Patent application number | Description | Published |
20090284883 | ELECTRONIC DEVICE HAVING ELECTROSTATIC DISCHARGE PROTECTION DEVICE AND METHODS OF FABRICATING THE SAME - An electronic device having an electrostatic discharge (ESD) protection device and methods of fabricating the same. The electronic device can include an electronic element to be protected from electrostatic discharge. The electronic element can be installed on a substrate. The substrate can include a ground electrode disposed on the substrate, and a first element electrode disposed at a different level from the ground electrode on the substrate to overlap a part of the ground electrode and to electrically connect to the electronic element installed to the substrate. A dielectric layer can be disposed between the ground electrode and the first element electrode, wherein the ground electrode, the first element electrode and the dielectric layer disposed therebetween constitute an electrostatic discharge (ESD) protection device. | 11-19-2009 |
20100006869 | SEMICONDUCTOR CHIP, WIRING SUBSTRATE OF A SEMICONDUCTOR PACKAGE, SEMICONDUCTOR PACKAGE HAVING THE SEMICONDUCTOR CHIP AND DISPLAY DEVICE HAVING THE SEMICONDUCTOR PACKAGE - A semiconductor chip can include a semiconductor substrate, an input portion and an output portion. A circuit element can be formed in the semiconductor substrate. The input portion can be formed on the semiconductor substrate. The input portion can include a first input pad to receive an input signal from the outside and a second input pad spaced apart from the first input pad, the second input pad being electrically connected to the first input pad through an external connection line such that the second input pad inputs the input signal to the circuit element. The output portion can be formed on the semiconductor substrate. The output pad can include an output pad to output an output signal from the circuit element. | 01-14-2010 |
20100013066 | SEMICONDUCTOR PACKAGE - A semiconductor package includes a main substrate, a semiconductor chip having a first side and a second side, the first side of the semiconductor chip disposed on the main substrate and electrically connected to the main substrate, and a conductive network formed on the second side of the semiconductor chip. | 01-21-2010 |
20100044851 | Flip chip packages - Flip chip packages and methods of manufacturing the same are provided, the flip chip packages may include a package substrate, a semiconductor chip, conductive bumps, a ground pattern and an underfilling layer. The semiconductor chip may be over the package substrate. The conductive bumps may be between the semiconductor chip and the package substrate to electrically connect the semiconductor chip and the package substrate with each other. The ground pattern may ground one of the package substrate and the semiconductor chip. The underfilling layer may be between the package substrate and the semiconductor chip to surround the conductive bumps. The underfilling layer may have a diode selectively located between the ground pattern and the conductive bumps by electrostatic electricity applied to the underfilling layer to protect the semiconductor chip from the electrostatic electricity. | 02-25-2010 |
20100258905 | SEMICONDUCTOR PACKAGE TO REMOVE POWER NOISE USING GROUND IMPEDANCE - A semiconductor package removes power noise by using a ground impedance. The semiconductor package includes an analog circuit block, a digital circuit block, an analog ground impedance structure, a digital ground impedance structure, and an integrated ground. The integrated ground and the analog circuit block are electrically connected via the analog ground impedance structure, and the integrated ground and the digital circuit block are electrically connected via the digital ground impedance structure, and an inductance of the analog ground impedance structure is greater than an inductance of the digital ground impedance structure. | 10-14-2010 |
20100264524 | SUBSTRATE FOR SEMICONDUCTOR PACKAGE - A substrate for a semiconductor package includes a dielectric substrate, a circuit pattern formed on a first surface of the dielectric substrate, and an electromagnetic band gap (EGB) pattern. The EGB pattern includes multiple unit structures formed on a second surface of the dielectric substrate, where each unit structure includes a flat conductor electrically connected to the circuit pattern through a ground connection, and multiple spiral-patterned conductors electrically connected to the flat conductor. The second surface is formed on an opposite side of the dielectric substrate from the first surface. Each flat conductor is electrically connected to a flat conductor of another one of the unit structures. At least one of the spiral-patterned conductors in each one of the unit structures is electrically connected to another one of the spiral-patterned conductors. | 10-21-2010 |
