Kingpak Technology Inc. Patent applications |
Patent application number | Title | Published |
20150011038 | TWO-STAGE PACKAGING METHOD OF IMAGE SENSORS - A two-stage packaging method of image sensors is disclosed. The packaging method includes the following steps: providing a substrate, fixing an image sensor chip on the substrate, fixing a transparent board on the image sensor chip, electrically connecting the image sensor chip and the substrate, forming a first encapsulant lay, and forming a second encapsulant layer. The two-stage packaging method prevents excessive pressure from being generated by formation of the encapsulant layers during the image sensor packaging process. Such excessive pressure, if generated, may result in position shift of the image sensor chip or damage of the bonding wires. The two-stage packaging method can increase the yield of the image sensor packaging process as well as the sensitivity of image sensors, thereby improving the quality and production of image sensor packaging while lowering the manufacturing costs. | 01-08-2015 |
20140098287 | STRUCTURE AND MANUFACTURING METHOD FOR HIGH RESOLUTION CAMERA MODULE - The present invention discloses a structure and a manufacturing method for a high-resolution camera module, wherein the method includes the following steps: providing an image sensor wafer comprising multiple image sensor chips; performing inspection and defining if each image sensor chip is a good chip; disposing an optical cover on the image sensor chip defined as the good chip, wherein the optical cover faces a sensing area and does not cover conductive contacts; cutting the image sensor wafer to obtain the discrete image sensor chip covered with the optical cover; and disposing a first surface of the divided image sensor chip on a bottom surface of a ceramic substrate. The present invention can seal the high resolution camera module during early stage of the manufacturing process to improve the yield rate of the camera module, and downsize the camera module effectively. | 04-10-2014 |
20130149805 | METHOD FOR REDUCING TILT OF OPTICAL UNIT DURING MANUFACTURE OF IMAGE SENSOR - A method for reducing the tilt of an optical unit during manufacture of an image sensor includes the steps of: providing a semimanufacture of the image sensor, carrying out a preheating process, carrying out an adhesive application process, carrying out an optical unit mounting process, and carrying out a packaging process. Due to the preheating process, the semimanufacture will be subjected to a stabilized process environment during the adhesive application process and the optical unit mounting process, so as for the optical unit to remain highly flat once attached to the semimanufacture. The method reduces the chances of tilt and crack of the optical unit and thereby contributes to a high yield rate. | 06-13-2013 |
20120220065 | METHOD FOR REDUCING TILT OF TRANSPARENT WINDOW DURING MANUFACTURING OF IMAGE SENSOR - The present invention discloses a method for reducing the tilt of a transparent window during manufacturing of an image sensor. The method includes the following steps: providing a semimanufacture of the image sensor; carrying out a preheating process; carrying out an adhesive spreading process; carrying out a transparent window closing process; and carrying out a packaging process. By carrying out the preheating process, the environmental conditions can be stabilized during the adhesive spreading process and the transparent window closing process such that the transparent window can be kept highly flat after combining By the implementation of the present invention, the chance of tilt and crack of the transparent window during manufacturing of the image sensor can be reduced, thereby achieving the goal for a better yield rate. | 08-30-2012 |
20120068288 | MANUFACTURING METHOD OF MOLDED IMAGE SENSOR PACKAGING STRUCTURE WITH PREDETERMINED FOCAL LENGTH AND THE STRUCTURE USING THE SAME - A manufacturing method of a molded image sensor packaging structure with a predetermined focal length and the structure using the same are disclosed. The manufacturing method includes: providing a substrate; providing a sensor chip disposed on the substrate; providing a lens module set over the sensing area of the chip to form a semi-finished component; providing a mold that has an upper mold member with a buffer layer; disposing the semi-finished component into the mold to form a mold cavity therebetween; injecting a molding compound into the mold cavity; and after transfer molding the molding compound, opening the mold and performing a post mold cure process to cure the molding compound. The buffer layer can fill the air gap between the upper surface of the lens module and the upper mold member, thereby preventing the upper surface of the lens module from being polluted by the molding compound. | 03-22-2012 |
