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ML4866IS

3.3V Output DC–DC Step-Down Converter

Micro Linear Corporation 

ML4866

DESIGN CONSIDERATIONS (Continued)

FREQUENCY COMPENSATION

Frequency compensation of the ML4866 is required when

the converter is operating in PWM mode. Two simple

methods are provided to ensure the converter is frequency

stable. Both these methods will work only if the inductor

current is selected to be in CCM at the maximum load

current (see Inductor Selection). The first, called dominant

pole compensation, is used when non-varying loads are

expected. This method requires a single capacitor

connected from the error amplifier output (COMP Pin) to

ground.

For loads which change suddenly, the transient response

(or bandwidth) of the circuit must be increased to prevent

the output voltage from going outside of the regulation

band. The method used to accomplish this is called

zero/pole compensation and requires a series resistor

capacitor network from COMP to ground.

To determine which method works best for a given

application, apply the components found from the

zero/pole compensation method to an actual circuit

and examine the output voltage variation. If the voltage

variation is acceptable, connect the simpler, single

capacitor and re-check the output voltage for acceptable

load transient response.

NON-VARYING LOAD CURRENT

For the best possible response to load transients using only

a single capacitor, dominant pole compensation is

implemented with a single capacitor value of:

C COMP

=

gm

2 ™ fCOMP

(6)

Where fCOMP is the unity gain crossover point (640Hz),

gm = 62.5µmho, and CCOMP > 15.5nF (choose a standard

18nF or 22nF capacitor). The value of CCOMP can be

increased but at the risk of increased output voltage

variations with transient loads.

CAPACITANCE

4.7µF

10µF

22µF

33µF

47µF

100µF

VOLTAGE

RATING

16V

6.3V

16V

6.3V

10V

6.3V

SIZE

3216

3216

7343

6032

7343

7343

ESR @

100kHz

0.490W

0.368W

0.149W

0.291W

0.144W

0.088W

Table 2. ESR Values for Low Cost Tantalum Capacitors

VARYING LOAD CURRENT

To minimize output voltage variations due to rapidly

changing load currents, use the series RC zero

compensation method to find the compensation network

component values that will improve the output voltage

response to load transients.

The unity gain bandwidth of the converter is extended to

15kHz using an RC network determined by:

R COMP

>

G

gm

,

where

G = fO

fCOMP

(7)

CCOMP

=

1

50p ™ RCOMP

(8)

Where f0 = 15kHz, fCOMP = 640Hz, RCOMP > 375kW (use

390kW, 5%), and CCOMP = 16nF (use 15nF).

Either method of compensation for CCM mode with result

in continued stability as the ML4866 changes to DCM

mode at lighter load currents. Figure 3 shows a typical

application circuit for the ML4866.

100µH

VOUT

3.3V

33µF

390kΩ

15nF

100nF

VOUT

COMP

VREF

BURST

15nF

ML4866

1

8

2

7

3

6

4

5

GND

VL

SHDN

VIN

100µF

VIN

3.5V to 6.5V

100nF

Figure 3. Typical Application Circuit

6

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