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LuxaLight LED Engine Deep Red 660nm Protected (24 Volt, 108 LEDs, 2835, IP64)

LE-24-660-108X2835PLX
LuxaLight LED Engine Deep Red 660nm Protected (24 Volt, 108 LEDs, 2835, IP64)
LuxaLight LED Engine Deep Red 660nm Protected (24 Volt, 108 LEDs, 2835, IP64)
LuxaLight LED Engine Deep Red 660nm Protected (24 Volt, 108 LEDs, 2835, IP64)
LuxaLight LED Engine Deep Red 660nm Protected (24 Volt, 108 LEDs, 2835, IP64)
LuxaLight LED Engine Deep Red 660nm Protected (24 Volt, 108 LEDs, 2835, IP64)
LuxaLight LED Engine Deep Red 660nm Protected (24 Volt, 108 LEDs, 2835, IP64)
LuxaLight LED Engine Deep Red 660nm Protected (24 Volt, 108 LEDs, 2835, IP64)
LuxaLight LED Engine Deep Red 660nm Protected (24 Volt, 108 LEDs, 2835, IP64)
LuxaLight LED Engine Deep Red 660nm Protected (24 Volt, 108 LEDs, 2835, IP64)
Optional Industrial Water-cooled RVS 316 LED housing
Optional Industrial Water-cooled RVS 316 LED housing
Optional Industrial Water-cooled RVS 316 LED housing

Downloads

Datasheet_LE-24-660-108X2835PLX.pdf 435.84 KB
CE_declaration_LE-24-660-108X2835PLX_1.pdf 139.01 KB
3M-VHB-Tape-4905.pdf 374.01 KB
LuxaLight Modular LED Fixtures Infosheet_0.pdf 881.11 KB

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  • Free shipping within NL for € 250+ orders
  • B2B only

Our measuring results

Highlights

Nano Silicone coating

378 W/m² at 5cm distance

2028 μmol/m² at 5cm distance

Technical specifications

General
 
Brand
LuxaLight
Application
Barcode Scanning
Machine Vision
LED type
2835
PCB color
White
Material
Aluminum
Dimensions
200 × 20 × 2 mm
Mounting
3M tape VHB4905
LEDs per piece
108.00
Lifetime
70000 hours
Lighting
 
Wave length
660 nm
Beam angle
120 °
LB waarde
L80B50
Measurement results
 
PPFD
Value Measuring distance
2028 μmol/m2 50 mm
1186 μmol/m2 75 mm
752 μmol/m2 100 mm
259 μmol/m2 200 mm
137 μmol/m2 300 mm
Irradiance
Value Measuring distance
378 W/m2 50 mm
232 W/m2 75 mm
143 W/m2 100 mm
49,8 W/m2 200 mm
26 W/m2 300 mm
Electronics
 
Working voltage
24V
Current per piece
1.25 A / piece
Power consumption per piece
30.00 W / piece
PCB material
Aluminium
Environmental
 
Operating temperature
-20 ~ +60 °C
Storage temperature
-40 ~ +80 °C
IP class
IP 64
Directives - standards - certificates
 
Directives
RoHS
CE
Safety standards
EN60598-1
EN62031
IEC62471
Links

Related

Product description

Industrial installations are often exposed to extreme environmental conditions, such as low and high temperatures. In environments where temperatures range from, for example, -25°C to +40°C or even higher, it is essential to closely monitor the temperature of the 660 nm LED installation. The 660 nm LED engines, specifically designed for applications that require precise light production in the red spectrum, can optionally be supplied with modular aluminum or SS316 housings. These housings make it possible to optimize the installation for various industrial applications. It is crucial to keep the operating temperature of these LED engines within safe limits to ensure optimal performance and prevent overheating.

The 660 nm LED engine finds application in several industries and technologies. For example, in the medical field, it is used for applications such as phototherapy, where 660 nm light can contribute to wound healing and pain relief. It is also used in agriculture, for plant lighting and stimulating plant growth, where the specific wavelength of 660 nm can effectively contribute to the photosynthesis process. In the industrial sector, 660 nm light is also used for marking, inspection, and photodetection, where it enhances the contrast between materials for better visibility.

The LED engines are equipped with an NTC sensor (Negative Temperature Coefficient), which measures the temperature of the LED in real time. These sensors ensure that the LED engine functions correctly, even under extreme environmental conditions. When the temperature is too high or too low, it can negatively affect the performance of the LED engine and shorten its lifespan.

In combination with the MaNima Pollux industrial driver, the NTC sensor can provide real-time data, allowing the system to immediately respond to temperature changes. The Pollux driver is capable of monitoring the temperature of both the 660 nm LED engine and the housing. Based on these measured temperature values, the Pollux driver can automatically reduce the maximum output voltage and/or current, ensuring the LED engine always stays within safe operating temperatures. This prevents overheating, which would be harmful to the LED and its performance.

Thanks to the integration of 660 nm LED engines and the MaNima Pollux driver, industrial applications can now rely on reliable temperature management. This provides the necessary protection against overheating, extends the lifespan of the LED installations, and ensures that the performance of the LED remains consistent even in environments with extreme temperature fluctuations.

Thus, the MaNima Pollux driver ensures that the 660 nm LED engines always operate within optimal temperature limits, which is essential for applications that depend on precise LED radiation in the red spectrum for medical treatments, plant lighting, industrial inspection, or other light technology processes. By regulating output current and voltage based on real-time temperature measurements, companies can improve both the reliability and energy efficiency of their LED systems.

In combination with the MaNima Pollux Industry, it is possible to significantly increase the output of the LED Engine. For more information about the MaNima System click here.

For more information about LED solutions in the industry see: Horticulture, Machine Vision, Curing, Disinfection.