LM3407EVAL National Semiconductor, LM3407EVAL Datasheet - Page 6

LM3407EVAL

Manufacturer Part Number

LM3407EVAL

Description

BOARD EVALUATION FOR LM3407

Manufacturer

National Semiconductor

Series

PowerWise®r

Datasheets

1.LM3407MYNOPB.pdf (16 pages)

2.LM3407EVAL.pdf (10 pages)

Specifications of LM3407EVAL

Current - Output / Channel

350mA

Outputs And Type

1, Non-Isolated

Voltage - Output

4.5V

Features

Dimmable

Voltage - Input

4.5 ~ 30V

Utilized Ic / Part

LM3407

Lead Free Status / RoHS Status

Contains lead / RoHS non-compliant

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LED DIMMING

There are two ways to disable the current output (I

evaluation board circuit. The current output of the LM3407

evaluation board can be disabled by connecting either the

DIM or EN pin to ground. Connecting the EN pin to ground

will shutdown the internal linear regulator and maintain mini-

mal power consumption. Connecting the DIM pin to ground

will only disable the current output of the LM3407, while the

internal oscillator and control circuits remain active to facilitate

fast wake up.

In general, dimming of the LED array can be achieved by ap-

plying a logic pulse chain to the DIM terminal of the evaluation

board to periodically enable and disable the LM3407 and

control the average I

characteristics of a LED are closely related to the driving cur-

rent, dimming by adjusting the current setting resistor causes

the color temperature to drift. To control the brightness of the

LED array effectively, PWM dimming should be used. PWM

dimming is a dimming method which controls the ON/OFF

time ratio of the LED(s) at fixed frequency.

The DIM terminal on the evaluation board is directly connect-

ed to the DIM pin of the LM3407, which provides a PWM

signal input for dimming of the LED array. In order to properly

enable and disable the LM3407, the PWM dimming signal

OUT

of the LED array. Since the color

FIGURE 6. Limits of the PWM Dimming Signal

OUT

) of the

should have a logic low of 1V maximum and logic high of 2V

minimum. The DIM terminal is internally pulled down to

ground by a 400 kΩ resistor, which should be connected to

either logic high or low and should not be left open. In steady

state, the expression of the average LED driving current is:

LIMITS OF PWM DIMMING

The maximum PWM dimming frequency, minimum duty cy-

cle, and maximum duty cycle are shown in Figure 6. The

maximum dimming frequency should not exceed 1/50 of the

switching frequency f

er, dimming frequencies lower than 100 Hz are not recom-

mended. In Figure 6, T is the period of the PWM dimming

signal. The interval t

high of the dimming signal and the onset of the output current.

up from zero to steady state and slew down to zero respec-

tively. In the figure, it can be seen that the minimum duty cycle

of the dimming signal should not be shorter than the sum of

and t

are the time needed for the output current to slew

of the output current.

represents the time delay from a logic

of the LM3407. To avoid visible flick-

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LM3407EVAL National Semiconductor, LM3407EVAL Datasheet - Page 6

LM3407EVAL

Specifications of LM3407EVAL

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