Electronic iris for a camera

What is claimed is: 1 . An electronically controlled camera iris device comprising: a transparent conductor layer to supply an input voltage to control a diameter of an aperture; a transparent resistance layer below the transparent conductor layer, the transparent resistance layer receiving the input voltage at a connector point in a center region and receiving a peripheral voltage at edges, the resistance layer providing varying control voltages in different regions that decrease with a distance from the center point; and a diaphragm layer receiving the varying control voltages, the diaphragm layer to operate as a diaphragm in one or more outer regions to block light in response to a corresponding control voltage being below a voltage threshold and to operate as the aperture in one or more inner regions to transmit the light in response to the corresponding control voltage being above the voltage threshold. 2 . The electronically controlled camera iris device of claim 1 , wherein the respective control voltages increase with an increase in the input voltage and causes the diameter of the one or more inner regions that receive respective control voltages exceeding the voltage threshold to increase. 3 . The electronically controlled camera iris device of claim 1 , wherein the transparent resistance layer comprises a continuous resistive material between the input voltage and the peripheral voltage. 4 . The electronically controlled camera iris device of claim 1 , wherein the transparent resistance layer comprises a first plurality of concentric rings having the one or more resistances that increase with the distance from the center point, and wherein the diaphragm layer comprises a plurality of concentric rings each receiving one of the respective control voltages. 5 . The electronically controlled camera iris device of claim 1 , wherein the diaphragm layer comprises a Bragg layer, the Bragg layer further comprising one or more layers of a broad-band holographic polymer-dispersed liquid crystal. 6 . The electronically controlled camera iris device of claim 1 , wherein the diaphragm layer comprises an Electrochromic layer, the Electrochromic layer further comprising one or more layers of a broad-band absorptive material. 7 . An electronically controlled camera iris device comprising: a diaphragm layer independently controllable in different regions to block or transmit a light incident on the diaphragm layer in response to respective one or more control signals; and a control circuit to receive an input signal representing a desired aperture diameter of the electronically controlled aperture, and to generate the respective one or more control signals for controlling a first region of the diaphragm layer having the desired aperture diameter to transmit the light and for controlling a second region of the diaphragm layer outside of the first region to block the light. 8 . The electronically controlled camera iris device of claim 7 , wherein the diaphragm layer comprises a Bragg layer, the Bragg layer further comprising one or more layers of a broad-band holographic polymer-dispersed liquid crystal. 9 . The electronically controlled camera iris device of claim 7 , wherein the diaphragm layer comprises an Electrochromic layer, the Electrochromic layer further comprising one or more layers of a broad-band absorptive material. 10 . The electronically controlled camera iris device of claim 7 , wherein the control circuit is configured to supply a linear gradient of voltages with respect to the distance from the center point to the diaphragm layer as the respective one or more control signals. 11 . The electronically controlled camera iris device of claim 7 , wherein the diaphragm layer is configured to transmit a range of wavelengths of the light incident on the first region of the diaphragm layer and block wavelengths of the light outside the range, the range of wavelengths smaller than a visible spectrum. 12 . The electronically controlled camera iris device of claim 7 , wherein the diaphragm layer is configured to transmit a range of wavelengths of the light incident on the first region of the diaphragm layer, the range of wavelengths comprising a full visible spectrum. 13 . A camera comprising: a camera body; a lens assembly to direct light to an image sensor, the lens assembly comprising a plurality of lens elements and an electronically controlled iris, the electronically controlled iris comprising: a transparent conductor layer to supply an input voltage to control a diameter of an aperture; a transparent resistance layer below the transparent conductor layer, the transparent resistance layer receiving the input voltage at a connector point in a center region and receiving a peripheral voltage at edges, the resistance layer providing varying control voltages in different regions that decrease with a distance from the center point; and a diaphragm layer receiving the varying control voltages, the diaphragm layer to operate as a diaphragm in one or more outer regions to block light in response to a corresponding control voltage being below a voltage threshold and to operate as the aperture in one or more inner regions to transmit the light in response to the corresponding control voltage being above the voltage threshold. 14 . The camera of claim 13 , wherein the respective control voltages increase with an increase in the input voltage and causes the diameter of the one or more inner regions that receive the respective control voltages exceeding the voltage threshold to increase. 15 . The camera of claim 13 , wherein the transparent resistance layer comprises a continuous resistive material between the input voltage and the peripheral voltage. 16 . The camera of claim 13 , wherein the transparent resistance layer comprises a first plurality of concentric rings having the one or more resistances that increase with the distance from the center point, and wherein the diaphragm layer comprises a plurality of concentric rings each receiving one of the respective control voltages. 17 . The camera of claim 13 , wherein the diaphragm layer comprises a Bragg layer, the Bragg layer further comprising one or more layers of a broad-band holographic polymer-dispersed liquid crystal. 18 . The camera of claim 13 , wherein the diaphragm layer comprises an Electrochromic layer, the Electrochromic layer further comprising one or more layers of a broad-band absorptive material.