20110291215 | WAFER LEVEL IMAGE SENSOR PACKAGING STRUCTURE AND MANUFACTURING METHOD FOR THE SAME - The present invention discloses a wafer level image sensor packaging structure and a manufacturing method for the same. The manufacturing method includes the following steps: providing a silicon wafer with image sensor chips, providing a plurality of transparent lids, allotting one said transparent lid on top of the corresponding image sensor chip, and carrying out a packaging process. The manufacturing method of the invention has the advantage of having a simpler process, lower cost, and higher production yield rate. The encapsulation compound arranges on the first surface of the image sensor chip and covers the circumference of the transparent lid to avoid the side light leakage as traditional chip scale package (CSP). Thus, the sensing performance of the wafer level image sensor packaging structure can be enhanced. | 12-01-2011 |
20110279815 | MANUFACTURING METHOD AND STRUCTURE FOR WAFER LEVEL IMAGE SENSOR MODULE WITH FIXED FOCAL LENGTH - This present invention discloses a manufacturing method and structure for a wafer level image sensor module with fixed focal length. The method includes the following steps. First, a silicon wafer comprising several image sensor chips having a photosensitive area and a lens module array wafer comprising several wafer level lens modules with fixed focal length are provided. Next, the image sensor chips and the wafer level lens modules are sorted in grades according to the different quality grades. According to the sorting results, each of the wafer level lens modules is assigned to be situated above the image sensor chip that has the same grade. At the same time, each of the wafer level lens modules is directed to face the photosensitive area of each image sensor chip. Finally, in the packaging process, the wafer level lens module is surrounded by an encapsulation material. | 11-17-2011 |
20110241147 | WAFER LEVEL IMAGE SENSOR PACKAGING STRUCTURE AND MANUFACTURING METHOD OF THE SAME - The present invention discloses a wafer level image sensor packaging structure and a manufacturing method of the same. The manufacturing method includes the following steps: providing a silicon wafer, dicing the silicon wafer, providing a plurality of transparent lids, fabricating a plurality of semi-finished products, performing a packaging process, mounting solder balls, and cutting an encapsulant between the semi-finished products. The manufacturing method of the invention has the advantage of being straightforward, uncomplicated, and cost-saving. Thus, the wafer level image sensor package structure is lightweight, thin, and compact. To prevent the image sensor chip from cracking on impact during handling, the encapsulant will be arranged on the lateral sides of the semi-finished products during the packaging process. | 10-06-2011 |
20110241146 | MANUFACTURING METHOD AND STRUCTURE OF A WAFER LEVEL IMAGE SENSOR MODULE WITH PACKAGE STRUCTURE - The present invention discloses a manufacturing method and structure of a wafer level image sensor module with package structure. The structure of the wafer level image sensor module with package structure includes a semi-finished product, a plurality of solder balls, and an encapsulant. The semi-finished product includes an image sensing chip and a wafer level lens assembly. The encapsulant is disposed on lateral sides of the image sensing chip and the wafer level lens assembly. Also, the manufacturing method includes the steps of: providing a silicon wafer, dicing the silicon wafer, providing a lens assembly wafer, fabricating a plurality of semi-finished products, performing a packaging process, mounting the solder balls, and cutting the encapsulant. Accordingly, the encapsulant encapsulates each of the semi-finished products by being disposed on the lateral sides thereof. | 10-06-2011 |
20110156188 | IMAGE SENSOR PACKAGING STRUCTURE WITH LOW TRANSMITTANCE ENCAPSULANT - An image sensor packaging structure with a low transmittance encapsulant is provided. The image sensor packaging structure includes a substrate, a chip, a transparent lid, and the low transmittance encapsulant. The chip is combined with the substrate. The transparent lid is adhered to the chip and cover above a sensitization area of the chip to form an air cavity. The low transmittance encapsulant is formed on the substrate and encapsulates the chip and the transparent lid so as to accomplish the package of the image sensor packaging structure. Due to the feature of prohibiting from light passing through the low transmittance encapsulant, the arrangement of the low transmittance encapsulant can avoid the light from outside interfere the image sensing effect of the image sensor. Therefore, the quality of the image sensing can be ensured. | 06-30-2011 |