20100276189 | SEMICONDUCTOR PACKAGE INCLUDING POWER BALL MATRIX AND POWER RING HAVING IMPROVED POWER INTEGRITY - In a method of multiple-bit programming of a three-dimensional memory device having arrays of memory cells that extend in horizontal and vertical directions relative to a substrate, the method comprises first programming a memory cell to be programmed to one among a first set of states. At least one neighboring memory cell that neighbors the memory cell to be programmed to one among the first set of states is then first programmed. Following the first programming of the at least one neighboring memory cell, second programming the memory cell to be programmed to one among a second set of states, wherein the second set of states has a number of states that is greater than the number of states in the first set of states. | 11-04-2010 |
20110008048 | Optical system using optical signal and solid state drive module using the optical signal - An optical system and an SSD module that maintain optimal SI, PI and EMI characteristics without a shield based on a ground voltage and an impedance match. The optical system includes a solid state drive (SSD) module and an input/output (I/O) interface. The SSD module includes a plurality of solid state memory units. The input/output (I/O) interface receives data to be written to at least one of the solid state memory units from a main memory unit, the input/output (I/O) interface transmits data written in at least one of the solid state memory units to the main memory unit. The SSD module and the I/O interface transmit and receive data using an optical medium. | 01-13-2011 |
20110227221 | ELECTRONIC DEVICE HAVING INTERCONNECTIONS AND PADS - An electronic device includes first and second interconnections formed on a first surface of a substrate and spaced apart from each other. The electronic device includes a first insulating material layer disposed on the substrate including the first and second interconnections and including a first opening exposing a predetermined region of the first interconnection. The electronic device further includes a first pad filling the first opening and having a greater width than the first opening. The first pad covers at least a part of the second interconnection adjacent to one end of the first interconnection, and the first pad is electrically insulated from the second interconnection by the first insulating material layer. | 09-22-2011 |
20110241168 | PACKAGE ON PACKAGE STRUCTURE - A package on package structure includes a lower package and an upper package. The lower package includes a first semiconductor chip disposed in a chip region of an upper surface of a first substrate. The upper package includes a second semiconductor chip disposed on an upper surface of a second substrate, and a decoupling capacitor disposed in an outer region of a lower surface of the second substrate. The lower surface of the second substrate opposes the upper surface of the second substrate and faces the upper surface of the first substrate. The plane area of the second substrate is larger than the plane area of the first substrate. The outer region of the lower surface of the second substrate extends beyond a periphery of the first substrate. | 10-06-2011 |
20110304015 | SEMICONDUCTOR PACKAGE - A semiconductor package includes a substrate in which a plurality of wires are formed; at least one semiconductor chip electrically connected to portions of the plurality of wires; and a shielding can mounted on the substrate, surrounding the at least one semiconductor chip, electrically connected to at least one wire of the plurality of wires and including a soft magnetic material. The semiconductor package can prevent or substantially reduce electromagnetic interference (EMI). | 12-15-2011 |
20110304763 | IMAGE SENSOR CHIP AND CAMERA MODULE HAVING THE SAME - An image sensor chip, a camera module, and devices incorporating the image sensor chip and camera module include a light receiving unit on which light is incident, a logic unit provided to surround the light receiving unit, and an electromagnetic wave shielding layer formed on the logic unit and not formed on the light receiving unit. | 12-15-2011 |
20110316119 | SEMICONDUCTOR PACKAGE HAVING DE-COUPLING CAPACITOR - Provided is a semiconductor package including a de-coupling capacitor. The semiconductor package includes a substrate, on an upper surface of which a semiconductor chip is mounted; a plurality of first conductive bumps that are disposed on a lower surface of the substrate and that electrically connect the substrate to an external device; and a de-coupling capacitor that is disposed on the lower surface of the substrate and includes an electrode portion and at least one dielectric layer, wherein the electrode portion of the de-coupling capacitor includes second conductive bumps that electrically connect the substrate to an external device. | 12-29-2011 |
20110317381 | EMBEDDED CHIP-ON-CHIP PACKAGE AND PACKAGE-ON-PACKAGE COMPRISING SAME - An embedded chip-on-chip package comprises a printed circuit board having a recessed semiconductor chip mounting unit, a first semiconductor chip embedded in the recessed semiconductor chip mounting unit, and a second semiconductor chip mounted on the first semiconductor chip and the printed circuit board. | 12-29-2011 |
