XC9510A1333 TOREX [Torex Semiconductor], XC9510A1333 Datasheet - Page 8

XC9510A1333

Manufacturer Part Number

XC9510A1333

Description

Synchronous Step-Down DC/DC Converter With Built-In LDO Regulator Plus Voltage Detector

Manufacturer

TOREX [Torex Semiconductor]

Datasheet

1.XC9510A1333.pdf (36 pages)

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■TYPICAL APPLICATION CIRCUIT

■OPERATIONAL EXPLANATION

The XC9510 series consists of a synchronous step-down DC/DC converter, a high speed LDO voltage regulator, and a

voltage detector. Since the LDO voltage regulator is stepped-down from the DC/DC’s output,high efficiency and low noise is

possible even at lower output voltages.

●DC/DC Converter

XC9510

The series consists of a reference voltage source, ramp wave circuit, error amplifier, PWM comparator, phase

compensation circuit, output voltage adjustment resistors, driver transistor, synchronous switch, current limiter circuit,

U.V.L.O. circuit and others. The series ICs compare, using the error amplifier, the voltage of the internal voltage

reference source with the feedback voltage from the V

performed on the resulting error amplifier output, to input a signal to the PWM comparator to determine the turn-on time

during PWM operation. The PWM comparator compares, in terms of voltage level, the signal from the error amplifier

with the ramp wave from the ramp wave circuit, and delivers the resulting output to the buffer driver circuit to cause the

Lx pin to output a switching duty cycle. This process is continuously performed to ensure stable output voltage. The

current feedback circuit monitors the P-channel MOS driver transistor current for each switching operation, and

modulates the error amplifier output signal to provide multiple feedback signals. This enables a stable feedback loop

even when a low ESR capacitor, such as a ceramic capacitor, is used, ensuring stable output voltage.

The reference voltage source provides the reference voltage to ensure stable output voltage of the DC/DC converter.

The ramp wave circuit determines switching frequency. The frequency is fixed internally and can be selected from

300kHz, 600 kHz and 1.2 MHz. Clock pulses generated in this circuit are used to produce ramp waveforms needed for

PWM operation, and to synchronize all the internal circuits.

The error amplifier is designed to monitor output voltage. The amplifier compares the reference voltage with the

feedback voltage divided by the internal split resistors. When a voltage lower than the reference voltage is fed back, the

output voltage of the error amplifier increases. The gain and frequency characteristics of the error amplifier output are

fixed internally to deliver an optimized signal to the mixer.

4.7μF(ceramic, TAIYO YUDEN)

*1 The DC/DC converter of the XC9510 series automatically switches between synchronous / non-synchronous. The Schottky

*2 Please be noted that the recommend value above of the CL2 may be changed depending on the input voltage value and setting

diode is not normally needed. However, in cases where high efficiency is required when using the DC/DC converter during in the

light load while in non-synchronous operation, please connect a Schottky diode externally.

voltage value.

CIN

Series

SOP-8 (TOP VIEW)

10μF(ceramic, TAIYO YUDEN)

CL1

OUT

pin through split resistors.

OUT

OUT<

>300mA

300mA

1.2MHz

600kHz

300kHz

FOSC

4.7μF (ceramic, TAIYO YUDEN)

10μF (ceramic, TAIYO YUDEN)

4.7μH (CDRH4D28C, SUMIDA)

CL2 *

10μH (CDRH5D28, SUMIDA)

22μH (CDRH6D28, SUMIDA)

Phase compensation is

XC9510A1333 TOREX [Torex Semiconductor], XC9510A1333 Datasheet - Page 8

XC9510A1333

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