LED drivers can be a confusing part of LED technology. There are so many different types and variations that it can seem a little overwhelming at times. That’s why I wanted to write a quick post explaining the varieties, what makes them different, and things you should look for when choosing the LED driver(s) for your lighting application.
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What is an LED driver you might ask? An LED driver is an electrical device that regulates power to an LED or a string of LEDs. It is a crucial piece to an LED circuit and to operate without one will result in system failure.
Using one is very important in preventing damage to your LEDs as the forward voltage (Vf) of a high-power LED changes with temperature. Forward Voltage is the amount of volts the light emitting diode requires to conduct electricity and light up. As temperature increases, the forward voltage of the LED decreases, causing the LED to draw more current. The LED will continue to get hotter and draw more current until the LED burns itself out, this is also known as Thermal Runaway. The LED driver is a self-contained power supply which has outputs that are matched to the electrical characteristics of the LED(s). This helps avoid thermal runaway as the constant current LED driver compensates for the changes in the forward voltage while delivering a constant current to the LED.
There are two main types of drivers, those that use low voltage DC input power (generally 5-36VDC) and those that use high voltage AC input power (generally 90-277VAC). LED drivers that use high-voltage AC power are called Off-Line drivers, or AC LED drivers. In most applications using a low voltage DC input LED driver is recommended. Even if your input is high voltage AC, using an additional switching power supply will make it possible to use a DC input driver. Low voltage DC drivers are recommended as they are extremely efficient and reliable. For smaller applications there are more dimming and output options available compared to high voltage AC drivers so you have more to work with in your application. If you have a large general lighting project for residential or commercial lighting, however, you should see how AC drivers might be better for this type of job.
Secondly, you need to know the drive current that you want to put to the LED. Higher drive currents will result in more light from the LED, and will also require more wattage to run the light. It is important to know your LED’s specs so you know the recommended drive currents and heat sink requirements so you don’t burn the LED out with too much current or excess heat. Lastly, it is good to know what you are looking for from your lighting application. For example, if you want dimming then you need to choose a driver with dimming capabilities.
Dimming LEDs varies with what kind of power you are using; so I will go over both DC and AC dimming options so we can better understand how to dim all applications, whether DC or AC.
Low voltage DC powered drivers can be easily dimmed in a couple different ways. The simplest dimming solution for these is using a potentiometer. This gives a full range of 0-100% dimming.
20K Ohm PotentiometerThis is usually recommended when you only have one driver in your circuit but if there are multiple drivers being dimmed from one potentiometer, the value of the potentiometer can be found from – KΩ/N – where K is the value of your potentiometer and N is the number of drivers you are using. We have wired BuckPucks that come with a 5K turn knob potentiometer for dimming but we also have this 20K potentiometer that can easily be used with our BuckBlock and FlexBlock Drivers. Just connect the dimming ground wire to the center prong and the dimming wire to one side or the other (choosing a side just determines what way you turn the knob to make it dim).
Your second option for dimming is to use a 0-10V wall dimmer, like our A019 Low Voltage Dimming Control. This is the better way of dimming if you have multiple units, as the 0-10V dimmer can work with several drivers at a time. Just hook the dimming wires right to the input of the driver and you’re good to go.
For high voltage AC power drivers there are a couple options for dimming as well depending on your driver. Many AC driver work with 0-10V dimming, like we went over above. We also carry Mean Well and Phihong LED Drivers that offer TRIAC dimming so they work with many leading-edge and trailing-edge dimmers. This is helpful as it allows LEDs to work with very popular residential dimming systems like Lutron and Leviton.
The maximum number of LEDs you can run from a single driver is determined by dividing the maximum output voltage of the driver by the forward voltage of your LED(s). When using LuxDrive drivers, you determine the maximum output voltage by subtracting 2 volts from your input voltage. This is needed because the drivers need a 2 volt overhead to power the internal circuitry. For example, using the Wired 1000mA BuckPuck driver with a 24 volt input, you would have a maximum output voltage of 22 volts.
This leads us to finding what input voltage we need for our LEDs. Input voltage, after all, equals our maximum output voltage for our driver after we take into account the driver circuit overhead voltage. Make sure you know the minimum and maximum input voltages for your LED drivers. For an example we will stick with the Wired 1000mA BuckPuck, which can take input voltages from 7-32VDC. In finding what your input voltage should be for an application you can use this simple formula.
