Patent application number | Description | Published |
20100167629 | METHOD OF DETERMINING PRESSURE TO APPLY TO WAFERS DURING A CMP - A method for uniformly planarizing a wafer that includes determining a first wafer warped value at a first zone on the wafer, determining a second wafer warped value at a second zone on the wafer, and calculating a pressure difference based on the first and second wafer warped values at the first and second zones is provided. The method also includes performing a chemical mechanical polishing of the wafer, applying a first pressure based on the first wafer warped value to the wafer at the first zone during the chemical mechanical polishing, and applying a second pressure based on the second wafer warped value to the wafer at the second zone during the chemical mechanical polishing, a difference between the first pressure and the second pressure based on the pressure difference. | 07-01-2010 |
20110156032 | METHOD OF REPAIRING PROBE PADS - A method that includes forming a first level of active circuitry on a substrate, forming a first probe pad electrically connected to the first level of active circuitry where the first probe pad having a first surface, contacting the first probe pad with a probe tip that displaces a portion of the first probe pad above the first surface, and performing a chemical mechanical polish on the first probe pad to planarize the portion of the first probe pad above the first surface. The method also includes forming a second level of active circuitry overlying the first probe pad, forming a second probe pad electrically connected to the second level of active circuitry, contacting the second probe pad with a probe tip that displaces a portion of the probe pad, and chemically mechanically polishing the second probe pad to remove the portion displaced. | 06-30-2011 |
20110156152 | CMP TECHNIQUES FOR OVERLAPPING LAYER REMOVAL - Chemical-Mechanical Polishing can be used to planarize a semiconductor wafer having a patterned overlapping layer. Isotropic etching can remove a portion of the patterned overlapping layer to produce tapered sidewalls of reduced height. A portion of the overlapping layer can be removed using CMP. The overlapping layer can have a higher polishing rate than the underlying layer so that the underlying layer remains substantially intact after removing the overlying layer. | 06-30-2011 |
20110156284 | DEVICE AND METHOD FOR ALIGNMENT OF VERTICALLY STACKED WAFERS AND DIE - A device is provided that includes a first die having a first alignment structure that includes a plurality of first transmission columns arranged in a pattern and a second die positioned on the first die, the second die having a second alignment structure that includes a plurality of second transmission columns arranged in the same pattern as the first transmission columns. The first and second transmission columns are each coplanar with a first surface and a second surface of the first and second die, respectively. | 06-30-2011 |
20120009693 | System and method for cleaning a charging wafer surface - A system and method for processing a wafer includes a charge neutralization system. The wafer processing system includes a wafer measuring device that can measure characteristics of a surface of the semiconductor wafer. One or more wafer processing stations perform a chemical mechanical polish (CMP) process on the wafer surface. A desica cleaning station can clean and dry the semiconductor wafer. The wafer processing system further includes a charge neutralizing device that can alter a surface charge of the wafer surface. | 01-12-2012 |
20120122373 | PRECISE REAL TIME AND POSITION LOW PRESSURE CONTROL OF CHEMICAL MECHANICAL POLISH (CMP) HEAD - A method and system for detecting and controller wafer surface pressure distribution. Detecting and controlling wafer surface pressure distribution comprises measuring in situ wafer uniformity of a wafer at a plurality of locations of the wafer; and in response to the measured wafer uniformity controlling through a feedback loop in situ CMP head pressure applied at the plurality of locations of the wafer in real time to polish the wafer. | 05-17-2012 |
20120168958 | METHOD AND SYSTEM FOR FORMING DUMMY STRUCTURES IN ACCORDANCE WITH THE GOLDEN RATIO - The present disclosure is directed to method of forming dummy structures in accordance with the golden ratio to reduce dishing and erosion during a chemical mechanical polish. The method includes determining at least one unfilled portion of a die prior to a chemical mechanical planarization and filling the at least one unfilled portion with a plurality of dummy structures, a ratio of the dummy structures to a total area of the unfilled portion being in the range of 36 percent and 39 percent. A die formed in accordance with the method may include a plurality of metal levels and a plurality of regions at each metal level, each region having a plurality of dummy structures formed as golden rectangles. | 07-05-2012 |
20120187530 | USING BACKSIDE PASSIVE ELEMENTS FOR MULTILEVEL 3D WAFERS ALIGNMENT APPLICATIONS - Passive circuit elements are formed at surfaces of two integrated circuit wafers. The passive circuit elements are utilized to align the two integrated circuit wafers to form an integrated circuit wafer stack. | 07-26-2012 |
