LTC3547 Datasheet, PDF(9/16 Page) Linear Technology – Dual Monolithic 300mA Synchronous Step-Down Regulator

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LTC3547 Datasheet, PDF (9/16 Pages) Linear Technology – Dual Monolithic 300mA Synchronous Step-Down Regulator

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LTC3547

APPLICATIO S I FOR ATIO

Input Capacitor (CIN) Selection

In continuous mode, the input current of the converter

is a square wave with a duty cycle of approximately

VOUT/VIN. To prevent large voltage transients, a low equiv-

alent series resistance (ESR) input capacitor sized for

the maximum RMS current must be used. The max-

imum RMS capacitor current is given by:

IRMS â IMAX

VOUT(VIN â VOUT )

VIN

(2)

Where the maximum average output current IMAX equals

the peak current minus half the peak-to-peak ripple cur-

rent, IMAX = ILIM â ÎIL/2.

This formula has a maximum at VIN = 2VOUT, where IRMS

= IOUT/2. This simple worst-case is commonly used to

design because even signiï¬cant deviations do not offer

much relief. Note that capacitor manufacturerâs ripple cur-

rent ratings are often based on only 2000 hours lifetime.

This makes it advisable to further derate the capacitor,

or choose a capacitor rated at a higher temperature than

required. Several capacitors may also be paralleled to meet

the size or height requirements of the design. An addi-

tional 0.1ÂµF to 1ÂµF ceramic capacitor is also recommended

on VIN for high frequency decoupling when not using an

all-ceramic capacitor solution.

Output Capacitor (COUT) Selection

The selection of COUT is driven by the required effective

series resistance (ESR). Typically, once the ESR require-

ment for COUT has been met, the RMS current rating

generally far exceeds the IRIPPLE(P-P) requirement. The

output ripple ÎVOUT is determined by:

1â

âVOUT â âIL ââESR + 8fCOUT â â

(3)

where f = operating frequency, COUT = output capacitance

and ÎIL = ripple current in the inductor. For a ï¬xed output

voltage, the output ripple is highest at maximum input

voltage since ÎIL increases with input voltage.

If tantalum capacitors are used, it is critical that the capaci-

tors are surge tested for use in switching power supplies.

An excellent choice is the AVX TPS series of surface mount

tantalum. These are specially constructed and tested for low

ESR so they give the lowest ESR for a given volume. Other

capacitor types include Sanyo POSCAP, Kemet T510 and

T495 series, and Sprague 593D and 595D series. Consult

the manufacturer for other speciï¬c recommendations.

Using Ceramic Input and Output Capacitors

Higher values, lower cost ceramic capacitors are now

becoming available in smaller case sizes. Their high

ripple current, high voltage rating and low ESR make

them ideal for switching regulator applications. Because

the LTC3547 control loop does not depend on the output

capacitorâs ESR for stable operation, ceramic capacitors

can be used freely to achieve very low output ripple and

small circuit size.

However, care must be taken when ceramic capacitors are

used at the input. When a ceramic capacitor is used at the

input and the power is supplied by a wall adapter through

long wires, a load step at the output can induce ringing at

the input, VIN. At best, this ringing can couple to the output

and be mistaken as loop instability. At worst, a sudden

inrush of current through the long wires can potentially

cause a voltage spike at VIN, large enough to damage the

part. For more information, see Application Note 88.

When choosing the input and output ceramic capacitors,

choose the X5R or X7R dielectric formulations. These

dielectrics have the best temperature and voltage charac-

teristics of all the ceramics for a given value and size.

3547fa

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