Methods and apparatus relating to a camera including multiple optical chains
원문보기
IPC분류정보
국가/구분
United States(US) Patent
등록
국제특허분류(IPC7판)
H04N-005/232
H04N-005/225
G02B-013/00
G02B-017/00
G02B-017/08
H04N-005/28
G02B-005/04
출원번호
US-0085961
(2016-03-30)
등록번호
US-9749511
(2017-08-29)
발명자
/ 주소
Laroia, Rajiv
출원인 / 주소
Light Labs Inc.
대리인 / 주소
Straub, Michael P.
인용정보
피인용 횟수 :
13인용 특허 :
40
초록▼
Camera methods and apparatus are described where the camera device includes multiple optical chains. In various embodiments two or more of the optical chains include light redirection devices such as mirrors or prisms. Sensors corresponding to multiple different optical chains, but not necessarily a
Camera methods and apparatus are described where the camera device includes multiple optical chains. In various embodiments two or more of the optical chains include light redirection devices such as mirrors or prisms. Sensors corresponding to multiple different optical chains, but not necessarily all optical chains, are parallel to each other. In some embodiments sensors corresponding to different optical chains are located in the same plane at the front or rear of the camera. However other sensor mounting positions are also possible.
대표청구항▼
1. A camera device, comprising: a plurality of at least three optical chains, each optical chain in said plurality of at least three optical chains including a lens, a plurality of deflection elements, and a sensor, said plurality of deflection elements including at least a first deflection element
1. A camera device, comprising: a plurality of at least three optical chains, each optical chain in said plurality of at least three optical chains including a lens, a plurality of deflection elements, and a sensor, said plurality of deflection elements including at least a first deflection element and a second deflection element, the sensor of each optical chain in said plurality of at least three optical chains being mounted in a sensor plane, the sensor planes of different optical chains in said plurality of at least three optical chains being parallel to one another or the sensor planes of different optical chains in said plurality of at least three optical chains being the same sensor plane, andwherein light passing through a first optical chain in said plurality of at least three optical chains crosses a light path of another optical chain in said plurality of at least three optical chains when the light passing though the first optical chain travels from the first deflector element to the second deflector element of the first optical chain. 2. The camera device of claim 1, wherein the sensor planes of different optical chains in said plurality of at least three optical chains are the same plane. 3. The camera device of claim 1, wherein the sensors of different optical chains in said plurality of at least three optical chains are mounted on a movable plate. 4. The camera device of claim 3, further comprising: a two axis positioning module coupled to said movable plate; anda control module for controlling said two axis positioning module as a function of camera movement. 5. The camera device of claim 4, wherein said control module is an image stabilization module for determining the amount of movement of said movable plate to perform an image stabilization operation to compensate for camera movement. 6. The camera device of claim 1, wherein at least one of the first and second deflection elements of said first optical chain in said plurality of at least three optical chains is a mirror. 7. The camera device of claim 1, wherein at least one of the first and second deflection elements of said first optical chain in said plurality of at least three optical chains is a prism. 8. The camera device of claim 1, wherein light beams passing though at least three different optical chains in said plurality of at least three optical chains cross each other when traveling between the first and second deflector elements of their respective optical chains. 9. The camera device of claim 1, wherein the sensor planes of different optical chains in said plurality of at least three optical chains are parallel to a face of the camera device. 10. A camera device, comprising: a plurality of optical chains, each optical chain in said plurality of optical chains including a lens, a plurality of deflection elements, and a sensor, said plurality of deflection elements including at least a first deflection element and a second deflection element, the sensor of each optical chain in said plurality of optical chains being mounted in a sensor plane, the sensor planes of different optical chains in said plurality of optical chains being parallel to one another or the sensor planes of different optical chains in said plurality of optical chains being the same sensor plane; andwherein the light passing through a first optical chain in said plurality of optical chains crosses a light path of another optical chain in said plurality of optical chains when the light passing though the first optical chain travels from the first deflector element to the second deflector element of the first optical chain. 11. The camera device of claim 10, wherein light beams passing though different optical chains cross each other when traveling between the first and second deflector elements of their respective optical chains. 12. The camera device of claim 10 further comprising an additional optical chain which includes an image deflection element configured to change the direction of optical rays passing along an optical axis of the additional optical chain by substantially 90 degrees to direct said optical rays passing along said optical axis onto the sensor of the additional optical chain. 13. A camera apparatus, comprising: a mounting plate;a plurality of optical chains, each optical chain in said plurality of optical chains including an aperture in a face of the camera apparatus, a plurality of deflection elements, and a sensor, said plurality of deflection elements including at least a first deflection element and a second deflection element, the sensor of each optical chain in said plurality of optical chains being mounted on said mounting plate, andwherein light passing through a first optical chain in said plurality of optical chains crosses a light path of another optical chain in said plurality of optical chains when the light passing though the first optical chain travels from the first deflector element to the second deflector element of the first optical chain. 14. The camera apparatus of claim 13, wherein said mounting plate on which the sensors of the different optical chains in said plurality of optical chains are mounted is parallel to the face of said camera. 15. The camera apparatus of claim 14, wherein said mounting plate is a movable plate. 16. The camera apparatus of claim 15, further comprising: a two axis positioning module coupled to said movable plate; anda controller for controlling said two axis positioning module as a function of camera apparatus movement. 17. The camera apparatus of claim 13, wherein at least one of the first and second deflection elements of said first optical chain in said plurality optical chains is a mirror. 18. The camera apparatus of claim 13, wherein at least one of the first and second deflection elements of said first optical chain in said plurality of optical chains is a prism. 19. The camera apparatus of claim 13, wherein said plurality of optical chains includes at least four optical chains.
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