摘要:
A method of depositing a material on a substrate is provided for use in manufacturing electronic and display devices such as semiconductors, liquid crystal displays, and organic light emitting diode displays. A deposition material stored in a first deposition source section is heated to evaporate the deposition material. A second deposition source section, which is separate from the first deposition source section, is cooled. The first deposition source section is cooled, and deposition material stored in a second deposition source section is heated so as to alternately supply evaporated deposition material from the first and second deposition source sections to a feed section. The evaporated deposition material from the feed section is supplied to a nozzle section. A substrate can be provided to receive the evaporated deposition material from the nozzle section. A thin film of deposition material can then be formed on the substrate.
摘要:
A deposition amount measuring apparatus includes a plate-shaped body having a rotating shaft, a plurality of deposition amount sensors along side surfaces of the body, the deposition amount sensors being configured to measure an amount of deposition material, and a housing surrounding the body, the housing including an inflow port that exposes one of the deposition amount sensors.
摘要:
A deposition amount measuring apparatus includes a plate-shaped body having a rotating shaft, a plurality of deposition amount sensors along side surfaces of the body, the deposition amount sensors being configured to measure an amount of deposition material, and a housing surrounding the body, the housing including an inflow port that exposes one of the deposition amount sensors.
摘要:
A method and apparatus scroll a screen in a device with a touchscreen. A method for scrolling a device with a touchscreen includes determining whether a current touch input is a circular drag touch; if the current touch input is the circular drag touch, determining whether a current page is a scrollable screen; and if the current page is a scrollable screen, scrolling the current page according to a circle drawing action of the circular drag touch.
摘要:
A sputtering system is disclosed. The sputtering system includes: a first sputter unit including: a first deposition material plate, a second deposition material plate, where the first and second deposition material plates face each other, and a first magnetic field generator disposed behind each of the first deposition material plate and the second deposition material plate, configured to generate a magnetic field, a second sputter unit including: a third deposition material plate, disposed next to the first deposition material plate, a fourth deposition material plate, disposed next to the second deposition plate, where the third and fourth deposition material plates face each other, and a second magnetic field generator disposed behind each of the third deposition material plate and the fourth deposition material plate, configured to generate a magnetic field, a first gas supply pipe disposed between the first and third deposition material plates, configured to discharge gas to the second and fourth deposition material plates, a second gas supply pipe disposed between the second fourth deposition material plates, configured to discharge gas to the first and third deposition material plates, a first substrate support unit, configured to support a first deposition substrate, oriented toward outer edges of the first and second deposition material plates, and a second substrate support unit, configured to support a second deposition substrate, oriented toward outer edges of the third and fourth deposition material plates.
摘要:
A sputtering system is disclosed. The sputtering system includes: a first sputter unit including: a first deposition material plate, a second deposition material plate, where the first and second deposition material plates face each other, and a first magnetic field generator disposed behind each of the first deposition material plate and the second deposition material plate, configured to generate a magnetic field, a second sputter unit including: a third deposition material plate, disposed next to the first deposition material plate, a fourth deposition material plate, disposed next to the second deposition plate, where the third and fourth deposition material plates face each other, and a second magnetic field generator disposed behind each of the third deposition material plate and the fourth deposition material plate, configured to generate a magnetic field, a first gas supply pipe disposed between the first and third deposition material plates, configured to discharge gas to the second and fourth deposition material plates, a second gas supply pipe disposed between the second fourth deposition material plates, configured to discharge gas to the first and third deposition material plates, a first substrate support unit, configured to support a first deposition substrate, oriented toward outer edges of the first and second deposition material plates, and a second substrate support unit, configured to support a second deposition substrate, oriented toward outer edges of the third and fourth deposition material plates.
摘要:
A method and apparatus scroll a screen in a device with a touchscreen. A method for scrolling a device with a touchscreen includes determining whether a current touch input is a circular drag touch; if the current touch input is the circular drag touch, determining whether a current page is a scrollable screen; and if the current page is a scrollable screen, scrolling the current page according to a circle drawing action of the circular drag touch.
摘要:
A deposition source includes a first deposition source section, the first deposition source section being configured to store a deposition material, a second deposition source section, the second deposition source section being separate from the first deposition source section and being configured to store the deposition material, the first and second deposition source sections being configured to alternately supply the deposition material while heating or cooling the deposition material, a feed section configured to receive evaporated deposition material from the first and second deposition source sections, and a nozzle section configured to receive the deposition material from the feed section.