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MP1482

2A, 18V Synchronous Rectified Step-Down Converter

Monolithic Power Systems 

MP1482 – 2A, 18V SYNCHRONOUS RECTIFIED, STEP-DOWN CONVERTER

In this case (as shown in Figure 2), a third pole

set by the compensation capacitor (C6) and the

compensation resistor (R3) is used to

compensate the effect of the ESR zero on the

loop gain. This pole is located at:

fP3



1

2  C6  R3

The goal of compensation design is to shape

the converter transfer function to get a desired

loop gain. The system crossover frequency

where the feedback loop has the unity gain is

important. Lower crossover frequencies result

in slower line and load transient responses,

while higher crossover frequencies could cause

system instability. A good rule of thumb is to set

the crossover frequency below one-tenth of the

switching frequency.

To optimize the compensation components, the

following procedure can be used.

1. Choose the compensation resistor (R3) to set

the desired crossover frequency.

Determine the R3 value by the following

equation:

R3 

2  C2  fC

GEA  GCS



VOUT

VFB



2  C2  0.1 fS

GEA  GCS



VOUT

VFB

Where fC is the desired crossover frequency

which is typically below one tenth of the

switching frequency.

2. Choose the compensation capacitor (C3) to

achieve the desired phase margin. For

applications with typical inductor values, setting

the compensation zero, fZ1, below one-forth of

the crossover frequency provides sufficient

phase margin.

Determine the C3 value by the following equation:

C3



4

2  R3  fC

Where R3 is the compensation resistor.

3. Determine if the second compensation

capacitor (C6) is required. It is required if the

ESR zero of the output capacitor is located at

less than half of the switching frequency, or the

following relationship is valid:

1

2  C2  RESR



fS

2

If this is the case, then add the second

compensation capacitor (C6) to set the pole fP3

at the location of the ESR zero. Determine the

C6 value by the equation:

C6



C2  RESR

R3

External Bootstrap Diode

An external bootstrap diode may enhance the

efficiency of the regulator, and it will be a must

if the applicable condition is:

 VOUT is 5V or 3.3V, and duty cycle is high:

D= VOUT >65%

VIN

In these cases, an external BST diode is

recommended from the output of the voltage

regulator to BST pin, as shown in Figure.2

BST

MP1482

SW

External BST Diode

IN4148

CBST

L

+

C OUT

5V or 3.3V

Figure 2—Add Optional External Bootstrap

Diode to Enhance Efficiency

The recommended external BST diode is

IN4148, and the BST cap is 0.1~1µF.

MP1482 Rev. 1.31

www.MonolithicPower.com

9

7/9/2012

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