Magnetic Field Bike Lights

Magnic Microlights Generate Power from a Constructed Magnetic Field

Many users often forget to recharge or replace battery-powered bike lights but thankfully Magnic Microlights generate power from simple pedal power. These lights utilize eddy current induction, which means they change the properties of a magnetic field to create electricity in a conductor. This means all energy is drawn from the spinning of a wheel, as the moving tire generates its own magnetic field as it rotates.

The Magnic Microlights are currently up for funding on Kickstarter, with the team behind the project hoping to raise $80,000 to get the product into production. The system has already been tested on a variety of mountain bikes and works with both traditional brakes and newer disk brake systems.
Trend Themes
1. Magnetic Field Bike Lighting - Opportunity to disrupt traditional battery-powered bike lighting systems by utilizing user-generated power through eddy current induction technology.
2. Eddy Current Induction Tech - Opportunity to disrupt traditional power sources in various industries by utilizing eddy current induction to generate electricity in conductors.
3. Crowdfunding - Opportunity to disrupt traditional methods of financing by utilizing crowdfunding platforms like Kickstarter to bring innovative products to market.
Industry Implications
1. Bicycles - The bicycle industry can benefit from integrating eddy current induction technology in order to power various features and accessories without relying solely on traditional batteries.
2. Outdoor Recreation - The outdoor recreation industry can benefit from integrating energy-generating technologies like eddy current induction into various products and equipment, reducing reliance on traditional power sources.
3. Crowdfunding Platforms - Crowdfunding platforms like Kickstarter can disrupt traditional methods of financing, allowing innovative projects like Magnic Microlights to gain funding and come to market.

Related Ideas

Similar Ideas
VIEW FULL ARTICLE & IMAGES