CERAMIC REPLACEMENT PARTS SEMI CONDUCTOR

Brand Owner Address Description
SKC SKC LIMITED 633, Chongja-dong, Changan-gu, Suwon-si, Kyonggi-do 409-830 Republic of Korea ceramic replacement parts of semi-conductor cleaning and drying machines, namely, force ring, edge ring, ring confinement cap, guide ring, rotation ring cover, water chuck, water clamp, robot arm, robot blade, hot arm, ceramic pipe, lift pin, ceramic screw, Si source ring, Si inner ring, Si slab, Si heat shield, wide pocket, shadow ring, base plate, lifter pin, quartz part, tube, boat; SiC wafers;Plastic film not for wrapping; self-adhesive tapes for industrial or commercial use; adhesive elastomeric tape for placement onto electronic devices to prevent slipping films for optics; clear sheets of polymeric film to be applied to automotive vehicles to coat and protect the vehicle's finish; clear sheets of polymeric film to be applied to solar batteries; thermoplastic and foamed plastic sections for use in the manufacture of windows, doors, facade glazings, and partition walls for use as building materials for heat-insulating applications; anti-glare plastic film for glass; polymer film used for manufacturing electronic circuits; adhesive-coated plastic sheets; plastic material in extruded form for use in production; insulating tape; electric insulators; semi-finished artificial resins; semi-processed plastic substances; insulating paints; plastic film materials for packing;
 

Where the owner name is not linked, that owner no longer owns the brand

    
Technical Examples
  1. A dielectric body 12 has internal conductor layers 14 arranged in it. At the far sides of the internal conductor layers 14 separated by ceramic layers 12A, internal conductor layers 16 are arranged. A length W of a side of the dielectric body 12 running along a stacking direction Y of the ceramic layers is made longer than the lengths L and T of any other two sides running along directions (X- and Y-directions) intersecting the side running along the stacking direction (Y-direction). The internal conductor layers 14 and 16 are formed with cut parts 18a and 18b, the internal conductor layers 14 are divided into channel parts 20A and 20B across the cut part 18a, and the internal conductor layers 16 are divided into channel parts 22A and 22B across the cut part 18b. These channel parts are connected through uncut ends 19, whereby the current flows in reverse directions. It is therefore possible to greatly reduce the effective inductance of the multilayer capacitor and reduce the voltage fluctuations of the CPU power source.