公开(公告)号：US20120285990A1

公开(公告)日：2012-11-15

申请号：US13568278

申请日：2012-08-07

Applicant: Ron Abernathy ,  Alec J. Babiarz ,  Nicholas Anthony Barendt ,  Robert Ciardella ,  James Everett Cooper, JR. ,  Kenneth S. Espenschied ,  Erik Fiske ,  Christopher L. Giusti ,  Patrick R. Jenkins ,  Alan Lewis ,  Raymond Andrew Merritt ,  Naoya Ian Nagano ,  Horatio Quinones ,  Thomas Ratledge ,  Joe Sherman ,  Floriana Suriawidjaja ,  Todd Weston

Inventor： Ron Abernathy ,  Alec J. Babiarz ,  Nicholas Anthony Barendt ,  Robert Ciardella ,  James Everett Cooper, JR. ,  Kenneth S. Espenschied ,  Erik Fiske ,  Christopher L. Giusti ,  Patrick R. Jenkins ,  Alan Lewis ,  Raymond Andrew Merritt ,  Naoya Ian Nagano ,  Horatio Quinones ,  Thomas Ratledge ,  Joe Sherman ,  Floriana Suriawidjaja ,  Todd Weston

IPC: B05C11/00

CPC classification number: B05C11/1034 ,  B05C5/001 ,  B05C5/0225 ,  B05C11/10 ,  G05D7/0629 ,  H05K3/28 ,  H05K3/3484 ,  H05K2203/0736

Abstract: A viscous material noncontact jetting system has a jetting dispenser mounted for relative motion with respect to a surface. A control is operable to cause the jetting dispenser to jet a viscous material droplet that is applied to the surface as a viscous material dot. A device, such as a camera or weigh scale, is connected to the control and provides a feedback signal representing a size-related physical characteristic of the dot applied to the surface. The size-related physical characteristics of subsequently applied dots is controlled by heating and cooling, or adjusting a piston stroke in the jetting dispenser, in response to the size-related physical characteristic feedback. Dispensed material volume control and velocity offset compensation are also provided.

Abstract translation: 粘性材料非接触喷射系统具有安装成相对于表面相对运动的喷射分配器。 控制器可操作以使喷射分配器喷射作为粘性材料点施加到表面的粘性物质液滴。 诸如相机或称重秤的装置连接到控制器，并且提供表示应用于表面的点的与尺寸有关的物理特性的反馈信号。 响应于尺寸相关的物理特性反馈，随后施加的点的尺寸相关的物理特性由加热和冷却或喷射分配器中的活塞行程调节来控制。 还提供分配材料体积控制和速度偏移补偿。

公开(公告)号：US07939125B2

公开(公告)日：2011-05-10

申请号：US12940360

申请日：2010-11-05

Applicant: Ron Abernathy ,  Alec J. Babiarz ,  Nicholas Anthony Barendt ,  Robert Ciardella ,  James Everett Cooper, Jr. ,  Kenneth S. Espenschied ,  Erik Fiske ,  Christopher L. Giusti ,  Patrick R. Jenkins ,  Alan Lewis ,  Raymond Andrew Merritt ,  Naoya Ian Nagano ,  Horatio Quinones ,  Thomas Ratledge ,  Joe Sherman ,  Floriana Suriawidjaja ,  Todd Weston

Inventor： Ron Abernathy ,  Alec J. Babiarz ,  Nicholas Anthony Barendt ,  Robert Ciardella ,  James Everett Cooper, Jr. ,  Kenneth S. Espenschied ,  Erik Fiske ,  Christopher L. Giusti ,  Patrick R. Jenkins ,  Alan Lewis ,  Raymond Andrew Merritt ,  Naoya Ian Nagano ,  Horatio Quinones ,  Thomas Ratledge ,  Joe Sherman ,  Floriana Suriawidjaja ,  Todd Weston

IPC: C23C16/52

CPC classification number: B05C11/1034 ,  B05C5/001 ,  B05C5/0225 ,  B05C11/10 ,  G05D7/0629 ,  H05K3/28 ,  H05K3/3484 ,  H05K2203/0736

Abstract: A viscous material noncontact jetting system has a jetting dispenser mounted for relative motion with respect to a surface. A control is operable to cause the jetting dispenser to jet a viscous material droplet that is applied to the surface as a viscous material dot. A device, such as a camera or weigh scale, is connected to the control and provides a feedback signal representing a size-related physical characteristic of the dot applied to the surface. The size-related physical characteristics of subsequently applied dots is controlled by heating and cooling, or adjusting a piston stroke in the jetting dispenser, in response to the size-related physical characteristic feedback. Dispensed material volume control and velocity offset compensation are also provided.

