公开(公告)号：US20100164914A1

公开(公告)日：2010-07-01

申请号：US12527151

申请日：2008-02-13

Applicant: Micheal Cassidy

Inventor： Micheal Cassidy

IPC: G09G5/00

CPC classification number: G09G3/38 ,  G09G2300/0465 ,  G09G2300/0809 ,  G09G2300/0819 ,  G09G2300/0833 ,  G09G2320/0242 ,  G09G2320/0252 ,  G09G2330/021 ,  G09G2380/02

Abstract: The present invention is a driving circuit for use with reflective display devices. In a preferred embodiment, the display device is a pixilated, active matrix electrochromic device. The inventive circuit includes a sampling capacitor and a plurality of inverters. The sampling circuit quickly stores a data voltage. Addressing of a plurality of electrochromic pixels in an active matrix is thereby accelerated. The inverters are coupled to a relatively high and low power source for quickly driving the electrochromic pixel to the stored data voltage. The circuit of the present invention permits rapid refreshing of electrochromic pixels in an active matrix and achieves color gradients without bleaching and recharging the electrochromic pixel.

Abstract translation: 本发明是与反射型显示装置一起使用的驱动电路。 在优选实施例中，显示装置是像素化的有源矩阵电致变色装置。 本发明的电路包括采样电容器和多个逆变器。 采样电路快速存储数据电压。 从而加速了有源矩阵中的多个电致变色像素的寻址。 逆变器耦合到相对较高和较低的电源，用于将电致变色像素快速驱动到存储的数据电压。 本发明的电路允许有源矩阵中的电致变色像素的快速刷新并且实现色彩梯度而不使电致变色像素漂白和再充电。

公开(公告)号：US20080246748A1

公开(公告)日：2008-10-09

申请号：US12077788

申请日：2008-03-21

Applicant: Micheal Cassidy ,  Alain Briancon ,  David Corr ,  Michael Ryan

Inventor： Micheal Cassidy ,  Alain Briancon ,  David Corr ,  Michael Ryan

IPC: G09G3/00 ,  G02F1/133

CPC classification number: G02F1/1533 ,  G02F1/13336 ,  G02F1/163

Abstract: A display having a front plane, a back plane and a border edge. The display includes a color changing cell located behind the front plane of the device and a first and second electrically conducting attachment layer. The color changing cell includes an active color layer having at least one active color area. The active color layer is associated with a first electrically conducting layer which overlaps at least one active color area. The color changing cell also includes a counter layer associated with a second electrically conducting layer. A first electrically conducting attachment layer extends from the active color area and overlaps the first electrically conducting layer. A second electrically conducting attachment layer extends from the counter layer and overlaps the second electrically conducting layer. The display may be coupled to an electronic circuit for use in a variety of applications. The display may also be used to form a device having a plurality of displays.

Abstract translation: 具有前平面，后平面和边缘的显示器。 显示器包括位于设备的前平面之后的变色单元以及第一和第二导电附着层。 变色单元包括具有至少一个有效颜色区域的活性色层。 有源彩色层与与至少一个有效颜色区域重叠的第一导电层相关联。 变色单元还包括与第二导电层相关联的对置层。 第一导电附着层从有源颜色区域延伸并与第一导电层重叠。 第二导电附着层从相对层延伸并与第二导电层重叠。 显示器可以耦合到用于各种应用的电子电路。 显示器也可以用于形成具有多个显示器的设备。

公开(公告)号：US20120038967A1

公开(公告)日：2012-02-16

申请号：US13203146

申请日：2010-02-24

Applicant: Gavin Copeland ,  Alain Briancon ,  Martin Moeller ,  Nigel Leyland ,  Chris Giacoponello ,  Micheal Cassidy ,  Christian Grave ,  David Corr ,  David Bevk ,  Michael Ryan

Inventor： Gavin Copeland ,  Alain Briancon ,  Martin Moeller ,  Nigel Leyland ,  Chris Giacoponello ,  Micheal Cassidy ,  Christian Grave ,  David Corr ,  David Bevk ,  Michael Ryan

IPC: G02F1/155

CPC classification number: G02F1/1523 ,  C09K9/02 ,  C09K2211/1007 ,  C09K2211/1029 ,  G02F1/15 ,  G02F1/1525 ,  G02F1/1533 ,  G02F1/155 ,  G02F1/157 ,  G09G3/38

Abstract: The present invention provides for a display device and a method to manufacture the display device. The display device includes: a transparent layer; a coloring electrode; a separator; a second electrode; an electrolyte permeating throughout the display device; and a back layer positioned on the back side of the display. The transparent layer, which has a top surface and a bottom surface, is positioned at the viewer side of the display. The coloring electrode is positioned on the transparent layer bottom surface and includes: a connected conductor system formed from one or more heterogeneous conductive layers and a coloring layer, with the proviso that the heterogeneous conductive layers are not positioned between the transparent layer bottom surface and the coloring layer. The conductor heterogeneity includes variations in one or more of: conductor material composition; conductor layer dimension; conductor layer pattern; conductor layer grid design, and combinations thereof. The separator layer is positioned between the coloring electrode and the second electrode.

