rd mr 16 led driver
The circuit design for the 4S1P MR-16 LED driver is engineered to efficiently drive a series configuration of four white LEDs, delivering a constant current of 750mA required for optimal illumination. The MAX16820 is utilized as the primary LED driver due to its hysteretic control scheme, which allows for rapid response to changes in load conditions, ensuring stable operation even with variations in input voltage or LED forward voltage.
The power supply section of the circuit employs the MAX5033, which steps down the 24V input to a regulated 5V output, providing the necessary power for the associated Nuventix pulsating LED cooler. This cooler enhances the thermal management of the LED system, improving the overall longevity and performance of the LEDs by maintaining a lower junction temperature.
The schematic will typically include input and output capacitors to filter voltage spikes and ensure stable operation. Additionally, the layout should consider the thermal aspects, with proper heat dissipation paths for both the MAX16820 and the LEDs. The design may also incorporate feedback mechanisms to monitor the LED current and adjust the PWM signal accordingly, optimizing efficiency and light output.
In summary, this reference design not only provides a reliable solution for driving a 4-LED MR-16 lamp but also integrates a robust power supply and cooling solution, making it suitable for various lighting applications where efficiency and thermal performance are critical.A reference design for a 4S1P MR-16 LED driver that provides 750mA to a string of four white LEDs (WLEDs). The circuit operates from a 24V source and is based around the MAX16820 hysteretic LED driver. Also included is a MAX5033 24V-to-5V, 150mA switching power supply to power a Nuventix ® pulsating LED coo
ler. This reference design details a driver circuit using the MAX16820 hysteretic LED driver for a 4-LED MR-16 lamp with an associated power source (MAX5033) for a pulsed air cooler. 🔗 External reference
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