Archive for the ‘Products’ Category

If your are looking to upgrade your vehicles 3157 or 7443 parking light, turn signal, or brake light bulbs with V-LEDS you NEED to identify what TYPE of SOCKET your car has. There are 2 socket types, Standard and CK. There is only one way to know for sure which socket your car has, TEST IT. We put together a short video that will guide you through the steps involved with testing your sockets.

What is the difference between the Standard and CK style sockets? The position of the ground contacts in the socket is the only difference. They LOOK identical. What will happen if I use the wrong type of LED, i.e. A standard LED in a CK socket?  The LEDs will not work properly or worse, they will blow your fuses that protect that specific lighting circuit. How do I know which socket type I have? Watch the video below and follow the instructions.

There is no rhyme or reason as to what car will use a CK socket configuration. Again the only way to know is by following our testing procedure shown in the above video.

Please note: Single element sockets i.e. 3156 and 7440 can be CK style as well. Please test and identify your sockets BEFORE you purchase your new V-LEDS. There is a 15% restocking fee for returned products.

UPDATED PRODUCT:

The 9005 DRL_Module has been redesigned to handle higher current loads. We have identified and upgraded critical components in this modules power supply. These upgrades allow the DRL_Module to be connected directly to our high power LEDs like the 9005_28_W and the 9005_15_HP without the use of a relay harness.

Key features of the 9005 DRL Module:

-Increases the low voltage of most vehicles existing DRL circuits.

-Reverse Polarity Protection; unit will not be damaged if connected backwards.

-Stable with high wattage LED bulbs, up to 15 Watts power draw.

-No modifications required to your vehicle, simple plug and play installation.

If you are unfamiliar with what the DRL_Module is used for you can find a good explanation here: What is a V-LEDS DRL_Module?

When we get asked this question “How long do your LED products last?, I bought a pair of LEDs and they burnt out after 6 months.” we will ask a series of questions to help a customer understand how or why their LEDs burnt out. The number one cause of LED failure is heat. LEDs have a heat threshold that they need to stay below to maintain a long lifespan. There are many different types of LEDs, all of which have different heat thresholds. What causes LEDs to overheat and fail? A few things cause LEDs to overheat. We have found that if you install an LED bulb inside your headlight housing and it is placed relatively close to the headlamp bulb it will fail much faster than if the LED was installed in its own separate housing. The heat generated by the headlamp will heat up the circuit board and the LED to temperatures much higher than the LED was meant to operate at, this will cause the LED to fail. Other problems we have found is the LEDs can overheat themselves if they are installed in a small housing. Example; being installed into a  license plate light, most cars use a 194 style bulb to light up the license plate. If you install a High Power 194 LED for this application you will most likely have a product failure. If you install a standard LED it should last a long time. The small light housing does not allow for quick heat dissipation. The High Power LEDs generate a lot of heat, so they need some space to dissipate the heat so they do not fail.

Another source of LED failure is from overdriving the LEDs. Like most things in life, less is more or more is less. Example, turning up the level of boost on a turbocharged engine. This will gain more power from the engine, at the same time you will get less reliability out of the engine. Turning up the boost drastically increases stress on internal components of the engine. Over time the engine will fatigue and fail. The same principle applies to LEDs. A small increase in the amount of power delivered to the LEDs will increase the amount of light they produce. This is like turning up the boost on the turbocharged engine; you get higher levels of performance, but sacrifice on the lifespan of the LED. We see a lot of LED failures when cars have voltage spikes that increase the amount of voltage that powers the LEDs. This is why we do not simply “turn up the power” on our LEDs to make brighter products. When V-LEDS creates a brighter LED bulb we design it around a brighter LED. We then use power supplies capable of driving these LEDs to their full potential. That being said, we are still pushing these LEDs to their maximum power levels so they are extremely bright. This is necessary for brake lights or turn signal lights for safety. This also creates more heat that needs to be removed from the diodes. Upon inspection of our High Power Series of LEDs you will see that we have engineered proper heat management into our products. So instead of just turning up the power, we turn on the innovation. Every aspect of the LED bulb is considered to ensure the longest lifespan possible. However if you install a High Power LED next to a high source of heat like a headlamp or if installed into a small light housing there is a higher chance of premature failure. Other factors play into the lifespan of the LED as well. We have seen everything from moisture to abuse that will burn the LEDs out prematurely. The power supply that controls the power to the LEDs is susceptible to failure as well. The LEDs may be just fine, its just the power supply has failed.

