Patent application number | Description | Published |
20080314508 | Method of protecting a bond layer in a substrate support adapted for use in a plasma processing system - A method of protecting a bond layer in a substrate support adapted for use in a plasma processing system. The method includes the steps of attaching an upper member of a substrate support to a lower member of a substrate support with a bonding material. An adhesive is applied to an outer periphery of the upper member and to an upper periphery of the lower member, and a protective ring is positioned around the outer periphery of the upper member and the upper periphery of the lower member. The protective ring is originally fabricated with dimensions that provide mechanical stability and workability. The protective ring is then machined to an exact set of final dimensions consistent with the design of the substrate support application. | 12-25-2008 |
20090078360 | Method of manufacturing apparatus for spatial and temporal control of temperature on a substrate - An apparatus for control of a temperature of a substrate has a temperature-controlled base, a heater, a metal plate, a layer of dielectric material. The heater is thermally coupled to an underside of the metal plate while being electrically insulated from the metal plate. A first layer of adhesive material bonds the metal plate and the heater to the top surface of the temperature controlled base. This adhesive layer is mechanically flexible, and possesses physical properties designed to balance the thermal energy of the heaters and an external process to provide a desired temperature pattern on the surface of the apparatus. A second layer of adhesive material bonds the layer of dielectric material to a top surface of the metal plate. This second adhesive layer possesses physical properties designed to transfer the desired temperature pattern to the surface of the apparatus. The layer of dielectric material forms an electrostatic clamping mechanism and supports the substrate. | 03-26-2009 |
20090091335 | Methods for Characterizing Dielectric Properties of Parts - Characterizing dielectric properties of a part includes placing a full-sized part within a dielectric property measurement apparatus. In one embodiment, the full-sized part is a dielectric part of a plasma processing system. The dielectric property measurement apparatus is operated to determine a dielectric constant value of the full-sized part and a loss tangent value of the full-sized part. The determined dielectric constant and loss tangent values are affixed to the full-sized part. | 04-09-2009 |
20090091340 | Apparatus for Measuring Dielectric Properties of Parts - A chamber formed from an electrically conductive material is connected to a ground potential. A hot electrode formed from an electrically conductive material is disposed within the chamber in a substantially horizontal orientation and is physically separated from the chamber. The hot electrode includes a top surface defined to support a part to be measured. A radiofrequency (RF) transmission rod is connected to extend from a bottom surface of the hot electrode through an opening in a bottom of the chamber and be physically separated from the chamber. The RF transmission rod is defined to transmit RF power from a conductor plate in an electrical components housing to the hot electrode. An upper electrode formed from an electrically conductive material is disposed within the chamber in a substantially horizontal orientation. The upper electrode is electrically connected to the chamber and is defined to be movable in a vertical direction. | 04-09-2009 |
20090091341 | Electrode for Use in Measuring Dielectric Properties of Parts - A plate of substantially uniform thickness is formed from an electrically conductive material. The plate has a top surface defined to support a part to be measured. The plate has a bottom surface defined to be connected to a radiofrequency (RF) transmission rod such that RF power can be transmitted through the RF transmission rod to the plate. The plate is defined to have a number of holes cut vertically through the plate at a corresponding number of locations that underlie embedded conductive material items in the part to be measured when the part is positioned on the top surface of the plate. | 04-09-2009 |
20090161286 | ELECTROSTATIC CHUCK SUPPORT ASSEMBLY - A method of tuning the thermal conductivity of an electrostatic chuck (ESC) support assembly comprises measuring the temperature at a plurality of sites on a support assembly surface in which each site is associated with a given cell, determining from the measurements any fractional reduction in area suggested for each cell, and removing material from the support assembly surface within each cell in accordance with the suggested fractional reduction in order to decrease thermal conductivity in that cell. The material removal can result in an improvement to the equilibrium temperature uniformity of the electrostatic chuck support assembly at the chuck surface of an electrostatic chuck bonded to the support assembly surface, or can result in an equilibrium temperature profile of the ESC support assembly which approaches or achieves a target equilibrium temperature profile. Thermal conductivity tuning can thus take place by a method comprising defining a cell structure, determining the target areal density of each cell and removing a fractional area of material to achieve the target areal density for that cell. Material removal can be effected by drilling, routing, laser machining or grit blast machining on an X-Y table. | 06-25-2009 |
