CONTREL TECHNOLOGY CO., LTD.
|CONTREL TECHNOLOGY CO., LTD. Patent applications|
|Patent application number||Title||Published|
|20110048953||METAL WIRE STRUCTURE WITH HIGH-MELTING-POINT PROTECTIVE LAYER AND ITS MANUFACTURING METHOD - The present invention presents a metal wire structure with high-melting-point protective layer and its manufacturing method, of which the structure comprising: a core and a protective layer; the core is made of metal, and the protective layer made of metal carbide or metal nitride. The manufacturing method includes the following steps: preparation, discharge and finish. The protective layer is gradually bonded onto the exterior surface of the core until a preset thickness of the protective layer, and then fully covered onto the core through a plating process of discharge reaction at temperature over 5000□. With this design, the present invention has advantages and efficacies such as: without generation of silicide and producing protective effects.||03-03-2011|
|20090230019||Substrate cassette having electrode array - A substrate cassette having an electrode array includes a base frame, a plurality of first electrode plates, a plurality of second electrode plates, and a plurality of struts. The base frame includes at least one conductive member located at a bottom side thereof and each having a plurality of first channels and second channels parallel to the first channels. The first and second channels are alternately arranged. The base frame includes a plurality of fixtures located at a top side thereof. An insulator is mounted in each of the second channels. Each of the struts is mounted to two opposite sides of a bottom edge of each of the corresponding first and second electrode plates. The struts and the corresponding fixtures are vertically opposite to each other to jointly define a limited space for receiving substrates, wherein the struts carry the substrates. Therefore, the substrate cassette is applicable to the CVD process.||09-17-2009|
|20090196697||Multi-Function cutting machine with working depth measurement - A multi-function cutting machine includes a cutting tool for cutting a workpiece, a feeder for selectively feeding a gas or fluid to through a longitudinal passage of the cutting tool to the workpiece to carry away cutting chips from the workpiece, a first laser beam and a second laser beam respectively projected through the passage of the cutting tool onto the workpiece, and a detection control device for receiving the reflective light wave of the second laser beam reflected by the workpiece for measuring the working depth of the cutting tool.||08-06-2009|
|20090194709||Laser processing machine with a cutting guide - A laser processing machine includes a laser device that generates a laser beam onto a workpiece when moving along a predetermined traveling path, an ultrasonic apparatus that generates a ultrasonic wave, and a guide member arranged near to and moved with the laser device along the traveling path for transferring the ultrasonic wave onto the workpiece along the traveling path. By means of the double-processing effect of the ultrasonic wave and the laser beam, the invention achieves the objects of high cutting precision, excellent product quality and fast processing speed.||08-06-2009|
|20090194515||Air jet type laser processing machine - An air jet type laser processing machine for processing a workpiece is disclosed to include a gas supply device, a fluid supply device, a recycling device, an actuator, which has an outer tube attached with the bottom end thereof to the surface of the workpiece and defining therein a first passage for guiding discharged gas from the gas supply device to the workpiece, a second passage (or a number of second passages) for guiding the fluid from the fluid supply device to the workpiece and a third passage connected to the recycling device for enabling the recycling device to recycle the discharged gas and fluid, and a laser emitter adapted for emitting a laser beam through the first passage onto the workpiece. During operation, the laser beam and the fluid work on the workpiece at the same time, and the laser beam is free from the interference of the fluid.||08-06-2009|
|20090194512||Multi-function machine - A multi-function machine includes an electrode having a passage, a power supply device electrically connected with the two opposite terminals thereof to the electrode and the workpiece to be processed, a feeder for selectively feeding a gas or fluid to the passage of the electrode, a first laser beam and a second laser beam respectively projected through the passage of the electrode onto the workpiece, and a detection control device for receiving the reflective light wave of the second laser beam reflected by the workpiece.||08-06-2009|
|20090183681||Slotted Electrode and Plasma Apparatus Using the Same - A slotted electrode with uniform distribution of electric field and a process apparatus using the slotted electrode are disclosed. The slotted electrode comprises an electrode plate; a perturbation slot segment; a first edge perturbation slot segment; two second edge perturbation slot segments. By using the slot segments of the electrode plate, the electrode plate can improve the uniformity of plasma density, and is suitable for use in various types of substrate and can be widely applied in a plasma process system.||07-23-2009|
|20090183680||Electrode with Improved Plasma Uniformity - An electrode with improved plasma uniformity is disclosed, which is used for a chamber capable of generating a plasma. The electrode comprises an electrode plate and a perturbation slot. By well designing the perturbation slot of the electrode, the disclosed electrode can improve the uniformity of the plasma density, and is suitable for use in various types of substrate and can be widely applied in a plasma process system.||07-23-2009|
|20090165705||Batch forming system for amorphous silicon film - A batch forming system for amorphous silicon films is composed of at least one p-layer formation chamber having a sealing gate that can be opened or closed; at least one i-layer formation chamber having a sealing gate that can be opened or closed; at least one n-layer formation chamber having a sealing gate that can be opened or closed; a common vacuum chamber connected with said formation chambers; a conveyance device having a bearing surface movable to the fronts of said sealing gates respectively; and a cart for carrying a plurality of plate-shaped materials, being allowed passing through said sealing gates to enter said formation chambers respectively from said bearing surface or to exit said formation chambers and then go back to the bearing surface. Therefore, batch forming system can speedy up the production and do the batch formation of a multiplicity of the amorphous silicon films at a time.||07-02-2009|
|20090110175||Gateway and System and Auto Call-Transferring Method for VOIP - A VoIP gateway, a VoIP phone system and an auto call-transferring method for VoIP are disclosed. The method is used in the VoIP gateway with a plurality of predetermined IDs, wherein the method comprises the steps of: receiving a call connection request for a first predetermined ID form a calling end point; detecting if the first predetermined ID is in use; and establishing a call connection between the calling end point and a second predetermined ID when the first predetermined ID is in use.||04-30-2009|
|20090106438||Method of Setting IP Address to Network Device - A method for setting an IP (Internet Protocol) address to a network device is provided. In this method, a step is first performed to check if a DHCP server exists in a network domain and obtain a checking result. When the checking result is yes, a dynamic IP address is obtained from the DHCP server and is set to a network device. When the checking result is no, a predetermined IP address and a predetermined gateway address are set to the network device.||04-23-2009|
|20080290559||Lithography for fabricating adherent microstructure - A lithography method includes the steps of preparing a substrate and a mold, wherein the mold having a plurality of nanometer-scale features each having a predetermined depth; disposing a liquid imprint layer on the substrate; pressing the mold on the substrate to enable the imprint layer to become a base material between the mold and the substrate and to enter the nanometer-scale features for a predetermined depth, wherein a plurality of nano-convexities are formed on the base material and the air in each of the features is compressed; solidifying the imprint layer to convert it from liquid into solid; and releasing the mold by pulling the mold upward away from the substrate, wherein counterforce is generated by the compressed air in the features to facilitate disengagement of the nano-convexities from the features successfully and finally the base material and the nano convexities jointly become the adherent microstructure.||11-27-2008|
Patent applications by CONTREL TECHNOLOGY CO., LTD.