For a more in depth, technical understanding of the causes of LED failures you can read this bullet list on Wikipedia.

V-LEDS strip lights are a great way to add lights to the interior or exterior of your car or truck. The possibilities are endless for location and functionality of these style of LEDs. We have added another LED strip light to our already popular lineup. These LEDs are not the standard V-LEDS strip lights though. The first major difference you will notice about these strips is the LEDs are aimed to the side, not straight up like our standard strip lights. Second, these strip lights feature dual color, White and Amber LEDs wired separately on the same circuit board. These dual color strip lights function the same as our popular switchback LEDs. A simple 3 wire installation makes them easy to install in any car or truck.

V-LEDS Dual Color Switchback LED Strip Light.

Want to see more pictures of these lights installed on the V-LEDS Project Scion iQ? Click here and see the photo gallery.

One way to fix hyperflash and bulb out indicators in your car is to use load resistors. Load resistors add electrical load back onto the blinker circuit to simulate the filament of the original bulb that was replaced with V-LEDS.  They also generate a lot of heat while the blinkers are on. To help dissipate the heat and protect heat sensitive components in your car V-LEDS developed the mounting plate and cover system. Using these two components together allows for easier mounting of the load resistors and keeps easily meltable materials from coming in contact with the resistor itself.

We also offer a complete package for 6 OHM resistors and 3 OHM resistors already mounted to the plates with covers. These also include 4 splice taps to connect the wiring to your cars blinker wires.

Load Resistor Mounted On Plate With Cover.

If you are planning on using load resistors to fix your hyperflashing blinker circuit be sure to make the installation easier by using the Plate and Cover system available only from V-LEDS.com.

If you have any questions about these products or installation contact us here: Contact

Reversing your car down a long driveway at night can be difficult if your reverse lights dont illuminate the way for you. It seems that very little attention is paid to the design of reverse lights. It seems that on most cars the only purpose is to alert other drivers you are about to back out of a parking spot. Rarely do we find a car that the reverse lights do a decent job of actually illuminating the ground or objects a few feet behind the car so they are visible from the drivers seat.

Is there a way to get more light behind the car for reversing? The answer is yes. There have been a number of ways to add more light to the rear of your car or truck. The problem is that it has always required a lot of extra work and wiring. We have seen all sorts of light wired up under the rear bumpers of many trucks and cars. Tractor lights, fog lights, and other inventions that mount to a receiver hitch. They all get the job done but require mounting a pair of lights to the bottom of the bumper or to the frame. And if your vehicle lacks trailer wiring you have to run wiring from the battery to power these type of lights as they draw too much power to be spliced directly into the wiring for the factory reverse lights. Thats when V-LEDS came up with the brilliant idea of the LPF (License Plate Frame). It is easy to install, just two wires and two screws! Simply install it over your license plate with the same screws that hold your license plate on. Route the wires to your cars reverse light wiring and connect with the supplied splice taps and your done. It does not draw very much power at all, only 18 watts. It generates over 1000 lumens of LED light! Watch our video to see it in action.

The 3rd addition of V-LEDS to the 2011 Scion iQ is Footwell lighting. This car is small, very small. So it is equipped with a proportionately small dome light. It does not provide much light at all. We offer many different LEDs that replace the yellow filament bulbs in your car, but sometimes you need some extra light to see. What if your car does not have enough factory lights? This is where V-LEDS can make a huge difference on any car. We offer a wide range of strip lights that are suitable for just about any application you can think of.

For the V-LEDS Scion iQ we wanted to be able to see the interior when the door was open or when we unlock it with the keyless entry system. So we chose to use some of our new puck strip lights. These are available in multiple colors, we chose to use the 6K white  version. We used one per side, adhered to the bottom side of the dash with the double sided tape that comes on them. We wired these directly to the dome light circuit.

Puck Light mounted to drivers side under dash.

After routing the wiring and making the connections to the factory dome light wires it was time to test. The results are amazing!

So much light!

Onto the trunk area now. There is no light in the rear from the factory. So while we were wiring up the puck lights up front we used a Y adapter and ran some extensions to the rear of the car. There is a great location on the panel in the trunk area to mount a strip light. We used a 12″ piece of our STRIP_3C_W_6K to illuminate the cargo area.

Behold the power of V-LEDS!

Thats it for this installment of the V-LEDS project Scion iQ. Stay tuned for more updates as we continue to bring the light.

