Spyder® (16-18) Camaro 6th Gen Chrome LED DRL Bar Projector Headlights
Spyder® (16-18) Camaro 6th Gen Chrome LED DRL Bar Projector Headlights
Spyder® (16-18) Camaro 6th Gen Chrome LED DRL Bar Projector Headlights


Spyder® (16-18) Camaro 6th Gen Chrome LED DRL Bar Projector Headlights

Regular price$494.95
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    2016 - 2018 Chevy Camaro LS (2.0L)

    2016 - 2018 Chevy Camaro LT (2.0L/3.6L)

    2016 - 2018 Chevy Camaro SS (6.2L)

    2017 - 2018 Chevy Camaro ZL1 (6.2L)


    LS / LT / SS / ZL1 with Factory Halogen Headlights without 1LE Track Performance Package

    Will not fit Models with Factory HID/Xenon Headlights

    CCFL Inverter Not Required 





    Spyder Auto is proud to present the Apex Series line. We have added integrated LED bulb technology directly into our housings. The light emitting diode is also called a luminescence diode or, in short, LED. LED stands for "light emitting diode", as it turns electrical energy into light. Physically, it is a cold-light source and an electronic semiconductor component part in optoelectronics. Its conductivity lies between that of conductors (e.g. metals, water, graphite) and non-conducting materials (e.g. non-metals, glass, wood). Spyder Auto has taken existing housing as well as new designs and added LED bulbs to the Low and High beams to maximize night time driving visibility. This is the highest quality and most technology equipped set of lights on the market.

    What are LED's and what do they consist of?

    Basically, an LED consists of several layers of semiconductor compounds. Semiconductors, such as silicon, are materials whose electrical conductivity lies between that of conductors, such as the metals silver and copper, and non-conducting materials (insulators) such as PTFE or quartz glass. The conductivity of semiconductors can be greatly influenced by the specific introduction of electrically effective external substances (by means of a process known as doping). The different semiconductor layers together form the LED chip. The type of structure of these layers (various semiconductors) has a crucial bearing on the luminous yield (efficiency) and light color of the LED.

    Here are a few facts regarding LED technology:

    Service life – how temperature development affects the service life
    The service life or also the light degeneration of an LED refers to the period after which the illuminating power sinks to half of its original value. The functional capability of an LED depends on several factors. The semiconductor material used is as important as the operating conditions or the degeneration of the silicon crystal. The actual value of the service life cannot be generally determined, though. While standard LEDs may last up to 100,000 hours, high-power LEDs can be used for only about a quarter to a maximum of half of that time (25,000-50,000 hours). If both diodes were to be used non-stop, they could be used continually for eleven and more than two years, respectively.

    The service life greatly depends on the location and the provided current density. The higher the current flow, the more the diode heats up. This shortens the service life. The ambient temperature is also relevant for the service life, as the diode fails sooner the warmer it is in general. Basically, the intensity of the light radiation in LEDs continually decreases over time. This is an advantage, as unlike traditional lamps (incandescent bulb, halogen), an LED doesn't suddenly leave you standing in the dark. Even if the illuminating power is reduced, it normally does not suddenly fail. The plastic normally used in the lenses of LEDs gradually becomes hazy, which also affects the luminous efficiency negatively.

    Main factors affecting the service life

  • Temperature
  • Current density
  • Degeneration of the silicon crystal

    LEDs are superior in several aspects. They might be more expensive to purchase than normal light bulbs or halogen bulbs, but their use pays for itself in a short time. The automotive industry in particular uses the positive features of the LED and employs it increasingly in new vehicles.

    Main advantages
  • Low energy consumption
  • Long service life
  • Impact and vibration-resistant
  • Reduced heat build-up
  • No maintenance or cleaning costs
  • Mercury-free
  • Good glare limitation
  • Inertialess switching and modulation
  • High-quality light projection
  • Numerous designs (can be used almost everywhere)
  • Individual light source configuration
  • Light temperature remains during dimming
  • Light color can be regulated
  • Low production costs
  • Increased light output per chip
  • Extremely few early failures
  • Very compact dimensions
  • No UV or IR radiation
  • Low power consumption
  • High saturation

    Spyder Auto Apex series shines a bright luminous steady beam with crisp cut off line up to 40% further than factory halogen bulbs.


    Install Guide: