Adaptable operating frequency of a variable focal length lens in an adjustable magnification optical system

The invention claimed is: 1. An imaging system, comprising: a high speed variable focal length lens; an optical path, comprising: a variable magnification lens portion that can be altered between a first magnification state that provides a relatively lower magnification for the imaging system and a second magnification state that provides a relatively higher magnification for the imaging system; and a variable focal length lens portion comprising a variable focal length lens that provides a periodically modulated focal length that can be modulated at a first or second frequency that each provide a plurality of modulation periods during an image exposure period used by the imaging system; wherein, the variable focal length lens portion is configured to be operated at the first frequency and a first modulation amplitude to provide a first range for the periodically modulated focal length of the variable focal length lens while the imaging system is operated using the first magnification state, and the first range corresponds to a focus distance range of the imaging system during the first magnification state, and the variable focal length lens portion is configured to be operated at the second frequency and a second modulation amplitude to provide a second range for the periodically modulated focal length of the variable focal length lens while the imaging system is operated using the second magnification state, and the second range is greater than the first range, and the second range corresponds to a focus distance range of the imaging system during the second magnification state. 2. The system of claim 1 , wherein the optical path is configured such that when the imaging system is operated using the first magnification state a central diameter of the variable focal length lens that is used for imaging is a first imaging diameter that is at least 4.0 millimeters. 3. The system of claim 2 , wherein the first imaging diameter is at least 8.0 millimeters. 4. The system of claim 2 , wherein the optical path is configured such that when the imaging system is operated using the second magnification state a central diameter of the variable focal length lens that is used for imaging is a second imaging diameter that is less than the first imaging diameter. 5. The system of claim 4 , wherein the optical path is configured such that the central diameter of the variable focal length lens that is used for imaging is not a limiting aperture of the imaging system for the first or second magnification states. 6. The system of claim 1 , wherein the variable focal length lens is a tunable acoustic gradient index of refraction lens. 7. The system of claim 1 , wherein the variable magnification lens portion includes a first fixed magnification lens that is used to provide the first magnification state, and a second fixed magnification lens that is used to provide the second magnification state. 8. The system of claim 7 , wherein the first and second fixed magnification lenses are at least one of: each selected from a set of fixed magnification lenses of the variable magnification lens portion, the set of fixed magnification lenses including a lowest magnification lens that corresponds to a lowest magnification of the set, a highest magnification lens that corresponds to a highest magnification of the set, and a plurality of intermediate magnification lenses that each correspond to a respective intermediate magnification that are each between the lowest and highest magnifications; each corresponding to respective magnifications of at least one of 0.5×, 1×, 2×, 2.5×, 5×, 10×, 20×, 25×, 50×, or 100×; or each corresponding to respective magnifications that differ from one another such that the corresponding magnification for one is at least 10 times the corresponding magnification for the other. 9. A non-transitory computer-readable storage medium storing instructions for operating an imaging system, the instructions when executed by a processor causing the processor to at least: determine that a variable magnification lens portion of the imaging system is in a first magnification state that provides a first magnification for the imaging system, the imaging system including a variable focal length lens portion comprising a variable focal length lens that provides a periodically modulated focal length that can be modulated at a first or second frequency that each provide a plurality of modulation periods during an image exposure period used by the imaging system and for which the first frequency is different than the second frequency; operate the variable focal length lens portion at the first frequency and a first modulation amplitude to provide a first range for the periodically modulated focal length of the variable focal length lens in response to the determination that the variable magnification lens portion is in the first magnification state, wherein the first range corresponds to a focus distance range of the imaging system during the first magnification state; determine that the variable magnification lens portion has changed to a second magnification state that provides a second magnification for the imaging system that is different than the first magnification; and operate the variable focal length lens portion at the second frequency and a second modulation amplitude to provide a second range for the periodically modulated focal length of the variable focal length lens in response to the determination that the variable magnification lens portion has changed to the second magnification state, wherein the second range is greater than the first range and corresponds to a focus distance range of the imaging system during the second magnification state. 10. The non-transitory computer-readable storage medium of claim 9 , wherein the determining that the variable magnification lens portion is in the first magnification state comprises a determination that a first fixed magnification lens has been selected to be used in the variable magnification lens portion to provide the first magnification state, and the determining that the variable magnification lens portion has been changed to the second magnification state comprises a determination that a second fixed magnification lens has been selected to be used in the variable magnification lens portion to provide the second magnification state. 11. The non-transitory computer-readable storage medium of claim 10 , wherein a determination as to whether the first or second fixed magnification lens has been selected to be used in the variable magnification lens portion is made in accordance with at least one of: receiving an input corresponding to a user selection of one of the fixed magnification lenses; sensing an indicator as associated with one of the fixed magnification lenses when the fixed magnification lens is moved into position to be used in the variable magnification lens portion; and evaluating a magnification of the imaging system after the fixed magnification lens has been moved into position to be used in the variable magnification lens portion. 12. A method for operating an imaging system used in a precision non-contact metrology system, the method comprising: providing an optical path for the imaging system, wherein the optical path comprises: a variable magnification lens portion that can be altered between a first magnification state that provides a relatively lower magnification for the imaging system and a second magnification state that provides a relatively higher magnification for the imaging system; and a variable focal length lens portion comprising a variable focal length lens that provides a periodically modulated f