Patent application number | Description | Published |
20080212189 | Vehicle Mirror Assembly With Indicia At Reflective Element - A rearview mirror assembly for a vehicle includes a reflective element having at least one substrate with a reflective coating thereon. A specularly reflective indicia reflector is established to form indicia or information at the reflective element. The indicia reflector provides a visible contrast to the main mirror reflector so that the indicia or information is subtly viewable by a person viewing the mirror assembly. The reflective element reflects light incident thereon over the surface coated by the reflective coating of the main mirror reflector, including the area at which the indicia reflector is established. | 09-04-2008 |
20080225396 | ELECTRO-OPTIC MIRROR CELL - A reflective element assembly for a variable reflectance vehicular mirror includes a front substrate having a transparent conductive coating disposed on a second surface thereof, and a rear substrate having an electrically conductive metallic reflective coating disposed on a third surface thereof. At least an edge portion of the rear substrate is recessed from a corresponding perimeter edge portion of the front substrate so as to define an overhang region of the front substrate relative to the rear substrate. At least a portion of a third surface conductive coating continues from the third surface over at least the perimeter edge to define a wraparound portion of the third surface conductive coating at the perimeter edge, with the third surface conductive coating establishing electrical continuity between the third surface and the portion of the perimeter edge. An electrical connection may make electrical contact with the wraparound portion at the overhang region. | 09-18-2008 |
20080266685 | MIRROR ASSEMBLY WITH HEATER ELEMENT - A mirror reflective element system includes a fourth surface electrically conductive element disposed at the fourth surface and in conductive continuity with a second or third surface electrically conductive coating of the second or third surface, respectively. A heating element at the fourth surface comprises an electrically conductive heating element that generates heat to heat a portion of said heating element when powered. First and second electrically conductive contact elements connect to first and second electrically conductive elements at the fourth surface of the rear substrate such that electrically conductive continuity is established between the electrically conductive contact elements and the respective electrically conductive elements when the heating element is attached to the fourth surface. | 10-30-2008 |
20090015736 | INTERIOR REARVIEW MIRROR ASSEMBLY WITH DISPLAY - A video mirror system for a vehicle comprising an interior rearview mirror assembly having a transflective electro-optic reflective element that transmits at least about ten percent of visible light incident thereon and reflects at least about sixty percent of visible light incident thereon. A display module is disposed at a rear of the transflective electro-optic reflective element and comprises a plurality of individual light sources. A thermally conductive element may be in substantial thermal contact with the display module and is exposed at a rear casing portion of the mirror assembly so as to draw heat generated by the display module away from the display module and to the exterior of the interior rearview mirror assembly. The exposure of the thermally conductive element at the rear casing portion may be substantially not discernible to a viewer viewing the rear casing portion of the interior rearview mirror assembly. | 01-15-2009 |
20090067032 | VEHICULAR SIGNAL MIRROR - A vehicular signal mirror includes a reflective mirror element comprising a mirror reflector on a light-transmitting substrate. The visible light reflectance is at least about 40% for visible light incident upon the front side of the reflective mirror element. A turn signal light display and/or a blind-spot indicator light display is disposed to the rear of the reflective mirror element and configured so that the light emitted by the light display passes through the reflective mirror element to be viewed by a viewer viewing from the front of the reflective mirror element. The light display exhibits, when electrically powered and when operated in the vehicle during day time driving conditions, a display luminance of at least about 60 foot lamberts as measured with the light display placed behind, and emitting light through, the reflective mirror element. | 03-12-2009 |
20090080055 | REARVIEW MIRROR ELEMENT ASSEMBLIES AND SYSTEMS - A rearview mirror element assembly includes an electrochromic reflective element having a front generally planar substrate and a rear generally planar substrate. A reflecting mirror reflector is established at a third surface of the rear substrate and an auxiliary mirror element is positioned rearward of a perimeter region of the front substrate. The auxiliary mirror element provides a wide angle view of a blind spot to the side of a vehicle and a generally planar portion of the electrochromic reflective element provides a generally planar view rearward of the vehicle. A perimeter band or demarcating band may be established at least partially around a perimeter border region of the substrate and may traverse the substrate at the perimeter region of the front substrate behind which the auxiliary mirror element is positioned. The band may demarcate the perimeter region from the generally planar portion of the reflective element. | 03-26-2009 |