20100079152 | Methods for Measuring Dielectric Properties of Parts - A method is disclosed for calibrating a capacitance of an apparatus for measuring dielectric properties of a part. The apparatus includes an electrically grounded chamber, a lower electrode disposed within the chamber and connected to a radiofrequency (RF) transmission rod, an electrically grounded upper electrode disposed within the chamber above the lower electrode, and a variable capacitor connected to control transmission of RF power through the RF transmission rod to the lower electrode. A method is also disclosed for determining a capacitance of a part through use of the apparatus. A method is also disclosed for determining a dielectric constant of a part through use of the apparatus. A method is also disclosed for determining a loss tangent of a part through use of the apparatus. | 04-01-2010 |
20100116788 | Substrate temperature control by using liquid controlled multizone substrate support - A substrate support useful in a reaction chamber of a plasma processing apparatus is provided. The substrate support comprises a base member and a heat transfer member overlying the base member. The heat transfer member has multiple zones to individually heat and cool each zone of the heat transfer member. An electrostatic chuck overlies the heat transfer member. The electrostatic chuck has a support surface for supporting a substrate in a reaction chamber of the plasma processing apparatus. A source of cold liquid and a source of hot liquid are in fluid communication with flow passages in each zone. A valve arrangement is operable to independently control temperature of the liquid by adjusting a mixing ratio of the hot liquid to the cold liquid circulating in the flow passages. In another embodiment, heating elements along a supply line and transfer lines heat a liquid from a liquid source before circulating in the flow passages. | 05-13-2010 |
20110083318 | QUARTZ GUARD RING CENTERING FEATURES - An electrode assembly and method of centering an outer ring around an electrode assembly in a plasma reaction chamber used in semiconductor substrate processing. The method includes positioning the outer ring around an outer surface of a backing member of the electrode assembly, and inserting at least one centering element between the outer ring and the backing member. The centering element can be a plurality of spring-loaded centering elements received in a cavity on the outer surface of the backing member, the centering elements having a first end adapted to contact the outer ring and a second end adapted to receive a spring. The outer ring surrounds an outer surface of the backing member, such that the plurality of spring-loaded centering elements are positioned between the outer surface of the backing member and an inner surface of the outer ring. | 04-14-2011 |
20110086513 | UPPER ELECTRODE BACKING MEMBER WITH PARTICLE REDUCING FEATURES - Components of a plasma processing apparatus includes a backing member with gas passages attached to an upper electrode with gas passages. To compensate for the differences in coefficient of thermal expansion between the metallic backing member and upper electrode, the gas passages are positioned and sized such that they are misaligned at ambient temperature and substantially concentric at an elevated processing temperature. Non-uniform shear stresses can be generated in the elastomeric bonding material, due to the thermal expansion. Shear stresses can either be accommodated by applying an elastomeric bonding material of varying thickness or using a backing member comprising of multiple pieces. | 04-14-2011 |
20110092072 | HEATING PLATE WITH PLANAR HEATING ZONES FOR SEMICONDUCTOR PROCESSING - A heating plate for a substrate support assembly in a semiconductor plasma processing apparatus, comprises multiple independently controllable planar heater zones arranged in a scalable multiplexing layout, and electronics to independently control and power the planar heater zones. A substrate support assembly in which the heating plate is incorporated includes an electrostatic clamping electrode and a temperature controlled base plate. Methods for manufacturing the heating plate include bonding together ceramic or polymer sheets having planar heater zones, power supply lines, power return lines and vias. | 04-21-2011 |
20110140715 | METHODS FOR MEASURING DIELECTRIC PROPERTIES OF PARTS - A method is disclosed for calibrating a capacitance of an apparatus for measuring dielectric properties of a part. The apparatus includes an electrically grounded chamber, a lower electrode disposed within the chamber and connected to a radiofrequency (RF) transmission rod, an electrically grounded upper electrode disposed within the chamber above the lower electrode, and a variable capacitor connected to control transmission of RF power through the RF transmission rod to the lower electrode. A method is also disclosed for determining a capacitance of a part through use of the apparatus. A method is also disclosed for determining a dielectric constant of a part through use of the apparatus. A method is also disclosed for determining a loss tangent of a part through use of the apparatus. | 06-16-2011 |
20110143462 | ADJUSTING SUBSTRATE TEMPERATURE TO IMPROVE CD UNIFORMITY - A plasma etching system having a substrate support assembly with multiple independently controllable heater zones. The plasma etching system is configured to control etching temperature of predetermined locations so that pre-etch and/or post-etch non-uniformity of critical device parameters can be compensated for. | 06-16-2011 |
20120018411 | APPARATUS FOR SPATIAL AND TEMPORAL CONTROL OF TEMPERATURE ON A SUBSTRATE - An apparatus for control of a temperature of a substrate has a temperature-controlled base, a heater, a metal plate, a layer of dielectric material. The heater is thermally coupled to an underside of the metal plate while being electrically insulated from the metal plate. A first layer of adhesive material bonds the metal plate and the heater to the top surface of the temperature controlled base. This adhesive layer is mechanically flexible, and possesses physical properties designed to balance the thermal energy of the heaters and an external process to provide a desired temperature pattern on the surface of the apparatus. A second layer of adhesive material bonds the layer of dielectric material to a top surface of the metal plate. This second adhesive layer possesses physical properties designed to transfer the desired temperature pattern to the surface of the apparatus. | 01-26-2012 |
