Datasheet
Series AMLDLW-Z
Up to 1000mA | LED Driver
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(924 6832)
F 051e R9 6 of 11 North America only
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Thermal Feedback Circuit
The selection of components for the thermal feedback circuit is depends on the choice of R2 and R3 and the effectiveness of
the LED heatsink. To optimize the LED brightness control at high temperatures, the LEDs must have a sufficient thermal
extraction path, if not the reduction in drive current will not be optimal.
The thermal control threshold points are set by adjusting R2. Three values (33K, 22K, and 10K) were tested. These values
were chosen to provide thermal break points of approximately 25ºC, 40ºC, and 60ºC.
Note, that the LED drive current will not continually dim to zero – the thermal controls applying DC control to that VADJ pin
has a dimming ratio from maximum current of approximately 5:1.
Once the reduced DC level drops below the shutdown threshold of around 200mV, the LED drive current will fall to zero and
the LEDs will be off.
The slope of the current reduction is determined by the beta value of the thermistor. The larger the Beta value the sharper
will be the resultant current control response. The slope of the current reduction is also affected by Q1’s base emitter voltage
variation with temperature.
Model Number Inductor Value (µH)
AMLDLW-3035Z 68
AMLDLW-3050Z 27
AMLDLW-3070Z 27
AMLDLW-30100Z 27
AMLDLW-Z
+Vin
-Vin
VADJ
1
st
LED
Last LED
+Vout
1
1
Analogue DIM
PWM Dim/ON/OFF
-Vout
10uF
+
-
L
-
+
AMLDLW-Z
-Vin
VADJ
1
st
LED
+Vout
1
1
-Vout
GND
1
10K
Last LED
Q1
1
R1
4.7K
R2
10K
R3
10K
Thermistor
B 3900
BZX284C6V2
+Vin
+Vin
Thermally Connected