20090116097 | INTERIOR REARVIEW MIRROR SYSTEM FOR A VEHICLE - An interior rearview mirror system for a vehicle includes an interior rearview mirror assembly including a reflective element having a transparent glass substrate with a transflective reflector established at a surface thereof. The transflective reflector includes at least three thin film layers, which include at least one metallic layer. The transflective reflector exhibits a substantially spectrally neutral reflectant characteristic as viewed by a driver operating a vehicle equipped with the mirror assembly. A backlit active matrix liquid crystal video display screen is disposed behind the transflective reflector. Display information passes through the glass substrate and the transflective reflector for viewing by a driver operating the equipped vehicle. At least one silicon photo sensor is configured to detect ambient light at the vehicle, and the display intensity is adjustable responsive to a sensing of ambient light by the least one silicon photo sensor. | 05-07-2009 |
20090201137 | REARVIEW ASSEMBLY WITH DISPLAY - A rearview assembly for a vehicle includes a mirror element having a partially reflective, partially transmissive coating and a video display positioned behind the mirror element such that a display image is viewable through the partially reflective, partially transmissive coating. The video display may generate a viewable display image that has an intensity of at least 250 cd/m | 08-13-2009 |
20090207514 | REFLECTIVE MIRROR ASSEMBLY - A reflective mirror assembly includes an electrochromic reflective element providing a rearward field of view to a driver of a vehicle equipped with the reflective mirror assembly. The electrochromic reflective element includes an electrochromic medium disposed between a front substrate and a rear substrate in a cavity established by a seal that connects the front substrate to the rear substrate and that spaces them apart. An overhang region at a first edge region of the front substrate extends beyond a corresponding first edge region of the rear substrate. A transparent electrical conductor is disposed at the front substrate and a mirror reflector is disposed at the rear substrate. An electrically conducting tab extends outward from said seal at least partially to the edge of the rear substrate while making electrical contact with the mirror reflector. At least one hiding layer is disposed around a perimeter region of the front substrate. | 08-20-2009 |
20090237820 | VEHICULAR INTERIOR ELECTROCHROMIC REARVIEW MIRROR ASSEMBLY - A vehicular interior electrochromic rearview mirror assembly includes an electrochromic mirror reflective element assembly and a video display disposed behind a transflective mirror reflector of the mirror reflective element assembly. The transflective mirror reflector includes at least one electrically conducting metal layer and is disposed at a third surface of the rear substrate such that a perimeter border region of the third surface is substantially devoid of the electrically conducting metal layer. A third surface electrical conductor disposed at the third surface is in electrical connection with the transflective mirror reflector and may extend from the transflective mirror reflector and from the perimeter seal toward a perimeter edge of the rear substrate. The rear substrate may extend beyond a perimeter edge of the front substrate where the third surface electrical conductor is disposed, and the third surface electrical conductor may be electrically accessible outboard of the perimeter seal. | 09-24-2009 |
20100038352 | MIRROR ASSEMBLY WITH HEATER ELEMENT - A mirror reflective element system has a front substrate having a first surface and a second surface, the second surface having a transparent second surface electrically conductive coating disposed thereon, and a rear substrate that has a third surface and a fourth surface, the third surface having a third surface electrically conductive coating disposed thereon. An attaching surface of a heating element is attached at the fourth surface. The heating element has an electrically conductive heating element established thereat and includes first and second electrically conductive traces. The electrically conductive heating element and the first and second electrically conductive traces are electrically isolated from one another. The first electrically conductive trace provides, at least in part, an electrically conductive connection to the transparent second surface electrically conductive coating, and the second electrically conductive trace provides, at least in part, an electrically conductive connection to the third surface electrically conductive coating. | 02-18-2010 |