20120313144 | RECESSED GATE FIELD EFFECT TRANSISTOR - A semiconductor device having a gate positioned in a recess between the source region and a drain region that are adjacent either side of the gate electrode. A channel region is below a majority of the source region as well as a majority of the drain region and the entire gate electrode. | 12-13-2012 |
20120313153 | SYSTEM AND METHOD OF PLATING CONDUCTIVE GATE CONTACTS ON METAL GATES FOR SELF-ALIGNED CONTACT INTERCONNECTIONS - According to one embodiment of the invention, the gate contact is formed by a selective deposition on the gate electrode. One acceptable technique for the selective deposition is by plating. Plating is one process by which a metal structure, such as a gate contact, may be formed directly on the gate electrode. The plating is carried out by immersing the semiconductor die in a plating solution with the gate electrode exposed. The gate contact is plated onto the gate electrode and thus is ensured of being fully aligned exactly to the gate electrode. After this, the appropriate dielectric layers are formed adjacent the gate contact and over the source and drain to ensure that the gate electrode is electrically isolated from other components of the transistor. | 12-13-2012 |
20130063173 | METHOD OF REPAIRING PROBE PADS - A method that includes forming a first level of active circuitry on a substrate, forming a first probe pad electrically connected to the first level of active circuitry where the first probe pad having a first surface, contacting the first probe pad with a probe tip that displaces a portion of the first probe pad above the first surface, and performing a chemical mechanical polish on the first probe pad to planarize the portion of the first probe pad above the first surface. The method also includes forming a second level of active circuitry overlying the first probe pad, forming a second probe pad electrically connected to the second level of active circuitry, contacting the second probe pad with a probe tip that displaces a portion of the probe pad, and chemically mechanically polishing the second probe pad to remove the portion displaced. | 03-14-2013 |
20130072011 | METHOD OF REPAIRING PROBE PADS - A method that includes forming a first level of active circuitry on a substrate, forming a first probe pad electrically connected to the first level of active circuitry where the first probe pad having a first surface, contacting the first probe pad with a probe tip that displaces a portion of the first probe pad above the first surface, and performing a chemical mechanical polish on the first probe pad to planarize the portion of the first probe pad above the first surface. The method also includes forming a second level of active circuitry overlying the first probe pad, forming a second probe pad electrically connected to the second level of active circuitry, contacting the second probe pad with a probe tip that displaces a portion of the probe pad, and chemically mechanically polishing the second probe pad to remove the portion displaced. | 03-21-2013 |
20130093289 | SIZE-CONTROLLABLE OPENING AND METHOD OF MAKING SAME - A support structure includes an internal cavity. An elastic membrane extends to divide the internal cavity into a first chamber and a second chamber. The elastic membrane includes a nanometric-sized pin hole extending there through to interconnect the first chamber to the second chamber. The elastic membrane is formed of a first electrode film and a second electrode film separated by a piezo insulating film. Electrical connection leads are provided to support application of a bias current to the first and second electrode films of the elastic membrane. In response to an applied bias current, the elastic membrane deforms by bending in a direction towards one of the first and second chambers so as to produce an increase in a diameter of the pin hole. | 04-18-2013 |
20130199563 | ADJUSTABLE BRUSH CLEANING APPARATUS FOR SEMICONDUCTOR WAFERS AND ASSOCIATED METHODS - A cleaning apparatus for cleaning a semiconductor wafer includes a rotary brush to be positioned to clean the semiconductor wafer, and an optical sensing device associated with the rotary brush to sense a separation distance between a reference position thereon and the semiconductor wafer. An actuator is coupled to the optical sensing device to position the rotary brush based upon the sensed separation distance. | 08-08-2013 |
20130199580 | DRYING APPARATUS WITH EXHAUST CONTROL CAP FOR SEMICONDUCTOR WAFERS AND ASSOCIATED METHODS - A drying apparatus for drying a semiconductor wafer includes a processing chamber including a rinsing section and a drying section adjacent thereto. The rinsing section has a chamber loading slot associated therewith for receiving the semiconductor wafer. The drying section has a chamber unloading slot associated therewith for outputting the semiconductor wafer. An exhaust control cap is carried by the processing chamber and includes a bottom wall, a top wall, at least one intermediate wall between the bottom and top walls, and a side wall coupled to the top, bottom and the at least one intermediate wall to define stacked exhaust sections. The exhaust control cap has a cap loading slot aligned with the chamber loading slot, a cap unloading slot aligned with the chamber unloading slot, and at least one exhaust port configured to be coupled to a vacuum source. | 08-08-2013 |
