ELECTRONIC CONTROL COMPONENTS LAND

Brand Owner (click to sort) Address Description
CLEAN TUNE GALE BANKS ENGINEERING 546 Duggan Avenue Azusa CA 91702 electronic control components for land vehicles, namely, electronic transmission controllers, fuel systems and transmissions; pressure switches and solenoids valves for use in fuel enrichment systems for land vehicles; electronic control components for watercraft, namely, electronic transmission controllers, electronic engine management controllers, tuning modules for operating and tuning engines, fuel systems and transmissions; pressure switches and solenoids valves for use in fuel enrichment systems for water;electronic control components for land vehicles, namely, electronic transmission controllers, fuel systems and transmissions; pressure switches and solenoids valves for use in fuel enrichment systems for land vehicles; electronic control components for watercraft, namely, electronic transmission controllers, electronic engine management controllers, tuning modules for operating and tuning engines, fuel systems and transmissions; pressure switches and solenoids valves for use in fuel enrichment systems for water;engines, transmissions, torque converters, clutches, all for land vehicles;TUNE AS TO INTERNATIONAL CLASS 9;
CLEANTUNE GALE BANKS ENGINEERING 546 Duggan Avenue Azusa CA 91702 electronic control components for land vehicles, namely, electronic engine management controllers, tuning modules for operating and tuning engines;[ engine air intake system components for land vehicles, namely, intake air scoops, air cleaners, air filters, air filter covers, charge air coolers, air intake ducting, air intake housings; engine exhaust system components for land vehicles, exhaust piping, mufflers, tailpipes, exhaust pipe hangers and tailpipe tips ];TUNE AS TO CLASS 9;
 

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

    
Technical Examples
  1. A connecting structure includes a circuit board with a first connection land having a plurality of conductor patterns on the surface thereof, a second connection land disposed in a position opposite to the first connection land of the circuit board, and a flexible board including an insulating layer formed so as to surround at least a part of outer periphery of the second connection land. The first connection land and the second connection land are bonded to each other with a bonding member, and the insulating layer is thicker than the total thickness of the second connection land and the first connection land. It is possible to obtain an electronic circuit connecting structure which is free from short-circuit due to running of the bonding member such as solder even with the connecting land greatly reduced in size, and its connecting method.