MIC261203 MICREL [Micrel Semiconductor], MIC261203 Datasheet - Page 20

MIC261203

Manufacturer Part Number

MIC261203

Description

Manufacturer

MICREL [Micrel Semiconductor]

Datasheet

1.MIC261203.pdf (31 pages)

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Micrel, Inc.

The maximum value of ESR is calculated:

where:

Δ V

ΔI

The total output ripple is a combination of the ESR and

output capacitance. The total ripple is calculated by

Equation 10:

where:

D = duty cycle

As described in the “Theory of Operation” subsection in

the Functional Description section, the MIC261203

requires at least 20mV peak-to-peak ripple at the FB pin

to make the g

behave properly. Also, the output voltage ripple should

be in phase with the inductor current. Therefore, the

output voltage ripple caused by the output capacitors

value should be much smaller than the ripple caused by

the output capacitor ESR. If low-ESR capacitors, such

as ceramic capacitors, are selected as the output

capacitors, a ripple injection method should be applied to

provide the enough feedback voltage ripple. Please refer

to the “Ripple Injection” subsection for more details.

The voltage rating of the capacitor should be twice the

output voltage for a tantalum and 20% greater for

aluminum electrolytic or OS-CON. The output capacitor

RMS current is calculated by Equation 11:

The power dissipated in the output capacitor is:

July 2011

ΔV

OUT

L(PP)

OUT(pp)

= switching frequency

OUT(pp)

= output capacitance value

= peak-to-peak inductor current ripple

= peak-to-peak output voltage ripple

ESR

DISS(C

OUT

(RMS)

⎛

⎜

⎝

OUT

amplifier and the error comparator

)

ΔI

≤

ΔI

L(PP)

ΔV

L(PP)

ΔI

OUT

OUT(pp)

L(PP)

(RMS)

⎞

⎟

⎠

ESR

(

ΔI

L(PP)

OUT

ESR

Eq. 10

Eq. 11

Eq. 12

OUT

Eq. 9

)

Input Capacitor Selection

The input capacitor for the power stage input V

be selected for ripple current rating and voltage rating.

Tantalum input capacitors may fail when subjected to

high inrush currents, caused by turning the input supply

on. A tantalum input capacitor’s voltage rating should be

at least two times the maximum input voltage to

maximize reliability. Aluminum electrolytic, OS-CON, and

multilayer polymer film capacitors can handle the higher

inrush currents without voltage de-rating. The input

voltage ripple will primarily depend on the input

capacitor’s ESR. The peak input current is equal to the

peak inductor current, so:

The input capacitor must be rated for the input current

ripple. The RMS value of input capacitor current is

determined at the maximum output current. Assuming

the peak-to-peak inductor current ripple is low:

The power dissipated in the input capacitor is:

Ripple Injection

The V

MIC261203 g

to 100mV. However, the output voltage ripple is

generally designed as 1% to 2% of the output voltage.

For a low output voltage, such as a 1V, the output

voltage ripple is only 10mV to 20mV, and the feedback

voltage ripple is less than 20mV. If the feedback voltage

ripple is so small that the g

comparator can’t sense it, then the MIC261203 will lose

control and the output voltage is not regulated. In order

to have some amount of V

method is applied for low output voltage ripple

applications.

ΔV

ripple required for proper operation of the

CIN(RMS)

DISS(CIN)

= I

amplifier and error comparator is 20mV

L(pk)

≈

= I

OUT(max)

CIN(RMS)

× ESR

CIN

× ESR

ripple, a ripple injection

CIN

amplifier and error

−

M9999-071311-A

MIC261203

should

Eq. 13

Eq. 14

Eq. 15

MIC261203 MICREL [Micrel Semiconductor], MIC261203 Datasheet - Page 20

MIC261203

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