A High Power Led Driver For Low Voltage Halogen Replacement
The SP7652 is a versatile high power LED driver that operates within a specified input voltage range of 5.5V to 28V, making it suitable for various applications. The driver is capable of delivering a constant output current of up to 6A, which is essential for powering high-power LEDs that require stable current for optimal performance and longevity.
The circuit design incorporates a dimming feature that allows for smooth adjustment of the LED brightness. This is achieved through the integration of an external operational amplifier, which plays a critical role in managing the feedback mechanism. By lowering the feedback voltage to 50mV, the operational amplifier effectively reduces the power dissipation across the current setting resistor (Rset). This design consideration not only enhances efficiency but also prolongs the lifespan of the components by minimizing thermal stress.
In practical applications, the dimming capability can be controlled via a 0V to 10V analog signal, which is compatible with various control systems, such as lighting control panels or microcontroller outputs. The circuit's layout must ensure proper thermal management and component placement to maintain performance under high current conditions. Additionally, attention should be given to the selection of the Rset resistor to ensure that it can handle the desired output current without excessive heat generation.
Overall, the SP7652 LED driver circuit is a robust solution for high-power LED applications, providing both constant current output and dimming functionality, making it suitable for a wide range of lighting scenarios.Application High Power LED Driver SP7652 with Analog 0V-to-10Vdimmer Electrical Requirements: Input Voltage 5. 5V to 28V Output Voltage VF of LED Output Current 0 to 6A Circuit This circuit has been designed to provide a high output constant current source to drive a single high power LED Also included in this circuit is a
Dimmer function. The dimmer function is done by the use of an external operational amplifier; this Amplifier also serves to lower the feedback voltage to 50MV thus reducing the amount of power lost in the Rset resistor. 🔗 External reference
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