Entries |
Document | Title | Date |
20080204890 | Electrowetting Element, Lens System, Electronic Device and Driving Method - The electrowetting optical element comprises a first electrically conducting fluid and a second electrically insulating fluid. According to the invention the second fluid comprises a compound including an aliphatic ring-structure. The optical element may be a lens or a zoomlens or be part of a zoomlens system. | 08-28-2008 |
20080218873 | FLUIDIC OPTICAL DEVICES - A fluidic optical device, systems utilizing fluidic optical devices, methods for manufacturing fluidic optical devices and actuators are disclosed. | 09-11-2008 |
20080231963 | FLUIDIC OPTICAL DEVICES - A fluidic optical device, systems utilizing fluidic optical devices, methods for manufacturing fluidic optical devices and actuators are disclosed. | 09-25-2008 |
20080231964 | Composite Layer Having Improved Adhesion, and Fluid Focus Lens Incorporating Same - A composite material ( | 09-25-2008 |
20080266671 | OPTICAL AXIS ORIENTATING DEVICE FOR LIQUID LENS - The invention provides an optical axis orientating device for a liquid lens. The optical axis orientating device includes a transparent substrate, a symmetric electrode structure, and an insulating layer. The electrode structure is capable of supplying an electric field and defines a central axis. The insulating layer provides an optical axis orientating structure symmetric with respect to the central axis. In particular, at a rest state, an optical axis of the liquid lens and the central axis of electrode are substantially coaxial. | 10-30-2008 |
20080273248 | PROJECTION OBJECTIVE ADAPTED FOR USE WITH DIFFERENT IMMERSION FLUIDS OR LIQUIDS, METHOD OF CONVERSION OF SUCH AND PRODUCTION METHOD - The invention relates to a projection objective ( | 11-06-2008 |
20080285143 | FLUIDIC LENS WITH MANUALLY-ADJUSTABLE FOCUS - A fluidic lens may have a transparent window member, a transparent distensible membrane, an inner ring between the window member and membrane, and a top ring disposed such that the membrane is between the piston ring and the inner ring. A layer of liquid may be stored between the window member, the inner ring and the membrane. The top ring may be adapted to apply a liquid displacement force to the membrane in a direction perpendicular to a plane of an aperture of the inner ring to cause a change in a radius of curvature of the membrane. The membrane may be pre-tensioned prior to assembly with the other components. | 11-20-2008 |
20090109544 | Fluid lens lateral shifting - According to one embodiment of the present invention, a method of constructing a fluid lens is provided. The method comprises establishing a generalized sidewall profile function and converting the generalized sidewall profile function to a plurality of lens sidewall contact angle functions defined by different combinations of sidewall profile parameters. Thereafter, the method comprises determining respective degrees of operational linearity of the lens sidewall contact angle functions over a range of positions along the x axis by assessing derivative uniformity of each of the lens sidewall contact angle functions within an established slope flatness metric ε. The respective degrees of operational linearity of the lens sidewall contact angle functions are then evaluated to identify an optimized sidewall profile. A fluid lens is then constructed by forming the fluid lens reservoir having at least one sidewall with the optimized sidewall profile. | 04-30-2009 |
20090122417 | Tunable-Shape Prism - A tunable-shape prism comprises: a fluid chamber including a first fluid and a second fluid. The first fluid is electrically conducted and the second fluid is electrically insulated. The first fluid and the second fluid have different refractive indexes and the first fluid and the second fluid are non-miscible to each other. A meniscus is formed between the first fluid and the second fluid. A plurality of first electrodes are contacted with the first fluid and a plurality of second electrodes are even-annularly arranged around the first and the second fluids. The plurality of the second electrodes are coated by an insulator; and the plurality of the second electrodes and the corresponding first electrode together constitute a plurality of electrode pairs. The surface tension of the second fluid can be controlled by a plurality of voltages correspondingly applied to the plurality of electrode pairs, which results in that the shape of the meniscus can be controlled by the plurality of voltages correspondingly applied to the plurality of electrode pairs. | 05-14-2009 |
20090147371 | OPTICAL LENS AND MANUFACTURING METHOD THEREOF - A liquid optical lens which changes a focus due to a change in a shape of a translucent elastic membrane according to a change in a fluid pressure of a lens chamber and a manufacturing method thereof are provided. The liquid optical lens forms a dampproof coating membrane on the translucent elastic membrane to prevent a fluid from permeating through the translucent elastic membrane and a swelling phenomenon of the translucent elastic membrane. | 06-11-2009 |
20090147372 | LIQUID LENS GROUP - A liquid lens group includes two liquid lens portions and a light-pervious separator. The light pervious separator includes a first contact surface and an opposite second contact surface, which are in contact with the two liquid lens portions respectively. The liquid lens group has a wide focus range and highly compacted volume. | 06-11-2009 |
20090147373 | Dynamic Focus Optical Probes - In one embodiment, an optical probe includes a housing, and an optical system provided within the housing, the optical system having a dynamically adjustable focal length such that the optical system can be focused at different points spaced a variety of distances from the housing while the probe is in use. | 06-11-2009 |
20090168191 | PHOTOMASK INSPECTION APPARATUS - According to one aspect of the present invention, there is provided a photomask inspection apparatus which observes a pattern provided on a mask substrate of a mask to inspect the mask including an object lens, and a liquid that is present between a last lens in the side closer to the mask of the object lens and the mask. | 07-02-2009 |