20130218316 | ENDPOINT DETECTOR FOR A SEMICONDUCTOR PROCESSING STATION AND ASSOCIATED METHODS - A semiconductor processing apparatus includes a semiconductor processing station for a semiconductor wafer, and an endpoint detector associated with the semiconductor processing station. The endpoint detector includes a non-contact probe configured to probe the semiconductor wafer, an optical transmitter configured to transmit an optical signal to the non-contact probe, and an optical receiver configured to receive a reflected optical signal from the non-contact probe. The controller controls the semiconductor processing station based on the reflected optical signal. | 08-22-2013 |
20130312791 | DUAL MEDIUM FILTER FOR ION AND PARTICLE FILTERING DURING SEMICONDUCTOR PROCESSING - The present disclosure is directed to fluid filtering systems and methods for use during semiconductor processing. One or more embodiments are directed to fluid filtering systems and methods for filtering ions and particles from a fluid as the fluid is being provided to a semiconductor wafer processing tool, such as to a semiconductor wafer cleaning tool. | 11-28-2013 |
20140078495 | INLINE METROLOGY FOR ATTAINING FULL WAFER MAP OF UNIFORMITY AND SURFACE CHARGE - An apparatus for performing metrology of a wafer. The apparatus may include a substrate with a plurality of microprobes. A plurality of light sources may direct light onto each of the microprobes. Light reflected from the microprobes may be detected by a plurality of photodetectors thereby generating a detection signal associated with each of the microprobes. A controller may send a driving signal to each of the plurality of microprobes and determine a height profile and a surface charge profile of the wafer based on each of the detection signals. | 03-20-2014 |
20140080229 | ADAPTIVE SEMICONDUCTOR PROCESSING USING FEEDBACK FROM MEASUREMENT DEVICES - A semiconductor processing device and a method of operating the same. The method may include measuring at least one property of a semiconductor wafer and determining a recipe for processing the semiconductor wafer based on the at least one property. The semiconductor wafer may be processed with a plurality of chemical mechanical polishing (CMP) modules based on the determined recipe, wherein the recipe comprises a value of at least one parameter for use by each of the plurality of CMP modules. The measurements may be made in situ or by an inline metrology device. The recipe and various parameters associated with the recipe may be determined by a controller of the semiconductor processing device. | 03-20-2014 |
20140080304 | INTEGRATED TOOL FOR SEMICONDUCTOR MANUFACTURING - An integrated tool to reduce defects in manufacturing a semiconductor device by reducing queue times during a manufacturing process. The integrated tool may include at least one a polishing tool comprising at least one polishing module and at least one deposition tool comprising at least one deposition chamber. At least one pump-down chamber may connect the polishing tool to the deposition tool. The at least one pump-down chamber includes a passage through which the semiconductor device is passed. Defects in the semiconductor device are reduced by reducing the queue time at various stages of the fabrication process. | 03-20-2014 |
20140084245 | QUANTUM DOT ARRAY DEVICES WITH METAL SOURCE AND DRAIN - Metal quantum dots are incorporated into doped source and drain regions of a MOSFET array to assist in controlling transistor performance by altering the energy gap of the semiconductor crystal. In a first example, the quantum dots are incorporated into ion-doped source and drain regions. In a second example, the quantum dots are incorporated into epitaxially doped source and drain regions. | 03-27-2014 |
20140084247 | THRESHOLD ADJUSTMENT FOR QUANTUM DOT ARRAY DEVICES WITH METAL SOURCE AND DRAIN - Incorporation of metallic quantum dots (e.g., silver bromide (AgBr) films) into the source and drain regions of a MOSFET can assist in controlling the transistor performance by tuning the threshold voltage. If the silver bromide film is rich in bromine atoms, anion quantum dots are deposited, and the AgBr energy gap is altered so as to increase V | 03-27-2014 |
20140084465 | SYSTEM AND METHOD OF NOVEL MX TO MX-2 - A plurality of metal tracks are formed in an integrated circuit die in three metal layers stacked within the die. A protective dielectric layer is formed around metal tracks of an intermediate metal layer. The protective dielectric layer acts as a hard mask to define contact vias between metal tracks in the metal layers above and below the intermediate metal layer. | 03-27-2014 |
20140084481 | SYSTEM AND METHOD OF NOVEL ENCAPSULATED MULTI METAL BRANCH FOOT STRUCTURES FOR ADVANCED BACK END OF LINE - A plurality of metal tracks are formed in a plurality of intermetal dielectric layers stacked in an integrated circuit die. Thin protective dielectric layers are formed around the metal tracks. The protective dielectric layers act as a hard mask to define contact vias between metal tracks in the intermetal dielectric layers. | 03-27-2014 |
20140097539 | TECHNIQUE FOR UNIFORM CMP - Pitch-dependent dishing and erosion following CMP treatment of copper features is quantitatively assessed by atomic force microscopy (AFM) and transmission electron microscopy (TEM). A new sequence of processing steps presented herein is used to prevent dishing and to reduce significantly the local pitch- and pattern density-induced CMP non-uniformity for copper metal lines having widths and spacing in the range of about 32-128 nm. The new process includes a partial copper deposition step followed by deposition of a silicon carbide/nitride (SiC | 04-10-2014 |
