Photography – Having wireless remote control circuit
Reexamination Certificate
2000-07-07
2002-03-12
Gray, David M. (Department: 2851)
Photography
Having wireless remote control circuit
C396S059000, C396S502000
Reexamination Certificate
active
06356713
ABSTRACT:
CROSS-REFERENCE TO RELATED APPLICATIONS
This application is based upon and claims the benefit of priority from the prior Japanese Patent Applications No. 11-197551, filed Jul. 12, 1999; and No. 11-197552, filed Jul. 12, 1999, the entire contents of which are incorporated herein by reference.
BACKGROUND OF THE INVENTION
The present invention relates to a blurring correction apparatus for correcting an adverse influence from “blurring” produced at an image taking apparatus and to an image taking apparatus having such a blurring correction apparatus.
Conventionally, an apparatus for preventing a lowering in quality of an image resulting from “hand blurring” produced at a time of taking an image or picture has been variously proposed.
As one example, JPN PAT APPLN KOKAI PUBLICATION No. 6-148730 discloses a camera's hand blurring correction apparatus for effecting “blurring” correction by varying a refractive index of a prism comprised of an optical anistropic medium and, by doing so, deflecting that light beam.
In the blurring correction apparatus disclosed in the above-mentioned Publication, use is made of, as a correction optical member, a prism (electric deflection member) formed of an optical anisotropic medium and, since it is possible to decrease the number of mechanical movable parts for blurring correction, this can contribute to reducing a size of an apparatus obtained.
In the blurring correction apparatus disclosed in the above-mentioned Publication, no consideration is paid to a detecting device for detecting a state of an electric deflection member. That is, the refractive index varies by voltage control and, since this state variation is not a mechanical one, it is not possible to detect it. The user cannot know whether or not a desired blurring correction operation is ensured and feels somewhat uneasy about the blurring correction operation.
Further, in order to obtain the refractive index corresponding to a blurring amount, a table for supply voltage against the blurring amount is utilized. It is preferable that this table be properly updated so as to be made properly responsive to the “aging” and temperature variation. Since, however, it is not possible to detect the above-mentioned refractive index state, the updating of the table cannot be done.
For the blurring correction apparatus disclosed in the above-mentioned Publication it is difficult to maintain the blurring correction performance stable.
The prism formed of the above-mentioned optical anisotropic medium ensures no adequate responsiveness when the refractive index is varied and it may be considered that, in some cases, an irregular action such as the “hand blurring” cannot be properly handled. In particular, in the case of a lower temperature involved and in the event of the “aging”, it may be predicted that their responsiveness is further lowered, thus presenting a somewhat greater problem.
BRIEF SUMMARY OF THE INVENTION
The present invention has been achieved with the above in view and the object of the present invention is to provide a blurring correction apparatus for performing blurring correction by varying the refractive index of a member, under the control of a supply voltage, comprised of an optical anisotropic medium which can maintain a blurring correction performance stable by a simpler method.
The present invention also provides an image taking apparatus having a blurring correction apparatus which can maintain a blurring correction performance stable by a simpler method.
According to a first aspect of the present invention, there is provided a blurring correction apparatus mounted on an image taking apparatus, comprising:
blurring detecting means for detecting a blurring state of the image taking apparatus;
refractive index variable electric deflection means arranged in an image taking optical system of the image taking apparatus and used for correcting an adverse effect resulting from the blurring of the image taking apparatus;
controlling means for controlling the electric deflection means in accordance with an output of the blurring detecting means; and
refractive index state detecting means for detecting a refractive index state of the electric deflection means, wherein
the controlling means performs operation control of the electric deflection means on the basis of a result of detection by the refractive index state detecting means.
According to a second aspect of the present invention, there is provided a blurring correction apparatus mounted on an image taking apparatus, comprising:
blurring detecting means for detecting a blurring state of the image taking apparatus;
refractive index variable electric deflection means arranged in an image taking optical system of the image taking apparatus and used for correcting an adverse effect resulting from the blurring of the image taking apparatus;
voltage generating means for generating a voltage for setting a refractive index of the electric deflection means;
refractive index state detecting means for detecting a refractive index state of the electric deflection means; and
voltage controlling means for controlling a voltage generated at the voltage generating means on the basis of outputs of blurring detecting means and refractive index state detecting means.
According to a third aspect of the present invention, there is provided a blurring correction apparatus mounted on an image taking apparatus, comprising:
first and second electric deflection means arranged in an image taking optical system of the image taking apparatus to allow image taking light to be deflected in first and second directions in accordance with a supply voltage, the deflection directions of the first and second electric deflection means being arranged orthogonal to an image taking optical axis on an image-taking image formation surface;
first and second blurring detection means for detecting blurring in first and second directions of the image taking apparatus;
blurring calculating means for calculating first and second blurring amounts in the first and second directions from outputs of the first and second blurring detecting means;
determining means for determining deflection directions of the first and second electric deflection means on the basis of first and second blurring amounts calculated by the blurring calculating means;
voltage setting means for finding first and second voltage values supplied to the first and second electric deflection means in accordance with the deflection directions of the first and second electric deflection means determined by the determining means;
voltage generating means for supplying first and second voltages to the first and second electric deflection means in accordance with the first and second voltages found by the voltage setting means; and
control means for controlling the above-mentioned respective means to perform a blurring correction operation, here, the blurring correction operation being terminated before an image taking operation by the image taking apparatus.
According to a fourth aspect of the present invention, there is provided a blurring correction apparatus mounted on an image taking apparatus, comprising:
first and second electric deflection members arranged in an image taking optical system of the image taking apparatus to allow refractive index to vary in accordance with a supply voltage, here, the first and second electric deflection members being such that deflection directions are arranged orthogonal to an image taking optical axis on a shot image formation surface;
first and second blurring detecting sensors for detecting blurring in first and second directions of the image taking apparatus;
first and second blurring calculating sections for calculating first and second blurring amounts in the first and second directions from the outputs of the first and second blurring detecting sensors;
first and second direction determining sections for determining deflection directions of the first and second electric deflection members on the basis of first and second blurring amounts calculated by the blurring
Blackman Rochelle
Frishauf, Holtz Goodman, Langer & Chick, P.C.
Gray David M.
Olympus Optical Co,. Ltd.
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