ncp3155a ON Semiconductor, ncp3155a Datasheet - Page 19

ncp3155a

Manufacturer Part Number

ncp3155a

Description

Ncp3155a, Ncp3155b 3 A Synchronous Buck Regulator

Manufacturer

ON Semiconductor

Datasheet

1.NCP3155A.pdf (24 pages)

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Output Capacitor Selection

output capacitor is dc voltage rating, ripple current rating,

output ripple voltage requirements, and transient response

requirements.

current at full load with proper derating. The RMS ratings

given in datasheets are generally for lower switching

frequency than used in switch mode power supplies but a

multiplier is usually given for higher frequency operation.

The RMS current for the output capacitor can be calculated

below:

combination of the ripple current selected, the output

capacitance selected, the equivalent series inductance (ESL)

and ESR.

the ESR of the output capacitor and the capacitance selected.

but tends to range from 1 nH to 20 nH where ceramic

capacitors have the lowest inductance and electrolytic

capacitors then to have the highest. The calculated

contributing voltage ripple from ESL is shown for the switch

on and switch off below:

response of the power supply. In fact, during load transient,

for the first few microseconds it supplies the current to the

load. The controller immediately recognizes the load

transient and sets the duty cycle to maximum, but the current

slope is limited by the inductor value.

due to the current variation inside the capacitor and the ESR

(neglecting the effect of the effective series inductance (ESL)).

current during the load transient without discharging it. The

voltage drop due to output capacitor discharge is

approximated by the following equation:

Table 2. COMPENSATION TYPES

The important factors to consider when selecting an

The output capacitor must be rated to handle the ripple

The maximum allowable output voltage ripple is a

The main component of the ripple voltage is usually due to

The ESL of capacitors depends on the technology chosen

The output capacitor is a basic component for the fast

During a load step transient the output voltage initially drops

A minimum capacitor value is required to sustain the

ESR_C

Zero Crossover Frequency Condition

+ I

@ ra @ ESR

OUT−ESR

< f

ESLON

ESLOFF

< f

RMS

/2 < f

+ DI

< f

ESL @ I

+ I

ESL @ I

TRAN

)

( 1 * D )

8 @ F

@ ESR

@ F

@ Co

(eq. 17)

(eq. 18)

(eq. 19)

(eq. 20)

(eq. 21)

http://onsemi.com

Compensation Type

Type III Method II

Type III Method I

Type II

In a typical converter design, the ESR of the output capacitor

bank dominates the transient response. It should be noted

that DVOUT−DISCHARGE and DVOUT−ESR are out of

phase with each other, and the larger of these two voltages

will determine the maximum deviation of the output voltage

(neglecting the effect of the ESL).

increase as the energy stored in the inductor dumps into the

output capacitor. The ESR contribution from Equation 18

still applies in addition to the output capacitor charge which

is approximated by the following equation:

be performed to insure the design will dissipate the required

power under worst case operating conditions. Variables

considered during testing should include maximum ambient

temperature, minimum airflow, maximum input voltage,

maximum loading, and component variations.

Feedback and Compensation

transconductance error amplifier compensated by an

external compensation network. Compensation is needed to

achieve accurate output voltage regulation and fast transient

response. The goal of the compensation circuit is to provide

a loop gain function with the highest crossing frequency and

adequate phase margin (minimally 45°). The transfer

function of the power stage (the output LC filter) is a double

pole system. The resonance frequency of this filter is

expressed as follows:

output filter capacitor introduces a high frequency zero to

the filter network. Its value can be calculated by using the

following equation:

to be 1/10 − 1/5 of the switching frequency. Table 2 shows

the three methods of compensation.

Conversely during a load release, the output voltage can

As with any power design, proper laboratory testing should

The NCP3155 is a voltage mode buck convertor with a

Parasitic Equivalent Series Resistance (ESR) of the

The main loop zero crossover frequency f

OUT−DISCHG

OUT−CHG

Typical Output Capacitor Type

2 @ p @ C

2 @ p @ L @ C

Electrolytic, Tantalum

Tantalum, Ceramic

OUT

TRAN

OUT

TRAN

OUT

Ceramic

@ V

@ ESR

@ V

@ L

OUT

@ L

OUT

* V

OUT

can be chosen

(eq. 22)

(eq. 23)

(eq. 24)

(eq. 25)

ncp3155a ON Semiconductor, ncp3155a Datasheet - Page 19

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