Vo + (Vf x LEDn) = Vin
Where:
Vo = Voltage overhead for drivers – 2 if you are using a DC LuxDrive driver or 4 if you are using an AC LuxDrive driver
Vf = Forward voltage of LEDs you wish to power
LEDn = The number of LEDs you want to power
Vin = Input voltage to the driver
Product Specifications from Cree XPG2 Product PageFor example, if you need to power 6 Cree XPG2 LEDs from a DC power source and you’re using the Wired BuckPuck from above, then Vin would need to be at least 20VDC based on the following calculation.
2 + (3.0 x 6) = 20
This determines the minimum input voltage you need to provide. There is no harm in using a higher voltage up to the maximum input voltage rating of the driver, so since we don’t carry a 20VDC power supply, you will probably stick with a 24VDC Power Supplies in order to run these LEDs.
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Now this helps us make sure the voltage works, but in order to find the right power supply we also need to find the wattage of the whole LED circuit. The calculation for LED wattage is:
Vf x Drive Current (in Amps)
Using the 6 XPG2 LEDs from above we can find our watts.
3.0 V x 1A = 3 Watts per LED
Total Wattage for the circuit = 6 x 3 = 18 watts
When calculating the appropriate power supply wattage for your project, it’s important to allow a 20% ‘cushion’ to your wattage calculation. Adding this 20% cushion will prevent the power supply from being over-worked. Overworking the power supply can cause the LEDs to flicker or cause premature failure of the power supply. Just calculate the cushion by multiplying the total wattage by 1.2. So for our above example we would want at least 21.6 watts (18 x 1.2 = 21.6). The closest common power supply size will be 25 watts so it would be within your best interest to get a 25 Watt Power supply with a 24 Volt output.
The FlexBlock LED drivers are boost drivers which means they can output a higher voltage than what is supplied to them. This allows you to power more LEDs in-series with a single LED driver. This is extremely helpful in applications where your input voltage is limited and you need to get
FlexBlockmore power to the LEDs. As with the BuckPuck driver, the maximum number of LEDs you can power with a single driver in-series is determined by dividing the maximum output voltage of the driver by the forward voltage of your LEDs. The FlexBlock can be connected in two different configurations and varies when it comes to input voltage. In Buck-Boost (standard) mode the FlexBlock can handle LED loads that are above, below, or equal to the voltage of the power-supply. You find the maximum output voltage of the driver in this mode with this formula:
48VDC – Vin
So when using a 12VDC power supply and the XPG2 LEDs from above how many could we run with the 700mA FlexBlock? Your max output voltage is 36VDC (48-12) and the forward voltage of the XPG2 running at 700mA is 2.9 so by dividing 36VDC by this we see that this driver could power 12 LEDs. In Boost-Only Mode the FlexBlock can output up to 48VDC from as little as 10VDC. So if you were in Boost-Only mode you could power up to 16 LEDs (48/2.9). Here we go over using a FlexBlock boosting driver to power your LEDs in depth.
Now with AC input drivers they give off a certain amount of watts to run so you need to find the wattage of your LEDs. You can do this by using this formula:
[Vf x Current (in Amps)] x LEDn = Wattage
So if we are trying to power the same 6 Cree XPG2 LEDs at 700mA your wattage would be…
[2.9 x .7] x 6 = 12.18
This means you need to find an AC driver that can run up to 13 watts like our Phihong 15 Watt LED driver.
NOTE: It is important to consider the minimum output voltage of off-line drivers when designing your application. For instance, the driver above has a minimum output of 15 volts. Since the minimum output voltage is greater than that of our single XPG2 LED (2.9V), you would need to connect at least 6 of these together in-series to work with this particular driver.
So now you should have a pretty good idea on what an LED driver is and on what you need to look for in selecting a driver with a power supply that is sufficient enough for your application. I know there will still be questions and for that you can contact us here at (802) 728-6031 or sales@LEDsupply.com.
We also have this Driver Selector tool that helps calculate what driver would be best by inputting your circuit specs.
If your application requires custom size and output, please contact LEDdynamics. Their LUXdrive division will quickly design and manufacture custom LED drivers right here in the United States.
Thanks for following along and I hope this post helps all those wondering what LED drivers are all about.
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