ACT6360(2007) 데이터 시트보기 (PDF) - Active-Semi, Inc

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ACT6360
(Rev.:2007)

High-Efficiency, 40V Step-Up WLED Bias Supplies

Active-Semi, Inc 

FUNCTIONAL BLOCK DIAGRAM

IN

EN

ENABLE

CIRCUIT

UVLO

DRIVER

THERMAL

SHUTDOWN

CONTROL

LOGIC

OV COMPARATOR

OV

+

1.21V

-

MAXIMUM

ON TIME

BANDGAP

REFERENCE

MINIMUM

OFF TIME

-

ACT6360

ERROR

0.207V

+

COMPARATOR

ACT6360

Rev PrA, 25-Dec-07

SW

G

FB

Control Scheme

The ACT6360 uses a minimum off-time, current-

mode control scheme to achieve excellent perform-

ance under high duty-cycle operating conditions.

This control scheme initiates a switching cycle only

when needed to maintain output voltage regulation,

resulting in very high efficiency operation.

During each switching cycle, the N-channel power

MOSFET turns on, increasing the inductor current.

The switching cycle terminates when either the in-

ductor current reaches the current limit (1000mA) or

when the cycle lasts longer than the maximum on-

time of 4µs. Once the MOSFET turns off, it remains

off for at least the minimum off-time of 320ns, then

another switching begins when the error compara-

tor detects that the output is falling out of regulation

again.

Over Voltage Protection

The ACT6360 includes internal over-voltage protec-

tion circuitry that monitors the OV pin voltage. Over-

voltage protection is critical when one of the LEDs

in the LED string fails as an open circuit. When this

happens the feedback voltage drops to zero, and

the control switches at maximum on time causing

the output voltage to keep rising until it exceeds the

maximum voltage rating of the power MOSFET.

The over-voltage protection circuit detects this con-

dition and switching ceases if the voltage at the OV

pin reaches 1.21V.

To set the maximum output voltage, connect a re-

sistor divider from the output node to G, with center

tap at OV, and select the two resistors with the fol-

lowing equation:

ROV 2

=

ROV1

×

⎢⎣⎡⎜⎝⎛1V.2O1VV

⎟⎞

⎠

−1⎥⎤

⎦

where VOV is the over voltage detection threshold,

ROV1 is the resistor between OV and G, and ROV2 is

the resistor from the output to the OV pin. As a first

estimate, the OV threshold can often be set to 4V

times the number of LEDs in the string.

Setting the LED Current

The LED current is programmed by appropriate se-

lection of the feedback resistor RFB connected be-

tween FB and G. To set the LED current, choose

the resistor according to the equation:

R CS

= V FB

I LED

where VFB is the FB feedback voltage (typically

290mV at VEN = 3.3V) and ILED is the desired maxi-

mum LED current.

Innovative Products. Active Solutions.

-5-

www.active-semi.com

Copyright © 2007 Active-Semi, Inc

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