20120064827 | SEMICONDUCTOR DEVICE INCLUDING COUPLING CONDUCTIVE PATTERN - A semiconductor device is disclosed including a through electrode. The semiconductor device may include a first semiconductor chip including a transceiver circuit formed on a first surface, a first coupling conductive pattern which is formed on a second surface opposite the first surface, and a through electrode which connects the transceiver circuit and the first coupling conductive pattern. There may be a transceiver located on a second semiconductor chip and including a second coupling conductive pattern facing the first coupling conductive pattern which communicates wirelessly with the first coupling conductive pattern. | 03-15-2012 |
20120075268 | Source Driver, An Image Display Assembly And An Image Display Apparatus - An image display panel assembly includes a flexible printed circuit (FPC), an image display panel, a gate driver integrated circuit (IC) package, and a source driver IC package. The FPC is configured to receive gate and source driving signals. The image display panel is electrically connected to the FPC, and includes a gate driving signal transfer pattern along a first edge of the image display panel, a source driving signal transfer pattern along a second edge adjacent to the first end, and a plurality of pixels. The gate driver integrated circuit (IC) package is configured to receive the gate driving signal through the gate driving signal transfer pattern and provide the gate driving signal to the plurality of pixels. The source driver IC package is configured to receive the source driving signal through the source driving signal transfer pattern and provide the source driving signal to the plurality of pixels. | 03-29-2012 |
20120080222 | CIRCUIT BOARD INCLUDING EMBEDDED DECOUPLING CAPACITOR AND SEMICONDUCTOR PACKAGE THEREOF - A circuit board including an embedded decoupling capacitor and a semiconductor package thereof are provided. The circuit board may include a core layer including an embedded decoupling capacitor, a first build-up layer at one side of the core layer, and a second build-up layer at the other side of the core layer, wherein the embedded decoupling capacitor includes a first electrode and a second electrode, the first build-up layer includes a first via contacting the first electrode, and the second build-up layer includes a second via contacting the first electrode. | 04-05-2012 |
20120086109 | Semiconductor Device Including Shielding Layer And Fabrication Method Thereof - Example embodiments relate to a semiconductor device. The semiconductor device may include a first semiconductor chip including a semiconductor substrate, a first through via that penetrates the semiconductor substrate, a second semiconductor chip stacked on one plane of the first semiconductor chip, and a shielding layer covering at least one portion of the first and/or second semiconductor chip and electrically connected to the first through via. | 04-12-2012 |
20120105089 | SEMICONDUCTOR PACKAGE HAVING TEST PADS ON TOP AND BOTTOM SUBSTRATE SURFACES AND METHOD OF TESTING SAME - A semiconductor package and testing method is disclosed. The package includes a substrate having top and bottom surfaces, a semiconductor chip mounted in a centrally located semiconductor chip mounting area of the substrate, and a plurality of test pads disposed on top and bottom surfaces of the substrate and comprising a first group of test pads configured on the top and bottom surfaces of the substrate and having a first height above the respective top and bottom surface of the substrate, and a second group of test pads disposed on the lower surface of the substrate and having a second height greater than the first, wherein each one of the second group of test pads includes a solder ball attached thereto. | 05-03-2012 |
20120139090 | STACKED PACKAGE STRUCTURE - A stacked package structure is provided. The stacked package structure includes a stacked package including a lower semiconductor package, an upper semiconductor package disposed on the lower semiconductor package and spaced a predetermined distance apart from the lower semiconductor package, an inter-package connecting portion electrically connecting the lower semiconductor package and the upper semiconductor package while supporting a space therebetween, and an insulation layer disposed at least outside the inter-package connecting portion and filling the space between the lower semiconductor package and the upper semiconductor package, and an electromagnetic shielding layer surrounding lateral and top surfaces of the stacked package. | 06-07-2012 |
20130001797 | PACKAGE ON PACKAGE USING THROUGH SUBSTRATE VIAS - A package on package (PoP) employing a through substrate via (TSV) technique in order to reduce the size of a semiconductor chip, has vertically narrow pitches, and forms a higher number of connection terminals. The PoP include a first substrate with a recess disposed in a first surface of the substrate, and a semiconductor chip disposed at the recess. The PoP also includes a semiconductor package connected to the first semiconductor package. The first substrate includes TSVs for electronically connecting the semiconductor package and the semiconductor chip, and routing lines for re-distributing the signals/and or power transmitted via the TSVs. | 01-03-2013 |
