1 wherein the plurality of VCSEL arrays is nine VCSEL arrays. 5. The sensor according to claim 1 further comprising a camera having a same field-of-view as the VCSEL arrays. 6. The sensor according to claim 1 further comprising a semi-circular housing on which the plurality of VCSEL arrays are mounted. 7. The sensor according to claim 1 wherein the detector assembly includes a plurality of spaced apart detectors, where each detector includes a lens. 8. The sensor according to claim 1 wherein the detector assembly is part of a receiver including receiver electronics, said receiver electronics identifying a phase shift between the laser beams and the reflected beams for object range finding to determine the distance of the objects from the sensor. 9. The sensor according to claim 8 wherein the sensor includes emitter electronics that amplitude modulate the laser beams for the range finding. 10. The sensor according to claim 8 further comprising an optical device that provides a sample beam from the VCSEL arrays, said detector assembly including a reference detector that receives the sample beam and a main detector that receives the reflected beam, said receiver electronics using the sample beam and the reflected beam to determine the phase shift between the laser beam and the reflected beam. 11. An automotive LiDAR sensor comprising: a plurality of vertical cavity surface emitting laser (VCSEL) arrays each including a plurality of VCSELs; a separate lens positioned proximate each VCSEL array that receives and focuses a laser beam from each VCSEL in the particular array; a detector assembly for detecting reflected beams reflected from objects that receive the laser beams; receiver electronics responsive to the reflected beams and identifying a phase shift between the laser beams and the reflected beams for object range finding to determine the distance of the objects from the sensor; and an optical device that provides a sample beam from the VCSEL arrays, said detector assembly including a reference detector that receives the sample beam and a main detector that receives the reflected beam, said receiver electronics using the sample beam and the reflected beam to determine the phase shift between the laser beam and the reflected beam. 12. The sensor according to claim 11 wherein the sensor includes emitter electronics that amplitude modulate the laser beams for the range finding. 13. The sensor according to claim 11 wherein the sensor has a 180° field-of-view. 14. The sensor according to claim 11 further comprising a camera having a same field-of-view as the VCSEL arrays. 15. The sensor according to claim 11 further comprising a semi-circular housing on which the plurality of VCSEL arrays are mounted. 16. A LiDAR sensor comprising: a semi-circular housing; an emitter including a plurality of vertical cavity surface emitting laser (VCSEL) arrays mounted on the housing each including a plurality of VCSELs and a separate lens positioned proximate each VCSEL array that receives and focuses a laser beam from each VCSEL in the particular array; a receiver including a detector assembly for detecting reflected beams reflected from objects that receive the laser beams, said receiver further including receiver electronics responsive to the reflected beams and identifying a phase shift between the laser beams and the reflected beams for object range finding to determine the distance of the objects from the sensor, wherein the sensor has a 180° field-of-view; and an optical device that provides a sample beam from the VCSEL arrays, said detector assembly including a reference detector that receives the sample beam and a main detector that receives the reflected beam, said receiver electronics using the sample beam and the reflected beam to determine the phase shift between the laser beam and the reflected beam. 17. The sensor according to claim 16 wherein the emitter includes emitter electronics that amplitude modulate the laser beams for the range finding. 18. The sensor according to claim 16 further comprising a camera having a same field-of-view as the VCSEL arrays.