Here is a list of the products we used for this upgrade:

Puck Lights: STRIP_RL_12_W_6K

Strip Light: STRIP_3C_W_6K (select length)

Y Adapters: DIY2_Y_ADAPT

Wire Extensions: DIY2_WIRE_48 (there are shorter lengths of wire available here)

Thanks for reading. If you have questions regarding this product please send an email to our customer service department at sales@v-leds.com. We are quick to respond via email and can answer any questions you may have about our products.

Here are some more photos of our Scion iQ.

We are on the second lighting mod on our Scion iQ. On the rear bumper there are 2 circular reflectors. They looked a little out of place but are required by DOT for visibility. We looked at them and thought “these would be great if they were active”. So we decided to see if they could be dissected and turned into brake lights.

Here we see the reflectors with as they appear from the factory.

We started by accessing the back of the reflector. This was pretty easy, with the removal of few plastic snaps we were able to remove the small rear inner fender liner. This allowed easy access to the fastener that holds the reflector to the bumper. After removing the nut from the backside of the reflector it comes right out.

Behind the bumper you can see how the reflector mounts. You can also see the wiring for the LEDs.

The red reflector portion of this unit is plastic welded to the mount (backer). There is enough space inside to hold one V-LEDS STRIP_RL_12_R. To separate the red reflector from the backer we heated a razor knife and pressed it into the seam where the front and back are fused together. Then it was just a matter of wedging a small flat blade screw driver into the melted section and prying them apart. It is not a clean split, but is the most non-invasive way to get it apart so that they can be glued back together later.

After you separate the front and back its time to get them ready for the STRIP_RL_12_R to be installed. I oriented the LED disc so the pattern of LEDs was aligned so the vertically/horizontally. From there I drilled a hole for the wire to be routed through. I drilled a hole in the bumper so the wire could be routed through as well.

LED Installed Inside Rear Reflector.

Here are the reflectors after completion.

After affixing the LED we used super glue to reattach the reflector to the backer. It was a tight squeeze but it fit inside. After the glue cured we reinstalled them and routed the wiring through a factory rubber grommet located on the back of the car. We ran the wiring up to the factory brake lights and spliced it into the brake circuit.

Reflectors are now active brake lights.

Here is a list of all the components used on this upgrade:

2 of these: STRIP_RL_12_R

2 of these: DIY2_WIRE_48

1 of these: DIY2_Y_ADAPT

Thanks for reading. If you have questions regarding this product please send an email to our customer service department at sales@v-leds.com. We are quick to respond via email and can answer any questions you may have about our products.

Here are some more photos of our Scion iQ.

Introducing the V-LEDS Scion iQ. This little car is amazing in many ways. From being fuel efficient and fun to drive, to being completely different from the majority of the cars on the road. The Scion iQ is a hit. After looking this little car over we thought it would make a great addition to the family of V-LEDS cars. We noticed, like all Scions, it is a great vehicle ready for upgrades. We will continually update all the mods we do right here on the blog.

V-LEDS 2011 Scion iQ with DRL_3W_W_6K Installed as DRL.

Lets start with the addition of one of our latest products, the DRL_3W_W_6K. These LEDs are sealed units that house a 3 chip, 3 watt diode. Ideal for use as a DRL (daytime running light) or accent lighting. These things are bright! We installed a total of 10 of these, 5 on each side, on the trim panel next to the fog lamps. We wired them to ignition power so they turn on whenever the car is on. In addition, we also wired in a relay harness. The harness is wired into the fog lamp circuit, it turns the DRL LEDs off whenever the fog lights are in use.  These LEDs are impressive! They are bright, even in direct midday sunlight. They are so bright that they cast light onto the ground as well as you can see in the photo.

Installation of these lights is pretty straight forward. If you have some basic tools and wiring knowledge you can create a completely new look for your car or truck in an afternoon. Is this a look you want for your car? Here is where you can find the product on VLEDS website: DRL_3W_W_6K  After you click the link you will land on the product page. You will need to know how many of these you need. They are sold individually, as 1 EACH. On our Scion iQ we used a total of 10 each.

First lets take a look at what you need:

An electric drill with various sized drill bits

Tools for wiring; crimpers, solder iron, test light etc.

Wiring accessories; wire, zip ties, crimp terminals, loom etc.

