Power Supplies

Power supplies convert mains electricity or battery energy into the regulated DC voltage that LED circuits require. Every LED project needs a power source, and choosing the right supply determines whether your LEDs run at full brightness, at the correct color temperature, and without the overheating, flickering, or premature failure that come from a mismatched power source. We organize our power supply inventory into two main categories: AC-to-DC power supplies that plug into a wall outlet and deliver regulated DC output, and battery power supplies that provide portable, cordless LED power from coin cells, AA/AAA cells, and rechargeable packs.

AC-to-DC power supplies are the standard choice for any LED installation that has access to a wall outlet. Our selection covers the three most common LED supply voltages: 12V for LED strips, pre-wired LEDs, and automotive-style circuits; 5V for Arduino, ESP32, and other microcontroller-based LED projects; and specialty voltages like 6V and 9V for battery-replacement applications and guitar pedal power. Within the 12V range, we offer two form factors — compact wall adapters (wall warts) for small LED installations under 2A, and high-output desktop supplies for large LED strip runs and multi-zone installations that demand 5A, 10A, or more. All of our AC-to-DC supplies output regulated, filtered DC — the voltage stays constant under load, and the output is clean enough for sensitive LED circuits without additional filtering.

How to choose the right power supply for your LED project: Start with voltage — the supply voltage must match what your LEDs require. 12V LED strips, 12V pre-wired LEDs, and 12V built-in resistor LEDs all need a 12V supply. Bare component LEDs with external resistors work on 5V, 9V, or 12V — the resistor value accounts for the supply voltage. Next, calculate the total current draw of your LED installation. Each product page lists the current per unit (mA per LED or A per meter of strip), and you multiply by the number of units. Add a 20% safety margin to the total — this prevents the supply from running at maximum rated output, which generates excess heat and shortens its lifespan. If the total current exceeds what a single wall adapter can provide (typically 1–2A), step up to a high-output desktop supply.

Wall adapters vs. desktop supplies: Wall adapters (wall warts) plug directly into the outlet and have a barrel jack or stripped-wire output. They are compact, inexpensive, and ideal for small projects: a few meters of LED strip, a handful of pre-wired LEDs, an Arduino with a sensor and display. Desktop supplies are larger enclosed units with a separate AC power cord and often feature screw terminals or Anderson connectors for the DC output. They deliver higher current (5A to 30A or more), include built-in cooling fans for sustained high-load operation, and support the long wire runs typical of architectural, signage, and commercial LED installations. For mid-range projects that fall between a wall adapter and a desktop supply, look for regulated 12V adapters rated at 3–5A — they handle 3–5 meters of LED strip comfortably.

Voltage regulation matters for LED longevity. A regulated power supply maintains a constant output voltage regardless of how much current the load draws (up to the supply’s rated maximum). Unregulated supplies allow the voltage to rise under light loads and sag under heavy loads — this voltage variation changes LED brightness, shifts color temperature, and can exceed the LED’s maximum forward voltage rating, causing premature failure. All of our AC-to-DC supplies are regulated. If you are repurposing a surplus transformer or an old wall adapter, check whether it says “regulated” on the label. If it does not, measure the no-load and full-load output voltage with a multimeter before connecting LEDs.

Battery power supplies provide portable, cordless LED lighting for projects that cannot connect to a wall outlet. Our battery holder selection includes single and multi-cell holders for AA, AAA, and coin cell (CR2032) batteries, with options for leads, snap connectors, and built-in switches. Battery power is standard for model railroad rolling stock (LED-lit passenger cars), wearable LED costumes and accessories, holiday ornaments, portable prop lighting, science fair projects, and any LED application that needs to move freely. Battery voltage depends on the cell chemistry and count — a 2xAA holder provides 3V (matching a single blue/white LED’s forward voltage), a 4xAA holder provides 6V, and a 3xAA holder provides 4.5V for a wide range of configurations. Coin cell holders power low-current applications like LED throwies, miniature model lighting, and wearable LED jewelry.

For projects running on AC power from a landscape transformer or DCC model railroad track bus, see our bridge rectifier category to convert AC to DC before feeding LEDs. For help selecting the right resistor to pair with your power supply voltage and LED, use our LED Resistor Calculator. Browse our component LEDs, pre-wired LEDs, LED strips, and wire and connectors to pair with the right power supply for your project.