20100046059 | INTERIOR REARVIEW MIRROR SYSTEM FOR A VEHICLE - An interior rearview mirror system includes an interior rearview mirror assembly including a reflective element having a transparent substrate and a multi-zone mirror reflector established at a surface thereof. The mirror reflector includes at least a first zone and a second zone, and wherein at least one metallic reflective layer is commonly established at the surface and across the first and second zones of the mirror reflector. A display device is disposed behind the second zone of the mirror reflector and, when the display device is operating to emit display information, emitted display information passes through the second zone of the mirror reflector for viewing by a driver operating the equipped vehicle. The second zone has a degree of transmissivity of light therethrough that is greater than a degree of transmissivity of light through the first zone of the mirror reflector. | 02-25-2010 |
20100066519 | REARVIEW MIRROR SYSTEM - A rearview mirror system includes an electro-optic reflective element having a specularly reflecting indicia reflector established at a second surface of a front substrate. The indicia provides a visible contrast between light incident at the mirror reflector and light incident at the indicia reflector so that when the mirror reflective element is in its high reflectance state, indicia information is subtly viewable by a person viewing the reflective element. The indicia may convey information that informs that the rearview mirror assembly is an automatic dimming type, informs of a brand logo and/or informs of a personalization logo. The mirror assembly may include a video display screen and contrast enhancement means for enhancing the viewability of the video display screen when the rearview mirror assembly is operated in high ambient lighting conditions. A control may determine a driver performance in response to a sensing device and a vehicle monitoring device. | 03-18-2010 |
20100172008 | REFLECTIVE MIRROR ASSEMBLY - A reflective mirror assembly includes an electro-optic reflective element providing a rearward field of view to a driver of a vehicle equipped with the reflective mirror assembly. The electro-optic reflective element includes an electro-optic medium disposed between a front substrate and a rear substrate in a cavity established by a seal that connects the front substrate to the rear substrate and that spaces them apart. An overhang region at a first edge region of the front substrate extends beyond a corresponding first edge region of the rear substrate. A transparent electrical conductor is disposed at the front substrate and a mirror reflector is disposed at the rear substrate. An electrically conducting tab extends outward from said seal at least partially to the edge of the rear substrate while making electrical contact with the mirror reflector. At least one hiding layer is disposed around a perimeter region of the front substrate. | 07-08-2010 |
20100194890 | VIDEO MIRROR SYSTEM SUITABLE FOR USE IN A VEHICLE - A vehicular video mirror system includes an interior rearview mirror assembly having a transflective reflective element. The mirror system includes a video display device at a casing of the mirror assembly rearward of the transflective reflective element, with the video display device having a video screen and a plurality of individual white light emitting light sources operable for backlighting the video screen. The intensity of light emitted by the white light emitting light sources is variable responsive to detection of light by at least one photosensor. The video screen may be operable to display video images captured by a rear back-up camera of the equipped vehicle during a reversing maneuver of the equipped vehicle. Light emanating from the white light emitting light emitting diodes may pass through a brightness enhancement film and a light diffuser to be incident at a transflective reflector of a second substrate of the mirror assembly. | 08-05-2010 |
20100252418 | HOT TILE SPUTTERING SYSTEM - A system and method for sputtering a coating onto a glass substrate in a vacuum deposition chamber includes providing a backing plate with a separating element disposed at the backing plate. At least one target element or tile is disposed on a surface of the separating element, wherein an expansion gap is provided to allow for expansion of the target relative to the separating element during the sputtering process. The method includes sputtering material from the target and heating the target to a substantially elevated temperature during the sputtering process. The separating element may be a sheet having a low-coefficient of friction surface, and the target may be disposed on the low-coefficient of friction surface of the separating element. The separating element may thermally insulate the target from the backing plate, whereby the target may be heated to a substantially greater temperature than the backing plate during the sputtering process. | 10-07-2010 |
