ncl30160 ON Semiconductor, ncl30160 Datasheet - Page 6

ncl30160

Manufacturer Part Number

ncl30160

Description

Constant Current Buck Regulator For Driving High Power Leds

Manufacturer

ON Semiconductor

Datasheet

1.NCL30160.pdf (10 pages)

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buck regulator controlled by a current mode, hysteretic

control circuit. The buck regulator operates exactly like a

conventional buck regulator except the power device

placement has been inverted to allow for a low side power

FET. Referring to Figure 1, when the FET is conducting,

current flows from the input,through the inductor, the LED

and the FET to ground.

the inductor and LED, but is diverted through the diode

(D1). This operation keeps the current in the LED

continuous with a continuous current ramp.

Figure 2 illustrates the operation of this circuit. The CS

comparator thresholds are set to provide a 10% current

ripple. The peak current comparator threshold of 220 mV

sets I

current comparator threshold of 180 mV sets I

below the average current.

ramps up. This current is sensed by an external sense resistor

that is connected from CS to ground. When the CS pin

reaches 220 mV, the peak current comparator turns off the

power FET. A conventional hysteretic controller would

monitor the load current and turn the switch back on when

the CS pin reaches 180 mV. But in this topology, the current

information is not available to the control circuit when the

FET is off. To set the proper FET off time, the CS voltage is

This switching power supply is comprised of an inverted

When the FET shuts off, current continues to flow through

The control circuit controls the current hysteretically.

When the FET is conducting, the current in the inductor

peak

at 10% above the average current while the valley

= 12 V, V

Figure 4. Typical Operation Waveforms

valley

THEORY OF OPERATION

LED

= 6.5 V, R

at 10%

http://onsemi.com

SENSE

sensed when the FET is turned back on and a correction

signal is sent to the off time circuit to adjust the off time as

necessary.

valley currents are controlled. The average value for a

triangular waveshape is halfway between the peak and

valley, so even with changes in duty cycle due to input

voltage variations or load changes, the average current will

remain constant.

large amount of current could potentially flow through the

circuit during startup. To protect against this, the NCL30160

comes with a short circuit protection feature. If the voltage

on the CS pin is detected to be greater than 500 mV

(equating to 2.5 times the intended average output current),

the NCL31060 will turn off the FET, and prevent the FET

from turning on again until power is recycled to NCL30160.

The current waveshape is triangular, and the peak and

In the event there is a short−circuit across the LEDs, a

= 0.68 W, L = 100 mH)

Figure 5. Typical Current Waveforms

ncl30160 ON Semiconductor, ncl30160 Datasheet - Page 6

ncl30160

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