Free Next Day Delivery
When you spend over £150 (ex vat)
Product Ref: RINGLEDDL104-SP
Brand: Osram
MPN: LEDDL104-SP
Dimensions: See schematic drawing image
£145.07 inc VAT£120.89 ex VAT
In Stock
LED auxiliary lights enhance driving pleasure
Improved far field illumination on dark rural and dirt roads – it’s no problem for the LEDriving Lightbar FX500-SP. Its 20 intense, high-performance LEDs give the LED high beam a light distance up to 450 meters and ensure improved road safety for drivers.
Even at dusk or in compromised lighting conditions, the LED bars for automobiles provide daylight conditions at a strong 6000 Kelvin without needlessly blinding oncoming traffic. The intelligent reflector design diverts the light from the LEDs so that oncoming traffic is only indirectly exposed to the light. The light is evenly distributed at a five degree angle.
Robust, durable and versatile
Whether used as a LED working light or as an auxiliary high beam for the car – the powerful performance and long life of the LEDriving Lightbar FX500-SP make it a compelling choice. Equipped for a wide range of uses, it defies environmental factors and is particularly robust thanks to the quality craftsmanship of its materials and hard-wearing polycarbonate lens.
The integrated driver and thermal management system regulates the temperature of the LED automotive headlight and prevents damage caused by overheating. Full polarity protection ensures the LEDs are automatically shut off in the event of excess voltage.
Brightness for a wide range of uses
The LEDriving Lightbar FX500-SP is pure pleasure both on and off-road. The ECE-compliant LED auxiliary light ensures better visibility and thus improved safety on roads. In addition, it adds a smart touch that enhances the off-road style of the vehicle.
The LED headlight can be mounted on many 12 V vehicles as well as agricultural machines, utility vehicles, recreational, off-road and 4x4 vehicles. The power package with an intense 4700 lumen brightness scores with the highest optical efficiency and homogeneous light distribution with reduced glare.