20090174948 | LIQUID-BASED OPTICAL DEVICE AND ELECTRONIC DEVICE - The present invention discloses an optical device comprising a container enclosing an insulating liquid (A) and a liquid responsive to an electric field (B), the insulating liquid (A) and the liquid responsive to an electric field (B) being immiscible and being in contact with each other via an interface ( | 07-09-2009 |
20090195882 | Mechanical lenses - A mechanical lens includes a rigid chamber, a first transparent window located to close one end of the chamber, a flexible transparent membrane window located to close another end of the chamber, and a transparent fluid having an index of refraction. The flexible transparent membrane window is along an optical path of light received through said first transparent window. The chamber is filled with said fluid and a curvature of said flexible transparent membrane window is responsive to a pressure of said transparent fluid. | 08-06-2009 |
20090195883 | Optical Element Comprising Cells Sealed by Means of a Layer of Adhesive Material - An optical element comprises a base component ( | 08-06-2009 |
20090213471 | VARIABLE FOCUS LENS - The invention relates to a variable focus lens ( | 08-27-2009 |
20090262435 | Optical driving apparatus using electro-wetting and driving method of the same - There is provided an optical driving apparatus including: a cell housing housing polar and non-polar liquids, the cell housing including side walls; a first electrode formed on an outer surface of a first insulator formed on a portion of one of the side walls of the cell housing; a second electrode formed on an outer surface of a second insulator formed on a portion of the other side wall of the cell housing; a color filter formed on a top of the cell housing; and a third electrode formed on a bottom of the cell housing to be in contact with the polar liquid so that the third electrode generates a potential in the polar liquid together with one of the first and second electrodes, wherein light incident from a light source unit disposed below the third electrode is irradiated onto a predetermined area of the color filter. | 10-22-2009 |
20090262436 | Producing a Transparent Optical Element Comprising a Substance Contained in Cells - The invention concerns a method for producing a transparent optical element ( | 10-22-2009 |
20100039709 | Fluidic Adaptive Lens Systems and Methods - Fluidic adaptive lens devices, and systems employing such lens devices, along with methods of fabricating and operating such lens devices, are disclosed. In one embodiment, a lens material is optimally selected to provide one or more desired characteristics for a variety of applications related to adaptive lens devices. In another embodiment, a fluidic medium is optimally chosen to provide one or more desired characteristics for a variety of applications related to adaptive lens devices. | 02-18-2010 |
20100134898 | NEAR FIELD SUPER LENS EMPLOYING TUNABLE NEGATIVE INDEX MATERIALS - A tunable super-lens (TSL) for nanoscale optical sensing and imaging of bio-molecules and nano-manufacturing utilizes negative-index materials (NIMs) that operate in the visible or near infrared light. The NIMs can create a lens that will perform sub-wavelength imaging, enhanced resolution imaging, or flat lens imaging. This new TSL covers two different operation scales. For short distances between the object and its image, a near-field super-lens (NFSL) can create or enhance images of objects located at distances much less than the wavelength of light. For the far-zone, negative values are necessary for both the permittivity ε a permeability μ. While well-structured periodic meta-materials, which require delicate design and precise fabrication, can be used, metal-dielectric composites are also candidates for NIMs in the optical range. The negative-refraction in the composite films can be made by using frequency-selective photomodification. | 06-03-2010 |
20100271709 | OPTICAL DEVICE, ELECTRONIC APPARATUS, AND METHOD OF MANUFACTURING OPTICAL DEVICE - Disclosed herein is an optical device including: a light-transmitting first main body which constitutes a part on a light incidence side; a light-transmitting second main body which constitutes a part on a light outgoing side; a third main body which is stacked between the first main body and the second main body in a second direction orthogonal to the first direction, and which defines a liquid chamber between the first main body and the second main body; a lens surface which is formed by an interface between a plurality of liquids differing in refractive index and sealed in the inside of the liquid chamber, and which is electrically deformable; and a jig which clamps the mutually stacked first main body, second main body, and third main body in the second direction by the third engaging part and the fourth engaging part. | 10-28-2010 |
20100284091 | IMAGE PICKING-UP LENS SYSTEM AND IMAGE PICKING-UP DEVICE USING THE SAME - An imaging lens system having an autofocus function using a liquid lens and an imaging apparatus using the imaging lens system is provided, in which the imaging lens system is configured with a smaller number of lenses to facilitate downsizing. | 11-11-2010 |
20100302646 | LIQUID LENS DEVICE AND MANUFACTURING METHOD THEREFOR - A manufacturing method for a liquid lens device includes: preparing a body having a liquid chamber, a conductive first liquid stored in the liquid chamber, an insulating second liquid stored in the liquid chamber, an electrode kept in contact with the first liquid, and a liquid discharge passage for making the communication between the inside and the outside of the liquid chamber; applying pressure to the first and second transparent substrates to thereby compress the sealing member and discharge the first liquid through the liquid discharge passage to the outside of the liquid chamber; and closing the liquid discharge passage. | 12-02-2010 |
