Patent application number | Description | Published |
20090160482 | Formation of a hybrid integrated circuit device - Formation of a hybrid integrated circuit device ( | 06-25-2009 |
20100127782 | Common Centroid Electrostatic Discharge Protection for Integrated Circuit Devices - A method of protecting a circuit design implemented within an integrated circuit (IC) from electrostatic discharge (ESD) can include positioning a device array pair comprising first and second device arrays on the IC to share a common centroid, wherein the first and second device arrays are matched. An ESD diode array pair comprising first and second ESD diode arrays can be positioned on the IC adjacent to a first perimeter encompassing the first and second device arrays, wherein the first and second ESD diode arrays share the common centroid and are matched. A cathode terminal of each ESD diode of the first ESD diode array can be coupled to an input of the first device array, and a cathode terminal of each ESD diode of the second ESD diode array can be coupled to an input of the second device array. | 05-27-2010 |
20100188787 | METHOD AND APPARATUS TO REDUCE FOOTPRINT OF ESD PROTECTION WITHIN AN INTEGRATED CIRCUIT - An input/output (“I/O”) circuit has a first N-channel metal-oxide semiconductor (“NMOS”) field-effect transistor (“FET”) coupled to the input pin with a silicide block. A first P-channel metal-oxide semiconductor (“PMOS”) FET is directly connected to the input pin, with its N-well electrically coupled to an ESD well bias circuit. An NMOS low-voltage differential signal (“LVDS”) driver is also directly connected to the input pin, and has cascaded NMOS FETs. The first NMOS FET of the LVDS driver is fabricated within a first P-tap guard ring electrically coupled to ground and an N-well guard ring coupled to the ESD well bias. The second NMOS FET of the LVDS driver is fabricated within a second P-tap guard ring electrically coupled to ground. | 07-29-2010 |
20110026173 | ENHANCED IMMUNITY FROM ELECTROSTATIC DISCHARGE - Enhanced electrostatic discharge (“ESD”) protection for an integrated circuit is described. An embodiment relates generally to a circuit for protection against ESD. The circuit has an input/output node and a driver. The driver has a first transistor and a second transistor. A first source/drain node of the first transistor is coupled to the input/output node. A second source/drain node of the first transistor forms a first interior node capable of accumulating charge when electrically floating. A first current flow control circuit is coupled to a discharge node and the second source/drain node of the first transistor. The first current flow control circuit is electrically oriented in a bias direction for allowing accumulated charge to discharge from the first interior node via the first current flow control circuit to the discharge node. | 02-03-2011 |
20110058290 | SHARED ELECTROSTATIC DISCHARGE PROTECTION FOR INTEGRATED CIRCUIT OUTPUT DRIVERS - A system for protecting metal oxide semiconductor field effect transistor (MOSFET) output drivers within an integrated circuit (IC) from an electrostatic discharge (ESD) includes a first MOSFET output driver and a second MOSFET output driver positioned within a common IC diffusion material. The system includes a contact ring coupled to the common IC diffusion material and arranged along an outer edge of a perimeter surrounding the MOSFET output drivers. A centroid of each MOSFET output driver is common with a centroid of the perimeter surrounding both MOSFET output drivers. Each MOSFET output driver has a value of substrate resistance (R | 03-10-2011 |
20110113401 | T-COIL NETWORK DESIGN FOR IMPROVED BANDWIDTH AND ELECTROSTATIC DISCHARGE IMMUNITY - A method of generating a circuit design comprising a T-coil network includes determining inductance for inductors and a parasitic bridge capacitance of the T-coil network. The parasitic bridge capacitance is compared with a load capacitance metric that depends upon parasitic capacitance of a load coupled to an output of the T-coil network. An amount of electrostatic discharge (ESD) protection of the circuit design that is coupled to the output of the T-coil network and/or a parameter of the inductors of the T-coil network is selectively adjusted according to the comparison. The circuit design, which can specify inductance of the inductors, the amount of ESD protection, and/or the width of windings of the inductors, is outputted. | 05-12-2011 |
20110147949 | HYBRID INTEGRATED CIRCUIT DEVICE - An embodiment of a method to form a hybrid integrated circuit device is described. This embodiment of the method comprises: forming a first die using a first lithography, where the first die is on a substrate; and forming a second die using a second lithography, where the second die is on the first die. The first lithography used to form the first die is a larger lithography than the second lithography used to form the second die. The first die is an IO die. | 06-23-2011 |
20120002392 | ELECTRO-STATIC DISCHARGE PROTECTION FOR DIE OF A MULTI-CHIP MODULE - Electro-static discharge (“ESD”) protection for a die of a multi-chip module is described. A contact has an externally exposed surface after formation of the die and prior to assembly of the multi-chip module. The contact is for a die-to-die interconnect of the multi-chip module. The contact is for an internal node of the multi-chip module after the assembly of the multi-chip module. A driver circuit is coupled to the contact and has a first input impedance. A discharge circuit is coupled to the contact for electrostatic discharge protection of the driver circuit and has a first forward bias impedance associated with a first discharge path. The first forward bias impedance is a fraction of the first input impedance. | 01-05-2012 |
