Double-layer electrode for electro-optic liquid crystal lens

The invention claimed is: 1. An electro-optic device comprising: a first liquid crystal lens having a first set of ring electrodes arranged concentrically about a rotational axis in a first pattern; and a second liquid crystal lens in optical series with the first liquid crystal lens, the second liquid crystal lens having a second set of ring electrodes arranged concentrically about the rotational axis in a second pattern different than the first pattern, wherein the first liquid crystal lens comprises a first liquid crystal layer and the second liquid crystal lens comprises a second liquid crystal layer. 2. The electro-optic device of claim 1 , wherein the first set of ring electrodes comprises a first innermost ring having a first outer radius and the second set of ring electrodes comprises a second innermost ring having a second outer radius greater than the first outer radius. 3. An electro-optic device comprising: a first liquid crystal lens having a first set of ring electrodes concentric about a rotational axis; and a second liquid crystal lens in optical series with the first liquid crystal lens, the second liquid crystal lens having a second set of ring electrodes concentric with the rotational axis, the second set of ring electrodes partially overlapping the first set of ring electrodes when viewed along the rotational axis, wherein the first set of ring electrodes comprises a first outermost ring having a first outer radius and the second set of ring electrodes comprises a second outermost ring having a second outer radius substantially equal to the first outer radius. 4. An electro-optic device comprising: a first liquid crystal lens having a first set of ring electrodes concentric about a rotational axis; and a second liquid crystal lens in optical series with the first liquid crystal lens, the second liquid crystal lens having a second set of ring electrodes concentric with the rotational axis, the second set of ring electrodes partially overlapping the first set of ring electrodes when viewed along the rotational axis, wherein the first set of ring electrodes comprises more ring electrodes than the second set of ring electrodes. 5. The electro-optic device of claim 1 , wherein the first liquid crystal lens and the second liquid crystal lens have anti-parallel alignment of liquid crystal material. 6. The electro-optic device of claim 1 , wherein the first liquid crystal lens is aligned to within about 50 microns of the rotational axis. 7. A method of operating an electro-optic device comprising a first liquid crystal lens having a first liquid crystal layer and a first set of ring electrodes arranged concentrically about a rotational axis in a first pattern and a second liquid crystal lens in optical series with the first liquid crystal lens, the second liquid crystal lens having a second liquid crystal layer and a second set of ring electrodes arranged concentrically about the rotational axis, the method comprising: applying a first set of voltages to the first set of ring electrodes, the first set of voltages actuating the first liquid crystal layer; and applying a second set of voltages to the second set of ring electrodes, the second set of voltages actuating the second liquid crystal layer. 8. A method of operating an electro-optic device comprising a first liquid crystal lens have a first set of ring electrodes concentric about a rotational axis and a second liquid crystal lens in optical series with the first liquid crystal lens, the second liquid crystal lens having a second set of ring electrodes concentric with the rotational axis, the second set of ring electrodes partially overlapping the first set of ring electrodes when viewed along the rotational axis, the method comprising: applying a first set of voltages to the first set of ring electrodes; and applying a second set of voltages to the second set of ring electrodes, wherein applying the first set of voltages comprises applying a first voltage to a first innermost ring in having a first outer radius and applying the second set of voltages comprises applying a second voltage to a second innermost ring having a second outer radius greater than the first outer radius. 9. A method of operating an electro-optic device comprising a first liquid crystal lens have a first set of ring electrodes concentric about a rotational axis and a second liquid crystal lens in optical series with the first liquid crystal lens, the second liquid crystal lens having a second set of ring electrodes concentric with the rotational axis, the second set of ring electrodes partially overlapping the first set of ring electrodes when viewed along the rotational axis, the method comprising: applying a first set of voltages to the first set of ring electrodes; and applying a second set of voltages to the second set of ring electrodes, wherein applying the first set of voltages comprises applying a first voltage to a first outermost ring having a first outer radius and applying the second set of voltages comprises applying a second voltage to a second outermost ring having a second outer radius substantially equal to the first outer radius. 10. The method of claim 7 , wherein applying the first set of voltages comprises applying a first number of voltages and applying the second set of voltages comprises applying a second number of voltages smaller than the first number of voltages. 11. The method of claim 7 , wherein the first liquid crystal lens and the second liquid crystal lens have anti-parallel alignment of liquid crystal material. 12. The method of claim 7 , wherein the first liquid crystal lens is aligned to within about 50 microns of the rotational axis. 13. An electro-optic device comprising: M liquid crystal lenses stacked together, each liquid crystal lens in the M liquid crystal lenses including at least N/M concentric ring electrodes, wherein: N≥M and the outer radii of the at least N/M concentric ring electrodes in the first liquid crystal lens of the M liquid crystal lenses are different than the outer radii of the at least N/M concentric ring electrodes in a second liquid crystal lens of the M liquid crystal lenses, M is a whole number divisor of N, and at least one liquid crystal lens in the M liquid crystal lenses has an outermost concentric ring electrode with an outer radius of: r = 2 ⁢ λ ⁢ ⁢ fN ⁡ [ 1 + ( N - M ) ] f s ⁢ M ,