20110013280 | HEATER PAD FOR A MIRROR REFLECTIVE ELEMENT - A heater pad for a variable reflectance mirror reflective element of a vehicular mirror assembly includes a flexible substrate, an electrically conductive heating element, and first and second electrically conducting elements. The first electrically conducting element is in electrical connection with a transparent second surface electrically conductive coating of the equipped mirror reflective element and the second electrically conducting element is in electrical connection with a third surface electrically conductive coating of the equipped mirror reflective element when the equipped mirror reflective element is normally equipped with the heater pad. The electrically conducting elements and the heating element are electrically isolated from one another. The heating element and the first and second electrically conducting elements terminate at an electrical connector that is configured to electrically conductively connect with a wire harness that provides electrical connection to at least one of a power source and a control circuit. | 01-20-2011 |
20110019260 | VEHICULAR ELECTROCHROMIC INTERIOR REARVIEW MIRROR ASSEMBLY - A vehicular electrochromic interior rearview mirror assembly includes a mirror casing and an electrochromic mirror reflective element. At least a portion of a front substrate of the reflective element extends beyond a corresponding portion of a rear substrate of the reflective element to establish a ledge at least partially along the periphery of the reflective element, with no part of the rear substrate extending beyond any part of the front substrate. Electrical connections are made to conductive coatings or layers at the front and rear substrates. The electrochromic interior rearview mirror reflective element includes a concealing layer disposed along a perimeter border region to conceal the presence of the perimeter seal and the electrical connections from view by a driver of the equipped vehicle. The mirror casing provides a bezelless mirror casing where no portion of the mirror casing overlaps the first surface of the front substrate. | 01-27-2011 |
20110084198 | INTERIOR REARVIEW MIRROR INFORMATION DISPLAY SYSTEM FOR A VEHICLE - An interior rearview mirror information display system for a vehicle includes an interior rearview mirror assembly including an electrochromic reflective element. A display device is disposed behind a transflective mirror reflector of the reflective element and includes a display screen backlit by a plurality of light emitting diodes supported by a circuit board disposed rearward of the fourth surface of the rear substrate. The light emitting diodes of the circuit board are disposed to the rear of the display screen to provide backlighting of the display screen when activated. Information displayed by the display device is viewable by a driver of the equipped vehicle. When the plurality of light emitting diodes is activated and the display device is displaying information, light emitted by the plurality of light emitting diodes passes through the display screen and through the transflective mirror reflector for viewing by the driver of the equipped vehicle. | 04-14-2011 |
20110096387 | REFLECTIVE MIRROR ASSEMBLY - An interior rearview mirror reflective element includes a front substrate connected with a rear substrate via a perimeter seal, whereby, when so connected, at least a portion of a circumferential outer edge of the rear substrate is inward of a circumferential outer edge of the front substrate and no portion of the rear substrate protrudes beyond the front substrate. A first electrical connection establishes electrical connection at the front substrate and a second electrical connection may establish electrical connection at the rear substrate. An electrically conductive perimeter hiding band is disposed around a border region of the front substrate and substantially hides the seal and the electrical connections from view by a driver normally operating the vehicle and viewing the reflective element when the interior rearview mirror assembly is normally mounted in the vehicle. | 04-28-2011 |
20110102167 | DRIVER ATTITUDE DETECTION SYSTEM - A driver attitude detection system for a vehicle includes a forward facing imaging sensor for capturing image data of a scene occurring forwardly of and in the direction of forward travel of an equipped vehicle. An image processor is operable to process image data captured by the forward facing imaging sensor. A control, responsive at least in part to image processing by the image processor of the captured image data, is operable to determine driver performance and generate a control output indicative of driver performance. The driver attitude detection system may include at least one monitoring device for monitoring a vehicle characteristic of the equipped vehicle, and the control may, responsive at least in part to the at least one monitoring device, be operable to determine driver performance and generate the control output. | 05-05-2011 |
