ADJ ELEMENT H6 PAK
The ADJ Lighting Element H6 Pak is a beneficial all-in-one event up lighting system that offers a powerful and versatile up lighting solution for indoor and temporary outdoor events. This package includes six IP54-rated, battery-powered, wireless DMX, black fixtures that come in a durable flight case with an on-board battery charging solution. It also comes with one UCIR24 wireless remote for easy control.
The Element H6 Pak fixtures boast four 20-watt RGBAW+UV LEDs with a life expectancy rated at 50,000 hours. With a beam angle of 17.6° and a field angle of 28.7°, these fixtures produce a LUX output of 1117 @ 2M and 298 @ 4M, making them perfect for stage up lighting and wall washing.
In addition to its impressive optical features, the Element H6 Pak offers a range of convenient and easy-to-use features. It includes a built-in kickstand to angle the fixture when placed on the floor, a 4-touch button OLED display inside cover panel, and a battery charge indicator on each fixture.
The wireless DMX control protocol allows you to control your lighting system from anywhere in the room, and the 63 built-in color macros make it easy to create stunning lighting effects. With its variable RGBAW+UV color mixing and smooth dimming capabilities, the Element H6 Pak offers a seemingly unlimited color palette.
This lighting system also boasts an energy-saving mode and a battery life of up to 6 hours in normal mode and 12 hours in energy-saving mode (single color). Each fixtures is compact and lightweight and comes in a robust IP54-rated casing with partial protection from dust and water splashes. Each fixture has a weight of 5.3 lbs (2.4kg), making it easy to transport and set up for your event.
Overall, the ADJ Lighting Element H6 Pak is an exceptional lighting system that offers power, versatility, and convenience for all your event lighting needs. With its impressive features and durable design, this lighting system is perfect for event producers, and anyone looking to add some excitement and style to their event.