This product is a magnetic fill light designed for phone photography enthusiasts providing supplementary lighting in low-light conditions. The light features a magnetic base allowing users to easily attach it to the back of MagSafe-compatible phones phone cases or use it with the PGYTECH MagCam Phone Grip.
The fill light is designed in a ring shape to add a dazzling ‘eye sparkle’ ensuring every selfie radiates with captivating charm. It has a hinge that allows it to rotate up to 290? with smooth stepless adjustment. Powered by a built-in 300mAh lithium battery it charges through the Type-C port at the bottom. With 34 bright LEDs it provides 30 minutes of continuous lighting.
After turning it on a short press of the power button lets you cycle through three color temperature settings while a short press of the brightness button cycles through three brightness levels (15% 50% 100%).
The biggest advantage of this fill light is its slim profile. With a thickness of just 10.5mm it's far thinner than most similar magnetic fill lights on the market which are typically around 14-15mm making it exceptionally lightweight and portable.
Features: • Magnetic Mobile Phone Fill Light • Slim Design: Overall thickness is controlled at just 10.5mm • Button-Controlled Brightness: Short press the brightness button to cycle through three brightness levels (15% 50% 100%) • 300mAh Battery Capacity: Provides 30 minutes of high-brightness supplementary lighting • Magnetic Attachment: The base of the fill light is designed with magnets allowing it to easily attach to MagSafe-compatible phones or phone cases. It can also be magnetically attached to the PGYTECH MagCam Phone Grip • Stepless Rotation: The light features a damping hinge allowing it to rotate freely and hover at any angle to meet different lighting needs • Three Color Temperatures: After powering on short press the power button to cycle through three color temperatures (2500K/5500K/9000K) • No-Coating Process: The fill light uses a no-coating process creating a paint-splash effect on the surface