20110128137 | VEHICULAR BLIND SPOT INDICATOR MIRROR - A vehicular blind spot indicator mirror includes a transparent glass substrate having a mirror reflector coated onto the substrate. Visible light reflectance by the mirror reflector coated substrate is at least about 40 percent visible light reflectance for visible light incident upon a front side of the mirror reflector coated substrate. A blind spot indicator light display is disposed to the rear of the mirror reflector coated substrate and emits visible light upon a detection by a blind spot detector. Light emitted by the display passes through the transparent glass substrate to be viewed by a viewer viewing from the front side of the substrate. The display is operable, when electrically powered and when operated in the vehicle during day time driving conditions, to exhibit a display luminance of at least about 60 foot lamberts as measured with the display placed behind, and emitting light through, the transparent glass substrate. | 06-02-2011 |
20110170192 | INTERIOR REARVIEW MIRROR ASSEMBLY - A vehicular interior rearview mirror assembly includes an electro-optic reflective element, a photo sensor and a light concentrator. The electro-optic reflective element has a front substrate with a first surface and a transparent second surface electrically conductive coating disposed on a second surface, and the electro-optic reflective element has a rear substrate with a third surface transflective metallic reflector disposed at a third surface thereof. The photo sensor is disposed behind a fourth surface of the rear substrate and operable to detect light passing through the transflective metallic reflector and the electro-optic reflective medium disposed between the second and third surfaces. The light concentrator is disposed between the photo sensor and the fourth surface of the rear substrate, and the light concentrator receives light passing through the transflective metallic reflector of the electro-optic reflective element and concentrates light onto a light sensing surface of the photo sensor. | 07-14-2011 |
20120026571 | ELECTRO-OPTIC REARVIEW MIRROR ASSEMBLY FOR VEHICLE - A reflective element assembly for a vehicular mirror assembly includes a front substrate, a rear substrate, an electro-optic medium disposed between the front and rear substrates and a transmission-reducing thin film coating established at the fourth surface of the rear substrate. A window is established through the transmission-reducing thin film coating and is substantially devoid of the thin film coating at a location where a sensor is disposed behind the reflective element and having a field of view through the reflective element and through the window. A portion of the transmission-reducing thin film coating at and around the window locally varies in physical thickness, with a minimum physical thickness of the thin film coating being closest to the window and with the physical thickness of the thin film coating generally increasing to a generally maximum physical thickness of the thin film coating at a distance from the window. | 02-02-2012 |
20120281268 | INTERIOR REARVIEW MIRROR SYSTEM FOR A VEHICLE - An interior rearview mirror system for a vehicle includes an interior rearview mirror assembly including an electrochromic reflective element. A transflective mirror reflector is established at a third surface of a rear substrate of the mirror assembly. The mirror reflector has at least three layers, including a metallic layer, a transparent conductive metal oxide layer and a transparent dielectric metal oxide layer. The metallic layer is closer to the electrochromic medium than the transparent conductive metal oxide layer and the transparent dielectric metal oxide layer, and the transparent conductive metal oxide layer and the transparent dielectric metal oxide layer are disposed between the metallic layer and the third surface of the rear substrate. The at least three layers of the mirror reflector are established at the third surface of the rear substrate by a vacuum deposition process that includes sputtering from multiple sputtering targets in a single vacuum deposition chamber. | 11-08-2012 |
20120287495 | MIRROR REFLECTIVE ELEMENT - A variable reflectance vehicular electro-optic rearview mirror reflective element assembly includes a front substrate and a rear substrate and a perimeter seal disposed therebetween. The front substrate has a first surface and a second surface that has a transparent electrically conductive coating disposed thereat. The rear substrate has a third surface and a fourth surface, with the third surface having a conductive coating disposed thereat. The perimeter seal spaces the front and rear substrates apart and forms an interpane cavity therebetween. The third surface conductive coating includes a plurality of layers, which includes a first layer of nickel chromium. The first layer of nickel chromium is overcoated with a silver or silver alloy layer, and the silver or silver alloy layer is overcoated with a second layer of nickel chromium, and the second layer of nickel chromium is overcoated with a reflective layer. | 11-15-2012 |