Abstract translation: 粘性材料非接触喷射系统具有安装成相对于表面相对运动的喷射分配器。 控制器可操作以使喷射分配器喷射作为粘性材料点施加到表面的粘性物质液滴。 诸如相机或称重秤的装置连接到控制器，并且提供表示应用于表面的点的与尺寸有关的物理特性的反馈信号。 响应于尺寸相关的物理特性反馈，随后施加的点的尺寸相关的物理特性由加热和冷却或喷射分配器中的活塞行程调节来控制。 还提供分配材料体积控制和速度偏移补偿。

公开(公告)号：US20240314941A1

公开(公告)日：2024-09-19

申请号：US18672618

申请日：2024-05-23

Applicant: Kateeva, Inc.

Inventor： Eliyahu Vronsky ,  Karl Mathia ,  Alexander Sou-Kang Ko

IPC: H05K3/46 ,  B05C5/02 ,  B05D5/12 ,  B41J2/01 ,  B41J3/407 ,  B41J13/00 ,  B41J29/393 ,  H01L21/67 ,  H01L21/677 ,  H01L21/68 ,  H01L21/683 ,  H10K71/13 ,  H10K99/00

CPC classification number: H05K3/4644 ,  B05C5/0208 ,  B05D5/12 ,  B41J3/407 ,  B41J13/0027 ,  B41J29/393 ,  H05K3/4679 ,  H10K99/00 ,  B41J2/01 ,  H01L21/67 ,  H01L21/6715 ,  H01L21/6776 ,  H01L21/67784 ,  H01L21/68 ,  H01L21/683 ,  H05K2203/0104 ,  H05K2203/013 ,  H05K2203/0736 ,  H05K2203/166 ,  H10K71/135

Abstract: A printer deposits material onto a substrate as part of a manufacturing process for an electronic product; at least one transported component experiences error, which affects the deposition. This error is mitigated using transducers that equalize position of the component, e.g., to provide an “ideal” conveyance path, thereby permitting precise droplet placement notwithstanding the error. In one embodiment, an optical guide (e.g., using a laser) is used to define a desired path; sensors mounted to the component dynamically detect deviation from this path, with this deviation then being used to drive the transducers to immediately counteract the deviation. This error correction scheme can be applied to correct for more than type of transport error, for example, to correct for error in a substrate transport path, a printhead transport path and/or split-axis transport non-orthogonality.

公开(公告)号：US09961783B2

公开(公告)日：2018-05-01

申请号：US15642188

申请日：2017-07-05

Applicant: Kateeva, Inc.

Inventor： Eliyahu Vronsky ,  Karl Mathia ,  Alexander Sou-Kang Ko

IPC: H01L21/67 ,  H01L21/68 ,  B05C5/02 ,  H01L23/02 ,  H01L23/28 ,  H05K3/46 ,  B05D5/12

CPC classification number: H05K3/4644 ,  B05C5/0208 ,  B05D5/12 ,  B41J2/01 ,  B41J3/407 ,  B41J13/0027 ,  B41J29/393 ,  H01L21/67 ,  H01L21/6715 ,  H01L21/6776 ,  H01L21/67784 ,  H01L21/68 ,  H01L21/683 ,  H05K3/4679 ,  H05K2203/0104 ,  H05K2203/013 ,  H05K2203/0736 ,  H05K2203/166

Abstract: A printer deposits material onto a substrate as part of a manufacturing process for an electronic product; at least one transported component experiences error, which affects the deposition. This error is mitigated using transducers that equalize position of the component, e.g., to provide an “ideal” conveyance path, thereby permitting precise droplet placement notwithstanding the error. In one embodiment, an optical guide (e.g., using a laser) is used to define a desired path; sensors mounted to the component dynamically detect deviation from this path, with this deviation then being used to drive the transducers to immediately counteract the deviation. This error correction scheme can be applied to correct for more than type of transport error, for example, to correct for error in a substrate transport path, a printhead transport path and/or split-axis transport non-orthogonality.

