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Systems and Methods for Temperature Profile Control of Microwave Oven Devices

Номер патента: US20220377856A1. Автор: Abu Saude Mohammad J, Cheng Lian Bob W., CHO Jun Yeon, Clarke Nigel A., Estruch Tena Marc, Guayaquil Sosa Gustavo A., Kim Cathy, Marks Jacob A., Martinez Lopez Pedro, Ortega Avila Santiago, Parker Ian D., Patton Brian R., Perdices-Gonzalez Sergio, Post Ernest R., Sadi Sajid, Tran Forrest G., Vyas Kushal K.. Владелец: . Дата публикации: 24-11-2022.
A method by an electromagnetic device includes determining a pattern of electromagnetic energy absorbed by a load disposed inside a cavity into which electromagnetic radiation is directed and generating one or more maps of the pattern of electromagnetic energy absorbed by the load. The one or more maps comprises an indication of a distribution of heating within the load. The method further includes determining, based on the one or more maps, a plurality of sequences of operating parameter combinations configured so as to heat the load via absorption of the electromagnetic radiation in accordance with a target temperature profile with respect to the load. The method thus includes emitting electromagnetic radiation into the cavity based on the plurality of sequences of operating parameter combinations to achieve the target temperature profile with respect to the load. 1. A method comprising , by an electromagnetic device:determining a pattern of electromagnetic energy absorbed by a load disposed inside a cavity into which electromagnetic radiation is directed;generating one or more maps of the pattern of electromagnetic energy absorbed by the load, wherein the one or more maps comprises an indication of a distribution of heating within the load;determining, based on the one or more maps, a plurality of sequences of operating parameter combinations configured so as to heat the load via absorption of the electromagnetic radiation in accordance with a target temperature profile with respect to the load; andemitting electromagnetic radiation into the cavity based on the plurality of sequences of operating parameter combinations to achieve the target temperature profile with respect to the load.2. The method of claim 1 , further comprising:determining a type of the load,wherein determining the pattern of electromagnetic energy absorbed by the load is further based on the determined type of the load.3. The method of claim 1 , wherein the plurality of sequences of operating ...

Pixel intensity homogeneity in organic electronic devices

Номер патента: US8063551B1. Автор: Gang Yu, Ian D. Parker, Jeffrey G. Innocenzo, Matthew Stainer. Владелец: EI Du Pont de Nemours and Co. Дата публикации: 22-11-2011.
In the fabrication of a display, such as an OLED display, the OLED layer stack is deposited on an electrode on the substrate. The electrode may be the anode and may comprise indium tin oxide (ITO). Desirably, the deposited films are of uniform thickness over the entire active area of the electrode. If the films are not uniform, then areas that are thicker will not emit light, and areas that are too thin may emit light in a less than optimum efficient way (power loss) and/or result in leakage current leaks through the device in a way that does not generate photons. An active-matrix organic light emitting diode comprises a substrate with a larger well size or wider channel width compared to the emission area. This improves the effective aperture ratio, which improves pixel intensity homogeneity.

Electronic device and process for forming same

Номер патента: US7960717B2. Автор: Ian D. Parker. Владелец: EI Du Pont de Nemours and Co. Дата публикации: 14-06-2011.
An electronic device includes a substrate, a first organic electronic component overlying the substrate, wherein, from a plan view, the first organic electronic component defines a perimeter of a first pixel area, and at least one post structure, wherein the at least one post structure lies within the perimeter of the first pixel area. The electronic device can also include a confinement structure overlying the substrate and having a first opening, wherein from a plan view, the first opening has a perimeter that substantially corresponds to a perimeter of the first organic electronic component.

Current limiting element for pixels in electronic devices

Номер патента: US20110193066A1. Автор: Ian D. Parker, Johann Thomas Trujillo, Nigel Morton Coe. Владелец: EI Du Pont de Nemours and Co. Дата публикации: 11-08-2011.
An apparatus for pixellated radiation configured to prevent short-circuits from adversely impacting display quality. A current limiting element connects a pixel to a power bus to minimize effects of pixel failures. Failure of a single pixel will have minimum impact on perceived display quality, thus avoiding failure of an entire row or column which would be noticeable to an observer of the display.

Sub-surface engraving of oled substrates for improved optical outcoupling

Номер патента: US20110058770A1. Автор: Ian D. Parker. Владелец: EI Du Pont de Nemours and Co. Дата публикации: 10-03-2011.
An electronic device includes a radiation-emitting component, a radiation-responsive component, or a combination thereof. In one embodiment, the introduction of scattering sites into a substrate of the radiation emitting electronic device will increase optical outcoupling. In one embodiment, the substrate can be glass or plastic and a laser is used as a sub-surface engraving tool to produce scattering sites.

Backplane structures for electronic devices

Номер патента: US20100258804A1. Автор: Ian D. Parker, Ines Meinel, Yaw A. Tsai. Владелец: EI Du Pont de Nemours and Co. Дата публикации: 14-10-2010.
There is provided a backplane for an organic electronic device including a TFT substrate having a base substrate, a polysilicon layer, a gate dielectric layer, a gate electrode, an interlayer dielectric, and a data electrode; an insulating layer over the TFT substrate; a multiplicity of first openings in the insulating layer having a depth d 1 ; a multiplicity of pixellated diode electrode structures, wherein a first set of diode electrode structures are in the first openings; and a bank structure defining pixel areas over the diode electrode structures; wherein the first openings and first set of diode electrode structures are in at least a first set of the pixel areas.

Multilayer structures as stable hole-injecting electrodes for use in high efficiency organic electronic devices

Номер патента: AU2001268538A1. Автор: Chi Zhang, Ian D. Parker. Владелец: Uniax Corp. Дата публикации: 02-01-2002.

Organic light-emitting diode luminaires

Номер патента: EP2304823A2. Автор: Daniel David Lecloux, Ian D. Parker, Johann Thomas Trujillo. Владелец: EI Du Pont de Nemours and Co. Дата публикации: 06-04-2011.
There is provided an organic light-emitting diode luminaire. The luminaire includes a patterned first electrode, a second electrode, and a light-emitting layer therebetween. The light-emitting layer includes a first plurality of pixels having a first emitted color; and a second plurality of pixels having a second emitted color, the second plurality of pixels being laterally spaced from the first plurality of pixels. In the luminaire the pixels have a pitch no greater than 200 microns. The additive mixing of all the emitted colors results in an overall emission of white light.
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