Design of a Nonisolated Flyback LED Driver Reference Schematic

Flyback LED drivers are versatile as they can be utilized in applications with input voltages either above or below the necessary output voltages. They feature a straightforward circuit configuration that maintains a constant LED current without the need for additional control loops. The circuit outlined in this application note is based on the highly integrated MAX16802 PWM LED driver IC.

Flyback LED drivers operate by converting input voltage to a higher or lower output voltage while ensuring that the current flowing through the LED remains stable. This capability makes them particularly useful in varied applications, including automotive lighting, general illumination, and signage. The MAX16802 PWM LED driver IC is specifically designed for driving LEDs efficiently, featuring built-in PWM control that allows for dimming and enhanced thermal management.

The circuit typically consists of a primary winding connected to the input voltage source and a secondary winding linked to the LED load. The flyback transformer plays a crucial role in energy storage and transfer, allowing the circuit to adapt to different input and output voltage requirements. The MAX16802 integrates various protective features, including over-voltage protection, under-voltage lockout, and thermal shutdown, ensuring reliable operation in diverse conditions.

In this configuration, the PWM signal generated by the MAX16802 controls the switching of a power transistor, which regulates the energy transfer to the flyback transformer. The output voltage is sensed and fed back to the control loop, maintaining the desired LED current. This feedback mechanism is essential for achieving precise current regulation without the complexity of additional control loops, making the design both efficient and cost-effective.

Overall, the flyback LED driver circuit using the MAX16802 IC exemplifies a robust solution for driving LEDs in applications requiring versatile input and output voltage compatibility. Its simplicity, combined with integrated control features, makes it an ideal choice for modern LED lighting systems.Flyback LED drivers are versatile because they can be used for applications that have input voltages above or below the required output voltages. They lend themselves to a simple circuit configuration that keeps the LED current constant without using additional control loops.

The circuit described in this application note is designed around the highly integrated MAX16802 PWM LED driver IC.. 🔗 External reference