20140124865 | SEMICONDUCTOR DEVICE INCLUDING LOW-K DIELECTRIC CAP LAYER FOR GATE ELECTRODES AND RELATED METHODS - A semiconductor device may include a substrate, source and drain regions in the substrate, a recessed epitaxial channel layer in the substrate between the source and drain regions, and a high-K gate dielectric layer overlying the recessed epitaxial channel layer. The semiconductor device may further include a gate electrode overlying the high-K gate dielectric layer, a dielectric cap layer in contact with top and sidewall portions of the gate electrode, the dielectric cap layer having a lower dielectric constant than the high-K gate dielectric layer, and source and drain contacts coupled to the source and drain regions. | 05-08-2014 |
20140175610 | ELECTROSTATIC DISCHARGE DEVICES FOR INTEGRATED CIRCUITS - A junction diode array for use in protecting integrated circuits from electrostatic discharge can be fabricated to include symmetric and/or asymmetric junction diodes of various sizes. The diodes can be configured to provide low voltage and current discharge via unencapsulated contacts, or high voltage and current discharge via encapsulated contacts. Use of tilted implants in fabricating the junction diode array allows a single hard mask to be used to implant multiple ion species. Furthermore, a different implant tilt angle can be chosen for each species, along with other parameters, (e.g., implant energy, implant mask thickness, and dimensions of the mask openings) so as to craft the shape of the implanted regions. Isolation regions can be inserted between already formed diodes, using the same implant hard mask if desired. A buried oxide layer can be used to prevent diffusion of dopants into the substrate beyond a selected depth. | 06-26-2014 |
20140183735 | SYSTEM AND METHOD OF COMBINING DAMASCENES AND SUBTRACT METAL ETCH FOR ADVANCED BACK END OF LINE INTERCONNECTIONS - Metal interconnections are formed in an integrated by combining damascene processes and subtractive metal etching. A wide trench is formed in a dielectric layer. A conductive material is deposited in the wide trench. Trenches are etched in the conductive material to delineate a plurality of metal plugs each contacting a respective metal track exposed by the wide trench. | 07-03-2014 |
20140293687 | SEMICONDUCTOR DEVICE WITH PCM MEMORY CELLS AND NANOTUBES AND RELATED METHODS - A semiconductor device may include a substrate, and an array of PCM memory cells above the substrate. Each PCM memory cell may include first and second vertically aligned electrodes, a first dielectric layer between the first and second electrodes, a carbon nanotube extending vertically through the first dielectric layer from the second electrode and toward the first electrode, and a PCM body between the first electrode and the at least one carbon nanotube. | 10-02-2014 |
20140299936 | INTEGRATED CIRCUIT DEVICES AND FABRICATION TECHNIQUES - Integrated circuit devices and fabrication techniques. A semiconductor device fabrication method may include doping, in a same processing step, first and second portions of a substrate of an integrated circuit. The first portion corresponds to a doped region of a semiconductor device. The second portion corresponds to a via contact. The method may further include, after the doping, forming the gate of the semiconductor device. | 10-09-2014 |
20140299938 | METHODS AND DEVICES FOR ENHANCING MOBILITY OF CHARGE CARRIERS - Methods and devices for enhancing mobility of charge carriers. An integrated circuit may include semiconductor devices of two types. The first type of device may include a metallic gate and a channel strained in a first manner. The second type of device may include a metallic gate and a channel strained in a second manner. The gates may include, collectively, three or fewer metallic materials. The gates may share a same metallic material. A method of forming the semiconductor devices on an integrated circuit may include depositing first and second metallic layers in first and second regions of the integrated circuit corresponding to the first and second gates, respectively. | 10-09-2014 |
20140353722 | GRAPHENE CAPPED HEMT DEVICE - A graphene capped HEMT device and a method of fabricating same are disclosed. The graphene capped HEMT device includes one or more graphene caps that enhance device performance and/or reliability of an exemplary AlGaN/GaN heterostructure transistor used in high-frequency, high-energy applications, e.g., wireless telecommunications. The HEMT device disclosed makes use of the extraordinary material properties of graphene. One of the graphene caps acts as a heat sink underneath the transistor, while the other graphene cap stabilizes the source, drain, and gate regions of the transistor to prevent cracking during high-power operation. A process flow is disclosed for replacing a three-layer film stack, previously used to prevent cracking, with a one-atom thick layer of graphene, without otherwise degrading device performance. In addition, the HEMT device disclosed includes a hexagonal boron nitride adhesion layer to facilitate deposition of the compound nitride semiconductors onto the graphene. | 12-04-2014 |