Stuart M. Jacobsen - Frisco TX, US Mary Roby - Plano TX, US Erika Shoemaker - Richardson TX, US Maria Wang - Plano TX, US
Assignee:
Texas Instruments Incorporated - Dallas TX
International Classification:
B41J 29/38
US Classification:
347 14, 347 56, 347 58
Abstract:
A thermal inkjet printhead of the present invention includes a heating element , an ink chamber, control circuitry , an ink reservoir, and a memory array. The control circuitry causes the heating element to generate thermal energy thereby causing ink within the ink chamber to generate bubbles of ink, which are then expelled through a nozzle. The ink reservoir replenishes used ink in the ink chamber. The memory array stores and provides the identification parameters for the thermal inkjet printhead. The identification parameters are typically provided during initialization of the printer and include color(s) of ink (e. g. , black, green, red, blue), a number of nozzles on the thermal inkjet printhead, an addressing frequency, nozzle spacing, heating architecture, and the like. The identification parameters can include other information such as a unique serial identification number for the thermal inkjet printhead, manufacturer serial number, lot number, date of manufacture, compatible printers, ink capacity, ink remaining, re-ordering information for replacement ink cartridges, and the like.
Semiconductor Device Including An Amorphous Nitrided Silicon Adhesion Layer And Method Of Manufacture Therefor
Provided is a method for manufacturing a semiconductor device. The method for manufacturing the semiconductor device, without limitation, includes forming a first semiconductor layer over a substrate, and forming a second semiconductor layer over the first semiconductor layer, wherein an amorphous nitrided silicon adhesion layer is located between and adheres the first and second semiconductor layers.
Process For Reactive Ion Etching A Layer Of Diamond Like Carbon
Erika Leigh Shoemaker - Richardson TX, US Maria Wang - Plano TX, US Mary Roby - Plano TX, US Stuart Jacobsen - Frisco TX, US
Assignee:
Texas Instruments Incorporated - Dallas TX
International Classification:
C03C 15/00
US Classification:
216 66, 216 74, 216 81
Abstract:
Provided is a process for manufacturing a diamond like carbon layer. The process for manufacturing the diamond like carbon layer includes, without limitation, forming a layer of diamond like carbon over a substrate, and reactive ion etching the layer of diamond like carbon.
Stuart Jacobsen - Frisco TX, US Mary Roby - Plano TX, US Erika Shoemaker - Richardson TX, US Maria Wang - Plano TX, US
Assignee:
TEXAS INSTRUMENTS INCORPORATED - Dallas TX
International Classification:
B41J 2/05
US Classification:
347061000
Abstract:
A thermal inkjet printhead of the present invention includes a heating element , an ink chamber, control circuitry , an ink reservoir, and a memory array . The control circuitry causes the heating element to generate thermal energy thereby causing ink within the ink chamber to generate bubbles of ink, which are then expelled through a nozzle. The ink reservoir replenishes used ink in the ink chamber. The memory array stores and provides the identification parameters for the thermal inkjet printhead . The identification parameters are typically provided during initialization of the printer and include color(s) of ink (e.g., black, green, red, blue), a number of nozzles on the thermal inkjet printhead, an addressing frequency, nozzle spacing, heating architecture, and the like. The identification parameters can include other information such as a unique serial identification number for the thermal inkjet printhead, manufacturer serial number, lot number, date of manufacture, compatible printers, ink capacity, ink remaining, re-ordering information for replacement ink cartridges, and the like.
Stuart Jacobsen - Frisco TX, US Mary Roby - Plano TX, US Erika Shoemaker - Richardson TX, US Maria Wang - Plano TX, US
Assignee:
TEXAS INSTRUMENTS INCORPORATED - Dallas TX
International Classification:
B41J 2/05
US Classification:
347061000
Abstract:
A thermal inkjet printhead of the present invention includes a heating element , an ink chamber, control circuitry , an ink reservoir, and a memory array . The control circuitry causes the heating element to generate thermal energy thereby causing ink within the ink chamber to generate bubbles of ink, which are then expelled through a nozzle. The ink reservoir replenishes used ink in the ink chamber. The memory array stores and provides the identification parameters for the thermal inkjet printhead . The identification parameters are typically provided during initialization of the printer and include color(s) of ink (e.g., black, green, red, blue), a number of nozzles on the thermal inkjet printhead, an addressing frequency, nozzle spacing, heating architecture, and the like. The identification parameters can include other information such as a unique serial identification number for the thermal inkjet printhead, manufacturer serial number, lot number, date of manufacture, compatible printers, ink capacity, ink remaining, re-ordering information for replacement ink cartridges, and the like.
Method For Manufacturing An Improved Resistive Structure
Maria Wang - Plano TX, US Erika Leigh Shoemaker - Richardson TX, US Mary Roby - Plano TX, US Stuart Jacobsen - Frisco TX, US
Assignee:
Texas Instruments Incorporated - Dallas TX
International Classification:
H01L 21/62 H01L 21/4763
US Classification:
438 21, 438384, 257E21006
Abstract:
Provided, in one embodiment, is a method for manufacturing a resistive structure. This method, without limitation, includes forming a substrate, and forming a tantalum-aluminum-nitride resistive layer over the substrate. Moreover, a bulk resistivity of the tantalum-aluminum-nitride resistive layer may be adjusted by varying at least one deposition condition selected from the group consisting of a flow rate ratio of nitrogen to argon, power, pressure, temperature and radio frequency (RF) bias voltage.
Method For Removing Diamond Like Carbon Residue From A Deposition/Etch Chamber Using A Plasma Clean
Maria Wang - Plano TX, US Erika Leigh Shoemaker - Richardson TX, US Mary Roby - Plano TX, US Stuart Jacobsen - Frisco TX, US
Assignee:
Texas Instruments Incorporated - Dallas TX
International Classification:
H01L 21/311
US Classification:
438694, 134 11, 257E21002
Abstract:
Provided is a method for removing diamond like carbon residue from a deposition chamber. This method, in one embodiment, may include subjecting a deposition chamber including diamond like carbon residue to a plasma clean in the presence of fluorine containing gas and oxygen containing gas. The method may further include purging the deposition chamber having been subjected to the plasma clean with an inert gas, and pumping the deposition chamber having been subjected to the plasma clean.
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Collin County Community College District Foundation, Inc
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Preston Meadow Phase 1/Phase 2 Homeowners Association
Mary Roby
HILLANDALE CENTER V CONDOMINIUM ASSOCIATION
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A. C. Moore Elementary School Columbia SC 1959-1965, Whitcomb Elementary School Milwaukie OR 1961-1967, Dale Ickes Junior High School Milwaukie OR 1967-1969
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