ADT6780 ADTECH [ADTech], ADT6780 Datasheet - Page 7

ADT6780

Manufacturer Part Number

ADT6780

Description

Thermally enhanced Low VFB Step-Down LED Driver

Manufacturer

ADTECH [ADTech]

Datasheet

1.ADT6780.pdf (13 pages)

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Jul. 12. 2012 / Preliminary

OVERVIEW

DETAILED DESCRIPTION

The ADT6780 is a current mode step-down converter with integrated high side NMOS power switch. It

operates from a 4.5V to 28V input voltage range and supplies up to 2A of load current. Features include

enable control, under voltage lockout, programmable soft start, current limit ,thermal shutdown and PWM

dimming of LEDs. The ADT6780 uses current mode control to regulate the LED current. The LED current

is measured at FB pin voltage and amplified through the internal error amplifier. The error amplifier output

voltage is used to control the high side NMOS power switch and consequently LED current is regulated.

Enable and Soft Start

EN pin of the ADT6780 operates both chip enable and UVLO function. EN pin voltage under 800mV shuts

down all the chip function except for pulling up EN pin. When the EN pin voltage exceeds 1.1V, the internal

regulator will be enabled. A EN pin voltage over 2.7V, the soft start capacitor will begin to charge and

enables all the operations including switching function. When the EN pin is floating, EN voltage is high for

its pull-up function.

The soft start function is adjustable. When the EN pin becomes high, a tens of ㎂ current begins charging the

capacitor which is connected from the SS pin to GND. Smooth control of the output voltage is maintained

during start up. The soft start time is adjusted by changing capacitance of C4 and the typical soft start time is

3msec at 100nF of C4.

Switching Frequency

The ADT6780 switching frequency is fixed and set by an internal oscillator. The practical switching

frequency could range from 777kHz to 1050kHz due to device variation. If the FB voltage is under 80mV,

the switching frequency is changed to 125kHz for reducing abrupt inrush current.

Power Boosting

The ADT6780 uses an internal NMOS power switch to step-down the input voltage to the regulated output

current. Since the NMOS power switch requires a gate voltage greater than the input voltage, a boost

capacitor connected between SW and BST drives the gate. The capacitor is internally charged when SW is

low.

Error Amplifier

The high gain error amplifier extracts the difference between the reference voltage and the feedback voltage.

This extracted difference, called error signal, amplified and fed into the COMP, which is for compensation.

The feedback voltage is regulated to the reference voltage, typical 0.2V for the ADT6780.

Current Sensing

The current sensing output is proportional to the current flowing into the inductor, This output goes to the

comparator to make a proper PWM control signal. This output waveform resembles normally ramp shape.

Current Limit Protection

The output over-current protection (OCP) is implemented using a cycle-by-cycle peak detect control circuit.

The switch current is monitored by measuring the high side NMOS switch current. The measured switch

current is compared against a preset voltage which represents the current limit, between 2.2A and 4A. When

the output current is more than current limit, the high side switch will be turned off and PWM duty is

reduced. The output current is monitored in the same manner at each cycle and finally the power switch

almost turned off not to be damaged under fault conditions.

Thermally enhanced Low V

* This specifications are subject to be changed without notice

7/13

Step-Down LED Driver

http://www.ad-tech.co.kr

ADT6780

ADT6780 ADTECH [ADTech], ADT6780 Datasheet - Page 7

ADT6780

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