20110156187 | IMAGE SENSOR PACKAGING STRUCTURE WITH PREDETERMINED FOCAL LENGTH - An image sensor packaging structure with a predetermined focal length is provided. The image sensor packaging structure includes a substrate, a chip, an optical assembly, and an encapsulation compound. The chip has a sensitization area and is coupled to the substrate. Conductive contacts on the substrate are electrically connected with conductive contacts around the sensitization area. The optical assembly has the predetermined focal length and is disposed above the chip so as to form an air cavity between the optical assembly and the sensitization area of the chip. The encapsulation compound is formed on the substrate to surround the chip and the optical assembly. With the above stated structure, not only can the focus adjusting procedure be dispensed with, but also the image sensor packaging structure can be manufactured by a molding or dispensing process. | 06-30-2011 |
20110024862 | IMAGE SENSOR PACKAGE STRUCTURE WITH LARGE AIR CAVITY - The present invention discloses an image sensor package structure with a large air cavity. The image sensor package structure includes a substrate, a chip, a cover and a package material. The chip is combined with the substrate. A plastic sheet of the cover is adhered to the chip and a transparent lid of the cover is combined with the plastic sheet to provide a covering over a sensitization area of the chip so as to form an air cavity. The package material is arranged on the substrate and encapsulated around the chip and the cover. The plastic sheet having a predetermined thickness can increase the distance between the transparent lid and the chip to enlarge the air cavity. Thus, the image-sensing effect of the image sensor package structure can be improved and the ghost image problem resulting from multi-refraction and multi-reflection of light can be minimized. | 02-03-2011 |
20110024861 | MANUFACTURING METHOD FOR MOLDING IMAGE SENSOR PACKAGE STRUCTURE AND IMAGE SENSOR PACKAGE STRUCTURE THEREOF - A manufacturing method for molding an image sensor package structure and the image sensor package structure thereof are disclosed. The manufacturing method includes following steps of providing a half-finished image sensor for packaging, arranging a dam on the peripheral of a transparent lid of the half-finished image sensor, positioning the half-finished image sensor within a mold, and injecting a mold compound into the mold cavity of the mold. The dam is arranged on the top surface of the transparent lid and the inner surface of the mold can exactly contact with the top surface of dam so that the mold compound injected into the mold cavity is prevented from overflowing to the transparent lid by the dam. Furthermore, the arrangement of the dam and the mold compound can increase packaged areas and extend blockage to invasive moisture so as to enhance the reliability of the image sensor package structure. | 02-03-2011 |
20110024610 | IMAGE SENSOR PACKAGE STRUCTURE - The present invention discloses an image sensor package structure. The image sensor package structure includes a substrate, a chip, a transparent lid, a first casing and a package material. The transparent lid covers a sensitization area of the chip and it also adheres to the chip which is deposed on the substrate. The first casing, which adheres to the transparent lid, forms an opening so that light can pass through the opening and the transparent lid to enter into the sensitization area. The package material covers around the chip and the transparent lid and fills between the substrate and the first casing. Because of the arrangement of adhesive layers placed between the first casing and the transparent lid and between the transparent lid and the chip, the blockage area from moisture is elongated. Therefore, the reliability of the image sensor package structure can be enhanced. | 02-03-2011 |
20090045476 | IMAGE SENSOR PACKAGE AND METHOD FOR FORMING THE SAME - An image sensor package is provided including a substrate; a sensor chip; a plurality of bond wires for connecting the sensor chip to the substrate at predetermined locations; a sensor housing on the substrate for substantially encompassing the sensor chip, the sensor housing having a through-hole cavity defining an optical glass (IR filter) seat, the sensor housing defining an upper surface and an edge surface thereof; an optical glass (IR filter) on the optical glass (IR filter) seat; an encapsulation material for substantially encapsulating the upper surface and edge surface of the sensor housing, a corresponding surface of the substrate adjacent the edge surface of the sensor housing, and the side edge of the optical glass (IR filter); wherein the sensor housing is provided with a gas-exit allowing possible high temperature gas to exit; the encapsulation material forms an upper surface which is substantially aligned with a top surface of the optical glass (IR filter); the encapsulation material forms an upper surface which is lower than a top surface of the optical glass (IR filter); the sensor housing defines a profile shape, the profile shape has at least a step-wise configuration for facilitating and accommodating flowing of the encapsulation material; the sensor housing has a bottom surface adhered to the substrate by an adhesive; and a slot is provided on the bottom surface of the sensor housing for accommodating the adhesive. | 02-19-2009 |