Abstract translation: 本发明提供一种显示装置和制造该显示装置的方法。 显示装置包括：透明层; 着色电极; 分隔符 第二电极; 渗透整个显示装置的电解质; 以及位于显示器背面的背层。 具有顶表面和底表面的透明层位于显示器的观察者侧。 着色电极位于透明层底表面上，包括：由一个或多个非均匀导电层和着色层形成的连接导体系，条件是不均匀导电层不位于透明层底表面和 着色层。 导体异质性包括：导体材料组成中的一种或多种的变化; 导体层尺寸; 导体层图案; 导体层网格设计及其组合。 隔离层位于着色电极和第二电极之间。

公开(公告)号：US20100220378A1

公开(公告)日：2010-09-02

申请号：US12738039

申请日：2008-10-15

Applicant: Martin Moeller ,  Henrik Lindstrom ,  Michael Ryan ,  David Corr ,  Alain Briancon ,  Micheal Cassidy

Inventor： Martin Moeller ,  Henrik Lindstrom ,  Michael Ryan ,  David Corr ,  Alain Briancon ,  Micheal Cassidy

IPC: G02F1/153 ,  G02F1/163

CPC classification number: G02F1/163 ,  G02F1/155

Abstract: A device is disclosed that combines a battery system with an electrochromic system by judicious selection of electrodes and the connection of the appropriate electrodes to generate internal as well as external current flows. This system allows the elimination of a battery component reducing cost and improving manufacturing yield by reduction of the number of parts and number of interconnections. However, the design can be further extended to the combination of a battery system with a sensing system.

Abstract translation: 公开了一种通过明智地选择电极和连接适当的电极以产生内部和外部电流来将电池系统与电致变色系统组合的装置。 该系统通过减少部件数量和互连数量，可以消除电池组件降低成本并提高制造成品率。 然而，该设计可以进一步扩展到电池系统与感测系统的组合。

公开(公告)号：US07420727B2

公开(公告)日：2008-09-02

申请号：US11536316

申请日：2006-09-28

Applicant: Micheal Cassidy

Inventor： Micheal Cassidy

IPC: G02F1/15 ,  G02F1/153 ,  G09G3/19 ,  G09G3/38

CPC classification number: G02F1/15 ,  G02F1/157 ,  G02F1/163 ,  G02F2001/1635 ,  G02F2201/42

Abstract: The present invention is an active matrix electrochromic display architecture where the active components are placed on the backplane of the display, thereby maximizing the viewable pixel area. The cathode of the electrochromic pixel is placed on top of the active components, with respect to the viewer, thereby allowing the active components to be as large as desired while not interfering with the viewable area of the pixel.

Abstract translation: 本发明是一种有源矩阵电致变色显示结构，其中有源部件被放置在显示器的背板上，从而使可见像素面积最大化。 相对于观察者，电致变色像素的阴极被放置在有源部件的顶部上，从而允许有源部件在不干扰像素的可视区域的同时要求尽可能大。

公开(公告)号：US20070182706A1

公开(公告)日：2007-08-09

申请号：US11622862

申请日：2007-01-12

Applicant: Micheal Cassidy ,  Nigel Leyland ,  David Corr

Inventor： Micheal Cassidy ,  Nigel Leyland ,  David Corr

IPC: G09G3/34

CPC classification number: G02F1/133553 ,  G02B5/02 ,  G02B5/0808 ,  G02F1/133512 ,  G02F1/133514 ,  G02F1/157 ,  G02F1/167 ,  G02F2203/09

Abstract: An enhanced reflective layer is described herein for use in a display device. Displays including the enhanced reflective layer are also described. The enhanced reflective layer includes particles that reflect, absorb or emit light with desired properties to enhance the display properties. Use of the enhanced reflective layer in displays allows, among other features, full color active matrix reflective or transflective displays.

Abstract translation: 这里描述了用于显示装置的增强反射层。 还描述了包括增强反射层的显示器。 增强的反射层包括以期望的性质反射，吸收或发出光以增强显示性质的颗粒。 除了其它特征之外，在显示器中使用增强的反射层允许全色有源矩阵反射或半透反射显示器。

公开(公告)号：US08786932B2

公开(公告)日：2014-07-22

申请号：US13203146

申请日：2010-02-24

Applicant: Gavin Copeland ,  Alain Briancon ,  Martin Moeller ,  Nigel Leyland ,  Chris Giacoponello ,  Micheal Cassidy ,  Christian Grave ,  David Corr ,  David Bevk ,  Michael Ryan

Inventor： Gavin Copeland ,  Alain Briancon ,  Martin Moeller ,  Nigel Leyland ,  Chris Giacoponello ,  Micheal Cassidy ,  Christian Grave ,  David Corr ,  David Bevk ,  Michael Ryan