20120043022 | PLASMA CHAMBER TOP PIECE ASSEMBLY - A plasma processing system for processing a substrate is described. The plasma processing system includes a bottom piece including a chuck configured for holding the substrate. The plasma processing system also includes an induction coil configured to generate an electromagnetic field in order to create a plasma for processing the substrate. The plasma processing system also includes a cover covering at least the induction coil and a heating and cooling system. The top piece coupled to the bottom piece and at least partially covered by the cover, the top piece comprising a first shelf, a second shelf, and a wall; the wall being disposed between the first shelf and the second shelf; a cavity being formed between the first shelf and the second shelf, and between the wall and a portion of the cover; the heating and cooling system being disposed inside the cavity; Wherein, the heating and cooling system is substantially shielded from the electromagnetic field by the top piece, and the top piece substantially complies with a set of SEMI ergonomic safety standards for a part handled by a single person. | 02-23-2012 |
20130068750 | HEATING PLATE WITH DIODE PLANAR HEATER ZONES FOR SEMICONDUCTOR PROCESSING - A heating plate for a substrate support assembly in a semiconductor plasma processing apparatus, comprises multiple independently controllable planar heater zones arranged in a scalable multiplexing layout, and electronics to independently control and power the planar heater zones. Each planar heater zone uses at least one diode as a heater element. A substrate support assembly in which the heating plate is incorporated includes an electrostatic clamping electrode and a temperature controlled base plate. Methods for manufacturing the heating plate include bonding together ceramic or polymer sheets having planar heater zones, power supply lines, power return lines and vias. | 03-21-2013 |
20130072024 | APPARATUS FOR SPATIAL AND TEMPORAL CONTROL OF TEMPERATURE ON A SUBSTRATE - An apparatus for control of a temperature of a substrate has a temperature-controlled base, a heater, a metal plate, a layer of dielectric material. The heater is thermally coupled to an underside of the metal plate while being electrically insulated from the metal plate. A first layer of adhesive material bonds the metal plate and the heater to the top surface of the temperature controlled base. This adhesive layer is mechanically flexible, and possesses physical properties designed to balance the thermal energy of the heaters and an external process to provide a desired temperature pattern on the surface of the apparatus. A second layer of adhesive material bonds the layer of dielectric material to a top surface of the metal plate. This second adhesive layer possesses physical properties designed to transfer the desired temperature pattern to the surface of the apparatus. The layer of dielectric material forms an electrostatic clamping mechanism and supports the substrate. | 03-21-2013 |
20130072035 | THERMAL PLATE WITH PLANAR THERMAL ZONES FOR SEMICONDUCTOR PROCESSING - A thermal plate for a substrate support assembly in a semiconductor plasma processing apparatus, comprises multiple independently controllable planar thermal zones arranged in a scalable multiplexing layout, and electronics to independently control and power the planar heater zones. Each planar thermal zone uses at least one Peltier device as a thermoelectric element. A substrate support assembly in which the thermal plate is incorporated includes an electrostatic clamping electrode layer and a temperature controlled base plate. Methods for manufacturing the thermal plate include bonding together ceramic or polymer sheets having planar thermal zones, positive, negative and common lines and vias. | 03-21-2013 |
20130241581 | Electrode for Use in Measuring Dielectric Properties of Parts - A plate of substantially uniform thickness is formed from an electrically conductive material. The plate has a top surface defined to support a part to be measured. The plate has a bottom surface defined to be connected to a radiofrequency (RF) transmission rod such that RF power can be transmitted through the RF transmission rod to the plate. The plate is defined to have a number of holes cut vertically through the plate at a corresponding number of locations that underlie embedded conductive material items in the part to be measured when the part is positioned on the top surface of the plate. | 09-19-2013 |
20130269368 | THERMAL PLATE WITH PLANAR THERMAL ZONES FOR SEMICONDUCTOR PROCESSING - A thermal plate for a substrate support assembly in a semiconductor plasma processing apparatus, includes multiple independently controllable planar thermal zones arranged in a scalable multiplexing layout, and electronics to independently control and power the planar heater zones. Each planar thermal zone uses at least one Peltier device as a thermoelectric element. A substrate support assembly in which the thermal plate is incorporated has an electrostatic clamping electrode layer and a temperature controlled base plate. Methods for manufacturing the thermal plate include bonding together ceramic or polymer sheets having planar thermal zones, positive, negative and common lines and vias. | 10-17-2013 |
