Description
The high-efficiency design of the FLEX III gooseneck LED medical exam light allows for reduced energy consumption and reduced cost of ownership. In contrast, its 50,000 hours of LED life provides a free maintenance device with an end life of around 20 years. Its design surpasses the Energy Star Requirements for a medical LED exam light, and its CRI of 95 ratings produces a very high color rendition for accurate diagnosis. LED bulb life is kept high by limiting its junction temperature to less than 45 º C for more than 50,000 hours of operation. Its meager power consumption of 10.5 watts provides a very efficient and eco-friendly lamp. The IsoLED Flex III gooseneck LED medical exam lamp has been designed to take into account all of the different disciplines that make up for the latest state-of-the-art LED technologies. Easily control the output of the exam light with the intensity dial located on the control panel. IsoLux FLEX III Goose Neck LED Medical Exam Light Features Mobile examination light with gooseneck flex The intensity variation of 3-100% CRI of more than 95 to give the best tissue rendition 100,000 Lux @300mm Available with a wall mount The FLEX III Goose Neck LED Medical Exam Light is ideal for use in the following procedural environments: OB/GYN Family Practice Dermatology Emergency Rooms Outpatient Ambulatory Facilities Urgent Care Centers Dental Practices IsoLux Warranty Information Two (2) Years on LED Exam Light One (1) Year on Battery Pack IsoLux FLEX III Goose Neck LED Medical Exam Light Specifications: Number of LEDs: 3 Warm White LED Operating Temperature: -10 º C to +50 º C Working Distance: 12in to 24in Color Temperature: 4000 to 4500 º K Dimming: 3 % to 100 % Efficiency: Meets Energy Star Guidelines Electrical Power: 14.4 volts Battery Pack (4 x 3.7 cells) rechargeable Lithium-Ion batteries in 2.6 A-Hour Capacity CRI (Color Rendition Index): 95 Typical LEDs Life: Over 50,000 Hours Controls: On/Off power switch and Brightness Control Minimum Operating Time: 8 hours of continuous operation at the maximum light intensity