For our Scion iQ we chose the lower fog lamp area to install these LEDs. We removed the plastic trim panels and found that they were perfect for mounting these LEDs to. The fog lamps are optional on the iQ. This location will work regardless if it has fog lamps or not.

Here are some pictures of the installation process:

Drill a 3/16 hole to mount the DRL LED

After locating and marking where you want to install the LEDs use a 3/16 drill bit to make a hole. (A little side note: after you have drilled your ALL the holes snap this cover back on the car and drill holes in the plastic of the bumper too. This allows for the wires to pass through the bumper for easy wiring.)

Routing wires through drilled hole.

Next, route the wires from through the hole and insert the threaded mount into the hole. Use the supplied nut to secure the LED to the mounting surface.

Routing wiring through bumper

After you have located, drilled, and installed all of the LEDs you will need to route all of the wiring through the plastic of the bumper. Here is where the tip from up above comes in handy.

All wiring is routed and ready to be connected to the car.

After the wiring was routed through the bumper we covered it in some loom. We also have 9006 style connector ends in our shop, so we went ahead and crimped some of these on the wiring. The ends made for a direct plug into the relay harness we installed. (Installation note: the Red wire is 12 V positive+ and the White wire is Ground-)

DRL lights on.

After finalizing all the connections we were ready to test the lights. They are pretty bright, this made it troublesome to get a quality picture.

We offer these lights in 3 colors. 6K White, Amber, and Red. You can find them here on VLEDS.com:

DRL_3W_W_6K  To be used as a DRL, Fog, or auxiliary light. The possibilities are endless.

DRL_3W_A  To be used as a blinker or Amber DRL.

DRL_3W_R  To be used as an auxiliary brake light.

Thanks for reading. If you have questions regarding this product please send an email to our customer service department at sales@v-leds.com. We are quick to respond via email and can answer any questions you may have about our products.

Here are some more photos of our Scion iQ.

V-LEDS Platinum Edition High Power 20

Here at V-LEDS we pride ourselves on developing the latest in cutting edge LED technology for your car. The latest addition to our extensive assortment of LEDs is the Platinum Series High Power 20. This bulb features years of development and testing brought together to form the perfect combination of light output and aesthetic appeal. This V-LEDS product is overbuilt to deal with the most demanding of applications. From Daytime Running Lights to Brake lights, this LED can do it without problems. Thick aluminum circuit boards and a large machined heat-sink located at the top of the LED quickly dissipate the heat generated by the .5 watt diodes. Clear lenses with vent slots add to the finished look of the bulb. Each .5 watt diode, 20 total, make for an intense blast of light aimed directly into your cars reflective lenses for the brightest output available on the market today.

The Evolution Of The High Power 20 Bulb

The Design of the High Power 20 LED bulbs started years ago. There was missing product in the 7440/7443 category. Everything we tried was just not bright enough. We needed to do something completely different to achieve acceptable levels of light output. After designing different prototypes a decision was made to use different diodes. The .5 watt diode was realized as the best candidate for the job. These diodes pack a serious punch. Each .5 watt diode has the same light output of 10 of our standard diodes. They also create 10 times more heat than the standard diodes. Heat is an LEDs worst enemy and we needed to develop a means to dissipate the large amounts of  heat generated by these new diodes. This led to another technological innovation by V-LEDS, the aluminum circuit board. This allowed the full power use of the .5 watt diode in brake light applications. This technology is applied to all High Power .5 watt LEDs offered by V-LEDS. The first edition of the High Power 20 used 14 .5 watt diodes on the sides and 6 of our standard 1210 diodes on the top. This design was hugely popular, so popular in fact that we continued development all the way up to the current Platinum Series. As we continued to advance this product we knew it needed to be brighter and even more capable of dissipating the heat of the .5 watt diodes. The 3rd Generation of this LED was equipped with massive aluminum circuit boards to handle the increased power output of the LEDs. The 6 standard 1210 diodes on the top were replaced with 4 .5 watt diodes to get as much light output as possible. This bulb packed a serious punch, but the finished look of the bulb left something to be desired. Which is where the Platinum Series steps in. A few tweaks in diode placement and heat management combined with its vented lens and voilà. Stay tuned in to V-LEDS to see where we take this already amazing product. Can we make it any better than it is now? That was the same question we asked ourselves a few years ago and the answer is YES, YES we can! Check out the progression of photos; 2nd, 3rd and Platinum Series from left to right. (The 1st Gen not pictured, It was a 48 LED version utilizing our standard 1210 diodes)