公开(公告)号：US20180110127A1

公开(公告)日：2018-04-19

申请号：US15568137

申请日：2016-04-27

Applicant: CENTRE NATIONAL DE LA RECHERCHE SCIENTIFIQUE ,  UNIVERSITE D'AIX MARSEILLE

Inventor： Anne Patricia Blanche ALLONCLE ,  Philippe Christian Maurice DELAPORTE

IPC: H05K3/12

CPC classification number: H05K3/1275 ,  H05K3/025 ,  H05K3/046 ,  H05K3/10 ,  H05K2201/0104 ,  H05K2201/0257 ,  H05K2203/0528 ,  H05K2203/0736 ,  H05K2203/108 ,  H05K2203/128

Abstract: The invention relates to a laser printing method that includes the following steps: (a) the provision of a receiver substrate (4); (b) the provision of a target substrate (5) comprising a transparent substrate (50) one surface of which has a coating has a coating (51) constituted of a solid metal film; (c) the localised irradiation of the said film (51) through the said transparent substrate (50) by means of a first laser (6) in order to reach the melting temperature of the metal in a target zone of the said film which is in liquid form; (d) the irradiation of the said liquid film through the said transparent substrate by means of a second laser on the said target zone defined in the step (c), in order to form a liquid jet in the said target zone and bring about the ejection thereof from the substrate in the form of molten metal; (e) the depositing on the receiver substrate of a molten metal drop over a defined receiving zone, with the said drop solidifying upon cooling.

公开(公告)号：US09788432B2

公开(公告)日：2017-10-10

申请号：US14728978

申请日：2015-06-02

Applicant: Second Sight Medical Products, Inc.

Inventor： Robert J Greenberg ,  Jerry Ok ,  Jordan Matthew Neysmith ,  Brian V Mech ,  Neil Hamilton Talbot

IPC: H05K3/00 ,  A61N1/05 ,  H05K3/06

CPC classification number: H05K3/0011 ,  A61N1/0543 ,  H05K3/0035 ,  H05K3/064 ,  H05K2203/0736 ,  H05K2203/095

Abstract: Polymer materials make useful materials as electrode array bodies for neural stimulation. They are particularly useful for retinal stimulation to create artificial vision. Regardless of which polymer is used, the basic construction method is the same. A layer of polymer is laid down. A layer of metal is applied to the polymer and patterned by wet etch to create electrodes and leads for those electrodes. The base polymer layer is activated. A second layer of polymer is applied over the metal layer and patterned to leave openings for the electrodes, or openings are created later by means such as laser ablation. Hence the array and its supply cable are formed of a single body.

公开(公告)号：US20150296626A1

公开(公告)日：2015-10-15

申请号：US14728978

申请日：2015-06-02

Applicant: Second Sight Medical Products, Inc.

Inventor： Robert J Greenberg ,  Jerry Ok ,  Jordan Matthew Neysmith ,  Brian V Mech ,  Neil Hamilton Talbot

IPC: H05K3/00 ,  H05K3/06 ,  A61N1/05

CPC classification number: H05K3/0011 ,  A61N1/0543 ,  H05K3/0035 ,  H05K3/064 ,  H05K2203/0736 ,  H05K2203/095

Abstract: Polymer materials make useful materials as electrode array bodies for neural stimulation. They are particularly useful for retinal stimulation to create artificial vision. Regardless of which polymer is used, the basic construction method is the same. A layer of polymer is laid down. A layer of metal is applied to the polymer and patterned by wet etch to create electrodes and leads for those electrodes. The base polymer layer is activated. A second layer of polymer is applied over the metal layer and patterned to leave openings for the electrodes, or openings are created later by means such as laser ablation. Hence the array and its supply cable are formed of a single body.

Abstract translation: 聚合物材料作为电极阵列体用于神经刺激。 它们对视网膜刺激特别有用，以产生人造视力。 不管使用哪种聚合物，基本的施工方法是一样的。 放置一层聚合物。 将一层金属施加到聚合物上并通过湿蚀刻图案以产生用于那些电极的电极和引线。 基础聚合物层被活化。 将第二层聚合物施加在金属层上并图案化以留下电极的开口，或稍后通过诸如激光烧蚀的手段产生开口。 因此阵列及其供电电缆由单体形成。

公开(公告)号：US09044590B2

公开(公告)日：2015-06-02

申请号：US13962752

申请日：2013-08-08

Applicant: Second Sight Medical Products, Inc.

Inventor： Robert J Greenberg ,  Jerry Ok ,  Jordan Matthew Neysmith ,  Brian V Mech ,  Neil Hamilton Talbot

IPC: A61N1/05

CPC classification number: H05K3/0011 ,  A61N1/0543 ,  H05K3/0035 ,  H05K3/064 ,  H05K2203/0736 ,  H05K2203/095

Abstract: Polymer materials make useful materials as electrode array bodies for neural stimulation. They are particularly useful for retinal stimulation to create artificial vision. Regardless of which polymer is used, the basic construction method is the same. A layer of polymer is laid down. A layer of metal is applied to the polymer and patterned to create electrodes and leads for those electrodes. A second layer of polymer is applied over the metal layer and patterned to leave openings for the electrodes, or openings are created later by means such as laser ablation. Hence the array and its supply cable are formed of a single body.