20100328781 | OPTICAL ELEMENT - An optical element includes a container including first and second end face walls, a side face wall, and an accommodating chamber inside the walls; first and second liquids enclosed in the chamber; a first electrode provided on a surface of the first end face wall; a second electrode provided on a surface of the second end face wall; an insulating film provided on a surface of the second electrode; and a unit configured to apply a voltage. The shape of an interface between the liquids is changed by a voltage application, and a light transmission path, the center of which is a virtual axis passing through the end face walls in the thickness direction of the container, is formed in a portion of the second liquid. An opening having a diameter the same as or larger than the maximum diameter of the transmission path is provided in the first electrode. | 12-30-2010 |
20110043925 | OPTICALLY TRANSPARENT COMPONENT WITH TWO SETS OF CELLS - A transparent optical component comprises two sets of cells (1) disposed in respective superposed layers (10, 20). Each cell (1) contains an optically active material, and the cells in each set are isolated from one another by separating portions (2) within the corresponding layer. The cells (1) of one layer are offset relative to the cells of the other layer so as to be located in line with the separating portions (2) pertaining to the other layer. Such optical component exhibits transparency that is improved compared with components having a single layer of cells or cells that are superposed. | 02-24-2011 |
20110096406 | LIQUID-BASED OPTICAL DEVICE, METHOD FOR CONTROLLING SUCH A DEVICE AND ELECTRONIC DEVICE - The present invention discloses an optical device comprising a container enclosing a first liquid (A) and an electrically susceptible second liquid (v | 04-28-2011 |
20110149406 | LIQUID LENS - A liquid lens including at least two phase liquids covered with a protection member having transparent portions allowing transmission of light includes an elastic film configured to separate the at least two phase liquids within the protection member, a connection portion configured to connect the protection member to the elastic film, and a movement unit configured to move the connection portion within the protection member. | 06-23-2011 |
20110157711 | LIQUID LENS - In a liquid lens containing electrode and an insulating first liquid and a conductive second liquid having non-miscibility and different refractive indexes, and optical characteristics are changed by a change of interface shape of the first and the second liquid by applying a voltage to the electrode: in a surface contact with an edge of interface of the first and the second liquids, a first region having an affinity for the first liquid and a second region having an affinity different from that of the first liquid are formed on the insulating layer, and when the interface shape of the first liquid and the second liquid is changed, by an affinity force to hold the first liquid within the first region and a force to move the edge to the second region by electro-wetting, the edge can be stably held at an edge of the first region. | 06-30-2011 |
20110188127 | VARIABLE FOCUS LENS - The variable focus lens of the present invention changes the refractive power by changing each of the shapes of a first interface formed by a first liquid and a second liquid that have refractive indices that differ from each other and a second interface formed by the second liquid and a third liquid that have refractive indices that differ from each other. Thereby, this variable focus lens changes the first interface and the second interface such that the sign of the refractive power of the first interface and the sign of the refractive power of the second interface differ from each other. | 08-04-2011 |
20110235186 | Dynamic Lens - A device and/or apparatus that comprises a dynamic optical lens is provided. A first apparatus includes a first lens component having a first surface and a second surface. The first apparatus further includes a second lens component that comprises a flexible element. The first apparatus also includes a fluid that may be applied between at least a portion of the first lens component and at least a portion of the second lens component. The flexible element of the second lens component is such that it conforms to the first surface of the first lens component when an amount of fluid between the first surface of the first lens component and the second lens component is sufficiently low. The flexible element of the second lens component is also such that it does not conform to the first surface of the first lens component when an amount of fluid between the first surface of the first lens component and the second lens component is sufficiently great. | 09-29-2011 |
20110255175 | OPTICAL DEVICE AND HOUSING - An optical device includes a first substrate which is transparent to incident light, a second substrate which is transparent to incident light, and a frame member which connects the first substrate to the second substrate. A lens chamber surrounded by the first substrate, the second substrate, and the frame member is filled with first and second liquids constituting a liquid lens. A region composed of an inorganic material and a region composed of an organic material coexist in the inner surface of the first substrate and the inner surface of the frame member. A first insulating layer composed of an inorganic material, an adhesion layer composed of an organic material, and a second insulating layer composed of an organic material are stacked in that order on the inner surface of the first substrate and the inner surface of the frame member. | 10-20-2011 |
20110267703 | FLUIDIC LENS WITH MANUALLY-ADJUSTABLE FOCUS - A fluidic lens may have a reservoir at least partially bounded by a first optical surface and a second optical surface. A fluid fills a volume of the reservoir. A piston is configured to contact a portion of the first or second optical surface from outside the reservoir. One or more of the first optical surface or second optical surface is configured to deform as a result of a change in a pressure applied to the fluid or a change in contact between the piston and the first or second optical surface. A rim may be disposed outside the reservoir and configured to contact and provide additional deformation to one or more of the first or second optical surface. | 11-03-2011 |
