LM3668_08 Datasheet, PDF(12/18 Page) National Semiconductor (TI) – 1A, High Efficiency Dual Mode Single Inductor Buck-Boost DC/DC Converter

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LM3668_08 Datasheet, PDF (12/18 Pages) National Semiconductor (TI) – 1A, High Efficiency Dual Mode Single Inductor Buck-Boost DC/DC Converter

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Internal Synchronous Rectification

While in PWM mode, the LM3668 uses an internal MOSFET

as a synchronous rectifier to reduce rectifier forward voltage

drop and associated power loss. Synchronous rectification

provides a significant improvement in efficiency whenever the

output voltage is relatively low compare to the voltage drop

across an ordinary rectifier diode.

PFM Operation

At very light loads, the converter enters PFM mode and op-

erates with reduced switching frequency and supply current

to maintain high efficiency. The part automatically transitions

into PFM mode when either of two following conditions occur

for a duration of 128 or more clock cycles:

A.âThe inductor current reaches zero.

B.âThe peak inductor current drops below the IMODE level,

(Typically IMODE < 45mA + VIN/80 â¦ ).

In PFM operation, the compensation circuit in the error am-

plifier is turned off. The error amplifier works as a hysteretic

comparator. The PFM comparator senses the output voltage

via the feedback pin and controls the switching of the output

FETs such that the output voltage ramps between ~0.8% and

~1.6% of the nominal PWM output voltage (Figure 6). If the

output voltage is below the âhighâ PFM comparator threshold,

the P1 & P2 (Buck mode) or N2 & P1 (Boost mode) power

switches are turned on. It remains on until the output voltage

reaches the âhighâ PFM threshold or the peak current exceeds

the IPFM level set for PFM mode. The typical peak current in

PFM mode is: IPFM = 220mA

Once the P1 ( Buck mode) or N2 ( Boost mode) power switch

is turned off, the N1 & P2 ( Buck mode) or P1 & P2 (Boost

mode) power switches are turned on until the inductor current

ramps to zero. When the zero inductor current condition is

detected, the N1( Buck mode) or P2 ( Boost mode) power

switches are turned off. If the output voltage is below the âhighâ

PFM comparator threshold, the P1 & P2 (Buck mode) or N2

& P1 ( Boost mode) switches are again turned on and the

cycle is repeated until the output reaches the desired level.

Once the output reaches the âhighâ PFM threshold, the N1 &

P2 (Buck mode) or P1 & P2 ( Boost mode) switches are turned

on briefly to ramp the inductor current to zero, then both output

switches are turned off and the part enters an extremely low

power mode. Quiescent supply current during this âsleepâ

mode is 45ÂµA (typ), which allows the part to achieve high ef-

ficiency under extremely light load conditions.

FIGURE 6. PFM to PWM Mode Transition

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In addition to the auto mode transition, the LM3668 operates

in PFM Buck or PFM Boost based on the following conditions.

There is a small delta (~500mV) known as dv1(~200mV) &

dv2(~300mV) when VOUT_TARGET is very close to VIN where

the LM3668 can be in either Buck or Boost mode. For exam-

ple, when VOUT_TARGET = 3.3V and VIN is between 3.1V &

3.6V, the LM3668 can be in either mode depending on the

VIN vs VOUT_TARGET .

â¢ Region I: If VIN < VOUT_TARGET - dv1, the regulator operates

in Boost mode.

â¢ Region II: If VOUT_TARGET - dv1 < VIN < VOUT_TARGET+

dv2 ,the regulator operates in either Buck or Boost mode.

â¢ Region III: If VIN > VOUT_TARGET + dv2, the regulator

operates in Buck mode.

FIGURE 7. VOUT vs VIN Transition

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