ELECTRONIC SENSORS MEASURING SOLAR

Brand	Owner (click to sort)	Address	Description
G2V	G2V Optics Inc.	9703 45 AVE NW Edmonton, Alberta T6E5V8 Canada	Electronic sensors for measuring solar radiation; Light emitting diodes (LEDs); Lighting ballasts; Solar cells;G TWO V; G TO V;LED luminaires; Lighting fixtures;
G2V OPTICS	G2V Optics Inc.	9703 45 AVE NW Edmonton, Alberta T6E5V8 Canada	Electronic sensors for measuring solar radiation; Light emitting diodes (LEDs); Lighting ballasts; Solar cells;G TWO V OPTICS;LED luminaires; Lighting fixtures;OPTICS;
PICO	G2V Optics Inc.	9703 45 AVE NW Edmonton, Alberta T6E5V8 Canada	Electronic sensors for measuring solar radiation; Lighting ballasts; Solar cells;LED luminaires; Lighting fixtures that replicate sunlight;
RICCO POWER	Thorpe, Rick	10 Gillrie Crt Brantford N3R2Z9 Canada	Electronic sensors for measuring solar radiation; Solar batteries; Solar panels for production of electricity; Solar cells; Programmable controllers and actuators that track the sun enabling concentrating optics to maximize solar energy input; Solar wafers; Apparatus for converting electronic radiation to electrical energy, namely, photovoltaic solar hybrid modules;POWER;
SUNFAB	APPLIED MATERIALS, INC.	3050 Bowers Avenue Santa Clara CA 95054	Electronic sensors for measuring solar radiation; Photovoltaic cells and modules; Flat panel displays; Semiconductor wafer processing equipment, semiconductor wafer processing electronic components and operational software all sold as a unit for the processing and production of semiconductor substrates, photovoltaic cells and panels, thin films, silicon discs and wafers; all of the above exclusively for use in connection with photovoltaic production and photovoltaic or solar cells and panels;Maintenance and repair of semiconductor processing and production equipment; Maintenance and repair of solar energy production equipment;SUN FAB;
	Where the owner name is not linked, that owner no longer owns the brand

Technical Examples

A method for distance measuring using at least two contact-less distance sensors, e.g., ultrasound sensors, is provided, which distance sensors each have one emitter for emitting measuring pulses (MI) and one receptor for receiving measuring pulse echos (ME). The distance from an obstacle that reflects the measuring pulse (MI) is determined from the time difference between the measuring pulse (MI) and the received measuring pulse echo (ME). A first measurement is performed, which involves alternatingly emitting by the at least two distance sensors the measuring pulses (MI) offset in time by a first offset, and subsequently receiving the measuring pulse echos (ME) by the distance sensors. In addition, a verification measurement is performed, which involves alternatingly emitting by the at least two distance sensors the measuring pulses (MI) offset in time by a second offset, which is different from the first offset in time used in the first measurement.