20110279905 | ARCUATE LIQUID MENISCUS LENS - The present invention relates generally to an arcuate liquid meniscus lens, some specific embodiments include a liquid meniscus lens with a front curve arcuate lens and a back curve arcuate lens. Embodiments may also include a lens of suitable size and shape for inclusion in a contact lens. | 11-17-2011 |
20110317277 | LENS WITH CONICAL FRUSTUM MENISCUS WALL - The present invention relates generally to an arcuate liquid meniscus lens with a meniscus wall. Some specific embodiments include a liquid meniscus lens with a meniscus wall essentially in the shape of a conical frustum. Embodiments may also include a lens of suitable size and shape for inclusion in a contact lens. | 12-29-2011 |
20120026596 | OPTICAL ELECTROWETTING DEVICE - The invention concerns an optical electrowetting device a body comprising at least a first external surface and a second internal surface with a conical shape; a liquid-liquid interface between a first and a second immiscible liquids, the first liquid being a conducting liquid and the second liquid being an insulating liquid, wherein the liquid-liquid interface is able to move on the second internal surface by electrowetting effect; a first electrode in contact with the first liquid; a second electrode insulated from the first liquid by an insulating layer, the second electrode comprising at least a first electrical conductive track to be connected to a voltage source and extending from the first external surface of the body to the second internal surface; and a first layer covering the second internal surface of said body and being covered by the insulating layer, wherein the shape of the liquid-liquid interface is controllable by application of at least a first voltage between the first electrode and the first electrical conductive track, and wherein at least one of the body or the first layer is made of a resistive material. | 02-02-2012 |
20120026597 | LIQUID MENISCUS LENS WITH CONVEX TORUS-SEGMENT MENISCUS WALL - The present invention relates generally to a liquid meniscus lens with a meniscus wall. Some specific embodiments include a liquid meniscus lens with a meniscus wall essentially in the shape of a conical frustum with at least a portion of the conical frustum convex toward the optical axis. Embodiments may also include a lens of suitable size and shape for inclusion in a contact lens. | 02-02-2012 |
20120026598 | LIQUID MENISCUS LENS WITH CONCAVE TORUS-SEGMENT MENISCUS WALL - The present invention relates generally to a liquid meniscus lens with a meniscus wall. Some specific embodiments include a liquid meniscus lens with a meniscus wall essentially in the shape of a conical frustum with at least a portion of the conical frustum concave toward the optical axis. Embodiments may also include a lens of suitable size and shape for inclusion in a contact lens. | 02-02-2012 |
20120026599 | RECONFIGURABLE, NON-OSCILLATING LIQUID LENS AND IMAGING SYSTEMS - A non-oscillating liquid lens and imaging system and method employing the lens are provided. The liquid lens includes a substrate with a channel opening extending through the substrate. A liquid lens drop is held within the channel and is sized with a first droplet portion, including a first capillary surface, protruding away from a first substrate surface, and a second droplet portion, including a second capillary surface, protruding away from a second substrate surface. The liquid lens further includes an enclosure at least partially surrounding the substrate, and which includes a chamber. The liquid lens drop resides within the chamber, and the liquid lens includes a second liquid disposed within the chamber in direct or indirect contact with the liquid lens drop, and an actuator which facilitates adjusting configuration of the liquid lens drop within the channel, and thus, a focal distance of the liquid lens. | 02-02-2012 |
20120057243 | OPTICAL ELEMENT, OPTICAL ELEMENT ARRAY, AND METHOD OF MANUFACTURING OPTICAL ELEMENT - Disclosed are an optical element, an optical element array, and a method of manufacturing an optical element capable of forming a desired interface shape. In a microlens and a microlens array, at least one of a transparent liquid forming a liquid phase and microbubbles forming a gas phase is subjected to temperature adjustment by a curvature control part. The transparent liquid and the microbubbles subjected to temperature adjustment thermally expands or contracts, such that the shape of a curved interface formed between the transparent liquid and the microbubbles is changed. | 03-08-2012 |
20120057244 | LENS WITH MULTI-CONVEX MENISCUS WALL - The present invention relates generally to an arcuate liquid meniscus lens with a meniscus wall. Some specific embodiments include a liquid meniscus lens with a meniscus wall essentially in the shape of multiple segments of a torus convex toward the optical axis. Embodiments may also include a lens of suitable size and shape for inclusion in a contact lens. | 03-08-2012 |
20120069450 | MEMBRANE DEVICE THE MEMBRANE OF WHICH CAN BE DEFORMED BY ACTUATION WITH A FAST RESPONSE TIME - Device including a membrane and a support defining a cavity containing a fluid, where the membrane includes an anchoring area to the support, a central area able to be deformed following a displacement of fluid and an actuation area between the anchoring and central areas, and means of actuation to apply stress to the membrane in the actuation area and cause a displacement of the fluid to the central area following an actuation. The cavity includes a main chamber in the central area and a peripheral chamber in the actuation area communicating with the main chamber. The peripheral chamber includes at least one forced flow structure favoring the flow of at least a part of the fluid from the peripheral chamber to the main chamber or vice versa following the actuation. A given forced flow structure has no attachment both to the support and to the membrane. | 03-22-2012 |
