Rainbow Electronics MAX15041 User Manual

MAX15041

Low-Cost, 3A, 4.5V to 28V Input, 350kHz, PWM
Step-Down DC-DC Regulator with Internal Switches

14

______________________________________________________________________________________

For R

LOAD

much greater than ESR, the equation can be

further simplified as follows:

where V

FB

is equal to 0.606V.

3) Select C

C

. C

C

is determined by selecting the

desired first system zero, f

Z1

, based on the desired

phase margin. Typically, setting f

Z1

below 1/5th of

f

CO

provides sufficient phase margin.

therefore:

4) If the ESR output zero is located at less than one-half

the switching frequency use the (optional) sec-
ondary compensation capacitor, C

CC

, to cancel it,

as follows:

therefore:

If the ESR zero exceeds 1/2 the switching frequency,
use the following equation:

therefore:

The downside of C

CC

is that it detracts from the overall

system phase margin. Care should be taken to guarantee

this third-pole placement is well beyond the desired
crossover frequency, minimizing its interaction with the
system loop response at crossover. If C

CC

is smaller than

10pF, it can be neglected in these calculations.

Setting the Soft-Start Time

The soft-start feature ramps up the output voltage slow-
ly, reducing input inrush current during startup. Size the
C

SS

capacitor to achieve the desired soft-start time t

SS

using:

I

SS

, the soft-start current, is 5µA (typ) and V

FB

, the out-

put feedback voltage threshold, is 0.606V (typ). When
using large C

OUT

capacitance values, the high-side

current limit may trigger during the soft-start period. To
ensure the correct soft-start time, t

SS

, choose C

SS

large

enough to satisfy:

I

HSCL_MIN

is the minimum high-side switch, current-

limit value.

Power Dissipation

The MAX15041 is available in a thermally enhanced
TQFN package and can dissipate up to 1.666W at T

A

=

+70°C. The exposed pad should be connected to
SGND externally, preferably soldered to a large ground
plane to maximize thermal performance. When the die
temperature exceeds +155°C, The thermal-shutdown
protection is activated (see the

Thermal-Shutdown

Protection

section).

Layout Procedure

Careful PCB layout is critical to achieve clean and sta-
ble operation. It is highly recommended to duplicate
the MAX15041 evaluation kit layout for optimum perfor-
mance. If deviation is necessary, follow these guide-
lines for good PCB layout:

1) Connect input and output capacitors to the power

ground plane; connect all other capacitors to the
signal ground plane.

C

C

V

I

I

I

V

SS

OUT

OUT

SS

HSCL MIN

OUT

FB

>>

Ч

Ч

−

Ч

(

)

_

C

I

t

V

SS

SS

SS

FB

=

×

C

f

R

CC

SW

C

=

Ч

Ч

2

2

π

f

C

R

f

P

CC C

SW

3

1

2

2

=

×

=

π

C

C

ESR

R

CC

OUT

C

=

×

1

2

1

2

3

2

π

π

Ч

=

=

=

Ч

C

R

f

f

C

ESR

CC C

P

Z

OUT

C

f

R

C

CO

C

≥

Ч

Ч

5

2

π

f

C R

f

Z

C C

CO

1

1

2

5

=

×

≤

π

R

V

V

f

C

g

G

C

OUT

FB

CO

OUT

MV

MOD

=

Ч

Ч

Ч

Ч

2

π