A microlens array is commonly used for homogenizing and shaping a variety of modern light emitters ranging from a line-narrowed excimer lasers to high power LEDs. These lenslet arrays are manufactured using photolithographic techniques based on semiconductor processing technology, yielding exceptionally accurate microlens profiles and lens array positioning.

For those seeking a portable and easy-to-use solution, the Fox USB 3 Camera is your go-to option. With a high resolution of 1440 × 1080 and up to 249 frames per second, the Fox offers sharp, detailed imagery for video analysis.

Yes, opt-in.  By checking this box, you agree to receive our newsletters, announcements, surveys and marketing offers in accordance with our privacy policy

Choose products to compare anywhere you see 'Add to Compare' or 'Compare' options displayed. Compare All Close

Microlens arrays are available in 8 focal lengths ranging from 4.8 mm to 32.8 mm. Depending on selected focal length and pitch (intralens spacing), divergence angles are available between ±0.25° and ±2°.

Frames Per Second (FPS) : 249 FPSResolution : 1440 × 1080Sensor Type : CMOS, Global ShutterLens : 2.8-10mm VarifocalInterface : USB 3.0

Microlens arrays are available in 8 focal lengths ranging from 4.8 mm to 32.8 mm. Depending on selected focal length and pitch (intralens spacing), divergence angles are available between ±0.25° and ±2°.

To maximize portability and performance, the Fox USB Camera is designed for easy, plug-and-play use. It's perfect for those who need a flexible, high-speed camera that integrates smoothly with Swing Catalyst software. Whether you're on the go or working in multiple locations, the Fox USB Camera ensures reliable video capture and detailed analysis. This portability makes it an ideal choice for coaches and athletes who need high-quality video without the hassle of a permanent setup.

A microlens array is commonly used for homogenizing and shaping a variety of modern light emitters ranging from a line-narrowed excimer lasers to high power LEDs. These lenslet arrays are manufactured using photolithographic techniques based on semiconductor processing technology, yielding exceptionally accurate microlens profiles and lens array positioning.

These microlens arrays are manufactured using photolithographic techniques based on semiconductor processing technology. The microlens arrays yield exceptionally accurate shaping of the lens profile and precise positioning of the lenses.