20120075710 | LIQUID MENISCUS LENS INCLUDING MENISCUS WALL WITH MICROCHANNELS - The present invention relates generally to an arcuate liquid meniscus lens with a meniscus wall. Some specific embodiments include a liquid meniscus lens with a meniscus wall essentially in the shape of a conical frustum, additional embodiments may include a cylindrical wall, each with microchannels. Embodiments may also include a lens of suitable size and shape for inclusion in a contact lens. | 03-29-2012 |
20120075711 | LIQUID MENISCUS LENS WITH NON-SPHERICAL MENISCUS WALL - The present invention relates generally to an arcuate liquid meniscus lens with a meniscus wall. Some specific embodiments include a liquid meniscus lens with a meniscus wall essentially in the shape of a conical frustum, a cross section of which is non-spherical. Embodiments may also include a lens of suitable size and shape for inclusion in a contact lens. | 03-29-2012 |
20120075712 | LIQUID MENISCUS LENS INCLUDING VARIABLE VOLTAGE ZONES - The present invention relates generally to an arcuate liquid meniscus lens with a meniscus wall. Some specific embodiments include a liquid meniscus lens with a meniscus wall essentially in the shape of a conical frustum with multiple voltage zones that may have variable voltages applied across the zones. Embodiments may also include a lens of suitable size and shape for inclusion in a contact lens. | 03-29-2012 |
20120075713 | LIQUID MENISCUS LENS INCLUDING GRADIENT THICKNESS DIELECTRIC COATING - The present invention relates generally to an arcuate liquid meniscus lens with a meniscus wall. Some specific embodiments include a liquid meniscus lens with a meniscus wall essentially in the shape of a conical frustum with portions of gradient thickness dielectric. Other embodiments may include a cylindrical shape meniscus wall. Embodiments may also include a lens of suitable size and shape for inclusion in a contact lens. | 03-29-2012 |
20120075714 | OPTICAL ELEMENT - An optical element includes a container including first and second end face walls, a side face wall, and an accommodating chamber inside the walls; first and second liquids enclosed in the chamber; a first electrode provided on a surface of the first end face wall; a second electrode provided on a surface of the second end face wall; an insulating film provided on a surface of the second electrode; and a unit configured to apply a voltage. The shape of an interface between the liquids is changed by a voltage application, and a light transmission path, the center of which is a virtual axis passing through the end face walls in the thickness direction of the container, is formed in a portion of the second liquid. An opening having a diameter the same as or larger than the maximum diameter of the transmission path is provided in the first electrode. | 03-29-2012 |
20120081795 | FLUIDIC LENS - A vari-focal fluidic lens is provided. The fluidic lens includes a frame, an first membrane, a second membrane, and an optical fluid. The frame defines an inner space of the fluidic lens including a driving portion and a lens portion that are connected to each other. The elastic membrane is attached to one side of the frame to cover at least the lens portion. The second membrane is attached to an opposite side of the frame to cover at least the driving portion and is deformable in response to temperature change to vary a volume of the inner space. Optical fluid is contained in the inner space. | 04-05-2012 |
20120087014 | Non Powered Concepts for a Wire Frame of Fluid Filled Lenses - Various embodiments of a non-powered actuator arm for controlling liquid flow to a fluid-filled lens are described herein. A vertical tweezer assembly compresses a reservoir of solution in a first vertical direction by lateral disposition of a slider mounted on the outside of the housing. The assembly may also be shaped to provide compression of the reservoir in a second horizontal direction by lateral disposition of a slider. In another embodiment, a housing may contain a piston that moves laterally within the housing and collapses the reservoir disposed adjacent to the piston and also within the housing. The housing may contain a plurality of compressible domes which can each be compressed to cause a local compression on the reservoir disposed within the housing. Compression of the reservoir causes liquid inflation of a lens module. | 04-12-2012 |
20120087015 | Perimeter Piezo Reservoir in a Lens - An embodiment of a piezoelectric actuator system for a fluid-filled lens is described herein. A piezoelectric reservoir is provided encompassing a fluid. In an embodiment, the reservoir is disposed around the perimeter of a lens module within a housing. In an embodiment, electrodes are woven into the reservoir and connected to a power source. An applied potential causes the reservoir to flex with a magnitude and direction related to the amplitude and polarity respectively of the potential. In an embodiment, flexing of the reservoir causes fluid to either inflate or deflate the fluid-filled lens module. | 04-12-2012 |
20120092774 | LENS WITH MULTI-SEGMENTED LINEAR MENISCUS WALL - The present invention relates generally to an arcuate liquid meniscus lens with a meniscus wall. Some specific embodiments include a liquid meniscus lens with a meniscus wall essentially in the shape of multiple segments of a frustum of a cone. Embodiments may also include a lens of suitable size and shape for inclusion in a contact lens. | 04-19-2012 |
20120105971 | OPTICAL APPARATUS - An optical apparatus such as a varifocal fluidic lens is provided. Optical apparatus includes a spacer frame, optical fluid, an elastic membrane, an actuator, an actuator frame, and a thermally deformable frame. Spacer frame defines an internal space including a lens portion and a driving portion that connect to each other, and the driving portion is disposed to surround the lens portion disposed in the center area of the internal space. Optical fluid is filled in the internal space defined by the spacer frame. The elastic membrane is attached on a surface of the spacer frame, to cover a side of the internal space, and the thermally deformable plate is attached on the other surface of the spacer frame, to cover the other side of the internal space. The thermally deformable plate deforms to increase or decrease a volume of the internal space according to a change in temperature. | 05-03-2012 |
