SC4524ASETRT Semtech, SC4524ASETRT Datasheet - Page 12

SC4524ASETRT

Manufacturer Part Number

SC4524ASETRT

Description

IC STEP-DWN SW REG 2A 28V 8-SOIC

Manufacturer

Semtech

Type

Step-Down (Buck)r

Datasheet

1.SC4524ASETRT.pdf (19 pages)

Specifications of SC4524ASETRT

Internal Switch(s)

Yes

Synchronous Rectifier

Number Of Outputs

Current - Output

Frequency - Switching

300kHz ~ 1.3MHz

Voltage - Input

3 ~ 28 V

Operating Temperature

-40°C ~ 105°C

Mounting Type

Surface Mount

Package / Case

8-SOIC

Lead Free Status / RoHS Status

Lead free / RoHS Compliant

Voltage - Output

Power - Output

Other names

SC4524ASETR

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Applications Information (Cont.)

diodes should have an average forward current rating

at least 2A and a reverse blocking voltage of at least a

few volts higher than the input voltage. For switching

regulators operating at low duty cycles (i.e. low output

voltage to input voltage conversion ratios), it is beneficial

to use freewheeling diodes with somewhat higher

average current ratings (thus lower forward voltages). This

is because the diode conduction interval is much longer

than that of the transistor. Converter efficiency will be

improved if the voltage drop across the diode is lower.

The freewheeling diode should be placed close to the

SW pin of the SC4524A to minimize ringing due to trace

inductance. 20BQ030 (International Rectifier), B230A

(Diodes Inc.), SS3, SS23 (Vishay), CMSH-40M, CMSH-

40ML and CMSH2-40M (Central-Semi.) are all suitable.

The freewheeling diode should be placed close to the SW

pin of the SC4524A on the PCB to minimize ringing due to

trace inductance.

Bootstrapping the Power Transistor

The typical minimum BST-SW voltage required to fully

saturate the power transistor is shown in Figure 5, which

is about .96V at room temperature.

The BST-SW voltage is supplied by a bootstrap circuit

powered from either the input or the output of the

converter (Figure 6). To maximize efficiency, tie the

bootstrap diode to the converter output if V

Since the bootstrap supply current is proportional to the

converter load current, using a lower voltage to power

the bootstrap circuit reduces driving loss and improves

efficiency.

For the bootstrap circuit, a fast switching PN diode (such

as N448 or N94) and a small (0.µF – 0.47µF) ceramic

capacitor is sufficient for most applications. When

bootstrapping from 2.5V to 3.0V output voltages, use a

low forward drop Schottky diode (BAT-54 or similar) for

reduce the maximum BST voltage by connecting a Zener

diode (D

. When bootstrapping from high input voltages (>20V),

Fig.6

) in series with D

VIN

SC4524A

BST

GND

Fig.5

(a)

>2.5V.

Fig.6

VOUT

Figure 5. Typical Minimum Bootstrap Voltage required

Loop Compensation

The goal of compensation is to shape the frequency

response of the converter so as to achieve high DC

accuracy and fast transient response while maintaining

loop stability.

SS270 REV 6-7

Figure 6. Methods of Bootstrapping the SC4524A

VIN

to Saturate Transistor (I

2.2

2.1

2.0

1.9

1.8

1.7

1.6

-50

Minimum Bootstrap Voltage

-25

SC4524A

BST

= -2.6A

GND

vs Temperature

Temperature (

(a)

(b)

D 2

= -2.6A).

100 125

VOUT

VIN

SC4524ASETRT Semtech, SC4524ASETRT Datasheet - Page 12

SC4524ASETRT

Specifications of SC4524ASETRT

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