Shopping Cart

Your cart is empty.

Your cart is empty.

5W IR LED Chip,850nm Infrared COB Module Light Emitter Diode Component for CCTV,Night Vision,DIY Lighting (1050mA,4-5V,140deg,42mil chip,Round Bracket)

4.9 (1) Write Review
Free shipping on orders over $29.99

$16.59

$ 7 .99 $7.99

In Stock

1.Color:Ir 845-850nm&rhombic


About this item

  • This high power LED light is made of high quality chip inside, 999 gold wire soldering, copper bracket package, which brings you quality assurance in the process of using
  • The COB modules utilize a high quality copper substrate base with up to 5W of power, are small and lightweight, and can be configured to your project as needed
  • The wide infrared coverage can be used for security monitoring, distance measurement, photoelectric sensors, object identification and medical devices. It can also be used in industrial applications
  • High photovoltaic conversion rates and lower power consumption allow the product to save energy and reduce maintenance costs
  • We are dedicated to LED chips, which can be integrated into various lighting fixtures as replacement components. It is also the first choice for DIY lighting project


Product Description

LED

JH-10IR14G42-R2C-850 Important parameter

Continuous Forward Current 1050mA
Peak Forward Current 1200mA
Reverse Voltage 5V
Power Dissipation 10W
Electrostatic Discharge 1000V
Operating Temperature Range -25°C to +80°C
Storage Temperature Range -35°C to +100°C
Lead Soldering Temperature 260°C
Forward Voltage Infrared 4-5V
Luminous power Infrared 1400-1600Lm
Dominant Wavelength Infrared 845-850nm
Reverse Current 10μA
Viewing Angle 140deg
Recommend Forward Current 1050mA
Appliance

Applicable Scenarios

Friendly Tips

1.Constant current LED drivers are recommended for high power COB LEDs.

2.The optimum operating temperature range for the product is 40-60° (104-140℉). Recommended to equip the product with a reasonable heat sink.

3.Please refer to the positive (anode +) and negative (cathode -) sign on Leds.


G
Reviewed in the United States on March 12, 2024
The bandwidth for this seems to be pretty wide -- its slightly visible when on, unlike most IR sources, so its definitely emitting down into the high 600nm range. And it gets outrageously hot, enough I think I'd want not just a heatsink but an active fan on it. I didn't have a FLIR camera to check, but using thermal compounds onto a 10mm2 heatsink left the heatsink hot enough to burn my finger when I stupidly assumed it was going to be enough.But it throws out enough light to be easily visible on an near IR camera in a room with lots of windows even during the day.