Patent application number | Description | Published |
20080198465 | OPTICAL PICKUP DEVICE AND OPTICAL DISK DEVICE - An optical pickup device is disclosed. The device includes: a light source that emits a light beam of a predetermined wavelength of about 405 nm; an objective lens being a plastic lens provided with, on at least one surface, diffraction means of a zone diffractive structure suppressing generation of aberration to be caused by a temperature change, and has a numerical aperture of 0.82 or larger for gathering the light beam emitted from the light source with respect to an optical disk; and a collimator lens disposed between the light source and the objective lens, and derives a substantially-collimated light by converting an angle of divergence of the light beam emitted from the light source. | 08-21-2008 |
20100321324 | ULTRASONOGRAPH - Disclosed is a technology that prevents a part of a touch panel-equipped display displaying an ultrasonic tomographic image from getting dirty with a fingerprint or scratch when using a drag operation to change the content of the ultrasonic tomographic image displayed on the touch panel-equipped display. According to this technology, the display screen is divided into an ultrasonic image area A | 12-23-2010 |
20120138799 | INFRARED DETECTION ELEMENT AND INFRARED IMAGING DEVICE - An infrared detection element includes a pyroelectric element, an upper electrode and a lower electrode located so as to have a positional relationship where the pyroelectric element is interposed therebetween, and an opening function portion formed on the upper electrode such that a film thickness of the upper electrode is small or zero. | 06-07-2012 |
20120176668 | INFRARED OPTICAL SYSTEM AND INFRARED IMAGING APPARATUS - An infrared optical system includes: a first optical element, a second optical element, a third optical element, and a fourth optical element arranged along a direction from an object side toward an image plane side, wherein the fourth optical element has positive refracting power, an aperture is provided between the second optical element and the third optical element, the first and fourth optical elements are made of any one of silicon (Si), chalcogenide glass, and zinc sulfide (ZnS), and the second and third optical elements are made of a resin material, and at least one of a surface facing the object and a surface facing the image plane of each of the second and third optical elements is an aspheric surface. | 07-12-2012 |
20130083200 | INFRARED OPTICAL SYSTEM AND INFRARED IMAGING APPARATUS - Provided is an infrared optical system including: three lenses of a first lens, a second lens, and a third lens that are provided from an object side to an image-surface side, the first and third lenses being each configured as a spherical lens made of an inorganic material and having a positive refractive power, the second lens being configured as a meniscus lens made of a resin material and having aspherical surfaces; and an aperture stop that is provided between any two of the first to third lenses. | 04-04-2013 |
20130099097 | IMAGING APPARATUS AND IMAGING METHOD - Provided is an imaging apparatus including an imaging element section, an imaging optical system, a transmission/block section, an actuator, and an output section. The imaging element section includes a plurality of pixels, and the imaging optical system forms an image on the imaging element section, the image being formed by an electromagnetic wave from the outside. The transmission/block section transmits and blocks the electromagnetic wave to/against the imaging element section, the transmission/block section being disposed at an aperture stop position in the imaging optical system. The actuator drives the transmission/block section to move back and forth to be changed in state between transmission and blocking. The output section produces an image signal output being differential signaling between a pixel output from the imaging element section when the transmission/block section is in the transmission state, and a pixel output from the imaging element section when it is in the blocking state. | 04-25-2013 |
20150103182 | INFRARED OPTICAL SYSTEM, INFRARED IMAGE CAPTURING APPARATUS - There is provided an infrared optical system includes a light collecting lens having a curved light collecting surface for collecting infrared light incident from an object side, the lens being made of resin having a stepped shape being gradually deeper from periphery to center; and an optical path length correction element for correcting a difference in an optical path length produced by the stepped shape of the light collecting lens. The above-described stepped shape is provided to allow the lens to be thinner than the lens having the plano-convex shape. In other words, the infrared transmittance of the optical system is improved. In addition, the optical path length correction element can correct a difference in an optical path length produced by the stepped shape of the light collecting lens. | 04-16-2015 |