Constant Voltage Power Supplies
DiodeDrive® Desktop AC Power Adapter - 24 VDC Switching Power Supply - 60W-120W
DiodeDrive® Wall-Mounted AC Adapter - 24 VDC Power Supply - 12W / 18W / 24W / 36W / 48W
DiodeDrive® Wall-Mounted AC Adapter - 12 VDC Power Supply - Black / White - 12W / 18W / 24W / 36W / 48W
ARM-24V-DArmacost Lighting Universal Dimmable 24V DC LED Power Supply - 120V AC Input - 24W / 45W / 60W / 120W
ARM-12V-SArmacost Lighting Standard 12V DC LED Power Supply - 120V AC Input - 12W / 24W / 36W / 60W
ARM-12V-DArmacost Lighting Universal Dimmable 12V DC LED Power Supply - 120V AC Input - 20W / 24W / 45W / 60W / 120W
ARM-24V-SArmacost Lighting Standard 24V DC LED Power Supply - 120V AC Input - 24W / 36W
DI-24V-SE-xDiode LED® - SWITCHEX® LED Driver and Dimmer Switch - 24V - 60W / 100W
DI-12V-SE-xDiode LED® - SWITCHEX® LED Driver and Dimmer Switch - 12V - 40W / 60W
Mean Well LED Switching Power Supply - SE Series 1500W Enclosed Power Supply - 24V DC - 200-240VAC
LRS-x-3636V DC Mean Well LED Switching Power Supply - LRS Series Enclosed Power Supply - 100W - 350W
SE-x-36Mean Well LED Switching Power Supply - SE Series 450-600W Enclosed Power Supply - 36V DC
LRS-x-48Mean Well LED Switching Power Supply - LRS Series 100-350W Enclosed Power Supply - 48V DC
SE-x-48Mean Well LED Switching Power Supply - SE Series 450-1000W Enclosed Power Supply - 48V DC
Why would I need a constant voltage power supply?
Constant voltage power supplies are suitable for powering LEDs equipped with resistors or constant current drivers, which regulate the flow of current and may require a constant-voltage power supply when the desired operating voltage differs from the available power source (such as in homes or vehicles).
For instance, LED light strips often incorporate current-regulating resistors. If the light strip operates within a range of 9-14.8 volts in direct current (DC), it can be directly connected to a 12-volt DC system in a vehicle without requiring a constant-voltage power supply. However, if you want to install the same light strip in a home with a 120-volt alternating current (AC) wiring system, you must reduce and convert the voltage from AC to DC using a power supply.
In certain cases, constant-current drivers are available that match the voltage and current requirements of both the product and the power source (home, vehicle, etc.), eliminating the need for a constant-voltage power supply.
What are the differences between a power supply and a driver?
A driver and a power supply are the same thing. These terms are used interchangeably. Drivers tend to refer more to constant current power supplies.
What features are available with constant voltage power supplies?
Certain power supplies and drivers are compatible with TRIAC and other dimmers. If you wish to dim your LEDs, purchase a compatible power supply that allows you to dim 0-100%.
These are 120V and plug into a home’s outlet after being connected to the LED via a barrel connector.
Waterproof voltage power supplies help power outdoor and underwater LEDs in pools, fountains, etc.
What types of LEDs would require a constant voltage power supply?
The most common use for constant voltage power supplies is LED strip lights.
What are the benefits of using a constant voltage power supply?
Constant voltage supplies provide a consistent voltage across the LEDs so that minimal voltage drop ensures all your LEDs work properly and effectively.
What is the difference between NEC Class 2 and IEC Class II?
NEC Class 2 refers to the output voltage and power of AC/DC power supplies. So it focuses on wiring details like wire size, derating factors, installation, and overcurrent protection limits. Class 2 power supplies are considered less of a fire hazard and have less risk of causing electrical shocks.
On the other hand, IEC Class II refers to the internal construction of the power supply and its electrical insulation. With Class II power supplies, there are two layers of insulation, and they have a two-wire power cord.
For more details on Class 2 and Class II, read our blog “Is There a Difference Between Class 2 and Class II Power Supplies?”