20120320444 | REARVIEW MIRROR ELEMENT ASSEMBLY FOR VEHICLE - A rearview mirror element assembly includes an electrochromic reflective element having a primary viewing region operable to exhibit electrically variable reflectivity, with a specularly reflective mirror reflector established at a third surface of a rear substrate at the primary viewing region. An auxiliary viewing region provides an auxiliary wide angle view of a blind spot to the side of a vehicle when the electrochromic reflective element is used in an exterior rearview mirror assembly mounted at a side of a vehicle. A specularly reflective demarcating layer is established at a second surface of a front substrate of the electrochromic reflective element and, at least in part, is visible through the front substrate to a viewer when viewing the first surface of the front substrate of the electrochromic reflective element. The demarcating layer at least partially traverses the reflective element adjacent the auxiliary viewing region. | 12-20-2012 |
20120325794 | MIRROR REFLECTIVE ELEMENT ASSEMBLY FOR AN EXTERIOR MIRROR ASSEMBLY - A variable reflectance mirror reflective element assembly for an exterior mirror assembly includes a heater pad disposed at the fourth surface of the rear substrate. The heater pad includes a first connector that electrically connects with the transparent electrically conductive coating disposed at the second surface of the front substrate, and a second connector that electrically connects with the metallic electrically conductive coating disposed at the third surface of the rear substrate. The heater pad includes third and fourth connectors that provide, at least in part, electrical conductive connection with a heating element. The connectors are part of a unitary multi-pin connector that is configured to connect with a corresponding wire harness connector to provide electrical power to the heating element and to the transparent electrically conductive coating and the metallic electrically conductive coating of the reflective element when the exterior minor assembly is mounted at the vehicle. | 12-27-2012 |
20130033736 | VARIABLE REFLECTANCE MIRROR REFLECTIVE ELEMENT FOR EXTERIOR MIRROR ASSEMBLY - A variable reflectance mirror reflective element includes a front substrate and a rear substrate and an electrochromic medium disposed therebetween, with no part of the rear substrate extending beyond any part of the front substrate. A mirror reflector is disposed at a third surface of the rear substrate and includes a stack of thin films having at least one metal thin film. A perimeter layer is disposed at a second surface of the front substrate proximate a perimeter edge of the front substrate and generally conceals the perimeter seal from view by a person viewing through the front substrate. Light that reflects off of the mirror reflector and passes through the electrochromic medium and the front substrate has a substantially untinted reflectant characteristic to a person viewing the mirror reflective element when no voltage is applied to the electrochromic medium. | 02-07-2013 |
20130107563 | EXTERIOR REARVIEW MIRROR ASSEMBLY | 05-02-2013 |
20130314760 | REARVIEW MIRROR ASSEMBLY FOR VEHICLE - A rearview mirror assembly for a vehicle includes an electrochromic reflective element having a specularly reflective perimeter layer established at least partially around a perimeter border region of a second surface of a front substrate. The perimeter layer is, at least in part, visible through the front substrate to a viewer when viewing the first surface of the front substrate of the reflective element. The perimeter layer conceals at least a portion of the seal from direct view by the driver of the vehicle. At least one of (a) at least one light source is disposed behind the perimeter layer and emits light that is visible to a viewer viewing the first surface of the front substrate of the reflective element at the perimeter layer, and (b) a light sensor is disposed behind the perimeter layer and senses light that passes through the front substrate at the perimeter layer. | 11-28-2013 |
20130314761 | ELECTRO-OPTIC REARVIEW MIRROR ASSEMBLY FOR VEHICLE - A reflective element assembly for a vehicular rearview mirror assembly includes front and rear substrates with an electro-optic medium disposed therebetween. An electrical connector has an attachment portion and a wire receiving portion for receiving an electrical wire therein. A flange of the attachment portion is configured to be disposed at a fourth surface of the rear substrate and a tab is configured to extend at least partially across a perimeter edge of the rear substrate. An electrically conductive material is disposed in an uncured state and uncured electrically conductive material flows at least partially through the aperture and is cured to secure the electrical connector at the rear substrate. The wire receiving portion of the electrical connector is configured to receive the electrical wire therein and includes at least one tang that engages the electrical wire when the electrical wire is inserted into the wire receiving portion. | 11-28-2013 |