20120113525 | LIQUID LENS, AND METHOD FOR MANUFACTURING SAME - Provided is a liquid lens capable of adjusting a focus by using an electrical signal and/or a fluid pressure. The liquid lens includes a container which has a cavity of which the side cross section has a hemispherical shape and contains an insulating liquid droplet and a conductive liquid droplet which are not mixed in the cavity and have the same density, a lower substrate which is combined with a bottom surface of the container to seal a bottom surface of the cavity, and an upper substrate which is combined with a top surface of the container to seal a top surface of the cavity, wherein the container includes an outer wall where the cavity is formed, a first electrode which is formed on an inner side surface of the outer wall and of which the one end is connected to an external power supply, a first insulating film which is laminated a surface of the first electrode and is in contact with the conductive liquid droplet and the insulating liquid droplet, and a second electrode which is laminated on a portion of a surface of the first insulating film and of which the one end is in contact with the conductive liquid droplet and of which the other end is in contact with the external power supply. Accordingly, it is possible to more efficiently adjust a focus by using a small driving voltage by improving a structure of the cavity of the container. | 05-10-2012 |
20120200939 | ELECTROWETTING DEVICE - The invention relates to an electrowetting-on-dielectric device ( | 08-09-2012 |
20120236417 | LENS WITH MULTI-CONCAVE MENISCUS WALL - The present invention relates generally to a liquid meniscus lens with a meniscus wall. The meniscus lens may include an arcuate front curve and back curve lens. Some specific embodiments include a liquid meniscus lens with a meniscus wall essentially in the shape of multiple segments of a torus concave from the optical axis. Embodiments may also include a lens of suitable size and shape for inclusion in a contact lens. | 09-20-2012 |
20120243106 | Full Field Membrane Design for Non-Round Liquid Lens Assemblies - An optical and mechanical design of a sealed, non-round fluid-filled lens capable of providing variation of optical power. The fluid lens includes at least three optical components: at least one mostly rigid optical disc, at least one mostly flexible optical membrane and a layer of a transparent fluid that is in communication via a fluid channel with a reservoir of excess fluid contained in a reservoir that can be accessed to augment the fluid volume inside the fluid lens to change the power of the fluid lens. The fluid lens is capable of providing correction of spherical and astigmatic errors, and utilizes contoured membranes to provide for a substantially constant desired spherical power over a substantially full field of view of a user. | 09-27-2012 |
20120275030 | VARIABLE FOCUS LIQUID LENS - A variable focus liquid lens includes: a lens barrel which is configured to include a first cavity to contain first and second liquids which are not mixed with each other in upper and lower portions of the first cavity, respectively; a fluid pressure driving unit which is configured to include a second cavity, a fluid pressure generating groove, and an actuator generating a fluid pressure on the second liquid so as to adjust the fluid pressure of the second liquid by using the actuator; a first transparent elastic membrane sealing an upper portion of the first cavity of the lens barrel; and a conductive transparent substrate sealing a lower portion of the second cavity of the fluid pressure driving unit. The focal length is adjusted by changing the curvatures of the surfaces of the first and second liquids and the curvature of the first transparent elastic membrane by a voltage. | 11-01-2012 |
20130010369 | OPTICAL ELEMENT - An optical element includes a container including first and second end face walls, a side face wall, and an accommodating chamber inside the walls; first and second liquids enclosed in the chamber; a first electrode provided on a surface of the first end face wall; a second electrode provided on a surface of the second end face wall; an insulating film provided on a surface of the second electrode; and a unit configured to apply a voltage. The shape of an interface between the liquids is changed by a voltage application, and a light transmission path, the center of which is a virtual axis passing through the end face walls in the thickness direction of the container, is formed in a portion of the second liquid. An opening having a diameter the same as or larger than the maximum diameter of the transmission path is provided in the first electrode. | 01-10-2013 |
20130021673 | Tunable Liquid Gradient Refractive Index Lens Device - A lens device includes a substrate having a channel and a first fluid flow path and a second fluid flow path. The first and second fluid flow paths at least partially in communication with the channel. A light emitting device is positioned adjacent to the channel. At least one first fluid source is in communication with the first fluid path such that a first fluid is moveable along the first fluid path and at least one second fluid source in communication with the second fluid path such that a second fluid is moveable along the second fluid path. The fluid paths are configured so the first fluid and second fluid move through the channel to define an adjustable liquid gradient refractive index distribution in the channel. Adjustment of the liquid gradient refractive index distribution permits a change of liquid lens focal distance or an angular adjustment of light. | 01-24-2013 |
20130038943 | OPTICAL DEVICE - To realize a memory effect in an optical device using the electro wetting effect. An optical device includes: first and second substrates placed opposite each other; a partition provided therebetween; a first electrode provided on one side of the first substrate, at least a part thereof overlapping with a region surrounded by the partition in a plan view; second and third electrodes provided on one side of the second substrate and which are respectively placed opposite the first electrode across the region surrounded by the partition; a smoothing layer provided on one side of the second substrate and which covers the second and third electrodes; and first and second fluid, which are incompatible, disposed in the region surrounded by the partition. The first fluid is made of a liquid body possessing polarity or conductivity, and the second fluid is made of a liquid body containing a liquid-crystalline material. | 02-14-2013 |
