COMPACT AUTOMATIC FOCUSING CAMERA
First Claim
1. An automatic focusing system comprising:
- a lens unit;
an image sensor; and
a Micro-Electro Mechanical System (MEMS) unit comprising a plurality of micromirrors having reflective surfaces and configured to have out-of-plane translations, a plurality of micro-actuators configured to have in-plane translations, a plurality of micro-converters configured to convert the in-plane translations of the micro-actuators to the out-of-plane translations of the micromirrors, and a substrate having a control circuitry and supporting the micromirrors, the micro-actuators, and micro-converters,wherein the MEMS unit is positioned between the lens unit and the image sensor and configured to automatically focus an image received from the lens unit to the image sensor by adjusting the out-of-plane translations of the micromirrors, wherein the out-of-plane translations of the micromirrors are adjusted by the control circuitry controlling the in-plane translations of the micro-actuators, wherein the in-plane translations of the micro-actuators are converted to the out-of-plane translations of the micromirrors using the micro-converters, wherein the micromirrors, the micro-actuators, and the micro-converters are fabricated by microfabrication technology on the same substrate in order to reduce the volume of the automatic focusing system.
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Abstract
The present invention provides a compact automatic focusing system using a Micro-Electro-Mechanical System (MEMS) unit. The automatic focusing system using the MEMS unit has a small volume and low power consumption, and its operation is very reliable, precise, and fast. The MEMS unit for automatic focusing comprises at least one micromirror, at least one micro-actuator, and at least one micro-converter fabricated on the same substrate by microfabrication technology. By fabricating the micromirror, the micro-actuator, the micro-converter on the same substrate, the volume of the automatic focusing system of the present invention can be greatly reduced. The micro-converter converts the in-plane translation of the micro-actuator to out-of-plane translation of the micromirror to provide a large out-of-plane translation range.
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Citations
25 Claims
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1. An automatic focusing system comprising:
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a lens unit; an image sensor; and a Micro-Electro Mechanical System (MEMS) unit comprising a plurality of micromirrors having reflective surfaces and configured to have out-of-plane translations, a plurality of micro-actuators configured to have in-plane translations, a plurality of micro-converters configured to convert the in-plane translations of the micro-actuators to the out-of-plane translations of the micromirrors, and a substrate having a control circuitry and supporting the micromirrors, the micro-actuators, and micro-converters, wherein the MEMS unit is positioned between the lens unit and the image sensor and configured to automatically focus an image received from the lens unit to the image sensor by adjusting the out-of-plane translations of the micromirrors, wherein the out-of-plane translations of the micromirrors are adjusted by the control circuitry controlling the in-plane translations of the micro-actuators, wherein the in-plane translations of the micro-actuators are converted to the out-of-plane translations of the micromirrors using the micro-converters, wherein the micromirrors, the micro-actuators, and the micro-converters are fabricated by microfabrication technology on the same substrate in order to reduce the volume of the automatic focusing system. - View Dependent Claims (2, 3, 4, 5, 6, 7, 8, 9, 10, 11, 12, 13, 14, 15, 16, 17, 18, 19, 20, 21, 22, 23)
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24. An automatic focusing system comprising:
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a lens unit; an image sensor; an MEMS unit comprising at least one micromirror having reflective surfaces and configured to have out-of-plane translation, at least one micro-actuators configured to have in-plane translation, at least one micro-converter configured to convert the in-plane translation of the micro-actuator to the out-of-plane translation of the micromirror, and a substrate having a control circuitry and supporting the micromirror, the micro-actuator, and the micro-converter; and an image processor in communication with the image sensor and the control circuit, wherein the MEMS unit is positioned between the lens unit and the image sensor and configured to automatically focus an image received from the lens unit to the image sensor by adjusting the out-of-plane translation of the micromirror, wherein the image processor uses an algorithm to compare image quality of an image data from the image sensor with focus criteria and generates a feedback signal for the control circuitry to adjust the out-of-plane translation of the micromirror, wherein the out-of-plane translation of the micromirror are adjusted by the control circuitry controlling the in-plane translation of the micro-actuator by using the feedback signal from the image processor, wherein the in-plane translation of the micro-actuator is converted to the out-of-plane translation of the micromirror using the micro-converter, wherein the micromirror, the micro-actuator, and the micro-converter are fabricated by microfabrication technology on the same substrate in order to reduce the volume of the automatic focusing system.
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25. An automatic focusing system comprising:
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a lens unit; an image sensor; an MEMS unit comprising a plurality of micromirrors having reflective surfaces and configured to have out-of-plane translations, a plurality of actuation units configured to move the micromirrors, and a substrate having a control circuitry and supporting the micromirrors and the actuation units; and an image processor in communication with the image sensor and the control circuit, wherein the MEMS unit is positioned between the lens unit and the image sensor and configured to automatically focus an image received from the lens unit to the image sensor by adjusting the out-of-plane translations of the micromirrors, wherein the image processor uses an algorithm to compare image quality of an image data from the image sensor with focus criteria and generates a feedback signal for the control circuitry to adjust the out-of-plane translation of the micromirror, wherein the out-of-plane translations of the micromirrors are adjusted by the control circuitry controlling the actuation units by using the feedback signal from the image processor, wherein the micromirrors and the actuation units are fabricated by microfabrication technology on the same substrate in order to reduce the volume of the automatic focusing system.
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Specification