CLEAN FILL

Brand Owner (click to sort) Address Description
CLEANFILL BRADSHAW INTERNATIONAL, INC. 9409 Buffalo Avenue Rancho Cucamonga CA 91730 CLEAN FILL;Chemical cleaning preparations for household purposes;
CLEANFILL Sonendo, Inc. 26061 MERIT CIRCLE, SUITE 102 LAGUNA HILLS CA 92653 CLEAN FILL;Dental instruments for use in dental procedures, endodontic procedures and oral surgeries; Dental handpieces; Filling instruments for dental, endodontic and oral surgery purposes; Medical, dental and endodontic sonic energy delivery systems, comprised of hand-held dental instruments and applicators for delivery of flowable dental materials, spacer dental caps, sealing dental caps, tooth dental caps, and dental sizers for gauging depth, and also including computer monitors, and computer and dental instrument consoles, all for use in medical, dental and endodontic procedures; Kits comprising dental instruments, namely, hand-held instruments and applicators for the delivery of flowable dental materials, spacer dental caps, sealing dental caps, tooth dental caps, and dental sizers for gauging depth, all for use in medical, dental and endodontic procedures;
 

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

    
Technical Examples
  1. An integrated circuit and a method for using metal fill geometries to reduce the voltage drop in power meshes. Metal fill geometries are connected to the power mesh using vias or wires at multiple locations. Metal fill geometries are connected to other floating metal fill geometries using vias or wires at multiple locations. The circuit design introduces maximum redundancy between metal fill geometries and power mesh geometries, but partial redundancy between metal fill geometries and metal fill geometries. In particular, the redundancy in connectivity between metal fill geometries and metal fill geometries is kept minimal to reduce the number of geometries introduced. The high redundancy between metal fill geometries and power mesh geometries and the partial redundancy among metal fill geometries result in a smaller IR-drop by reducing the effective resistance on a power mesh. Hence, the invention use redundancy carefully and advantageously to achieve simultaneous metal density and IR-drop optimization without introducing excessive number of metal fill geometries.