20130057963 | LENS APPARATUS AND IMAGE CAPTURING APPARATUS - Provided is a lens apparatus in which a plurality of lenses are formed, including: a housing filled with a first liquid and a second liquid that do not mix with each other; a partition to divide the inside of the housing into a plurality of regions, each of the regions being filled with one of the first liquid and the second liquid; and a pressure control section that controls the internal pressure of the region filled with the first liquid, where the partition is provided with a plurality of openings, in which a plurality of lenses having different characteristics from each other are formed by the interface between the first liquid and the second liquid, and the regions inside the housing filled with the first liquid are linked to each other so that the first liquid can move therebetween. | 03-07-2013 |
20130094094 | LIQUID COMBINATION FOR DIELECTRIC LIQUID LENS - The invention discloses liquid combination for liquid lens. The liquid combination comprises an oil phase liquid and an aqueous phase liquid. The oil phase liquid comprises a silicon oil polymerized by siloxane. The aqueous phase liquid comprises a solution mixed with alcohol and water. Due to the liquid lens atomized and opaque by emulsion, the recovering time of the liquid lens from the emulsion will affect the performance of the liquid lens hugely. Accordingly, the recovering time is a performance index of the liquid lens. The liquid combination of the invention for the liquid lens can meet the specification and have the fast speed which is recovered from the emulsion. | 04-18-2013 |
20130176628 | ADAPTIVE OPTICAL DEVICES WITH CONTROLLABLE FOCAL POWER AND ASPHERIC SHAPE - A fluidic lens may include an optical surface configured for deflection dominated by bending stress. An adjustable concentric load may be applied to the optical surface to cause a clear aperture region of the optical surface to deflect with generally spherical curvature. Adjusting the concentric load controls the radius of curvature. An adjustable uniformly-distributed load may be applied to the optical surface by fluid pressure that causes the clear aperture region to deflect with an aspheric shape. Adjusting the pressure controls the asphericity of curvature. First and second fluids having similar densities and different refractive indexes may be disposed on either side of a deflectable optical surface to help balance gravitational loading on either side of the optical surface, thereby reducing gravity-associated aberrations. | 07-11-2013 |
20130265647 | VARIABLE FOCUS LENS HAVING TWO LIQUID CHAMBERS - A variable focus lens has a housing ( | 10-10-2013 |
20130286485 | 3D Mold For Manufacturing Of Sub-Micron 3D Structures Using 2-D Photon Lithography And Nanoimprinting And Process Thereof - A process to manufacture a 3D mold to fabricate a high-throughput and low cost sub-micron 3D structure product is disclosed. The process integrates use of 2-photon laser lithography and 3D write technology to make a 3D mold of each layer of the 3D structure product, and then use nanoimprinting to form a sheet of polymer film of each layer of the 3D structure from the said 3D mold of that layer. Each layer of the sheet of polymer film is then fabricated into the sub-micron 3D structure product. The 3D mold of each layer of a high-throughput and low cost sub-micron 3D structure product, is further used to make master molds which is then used to form a sheet of polymer film of each layer of the 3D structure to fabricate the sub-micron 3D structure product. Applications using this process are also disclosed. | 10-31-2013 |
20130321928 | LIQUID LENS - A liquid lens includes a sealed shell, a liquid material, a transparent carbon nanotube structure within the liquid material, and a first electrode and a second electrode, a voltage being applied to the carbon nanotube structure causes rapid heating, which is transferred to the liquid material to change the density thereof, and the refractive index of the liquid material is thus changed. | 12-05-2013 |
20140104696 | OPTICAL DEVICE WITH A PIEZOELECTRICALLY ACTUATED DEFORMABLE MEMBRANE SHAPED AS A CONTINUOUS CROWN - An optical device with a deformable membrane including an anchor area on a support entrapping a liquid or gas fluid, a central area reversibly deformable from a rest position, actuating means for moving the fluid biasing the membrane into an intermediate area between the anchor area and the central area, the actuating means include a piezoelectric continuous crown accommodating several actuators, this crown surrounding the central area, the actuating means being anchored to the membrane in the intermediate area, the actuating means and the membrane to which they are anchored, forming at least one piezoelectric bimorph, the actuating means radially contracting or extending upon actuation to generate a movement of said fluid from the intermediate area to the central area of the membrane or vice versa, aiming at deforming the central area with respect to its rest position. | 04-17-2014 |
20140204468 | LENS AND PROJECTOR - The present invention provides a lens and a projector having the same lens. The lens comprises: a lower substrate, an upper substrate opposite to the lower substrate, and a common electrode located at a lower side of the upper substrate, wherein the lower substrate is formed thereon with at least two electrode groups; moreover, between the common electrode and the electrode groups, there is provided with lens liquid, and the lens liquid is composed of hydrophilic liquid and oleophilic liquid. With the use of such lens, a small portable projector with an adjustable projection range can be achieved. | 07-24-2014 |