20130306239 | PLASMA CHAMBER TOP PIECE ASSEMBLY - A plasma processing system for processing a substrate is described. The plasma processing system includes a bottom piece including a chuck configured for holding the substrate. The plasma processing system also includes an induction coil configured to generate an electromagnetic field in order to create a plasma for processing the substrate; and an optimized top piece coupled to the bottom piece, the top piece further configured for a heating and cooling system. Wherein, the heating and cooling system is substantially shielded from the electromagnetic field by the optimized top piece, and the optimized top piece can substantially be handled by a single person. | 11-21-2013 |
20140045337 | HEATING PLATE WITH PLANAR HEATER ZONES FOR SEMICONDUCTOR PROCESSING - An exemplary method is directed to powering heaters in a substrate support assembly on which a semiconductor substrate is supported. The support assembly has an array of heaters powered by two or more power supply lines and two or more power return lines wherein each power supply line is connected to a power supply and at least two of the heaters and each power return line is connected to at least two of the heaters, and a switching device which independently connects each one of the heaters to one of the power supply lines and one of the power return lines so as to provide time-averaged power to each of the heaters by time divisional multiplexing of switches of the switching device. The method includes supplying power to each of the heaters sequentially using a time-domain multiplexing scheme. | 02-13-2014 |
20140047705 | HEATING PLATE WITH PLANAR HEATER ZONES FOR SEMICONDUCTOR PROCESSING - An exemplary method for manufacturing a heating plate for a substrate support assembly includes forming holes in at least one sheet, printing a slurry of conductor powder, or pressing a precut metal foil, or spraying a slurry of conductor powder, on the at least one sheet to form the planar heater zones, the power supply lines, and power return lines. The holes in the at least one sheet are filled with a slurry of conductor powder to form power supply and power return vias. The sheets are then aligned, pressed, and bonded to form the heating plate. | 02-20-2014 |
20140096909 | HEATING PLATE WITH PLANAR HEATER ZONES FOR SEMICONDUCTOR PROCESSING - A heating plate of a semiconductor substrate support for supporting a semiconductor substrate in a plasma processing chamber includes a first layer with an array of heater zones operable to tune a spatial temperature profile on the semiconductor substrate, and a second layer with one or more primary heaters to provide mean temperature control of the semiconductor substrate. The heating plate can be incorporated in a substrate support wherein a switching device independently supplies power to each one of the heater zones to provide time-averaged power to each of the heater zones by time divisional multiplexing of the switches. | 04-10-2014 |
20140110060 | ADJUSTING SUBSTRATE TEMPERATURE TO IMPROVE CD UNIFORMITY - A plasma etching system having a substrate support assembly with multiple independently controllable heater zones. The plasma etching system is configured to control etching temperature of predetermined locations so that pre-etch and/or post-etch non-uniformity of critical device parameters can be compensated for. | 04-24-2014 |
20140154819 | POWER SWITCHING SYSTEM FOR ESC WITH ARRAY OF THERMAL CONTROL ELEMENTS - A semiconductor substrate support for supporting a semiconductor substrate in a plasma processing chamber includes a heater array comprising thermal control elements operable to tune a spatial temperature profile on the semiconductor substrate, the thermal control elements defining heater zones each of which is powered by two or more power supply lines and two or more power return lines wherein each power supply line is connected to at least two of the heater zones and each power return line is connected to at least two of the heater zones. A power distribution circuit is mated to a baseplate of the substrate support, the power distribution circuit being connected to each power supply line and power return line of the heater array. A switching device is connected to the power distribution circuit to independently provide time-averaged power to each of the heater zones by time divisional multiplexing of a plurality of switches. | 06-05-2014 |
20140187049 | SHOWERHEAD ELECTRODE ASSEMBLY WITH GAS FLOW MODIFICATION FOR EXTENDED ELECTRODE LIFE - A showerhead electrode assembly for a plasma processing apparatus is provided. The showerhead electrode assembly includes a first member attached to a second member. The first and second members have first and second gas passages in fluid communication. When a process gas is flowed through the gas passages, a total pressure drop is generated across the first and second gas passages. A fraction of the total pressure drop across the second gas passages is greater than a fraction of the total pressure drop across the first gas passages. | 07-03-2014 |
20140332161 | APPARATUS FOR SPATIAL AND TEMPORAL CONTROL OF TEMPERATURE ON A SUBSTRATE - An apparatus for control of a temperature of a substrate has a temperature-controlled base, a heater, a metal plate, a layer of dielectric material. The heater is thermally coupled to an underside of the metal plate while being electrically insulated from the metal plate. A first layer of adhesive material bonds the metal plate and the heater to the top surface of the temperature controlled base. This adhesive layer is mechanically flexible, and possesses physical properties designed to balance the thermal energy of the heaters and an external process to provide a desired temperature pattern on the surface of the apparatus. A second layer of adhesive material bonds the layer of dielectric material to a top surface of the metal plate. This second adhesive layer possesses physical properties designed to transfer the desired temperature pattern to the surface of the apparatus. | 11-13-2014 |