The present invention provides a method for plasma dicing a substrate. The method comprising providing a process chamber having a wall; providing a plasma source adjacent to the wall of the process chamber; providing a work piece support within the process chamber; placing the substrate onto a support film on a frame to form a work piece work piece; loading the work piece onto the work piece support; providing a clamping electrode for electrostatically clamping the work piece to the work piece support; providing a mechanical partition between the plasma source and the work piece; generating a plasma through the plasma source; and etching the work piece through the generated plasma.

A method for transferring a plurality of die operatively associated with a transfer apparatus to a glass substrate to form a circuit component. The transfer occurs by positioning the glass substrate to face a first surface of a die carrier carrying multiple die. A reciprocating transfer member thrusts against a second surface of the die carrier to actuate the transfer member thereby causing a localized deflection of the die carrier in a direction of the surface of the glass substrate to position an initial die proximate to the glass substrate. The initial die transfers directly to a circuit trace on the glass substrate. At least one of the die carrier or the transfer member is then shifted such that the transfer member aligns with a subsequent die on the first surface of the die carrier. The acts of actuating, transferring, and shifting are repeated to effectuate a transfer of the multiple die onto the glass substrate.

The inventive concept provides a substrate treating apparatus. The substrate treating apparatus includes a body; a fluid supply unit for supplying a treating fluid to a treating space within the body; and a fluid exhaust line for exhausting the treating fluid from the treating space, and wherein the body includes: a first body; a second body relatively moving with respect to the first body; and an anti-friction member for preventing a friction between the first body and the second body, and wherein the anti-friction member is configured continuously cover at least two surfaces among surfaces of the first body and the second body.

A method includes estimating a replacement time of a consumable part of a processing device, specifying a timing after substrate processing of the processing device is completed in a period before the replacement time as a replaceable timing of the consumable part, estimating a movement time period required for the part transporting device to move to a position of the processing device requiring the replacement, and estimating a preparation time period required for preparation until the part transporting device moved to the position of the processing device requiring the replacement becomes a state in which the consumable part is replaceable. The method further includes transmitting a replacement instruction to the part transporting device at a timing before a timing that is earlier than the replaceable timing by a total time of the movement time period and the preparation time period, and instructing the replacement of the consumable part.

The inventive concept provides a substrate treating apparatus. The substrate treating apparatus includes a housing having a treating space treating a substrate; a support unit supporting the substrate at the treating space; a gas supply unit supplying a process gas into the treating space; and a plasma source generating a plasma from the process gas, and wherein the support unit comprises: a dielectric plate placing the substrate on a top surface thereof; a top ring surrounding a circumference of a substrate placed on the dielectric plate; a temperature sensor measuring a temperature of the top ring; a first lifting/lowering member lifting/lowering the top ring; and a controller, and wherein the controller controls the first lifting/lowering member to change a height of the top ring according to an etching amount of the top ring calculated based on the temperature of the top ring measured by the temperature sensor.

According to one embodiment, a substrate supporting apparatus includes a mounting plate that is configured by including ceramics and has a mounting surface on which the substrate is to be mounted; a power supply plate that is built in the mounting plate and electrostatically attracts the substrate to the mounting plate; a plurality of protruding portions which internally includes an electrically conductive member respectively, is arranged on at least a central region and outer edge region of the mounting plate, and protrudes from the mounting surface; and a plurality of elastic members which is embedded in the mounting plate to correspond to the plurality of protruding portions, supports the plurality of protruding portions while protruding the protruding portions from the mounting surface, and electrically connects the power supply plate and the electrically conductive members included in the plurality of protruding portions to each other.

The present disclosure describes an apparatus for processing one or more objects. The apparatus includes a carrier configured to hold the one or more objects, a tank filled with a processing agent and configured to receive the carrier, and a spinning portion configured to contact the one or more objects and to spin the one or more objects to disturb a flow field of the processing agent.

The present invention discloses an ejector pin device for chip packaging, which comprises a pin cylinder, a base and an ejector pin base module, wherein the pin cylinder sleeves the ejector pin base module, the base is located below the ejector pin base module and is configured to fix the ejector pin base module; and the ejector pin base module comprises a knob unit and a supporting unit. An effect of adjusting the knob unit can be acted on the corresponding supporting unit, so that the requirements of the numbers and positions of the ejector pins required by different products are satisfied and metal foreign matters are reduced, thereby improving the efficiency of replacing products by a worker.

A pedestal assembly including a pedestal for supporting a substrate. A central shaft positions the pedestal at a height during operation. A ring is placed along a periphery of the pedestal. A ring adjuster subassembly includes an adjuster flange disposed around a middle section of the central shaft. The subassembly includes a sleeve connected to the adjuster flange and extending from the adjuster flange to an adjuster plate disposed under the pedestal. The subassembly includes ring adjuster pins connected to the adjuster plate and extending vertically from the adjuster plate. Each of the ring adjuster pins being positioned on the adjuster plate at locations adjacent to and outside of a pedestal diameter. The ring adjuster pins contacting an edge undersurface of the ring. The adjuster flange coupled to at least three adjuster actuators for defining an elevation and tilt of the ring relative to a top surface of the pedestal.

Systems and methods for processing workpieces, such as semiconductor workpieces are provided. One example embodiment is directed to a processing system for processing a plurality of workpieces. The processing system can include a loadlock chamber, a transfer chamber, and at least two processing chamber having two or more processing stations. The processing system further includes a storage chamber for storing replaceable parts. The transfer chamber includes a workpiece handling robot. The workpiece handling robot can be configured to transfer a plurality of replaceable parts from the processing stations to the storage chamber.