LM3407 Datasheet, PDF(9/22 Page) National Semiconductor (TI) – 350 mA, Constant Current Output Floating Buck Switching Converter for High Power LEDs

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LM3407 Datasheet, PDF (9/22 Pages) National Semiconductor (TI) – 350 mA, Constant Current Output Floating Buck Switching Converter for High Power LEDs

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LM3407

www.ti.com

SNVS553B â JANUARY 2008 â REVISED MAY 2013

The operation of the LM3407 constant current output floating buck converter is explained below. With the internal

switch Q1 turned ON, current flows through the inductor L1 and the LED array. Energy is also stored in the

magnetic field of the inductor during the ON cycle. The current flowing through RISNS during the ON cycle is

monitored by the Average Current Sensing block. The switch will remain ON until the average inductor current

equals 198mV / RISNS. When the switch is turned OFF, the magnetic field starts to collapse and the polarity of the

inductor voltage reverses. At the same time, the diode is forward biased and current flows through the LED,

releasing the energy stored in the inductor to the output. True average output current is achieved as the

switching cycle continuously repeats and the Average Current Sensing block controls the ON duty cycle. A

constant current output floating buck converter only works in Continuous Conduction Mode (CCM); if the

converter enters Discontinuous Conduction Mode (DCM) operation, the current regulation will deteriorate and the

accuracy of LED current cannot be maintained. The operating waveforms for the typical application circuit are

shown in Figure 19.

VLX

time

ILX

time

ID1

VISNS

ILED x RISNS = 198 mV

time

ILED, IL1

ILED = 198 mV / RISNS

time

tON tOFF

T = tON + tOFF

time

Figure 19. Operating Waveforms of a Floating Buck Converter

PULSE LEVEL MODULATION (PLM)

The LM3407 incorporates the innovative Pulse Level Modulation technique. With an external 1% thick film

resistor connected to the ISNS pin, the converter output voltage can adjust automatically as needed to deliver

constant current within 10% accuracy to a serially connected LED string of different number and type. Pulse

Level Modulation is a novel method to provide precise constant current control with high efficiency. It allows the

use of low side current sensing and facilitates true average output current regulation regardless of the input

voltage and inductor value. Pulse Level Modulation can be treated as a process that transforms a trapezoidal

pulse chain into a square pulse chain with an amplitude equal to the center of inductor current ramp. Figure 20

shows the waveform of the converter in steady state. In the figure, IL1 is the inductor current and ILX is the switch

current into the LX pin. VISNS is the voltage drop across the current sensing resistor RISNS. VMSL is the center of

the inductor current ramp and is a reference pulse that is synchronized and has an identical pulse width to VISNS.

Product Folder Links: LM3407

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