Shih-Hsun Hsu
Shih-Hsun Hsu, Hsin-Chu TW
Patent application number | Description | Published |
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20080283969 | Seal Ring Structure with Improved Cracking Protection - An integrated circuit structure includes a semiconductor chip comprising a plurality of dielectric layers, wherein the plurality of dielectric layers includes a top dielectric layer; and a first seal ring adjacent edges of the semiconductor chip. The integrated circuit structure further includes a first passivation layer over a top dielectric layer; and a trench extending from a top surface of the first passivation layer into the first passivation layer, wherein the trench substantially forms a ring. Each side of the ring is adjacent to a respective edge of the semiconductor chip. At least one of the plurality of vias has a width greater than about 70 percent of a width of a respective overlying metal line in the plurality of metal lines. | 11-20-2008 |
20090091032 | Bond Pad Design for Fine Pitch Wire Bonding - A bonding pad design is disclosed that includes one or more pad groups on a semiconductor device. Each pad group is made up of two or more bonding pads that have an alternating orientation, such that adjacent bonding pads have their bond ball on opposite sides in relation to the adjacent bonding pad. | 04-09-2009 |
20090115024 | Seal ring structure with improved cracking protection and reduced problems - An integrated circuit structure includes a lower dielectric layer; an upper dielectric layer over the lower dielectric layer; and a seal ring. The seal ring includes an upper metal line in the upper dielectric layer; a continuous via bar underlying and abutting the upper metal line, wherein the continuous via bar has a width greater than about 70 percent of a width of the upper metal line; a lower metal line in the lower dielectric layer; and a via bar underlying and abutting the lower metal line. The via bar has a width substantially less than a half of a width of the lower metal line. | 05-07-2009 |
20100164521 | Parametric Testline with Increased Test Pattern Areas - An integrated circuit parametric testline providing increased test pattern areas is disclosed. The testline comprises a dielectric layer over a substrate, a plurality of probe pads over the dielectric layer, and a first device under test (DUT) formed in the testline in a space underlying the probe pads. The testline may also include a second DUT, which is formed in a space underlying the probe pads overlying the first DUT in an overlaying configuration. The testline may further include a polygon shaped probe pad structure providing an increased test pattern area between adjacent probe pads. | 07-01-2010 |
20130316471 | Test Line Placement to Improve Die Sawing Quality - A semiconductor wafer structure includes a plurality of dies, a first scribe line extending along a first direction, a second scribe line extending along a second direction and intersecting the first scribe line, wherein the first and the second scribe lines have an intersection region. A test line is formed in the scribe line, wherein the test line crosses the intersection region. Test pads are formed in the test line and only outside a free region defined substantially in the intersection region. | 11-28-2013 |
Shih-Hsun Hsu, Keelung City TW
Patent application number | Description | Published |
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20080277806 | SEMICONDUCTOR WAFER WITH ASSISTING DICING STRUCTURE AND DICING METHOD THEREOF - A semiconductor wafer with an assisting dicing structure. The wafer comprises a substrate having a front surface and a rear surface. The front surface of the substrate comprises at least two device regions separated by at least one dicing lane. The rear surface of the substrate comprises at least one pre-dicing trench formed therein and substantially aligned with the dicing lane. A method for dicing a semiconductor wafer is also disclosed. | 11-13-2008 |
20080296570 | SEMICONDUCTOR DEVICE - A semiconductor device is disclosed. The device includes a substrate and a first wiring layer overlying the substrate. The first wiring layer comprises a first wiring area surrounded by a first seal ring. The first seal ring comprises a first monitor circuit isolated by a first dielectric layer embedded in the first seal ring. The first monitor circuit is responsive to a predetermined amount of deformation occurs in the third dielectric layer. | 12-04-2008 |
