Image distance in LIDAR systems

The invention claimed is: 1. A LIDAR system, comprising: a LIDAR chip that generates a LIDAR output signal that exits from a waveguide on the LIDAR chip; and optics that receive the LIDAR output signal from the waveguide, the optics include a lens that receives the LIDAR output signal from the waveguide; and electronics that tune a displacement distance between the lens and a facet through which the LIDAR output signal exits the waveguide so as to tune an image distance at which the LIDAR output signal is focused after exiting from the optics. 2. The LIDAR system of claim 1 , wherein a range over which the image distance is tuned includes collimation of the LIDAR output signal. 3. The LIDAR system of claim 1 , wherein a steering chip receives the LIDAR output signal from the optics, the steering chip being configured to change a direction of the LIDAR output signal away from the direction in which the LIDAR output signal was traveling when received by the steering chip. 4. The LIDAR system of claim 3 , wherein the electronics are configured to operate the steering chip so as to direct the LIDAR output signal to different sample regions in a field of view. 5. The LIDAR system of claim 1 , wherein the electronics are configured to use light from the LIDAR output signal to calculate LIDAR data for an object located off of the LIDAR chip that reflected the LIDAR output signal. 6. The LIDAR system of claim 1 , wherein the electronics are configured to use light from the LIDAR output that was reflected by an object located remotely from the LIDAR chip and then received by the LIDAR chip to calculate LIDAR data for the object. 7. A method of operating a LIDAR system, comprising: outputting a LIDAR output signal from a LIDAR chip; receiving the LIDAR output signal from the LIDAR chip at a lens; tuning a displacement distance between the lens and a facet from which the lens receives the LIDAR output signal so as to tune an image distance at which the LIDAR output signal is focused; and generating LIDAR data from light that was included in the LIDAR output signal, the LIDAR data including a radial distance and/or radial velocity between the LIDAR chip and an object that reflected the LIDAR output signal and is located remotely from the LIDAR chip. 8. The method of claim 7 , wherein a range over which the image distance is tuned includes a range where collimation of the LIDAR output signal occurs. 9. The method of claim 7 , wherein the LIDAR output signal is generated by the LIDAR chip. 10. The method of claim 7 , wherein a steering chip receives the LIDAR output signal from optics that include the lens, the steering chip being configured to change a direction of the LIDAR output signal away from the direction in which the LIDAR output signal was traveling when received by the steering chip. 11. The method of claim 10 , wherein the electronics are configured to operate the steering chip so as to direct the LIDAR output signal to different sample regions in a field of view. 12. The method of claim 7 , wherein electronics are configured to use light from the LIDAR output signal to calculate LIDAR data for an object located off of the LIDAR chip that reflected the LIDAR output signal. 13. The method of claim 7 , wherein electronics are configured to use light from the LIDAR output signal after the LIDAR output signal was reflected by an object located remotely from the LIDAR chip and then received by the LIDAR chip to calculate LIDAR data for the object. 14. The method of claim 13 , wherein the LIDAR chip is a Photonic Integrated Circuit (PIC).