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Boost Buck driver for automotive front light modules


Sensorless LED temperature measurment with ASL2415SHN

This is an automotive headlight LED schematic design example using SPI bus controlled NXP ASL4500SHN and ASL3416SHNY LED buck driver chips. The hysteretic buck DC-to-DC topology of the buck regulator grants LED drive currents with low ripple noise and high accuracy of the current itself. The main software development work was done on NXP demo board and can be ordered over standard distributors: ASL45XASLX41

the board with the attached FRDMKEAZ128Q80 based on CortexM0+
on the left there is a 4 channel matrix driver board:

This board demonstrates that matrix driving can be combined with sensorless TJ LED measurements.

Voltage and current of a LED string.

A special phase shifting PWM pattern lets you  analyse the specific LED channel, when it is active for a short moment only.


LED driver using the PIC16F1765

The micro controller is able to determine the temperature of the LED, dimming the LED and even to determine the type of LED with a view pulses before turning the LED to full brightness. The PIC16F1765 is able to generate a PWM and combine it in a logic cell with the signal from the comparator op amp  section, which is sensing the shunt. Such a combination of digital with analogue features is ideal to change drive current and PWM to drive all kinds of LEDs with the same hardware.