20140268361 | LENS ASSEMBLY WITH INTEGRATED FEEDBACK LOOP FOR FOCUS ADJUSTMENT - This invention provides a removably mountable lens assembly for a vision system camera that includes an integral auto-focusing liquid lens unit, in which the lens unit compensates for focus variations by employing a feedback control circuit that is integrated into the body of the lens assembly. The feedback control circuit receives motion information related to the bobbin of the lens from a position sensor (e.g. a Hall sensor) and uses this information internally to correct for motion variations that deviate from the lens setting position at a desired lens focal distance setting. Illustratively, the feedback circuit can be interconnected with one or more temperature sensors that adjust the lens setting position for a particular temperature value. In addition, the feedback circuit can communicate with an accelerometer that reads a direction of gravity and thereby corrects for potential sag in the lens membrane based upon the spatial orientation of the lens. | 09-18-2014 |
20140307330 | LIQUID LENS DRIVING METHOD - A liquid lenses driving method to control the focus of a liquid lens by inputting voltages to specific electrodes. The liquid lens includes a first liquid, a second liquid having a lower refractive index than and immiscible with the first liquid, a plurality of driving electrodes (M), an container, and a transparent cover. M is greater than or equal to 2. The first liquid is positioned above the plurality of electrodes. The electrodes are concentrically configured and annular in shape. The outermost electrode is a first electrode and the innermost electrode is an M | 10-16-2014 |
20140313590 | FLUIDIC LENS WITH MANUALLY-ADJUSTABLE FOCUS - A fluidic lens may have a reservoir at least partially bounded by a first optical surface and a second optical surface. A fluid fills a volume of the reservoir. A piston is configured to contact a portion of the first or second optical surface from outside the reservoir. One or more of the first optical surface or second optical surface is configured to deform as a result of a change in a pressure applied to the fluid or a change in contact between the piston and the first or second optical surface. A rim is configured to contact a portion of the first or second optical surface from outside the reservoir. One or more of the first optical surface or second optical surface is configured to deform as a result of a change in a pressure applied to the fluid or a change in contact between the rim and the first or second optical surface. | 10-23-2014 |
20140347741 | Fabrication of liquid lens arrays - A method of fabricating a liquid lens array creates an array of through holes of axisymmetric cross-section through a central plate, forms conductive traces on the side walls of each of the through holes and on a portion of the top and bottom surfaces of the central plate contiguous with each through hole, and bonds the bottom surface of the central plate around each through hole to the top surface of a transparent base plate, forming an array of cavities. The method applies an insulating layer to the side walls of each cavity, portions of the top surface of the base plate lying within each cavity, and portions of the top surface of the transparent central plate surrounding each cavity, introduces a polar liquid and a non-polar liquid into each cavity; and bonds the top surface of the central plate to the bottom surface of a transparent top plate. | 11-27-2014 |
20150070779 | Liquid lens arrays - A method of fabricating a liquid lens array creates an array of through holes of axisymmetric cross-section through a central plate, forms conductive traces on the side walls of each of the through holes and on a portion of the top and bottom surfaces of the central plate contiguous with each through hole, and bonds the bottom surface of the central plate around each through hole to the top surface of a transparent base plate, forming an array of cavities. The method applies an insulating layer to the side walls of each cavity, portions of the top surface of the base plate lying within each cavity, and portions of the top surface of the transparent central plate surrounding each cavity, introduces a polar liquid and a non-polar liquid into each cavity; and bonds the top surface of the central plate to the bottom surface of a transparent top plate. | 03-12-2015 |
20160103252 | ADAPTIVE OPTICAL DEVICES WITH CONTROLLABLE FOCAL POWER AND ASPHERIC SHAPE - A fluidic lens may include an optical surface configured for deflection dominated by bending stress. An adjustable concentric load may be applied to the optical surface to cause a clear aperture region of the optical surface to deflect with generally spherical curvature. Adjusting the concentric load controls the radius of curvature. An adjustable uniformly-distributed load may be applied to the optical surface by fluid pressure that causes the clear aperture region to deflect with an aspheric shape. Adjusting the pressure controls the asphericity of curvature. First and second fluids having similar densities and different refractive indexes may be disposed on either side of a deflectable optical surface to help balance gravitational loading on either side of the optical surface, thereby reducing gravity-associated aberrations. | 04-14-2016 |
20160161726 | MULTI-SPIRAL OPTICAL DEVICE - The present invention provides a multi-spiral optical device, which comprises a base and a plurality of spiral channels. The plurality of spiral channels are formed on the base and include a first port and a second port, respectively. The plurality of first ports are located at the center of the base; the plurality of second ports are located at the periphery of the base. Thereby, the multi-spiral optical device can form a light concentrating device. In addition, a fluid can be filled to or drawn from one or more of the plurality of spiral channels for switching the optical state of the multi-spiral optical device. By filling or drawing the fluid to or from the plurality of spiral channels selectively, they can be switched to a light-pervious, a sheltering, or a light-concentrating state according to users' requirements. | 06-09-2016 |
20160202475 | IMAGING DEVICE, MANUFACTURING APPARATUS, MANUFACTURING METHOD, AND ELECTRONIC APPARATUS | 07-14-2016 |