20090200549 | SEMICONDUCTOR DEVICE - A semiconductor device is disclosed. The device includes a substrate and a first wiring layer overlying the substrate. The first wiring layer comprises a first wiring area surrounded by a first seal ring. The first seal ring comprises a first monitor circuit isolated by a first dielectric layer embedded in the first seal ring. The first monitor circuit is responsive to a predetermined amount of deformation occurs in the third dielectric layer. | 08-13-2009 |
20140106544 | SEMICONDUCTOR WAFER WITH ASSISTING DICING STRUCTURE AND DICING METHOD THEREOF - A semiconductor wafer with an assisting dicing structure. The wafer comprises a substrate having a front surface and a rear surface. The front surface of the substrate comprises at least two device regions separated by at least one dicing lane. The rear surface of the substrate comprises at least one pre-dicing trench formed therein and substantially aligned with the dicing lane. A method for dicing a semiconductor wafer is also disclosed. | 04-17-2014 |
Shih-Hsun Hsu, Hsinchu City TW
Patent application number | Description | Published |
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20080277659 | Test structure for semiconductor chip - A test structure for use in a semiconductor chip. In a preferred embodiment, a number of die are formed in an array on a semiconductor wafer substrate. Each die includes an active area defined by a seal ring and is separated from those adjacent to it by a thin scribe line. In addition to the operational structures formed in the active area of each die, one or more test structures are formed. In a preferred embodiment, these test structures are formed into one or more PCM (process control monitor) test pattern layout areas that are positioned near the seal ring and outside of the operational bond pads. Some or all of individual pads in the PCM test pattern layout area may then be connected to corresponding features on adjacent dice, and in some applications enable the simultaneous performance of WAT (wafer acceptance test) and CP (circuit probe) testing. | 11-13-2008 |
20090057902 | METHOD AND STRUCTURE FOR INCREASED WIRE BOND DENSITY IN PACKAGES FOR SEMICONDUCTOR CHIPS - A semiconductor package provides an IC chip on at least one package substrate and including signal bond pads, ground bond pads and power bond pads. The package substrate includes signal contact pads, ground contact pads and power contact pads which are respectively coupled to signal bond pads, ground bond pads and power bond pads formed on the IC chip. The contact pads are coupled to the associated bond pads by a bonding wire. The bonding wires that connect the power and ground pads have a thickness that is greater than the thickness of the bonding wires that couple the signal pads. The various bond pads on the IC chip may be staggered to provide for enhanced compactness and integration. The package substrates may be a plurality of stacked package substrates. | 03-05-2009 |
Shih-Hsun Hsu, Hsinchu TW
Patent application number | Description | Published |
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20080303539 | Parametric testline with increased test pattern areas - An integrated circuit parametric testline providing increased test pattern areas is disclosed. The testline comprises a dielectric layer over a substrate, a plurality of probe pads over the dielectric layer, and a first device under test (DUT) formed in the testline in a space underlying the probe pads. The testline may also include a second DUT, which is formed in a space underlying the probe pads overlying the first DUT in an overlaying configuration. The testline may further include a polygon shaped probe pad structure providing an increased test pattern area between adjacent probe pads. | 12-11-2008 |
Shih-Hsun Hsu, Hsin-Chu City TW
Patent application number | Description | Published |
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20080217735 | Metal e-Fuse structure design - An integrated circuit structure is provided. The integrated circuit structure includes a semiconductor substrate; a dielectric layer over the semiconductor substrate; a metal fuse in the dielectric layer; a dummy pattern adjacent the metal fuse; and a metal line in the dielectric layer, wherein a thickness of the metal fuse is substantially less than a thickness of the metal line. | 09-11-2008 |
20080246031 | PCM pad design for peeling prevention - A semiconductor structure is provided. The semiconductor structure includes a semiconductor chip and a scribe line adjoining the semiconductor chip. A conductive feature is formed in the scribe line and exposed on the surface of the scribe lines, wherein the conductive feature has an edge facing the semiconductor chip. A kerf path is in the scribe line. A first cut is formed in the conductive feature, wherein the first cut extends from the first edge to the kerf path. | 10-09-2008 |