GENERAL PURPOSE BATTERY CHARGERS

Brand Owner Address Description
VEROBOARD Pixel Print Ltd. 3695 East 1st Ave. Vancouver, BC V5M1C2 Canada General purpose battery chargers; battery chargers for use with PDA's, computers, tablet computers, telephones and cameras; power supply adapters for use with portable electronic devices; power supply units; power supply adaptors; LED drivers; electric power converters; electrical control systems for lighting systems; electronic control gears (ECGs) for LED lamps and light fixtures; inverters for power supply; current converters; plug adapters; plug connectors; electric cables and wires; electric adapter cables; Electronic educational kits consisting of printed circuit boards and instruction manuals; electronic component hardware, namely, strip boards and printed circuit boards; electric light dimmers;VERO BOARD;Flexible LED strips; light dimmers in the nature of lampshades; illuminated advertising signs; luminous signs; LED electronic moving message advertising signs; Structural parts and fittings for lighting fixtures and lights; LED light fixtures; LED light bulbs; light-emitting diodes lamps; LED Flashlights; LED landscape lights; LED luminaires; ceiling lights; fluorescent lighting fixtures; light bulbs; lighting diffusers; lighting fixtures; lights for wall mounting in the nature of wall lights; lights for surface mounting in the nature of spot lights; LED panel lights in the nature of flat panel lighting apparatus; spot lights; aquarium lights;
 

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

    
Technical Examples
  1. A battery charger with a discrete switched regulator provides relatively high efficiency and relatively low cost. Unlike known battery chargers which incorporate switched regulator ICs, the battery charger in accordance with the present invention utilizes the microprocessor for a dual function. In particular, the microprocessor not only controls the charging characteristics of the battery charging circuit but also directly controls the power output of the battery charger by direct control of the discrete switched regulator circuit. By using a discrete switched regulator circuit and redefining the role of the microprocessor, the battery charger in accordance with the present invention is relatively less expensive than known battery chargers which incorporate switched regulator ICs.