IPC: G02F1/155 ,  G02F1/15 ,  G09G3/38

CPC classification number: G02F1/1523 ,  C09K9/02 ,  C09K2211/1007 ,  C09K2211/1029 ,  G02F1/15 ,  G02F1/1525 ,  G02F1/1533 ,  G02F1/155 ,  G02F1/157 ,  G09G3/38

Abstract: The present invention provides for a display device and a method to manufacture the display device. The display device includes: a transparent layer; a coloring electrode; a separator; a second electrode; an electrolyte permeating throughout the display device; and a back layer positioned on the back side of the display. The transparent layer, which has a top surface and a bottom surface, is positioned at the viewer side of the display. The coloring electrode is positioned on the transparent layer bottom surface and includes: a connected conductor system formed from one or more heterogeneous conductive layers and a coloring layer, with the proviso that the heterogeneous conductive layers are not positioned between the transparent layer bottom surface and the coloring layer. The conductor heterogeneity includes variations in one or more of: conductor material composition; conductor layer dimension; conductor layer pattern; conductor layer grid design, and combinations thereof. The separator layer is positioned between the coloring electrode and the second electrode.

Abstract translation: 本发明提供一种显示装置和制造该显示装置的方法。 显示装置包括：透明层; 着色电极; 分隔符 第二电极; 渗透整个显示装置的电解质; 以及位于显示器背面的背层。 具有顶表面和底表面的透明层位于显示器的观察者侧。 着色电极位于透明层底表面上，包括：由一个或多个非均匀导电层和着色层形成的连接导体系，条件是不均匀导电层不位于透明层底表面和 着色层。 导体异质性包括：导体材料组成中的一种或多种的变化; 导体层尺寸; 导体层图案; 导体层网格设计及其组合。 隔离层位于着色电极和第二电极之间。

公开(公告)号：US20110050756A1

公开(公告)日：2011-03-03

申请号：US12874660

申请日：2010-09-02

Applicant: Micheal Cassidy ,  Alain Briancon

Inventor： Micheal Cassidy ,  Alain Briancon

IPC: G09G5/10 ,  G09G5/00

CPC classification number: G09G3/20 ,  G09G2330/02

Abstract: The application describes a device using a display and a method to control the display device in a low power consumption manner. The device may be geared towards disposable use and manufactured using printed electronics techniques. A simple controller system may adapt the state of the device based on type and status of power source(s), or with respect to application specific requirements within the life-cycle of the device.

Abstract translation: 该应用描述了使用显示器的设备和以低功耗方式控制显示设备的方法。 该装置可以面向一次性使用并且使用印刷电子技术制造。 简单的控制器系统可以基于电源的类型和状态或者在设备的生命周期内针对应用特定要求来适应设备的状态。

公开(公告)号：US07403319B2

公开(公告)日：2008-07-22

申请号：US11622751

申请日：2007-01-12

Applicant: Nigel Leyland ,  David Corr ,  Micheal Cassidy ,  Francois Pichot ,  Nikolaos Vlachopoulos ,  Michael Ryan

Inventor： Nigel Leyland ,  David Corr ,  Micheal Cassidy ,  Francois Pichot ,  Nikolaos Vlachopoulos ,  Michael Ryan

IPC: G02F1/153 ,  G02F1/15 ,  G09G3/38

CPC classification number: G02F1/1525 ,  G02F2202/022

Abstract: An electrochromic device in which specific channel direction for the conduction of ions is implemented. As a result ionic crosstalk between display pixels is greatly reduced and unwanted transient coloration effects are minimized. Further, specific gel, polymer, or ionic liquid solutions can greatly eliminate the corrosive effects associated with the use of electrolyte salt solutions.

Abstract translation: 实现用于导电离子的特定通道方向的电致变色器件。 因此，显着像素之间的离子串扰被大大降低，并且不期望的瞬时着色效应被最小化。 此外，特定的凝胶，聚合物或离子液体溶液可以大大消除与使用电解质盐溶液相关的腐蚀作用。

公开(公告)号：US20070182705A1

公开(公告)日：2007-08-09

申请号：US11622751

申请日：2007-01-12

Applicant: Nigel Leyland ,  David Corr ,  Micheal Cassidy ,  Francois Pichot ,  Nikolaos Vlachopoulos ,  Michael Ryan

Inventor： Nigel Leyland ,  David Corr ,  Micheal Cassidy ,  Francois Pichot ,  Nikolaos Vlachopoulos ,  Michael Ryan

IPC: G09G3/34

CPC classification number: G02F1/1525 ,  G02F2202/022

Abstract: An electrochromic device in which specific channel direction for the conduction of ions is implemented. As a result ionic crosstalk between display pixels is greatly reduced and unwanted transient coloration effects are minimized. Further, specific gel, polymer, or ionic liquid solutions can greatly eliminate the corrosive effects associated with the use of electrolyte salt solutions.

Abstract translation: 实现用于导电离子的特定通道方向的电致变色器件。 因此，显着像素之间的离子串扰被大大降低，并且不期望的瞬时着色效应被最小化。 此外，特定的凝胶，聚合物或离子液体溶液可以大大消除与使用电解质盐溶液相关的腐蚀作用。