Abstract translation: 聚合物材料作为电极阵列体用于神经刺激。 它们对视网膜刺激特别有用，以产生人造视力。 不管使用哪种聚合物，基本的施工方法是一样的。 放置一层聚合物。 将一层金属施加到聚合物上并图案化以产生用于那些电极的电极和引线。 将第二层聚合物施加在金属层上并图案化以留下电极的开口，或稍后通过诸如激光烧蚀的手段产生开口。 因此阵列及其供电电缆由单体形成。

公开(公告)号：US20130319972A1

公开(公告)日：2013-12-05

申请号：US13962752

申请日：2013-08-08

Applicant: Second Sight Medical Products, Inc.

Inventor： Robert J. Greenberg ,  Jerry Ok ,  Jordan Matthew Neysmith ,  Brian V. Mech ,  Neil Hamilton Talbot

IPC: A61N1/05

CPC classification number: H05K3/0011 ,  A61N1/0543 ,  H05K3/0035 ,  H05K3/064 ,  H05K2203/0736 ,  H05K2203/095

Abstract: Polymer materials make useful materials as electrode array bodies for neural stimulation. They are particularly useful for retinal stimulation to create artificial vision. Regardless of which polymer is used, the basic construction method is the same. A layer of polymer is laid down. A layer of metal is applied to the polymer and patterned to create electrodes and leads for those electrodes. A second layer of polymer is applied over the metal layer and patterned to leave openings for the electrodes, or openings are created later by means such as laser ablation. Hence the array and its supply cable are formed of a single body.

Abstract translation: 聚合物材料作为电极阵列体用于神经刺激。 它们对视网膜刺激特别有用，以产生人造视力。 不管使用哪种聚合物，基本的施工方法是一样的。 放置一层聚合物。 将一层金属施加到聚合物上并图案化以产生用于那些电极的电极和引线。 将第二层聚合物施加在金属层上并图案化以留下电极的开口，或稍后通过诸如激光烧蚀的手段产生开口。 因此阵列及其供电电缆由单体形成。

公开(公告)号：US08524311B1

公开(公告)日：2013-09-03

申请号：US11926459

申请日：2007-10-29

Applicant: Robert J. Greenberg ,  Neil Hamilton Talbot ,  Jordan Matthew Neysmith ,  Jerry Ok ,  Brian V. Mech

Inventor： Robert J. Greenberg ,  Neil Hamilton Talbot ,  Jordan Matthew Neysmith ,  Jerry Ok ,  Brian V. Mech

IPC: A61N1/04

CPC classification number: H05K3/0011 ,  A61N1/0543 ,  H05K3/0035 ,  H05K3/064 ,  H05K2203/0736 ,  H05K2203/095

Abstract: Polymer materials make useful materials as electrode array bodies for neural stimulation. They are particularly useful for retinal stimulation to create artificial vision. Regardless of which polymer is used, the basic construction method is the same. A layer of polymer is laid down. A layer of metal is applied to the polymer and patterned to create electrodes and leads for those electrodes. A second layer of polymer is applied over the metal layer and patterned to leave openings for the electrodes, or openings are created later by means such as laser ablation. Hence the array and its supply cable are formed of a single body. A method for manufacturing a flexible circuit electrode array, comprises: a) depositing a metal trace layer on an insulator polymer base layer; b) applying a layer of photoresist on said metal trace layer and patterning said metal trace layer and forming metal traces on said insulator polymer base layer; and c) activating said insulator polymer base layer and depositing a top insulator polymer layer and forming one single insulating polymer layer with said base insulator polymer layer; wherein the insulator polymer layers were treated at a temperature from 80-150° C. and then at a temperature from 230-350° C.

Abstract translation: 聚合物材料作为电极阵列体用于神经刺激。 它们对视网膜刺激特别有用，以产生人造视力。 不管使用哪种聚合物，基本的施工方法是一样的。 放置一层聚合物。 将一层金属施加到聚合物上并图案化以产生用于那些电极的电极和引线。 将第二层聚合物施加在金属层上并图案化以留下电极的开口，或稍后通过诸如激光烧蚀的手段产生开口。 因此阵列及其供电电缆由单体形成。 一种制造柔性电路电极阵列的方法，包括：a）在绝缘体聚合物基层上沉积金属迹线层; b）在所述金属迹线层上施加一层光致抗蚀剂，并图案化所述金属迹线层并在所述绝缘体聚合物基底层上形成金属迹线; 以及c）激活所述绝缘体聚合物基层并沉积顶绝缘体聚合物层并与所述基础绝缘体聚合物层形成一个单一绝缘聚合物层; 其中绝缘体聚合物层在80-150℃的温度下然后在230-350℃的温度下进行处理