20140124906 | SEMICONDUCTOR PACKAGE AND METHOD OF MANUFACTURING THE SAME - A semiconductor package includes a mounting substrate having a chip-mounting region and a peripheral region. A first semiconductor chip is mounted on the chip-mounting region of the mounting substrate. A first molding member covers at least a portion of the first semiconductor chip on the mounting substrate. A plurality of first conductive connection members penetrate through at least a portion of the first molding member to protrude from the first molding member. The first conductive connection members are electrically connected to a plurality of ground connection pads provided on the peripheral region of the mounting substrate, respectively. An electromagnetic interference (EMI) shield member is disposed on an upper surface of the first molding member to cover the first semiconductor chip. The EMI shield member is supported by the first conductive molding members and spaced apart from the first molding member. | 05-08-2014 |
20140151859 | SEMICONDUCTOR PACKAGE - A semiconductor package includes a substrate in which a plurality of wires are formed; at least one semiconductor chip electrically connected to portions of the plurality of wires; and a shielding can mounted on the substrate, surrounding the at least one semiconductor chip, electrically connected to at least one wire of the plurality of wires and including a soft magnetic material. The semiconductor package can prevent or substantially reduce electromagnetic interference (EMI). | 06-05-2014 |
20140217576 | SEMICONDUCTOR PACKAGE - A semiconductor package and a method of manufacturing the same are disclosed, wherein the semiconductor package includes a circuit board, a semiconductor chip mounted on the circuit board, an encapsulant positioned on the circuit board and encapsulating the semiconductor chip to the circuit board, and a thermal dissipating member positioned on the encapsulant and having a heat spreader that dissipates a driving heat from the semiconductor chip and a heat capacitor that absorbs excess driving heat that exceeds a heat transfer capability of the heat spreader, such that when a high power is applied to the package, the excess heat is absorbed into the heat capacitor as a latent heat and thus the semiconductor chip is protected from an excessive temperature increase caused by the excess heat, thereby increasing a critical time and performance duration time of the semiconductor package. | 08-07-2014 |
20140232477 | SEALED CRYSTAL OSCILLATOR AND SEMICONDUCTOR PACKAGE INCLUDING THE SAME - A semiconductor package includes a package substrate; an integrated circuit chip formed on one surface of the package substrate; and a sealed quartz oscillator formed on at least one of an inside, one surface, and the other surface of the package substrate, wherein the sealed quartz oscillator includes a substrate, a quartz blank formed on one surface of the substrate, and a sealing cap covering at least one surface of the quartz blank and including metal. | 08-21-2014 |
20140291868 | STACK TYPE SEMICONDUCTOR PACKAGE - A stack type semiconductor package includes a lower semiconductor package including a lower package substrate and at least one lower semiconductor chip disposed on the lower package substrate; an upper semiconductor package including an upper package substrate larger than the lower package substrate and at least one upper semiconductor chip disposed on the upper package substrate; an inter-package connector connecting an upper surface of the lower package substrate to a lower surface of the upper package substrate; and a filler filling in between the lower package substrate and the upper package substrate while substantially surrounding the inter-package connector. | 10-02-2014 |
20140319701 | SEMICONDUCTOR CHIP AND A SEMICONDUCTOR PACKAGE HAVING A PACKAGE ON PACKAGE (POP) STRUCTURE INCLUDING THE SEMICONDUCTOR CHIP - A semiconductor chip including a substrate, a first data pad arranged on the substrate, and a first control/address pad arranged on the substrate, wherein the first data pad is arranged in an edge region of the substrate, and the first control/address pad is arranged in a center region of the substrate. | 10-30-2014 |
20150024545 | STACKED PACKAGE STRUCTURE AND METHOD OF MANUFACTURING A PACKAGE-ON-PACKAGE DEVICE - A stacked package structure is provided. The stacked package structure includes a stacked package including a lower semiconductor package, an upper semiconductor package disposed on the lower semiconductor package and spaced a predetermined distance apart from the lower semiconductor package, an inter-package connecting portion electrically connecting the lower semiconductor package and the upper semiconductor package while supporting a space therebetween, and an insulation layer disposed at least outside the inter-package connecting portion and filling the space between the lower semiconductor package and the upper semiconductor package, and an electromagnetic shielding layer surrounding lateral and top surfaces of the stacked package. | 01-22-2015 |