push led driver

Push LED Driver

LED drivers convert mains (AC) power to low voltage DC power and are used to drive LEDs. They are designed to maintain a constant current flow at output levels that match the voltage and current requirements of LEDs, preventing thermal runaway.

Most LED drivers use pulse width modulation (PWM) or constant current reduction (CCR) to control the drive voltage and LED current. The pulse width of these switching currents is critical to limiting flicker and other EMI problems associated with LED driver circuitry.

Low Voltage

Unlike traditional power supplies, LED drivers have no internal resistance, so they will operate efficiently even when the input voltage is below 5V. This makes them ideal for high-power LED applications where space and cost are at a premium.

Low-voltage drivers come in a wide variety of shapes and sizes, but one of the most common is the push led driver. This buckbuckle sized device has a single output and can drive a large number of lights while consuming a fraction of the power of its higher voltage counterparts.

The push led driver also has a few tricks up its sleeve, including a built-in IR transceiver for wireless control and an LED indicator for on or off status. Its in-wall dimmer switch can be used in conjunction with a room controller to save energy and money over time.

Another cool thing about this LED driver is its clever thermal management system. A potted circuit design allows heat to be radiated away from the driver’s surface and into the surrounding enclosure, dissipating it more evenly. This is a good thing for the environment and your budget.

This clever design also sucks up the most power from the input by using a series zener diode to bias the transistor to a lower voltage. This means the LED can be driven to a much lower supply voltage, saving on the power cost and the heat load of the buckbuckle circuitry. The small encapsulated driver is a great choice for small spaces, such as desks and shelves. For more sophisticated applications, try a larger driver with multiple outputs and a dimming switch for maximum efficiency. This patented design is a winner.

UL Class 2

The UL Class 2 push led driver is a great option for tape lighting, kick/cove lighting, under cabinet lighting, or any application that requires low profile and a UL listed enclosure. Designed for indoor/outdoor use, these drivers feature a built-in wiring compartment with two 1/2″ knockouts to eliminate the need for a junction box.

These low-profile, constant current LED drivers are phase-dimmable with leading-edge TRIAC dimmers and feature over current and short circuit protection. They’re available in 60W, 75W, 90W, 100W, 150W, 200W, 250W and 300W wattage options.

They have a low operating case temperature for easy operation and have a cETLus recognized component. They’re rated for indoor or outdoor use and are IP 65 certified.

Another benefit of a UL Class 2 push led driver is the ability to connect more LEDs with a single driver. This is because it has 5 separate 60W outputs, each with their own circuit breaker. This allows you to plug multiple 60W LEDs into one driver, making the installation process a lot easier and more cost-effective than having to install several smaller LED drivers.

In addition, they have a high power factor, which means the driver is able to push led driver use more power than it takes in, thus improving its efficiency. This is important for applications that require more power, such as large LED lighting fixtures.

Finally, a UL Class 2 driver will also come with an In-Wall rated wire for permanent installation inside walls or floors, where insulation may be present. This is required by the NEC and adds an extra layer of protection against cracking and melting.

Lastly, the Class 2 driver is designed to comply with UL standard UL1310, which requires that the output voltage will pose no risk of fire or electric shock. Unlike Class 1 drivers, this will not be a problem because they only operate with 60 Volts (dry applications), 30 Volts (wet applications), 5 Amps and 100 Watts.

Regardless of which UL Class 2 LED driver you decide to go with, it’s important to be aware of what the difference between a Class 2 and Class 1 driver is so that you can make an informed decision. Whether you’re looking for a push led driver or other types of lighting products, understanding these distinctions will help you choose the right product for your application.

IP Rating

IP rating is the standard that determines a product’s resistance to water and dust. It’s something most manufacturers of GPS units and auxiliary lights to smartphones and watches like to advertise right up front.

IP stands for “International Protection.” The first number indicates the amount of protection from solids, while the second digit refers to liquid and moisture protection. The higher the number, the better the device’s protection from both types of hazards.

The IP rating can be found on the product’s packaging or in the data sheet. This information will tell you if the LED driver or power supply is designed to be used in harsh weather conditions, such as rain, dust or high-pressure jets of water.

An IP rated product will be resistant to dust and has been tested to withstand immersion in water up to 1 metre (the test duration is 30 minutes). This is a push led driver critical feature to look for if you want your device to be safe from water damage.

However, be aware that some devices are simply labelled with an IP rating without having been actually tested for the specific protection it offers. This is often a sign that the manufacturer went with a different certification or rating standard, and didn’t conduct the necessary tests.

Another common mistake is to assume that a “X” means the device was not tested for dust protection. That’s just not true.

In fact, it’s very rare for a product to get tested for just dust resistance and not for water. This is because it’s difficult to test for both in a short period of time, and the results can vary.

To ensure you get the best possible product for your application, always check the data sheet and ask for an application engineering team. The team will be able to assist you in finding the correct IP for your particular need and guide you through any questions or concerns you may have.

As a rule of thumb, you should try to find products with an IP rating above 6 for both dust and water. You should also avoid devices that are only rated for one type of hazard, as this can make them less likely to survive a disaster.


Dimmable LEDs allow you to control the light intensity of your fixtures and bulbs with ease. They can be used for everything from mood lighting to accent lighting. They can also be paired with wireless and analog solutions for complete flexibility.

They are an essential part of any smart and connected lighting system as they can provide the appropriate power and conditioning signals to your LED engine and respond accordingly to the various control inputs. They can also support both Constant Current and Constant Voltage applications allowing you to make the most of your investment in LED technology.

One of the most exciting features of dimmable LEDs is that they can be used for more than just light level control; many are designed to display a variety of other information. These include displaying a range of different color temperatures, as well as indicating when the driver is on or off.

Some dimmable LEDs even have built-in motion sensor features that will turn off the light when you’re not using it. These features are particularly useful if you’re using them to highlight decorative items or sculpture in your home.

There are a number of dimmable technologies available on the market today, so you’ll have to choose the right one for your project. Some are more practical than others, however.

The best way to find out which ones are right for you is to contact your local supplier or a specialist electrician who can help you determine the perfect solution. They’ll be able to advise you on which is the best option for your specific application and help you select the right driver to suit your budget and installation requirements.

A good quality LED driver should be able to operate a wide range of LEDs and deliver smooth & no flicker performance at all levels of dimming, while keeping your costs low. They’re available in a variety of sizes, with options for different voltages and output currents.

Whether you’re looking for the highest-quality or the smallest possible unit, a push LED driver should be at the top of your list. They’re not only efficient, but they’re also incredibly compact and robust, with multiple features that make them the ideal solution for any application.