20120188671 | T-COIL NETWORK DESIGN FOR IMPROVED BANDWIDTH AND ELECTROSTATIC DISCHARGE IMMUNITY - An embodiment of a circuit is described that includes a first inductor comprising a first end and a second end, where the first end of the first inductor forms an input node of the circuit. The embodiment of the circuit further includes a second inductor comprising a first end and a second end, where the second end of the first inductor is coupled to the first end of the second inductor forming an output node of the circuit; a resistor coupled to the second end of the second inductor; and an electrostatic discharge structure coupled to the output node and configured to provide an amount of electrostatic discharge protection, where the amount of electrostatic discharge protection is based on a parasitic bridge capacitance and a load capacitance metric. | 07-26-2012 |
20120248569 | INTERPOSER HAVING AN INDUCTOR - An embodiment of a multichip module is disclosed. For this embodiment of a multichip module, a semiconductor die and an interposer are included. The interposer has conductive layers, dielectric layers, and a substrate. Internal interconnect structures couple the semiconductor die to the interposer. External interconnect structures are for coupling the interposer to an external device. A first inductor includes at least a portion of one or more of the conductive layers of the interposer. A first end of the first inductor is coupled to an internal interconnect structure of the internal interconnect structures. A second end of the first inductor is coupled to an external interconnect structure of the external interconnect structures. | 10-04-2012 |
20130020675 | INDUCTIVE STRUCTURE FORMED USING THROUGH SILICON VIAS - An inductor for an integrated circuit can include a first turn comprising a first through silicon via (TSV) coupled to a second TSV. The inductor can include a third TSV coupled to the second TSV. | 01-24-2013 |
20130215541 | HIGH VOLTAGE RC-CLAMP FOR ELECTROSTATIC DISCHARGE (ESD) PROTECTION - In accordance with some embodiments, an electrostatic discharge (ESD) protection circuit for high-voltage power rails includes an RC-triggered clamp having an RC-circuit having a resistor coupled between a first node and a second node, and a capacitor coupled between the second node and a third node. The RC-triggered clamp also has a transistor with a first source/drain, a gate, and a second source/drain, wherein the first source/drain is coupled to the first node, and the second source/drain is coupled to the third node. The RC-triggered clamp also has an inverter, wherein an input of the inverter is coupled to the second node, and an output of the inverter is coupled to the gate of the transistor. The ESD protection circuit also includes one or more forward-biased diodes coupled in series between a supply node and the first node. | 08-22-2013 |
20140048887 | INTEGRATED CIRCUIT HAVING IMPROVED RADIATION IMMUNITY - An integrated circuit having improved radiation immunity is described. The integrated circuit comprises a substrate; an n-well formed on the substrate; a p-well formed on the substrate; and a p-tap formed in the p-well adjacent to the n-well, wherein the p-tap extends between circuit elements formed in the n-well and circuit elements formed in the p-well, and is coupled to a ground potential. A method of forming an integrated circuit having improved radiation immunity is also described. | 02-20-2014 |
20140145293 | INTEGRATED CIRCUIT HAVING IMPROVED RADIATION IMMUNITY - An integrated circuit having improved radiation immunity is described. The integrated circuit comprises a substrate; a P-well formed on the substrate and having N-type transistors of a memory cell; and an N-well formed on the substrate and having P-type transistors of the memory cell; wherein the N-well has minimal dimensions for accommodating the P-type transistors. | 05-29-2014 |
20140198416 | CIRCUIT FOR AND METHOD OF ENABLING THE DISCHARGE OF ELECTRIC CHARGE IN AN INTEGRATED CIRCUIT - A circuit for enabling the discharge of electric charge in an integrated circuit is described. The circuit comprises an input/output pad coupled to a first node; a first diode coupled between the first node and a ground node; a transistor coupled in parallel with the first diode between the first node and ground node; and a resistor coupled between a body portion of the transistor and the ground node. A method of enabling the discharge of electric charge is also described. | 07-17-2014 |
20150069577 | REMOVAL OF ELECTROSTATIC CHARGES FROM INTERPOSER FOR DIE ATTACHMENT - A wafer includes a first interposer having a first patterned metal layer and a second interposer having a second patterned metal layer. The wafer includes a metal connection in a scribe region of the wafer that electrically couples the first patterned metal layer of the first interposer with the second patterned metal layer of the second interposer forming a global wafer network. The wafer further includes a probe pad located in the scribe region that is electrically coupled to the global wafer network. | 03-12-2015 |