Rainbow Electronics MAX5098A User Manual

MAX5098A

Dual, 2.2MHz, Automotive Buck or Boost
Converter with 80V Load-Dump Protection

22

______________________________________________________________________________________

bandwidth and phase margin. Use a simple pole-zero
pair (Type II) compensation if the output capacitor ESR
zero frequency is below the unity-gain crossover fre-
quency (f

C

). Type III compensation is necessary when

the ESR zero frequency is higher than f

C

or when com-

pensating for a continuous mode boost converter that
has a right-half-plane zero.

Use procedure 1 to calculate the compensation net-
work components when f

ZERO,ESR

< f

C

.

Buck Converter Compensation

Procedure 1 (See Figure 4)

1) Calculate the f

ZERO,ESR

and LC double-pole fre-

quencies:

2) Select the unity-gain crossover frequency:

If the f

ZERO,ESR

is lower than f

C

and close to f

LC

, use a

Type II compensation network where R

F

C

F

provides a

midband zero f

MID,ZERO

, and R

F

C

CF

provides a high-

frequency pole.

3) Calculate modulator gain G

M

at the crossover fre-

quency.

where V

OSC

is a peak-to-peak ramp amplitude equal to

1V.

The transconductance error amplifier gain is:

G

E/A

= g

M

x R

F

The total loop gain at f

C

should be equal to 1:

G

M

x G

E/A

= 1

or

4) Place a zero at or below the LC double pole:

5) Place a high-frequency pole at f

P

= 0.5 x f

SW

.

Procedure 2 (See Figure 5)

If the output capacitor used is a low-ESR ceramic type,
the ESR frequency is usually far away from the targeted
unity crossover frequency (f

C

). In this case, Type III

compensation is recommended. Type III compensation
provides two-pole zero pairs. The locations of the zero
and poles should be such that the phase margin peaks
around f

C

. It is also important to place the two zeros at

or below the double pole to avoid the conditional stabil-
ity issue.

1) Select a crossover frequency:

2) Calculate the LC double-pole frequency, f

LC

:

f

L

C

LC

OUT

OUT

=

Ч

Ч

1

2

π

f

f

C

SW

≤

20

C

C

f

R

C

CF

F

SW

F

F

=

Ч

Ч

Ч

(

)

−

2

0 5

1

π

.

C

R

f

F

F

LC

=

Ч

Ч

1

2

π

R

V

ESR

f

L

V

V

g

ESR

F

OSC

C

OUT

OUT

IN

M

=

+

Ч Ч

(

)

Ч

Ч

Ч

Ч

2

0 8

π

.

G

V

V

ESR

ESR

f

L

V

M

IN

OSC

C

OUT

OUT

=

Ч

+

Ч Ч

(

)

Ч

2

0 8

π

.

f

f

C

SW

≤

20

f

ESR C

f

L

C

ZERO ESR

OUT

LC

OUT

OUT

,

=

Ч

Ч

=

Ч

1

2

1

2

π

π

R

1

FB_

R

F

COMP_

V

OUT

V

REF

C

CF

C

F

R

2

-

+

g

M

Figure 4. Type II Compensation Network