20130321893 | VARIABLE REFLECTANCE MIRROR REFLECTIVE ELEMENT FOR EXTERIOR MIRROR ASSEMBLY - An exterior mirror reflective element includes front and rear substrates and a mirror reflector having a stack of thin films. No part of the rear substrate extends beyond any part of the front substrate. A perimeter layer is disposed at a second surface of the front substrate proximate a perimeter edge of the front substrate. Light that reflects off of the mirror reflector and passes through the electrochromic medium and the front substrate exhibits a substantially non-spectrally selective reflectance characteristic to a person viewing the reflective element when no voltage is applied to the electrochromic medium. The substantially non-spectrally selective reflectance characteristic is established by the refractive index and physical thickness of the individual thin films of the stack of thin films. At least a portion of the mirror reflector extends out under the seal towards a perimeter edge of the rear substrate. | 12-05-2013 |
20140173894 | METHOD OF COATING A REAR GLASS SUBSTRATE FOR AN ELECTROCHROMIC MIRROR REFLECTIVE ELEMENT - A method of coating a rear glass substrate for an electrochromic reflective element includes providing a fixture having a recess and a masking element extending from a perimeter region of the recess over a portion of the recess. The masking element includes a disc portion and an arm portion extending between the disc portion and the perimeter region of the recess of the fixture. A rear glass substrate is positioned in the recess and the masking element extends over and is spaced from the surface of the glass substrate. The glass substrate surface is coated with a mirror reflector coating. The masking element is shaped such that the mirror reflector coating is deposited at the surface behind the arm portion but is substantially not deposited behind the disc portion so as to establish a window region through the mirror reflector coating at the glass substrate surface. | 06-26-2014 |
20140192520 | REARVIEW MIRROR ASSEMBLY FOR VEHICLE - A mirror element sub-assembly for a vehicular exterior rearview mirror assembly includes a mirror reflective element, a mirror back plate and an indicator. The front side of the mirror back plate includes a reflective element attaching portion and the rear side of the mirror back plate includes (i) an actuator attaching portion and (ii) an indicator attaching portion, all of which are integrally formed during injection molding of the mirror back plate. The indicator attaching portion includes structure extending from the rear side of the mirror back plate and having a passageway therethrough. The indicator is attached at the structure, and light emitted by the indicator passes through the passageway and through an opening of the mirror back plate and through the mirror reflective element so as to exit from the mirror reflective element at an angle relative to the reflective element attaching portion. | 07-10-2014 |
20140197025 | HOT TILE SPUTTERING SYSTEM - A method of sputter coating a glass substrate includes providing a glass substrate and providing a sputtering assembly for sputtering a coating onto the glass substrate in a vacuum deposition chamber. The sputtering assembly includes a backing plate and a separating element disposed on the backing plate. At least one target element is provided and disposed at and in contact with a surface of the separating element. The target element is not bonded the separating element when disposed at and in contact with the surface of the separating element. An expansion gap is provided at or adjacent to the target element to allow for expansion of the target element during the sputtering process. Material from the target element is sputtered and the target element is heated to a substantially elevated temperature during the sputtering process. The sputtering process coats a surface of the glass substrate with the target element material. | 07-17-2014 |
20140285865 | VARIABLE REFLECTANCE MIRROR REFLECTIVE ELEMENT FOR EXTERIOR MIRROR ASSEMBLY - A variable reflectance mirror reflective element for a vehicular exterior rearview mirror assembly includes a front substrate and a rear substrate, with an electrochromic medium disposed therebetween. A mirror reflector is disposed at a third surface of the rear substrate and includes a stack of thin films and has a sheet resistance of less than about 5 ohms per square. Light that reflects off of the mirror reflector and passes through the electrochromic medium and the front substrate exhibits a substantially non-spectrally selective reflectance characteristic to a person viewing the exterior mirror reflective element when no voltage is applied to the electrochromic medium. At least a portion of the mirror reflector extends out under the seal towards a perimeter edge of the rear substrate. An electrical connection, which may include a conductive epoxy, is made to the portion of the mirror reflector outboard of the perimeter seal. | 09-25-2014 |
20140340925 | EXTERIOR REARVIEW MIRROR ASSEMBLY - An exterior rearview mirror assembly suitable for a vehicle includes an attachment portion and a casing portion having a variable reflectance mirror reflective element. A mirror reflector is disposed at at least a portion of a surface of a rear substrate of the reflective element. The mirror reflector includes a stack of thin films having at least a first metal thin film and a second metal thin film. The first metal thin film is formed of a metal material that has a specific resistivity of less than about 1×10 | 11-20-2014 |