BROAD WAVE

Brand	Owner (click to sort)	Address	Description
BROADWAVE	Broadwave USA, Inc	One Harbour Place, Suite 475 Portsmouth NH 03801	BROAD WAVE;Promoting public awareness of the need for and advantages of wireless video and data distribution systems employing broadcast spectrum reuse, particularly satellite broadcast spectrum reuse; Promoting the goods and services of others, namely, companies engaged in the development and licensing of wireless video and data distribution systems employing broadcast spectrum reuse, by providing hypertext links to the web sites of others;
BROADWAVE	ATMEL CORPORATION	1600 Technology Drive San Jose CA 95110	BROAD WAVE;Manufacture, design, engineering, development and marketing of semiconductor integrated circuits and electronic systems; semiconductor integrated circuit foundry services, including the custom manufacturing, design, engineering, development and marketing therefor; consultation in the fields of manufacture, design, engineering, development and marketing of semiconductor integrated circuits and electronic systems; design and development of websites and services therefor; computer diagnostic and testing services; maintenance and updating of computer software; application service provider (ASP), namely, providing temporary use of online non-downloadable software for use in programming of semiconductor integrated circuits, computer diagnostic and testing services, maintenance and updating of computer software, developing, demonstrating and testing semiconductor integrated circuits;
BROADWAVE	ELEMENTAL LED, INC.	885 Trademark Drive, Suite 200 Reno NV 89521	BROAD WAVE;LED (light emitting diodes) lighting fixtures for use in display, commercial, industrial, residential, and architectural accent lighting applications; LED and HID light fixtures; LED Flood Light for decorative purposes;
	Where the owner name is not linked, that owner no longer owns the brand

Technical Examples

A section of birefringent optical fiber spun at a slowly varying spin-rate from zero to a high value, or vice versa, behaves as a fiber-optic quarter wave plate in polarization transforms. Despite this similarity in SOP transforms with its bulk-optic counterpart which is narrow-band, this invention works on an entirely different mechanism that favorably makes the invention broad-band. Using different spin-rate functions, the invention is extended to include broad-band fiber-optic half wave, full wave, and fractional wave plates, capable of performing polarization transforms like the respective bulk-optic counterparts. Fabrication of the invented broad-band fiber-optic wave plates can be performed in the conventional way by using a birefringent preform drawn by a fiber-drawing tower incorporated with a variable-speed spinner on top of the setup. A nonconventional way is to use the moving microheater technique, devised by the same inventor, using a length of birefringent fiber as the starting material. The invention finds immediate and potential applications in all-fiber optical circuitry, an electric current sensing architecture for example, wherein circular light is used along with linear light.