Oracle 9005 - VSeries LED Headlight Bulb Conversion Kit - 6000K SEE WARRANTY
Save 10%
Original price
$125.95
Original price
$125.95
-
Original price
$125.95
Original price
$125.95
Current price
$113.36
$113.36
-
$113.36
Current price
$113.36
The new ORACLE Lighting V-Series packs a ton a features to make it not only user-friendly but also an amazing value with the all-new design technology. The V-Series bulbs feature fcCSP Flip-Chip Scale LED Packaging. The advantages of flip-chip technology are multiple: it provides enhanced electrical performance over standard wirebond technology, allows for a smaller form factor due to increased routing density, and eliminates wire-bond loops. An ultra-luminous and extremely efficient light output with superior durability and reliability. This new all-in-one diecast body design mimics the look of the original factory halogen bulb. This allows for easy installation without any additional wiring or external drivers. The die-cast design also provides increased thermal conductivity and heat dissipation to insure long bulb life. V-Series LED bulbs offer even more compatibility by working with vehicles that use the headlight bulb for the DRL function at a reduced voltage. The class-leading 6-32V ultra-wide range voltage protection will allow these LED bulbs to be used in Daytime Running Light Applications without common flicker issues. The V-Series bulb will dim to 50% brightness in DRL mode just like the factory halogen bulb. ORACLE Lighting?s new V-Series bulbs feature our SmartDrive Active Thermal Regulation temperature management. The integrated constant current linear LED driver inside the bulb uses a system called ?thermal foldback? to protect the LEDs and the bulb components. The LED driver operates from a 6V to 24V input and offers constant current output at up to 1 Amp. Supplementing passive thermal management with active techniques such as this allow for a very small bulb package without risking damage to the LED or creating an environment where the LED lifetime would otherwise be significantly shortened.