AVALANCHE DETECTORS

Brand Owner Address Description
BIG STIX FISCHER SPORTS GMBH Fischerstraße 8 A-4910 Ried im Innkreis Austria [ Avalanche detectors; avalanche transceivers; sunglasses; ski goggles; cross-country ski goggles; ski-jump goggles; snowboard goggles and sports goggles; eyeglasses cases; protective and safety helmets; ski helmets, cross-country ski helmets, ski-jump helmets as well as snowboard helmets; bags especially designed for helmets ];Alpine skis; skis; [ racing skis, ] free skis [, touring skis, cross-country skis, jump skis and monoskis; snowboards; ski and snowboard bindings; bindings for cross-country skis and jump skis; ski sticks; ski skins, namely, coverings for skis in the nature of seal skins; hockey sticks; bags especially designed for sports equipment; bags especially designed for skis, cross-country skis, jump skis, snowboards, ski and cross-country ski sticks; ski bags; ski and snowboard wax; ski and snowboard edges; protectors, namely, protective padding for snowboarding and skiing; ice skates and skating boots with skates attached; sleighs and toboggans ];BIG STICKS;[ T-shirts, polo shirts, sweaters and hoodie shirts; trousers; jackets; skiwear; ski jackets and ski trousers; cross-country ski jackets and cross-country ski trousers; snowboard jackets and snowboard trousers; neck warmers; hosiery; underwear; belts and girdles; belts for holding drinking bottles; gloves; ski gloves, gloves for cross-country skiing, gloves for ski jumping, snowboard gloves; footwear; ski boots and their parts, cross-country ski boots and their parts, ski-jump boots and their parts, snowboard boots and their parts; caps and headbands, balaclavas and ski masks, headscarves, bandanas; bags especially designed for ski boots, cross-country ski boots, ski jump boots, snowboard boots ];
 

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

    
Technical Examples
  1. Methods and processes are disclosed for calibrating optoelectronic devices, such as optoelectronic transceivers and optoelectronic receivers, based upon an avalanche photodiode breakdown voltage. In general, the method involves adjusting a reverse-bias voltage of the avalanche photodiode until avalanche breakdown of the avalanche photodiode occurs. An optimized APD reverse-bias voltage is then determined by reducing the reverse-bias voltage at which avalanche breakdown occurs by a predetermined offset voltage. This process is performed at a variety of different temperatures. Information concerning each temperature and the corresponding optimized APD reverse-bias voltage is stored in a memory of the optoelectronic device.