Testing system for detectors useful on vehicles

We claim: 1. A detector testing system, comprising: an environmental chamber configured to provide at least one selected environmental condition within the environmental chamber, the environmental chamber including an opening; a cover over the opening, the cover having at least one surface that is at least partially transparent to radiation that the detector is configured to receive, the cover being configured to maintain the at least one selected environmental condition within the environmental chamber; and a detector support that is configured to support a plurality of detectors within the environmental chamber and exposed to the at least one selected environmental condition in a location within a space defined by the cover where the cover provides a detector field of view through the at least one surface, the detector field of view for each of the detectors having a horizontal range of at least 180°. 2. The detector testing system of claim 1 , wherein the at least one surface of the cover is curved. 3. The detector testing system of claim 2 , wherein the at least one surface of the cover has a uniform thickness within the detector field of view. 4. The detector testing system of claim 1 , wherein the at least one surface of the cover comprises a foam material. 5. The detector testing system of claim 1 , wherein the cover comprises a plurality of sidewalls supporting the at least one surface; the opening is within a first plane; the sidewalls are oriented at an oblique angle relative to the first plane; and the at least one surface is at least partially in a second plane spaced from the first plane. 6. The detector testing system of claim 1 , comprising a target that is configured to direct the radiation toward the at least one surface, the target being moveable into a plurality of positions within the detector field of view. 7. The detector testing system of claim 6 , comprising a robot arm supporting the target, the robot arm being controllable to move the target into the plurality of positions. 8. The detector testing system of claim 6 , wherein the target comprises a simulator that generates the radiation and emits the radiation toward the at least one surface. 9. The detector testing system of claim 8 , wherein the simulator generates the radiation in a manner that the radiation appears to be reflected off an object that is further from the at least one surface than a distance between the simulator and the at least one surface. 10. The detector testing system of claim 1 , wherein the detector support comprises a first portion that supports a first set of detectors of the plurality of detectors at a first oblique angle relative to the opening and a second portion that supports a second set of detectors of the plurality of detectors at a second oblique angle relative to the opening. 11. The detector testing system of claim 10 , wherein the first and second oblique angles are such that an angle between lines normal to faces of the first and second sets of detectors is greater than 180° in a horizontal plane. 12. The detector testing system of claim 10 , wherein a portion of the detector field of view of the first set of detectors overlaps the detector field of view of the second set of detectors. 13. The detector testing system of claim 10 wherein the first portion of the detector support comprises a first rack configured to support the first set of detectors in a first column; the detector field of view of each of the detectors in the first set of detectors has a vertical range of at least 10°; the second portion of the detector support comprises a second rack configured to support the second set of detectors in a second column; and the detector field of view of each of the detectors in the second set of detectors has a vertical range of at least 10°. 14. The detector testing system of claim 1 , wherein the environmental chamber includes at least one duct that directs airflow through the opening toward the space. 15. The detector testing system of claim 14 , wherein the at least one surface includes a curvature that directs the airflow from the space toward the opening. 16. A method of operating a detector testing system, comprising: providing at least one selected environmental condition within an environmental chamber, the environmental chamber including an opening; maintaining at least one selected environmental condition within the environmental chamber with a cover over the opening, the cover having at least one surface that is at least partially transparent to radiation that the detector is configured to receive; and exposing a plurality of detectors on a detector support within the environmental chamber to the at least one selected environmental condition in a location within a space defined by the cover where the cover provides a detector field of view through the at least one surface, the detector field of view for each of the detectors having a horizontal range of at least 180°. 17. The method of claim 16 , wherein the detector testing system further comprises a target that is configured to direct the radiation toward the at least one surface, the target being moveable into a plurality of positions within the detector field of view. 18. The method of claim 17 , wherein the detector testing system further comprises a robot arm supporting the target, the robot arm being controllable to move the target into the plurality of positions. 19. The method of claim 17 , wherein the target comprises a simulator that generates the radiation and emits the radiation toward the at least one surface. 20. The method of claim 19 , wherein the simulator generates the radiation in a manner that the radiation appears to be reflected off an object that is further from the at least one surface than a distance between the simulator and the at least one surface. 21. A detector testing system, comprising: an environmental chamber configured to provide at least one selected environmental condition within the environmental chamber, the environmental chamber including an opening; a cover over the opening, the cover having at least one surface that is at least partially transparent to radiation that the detector is configured to receive, the cover being configured to maintain the at least one selected environmental condition within the environmental chamber; a detector support that is configured to support a plurality of detectors exposed to the at least one selected environmental condition in a location within a space defined by the cover where the cover provides a detector field of view through the at least one surface, the detector field of view for each of the detectors having a horizontal range of at least 180°; the cover comprises a plurality of sidewalls supporting the at least one surface; the opening is within a first plane; the sidewalls are oriented at an oblique angle relative to the first plane; the at least one surface is at least partially in a second plane spaced from the first plane; the at least one surface comprises a first material; and the sidewalls comprise a second, different material.