XC9236A33DMR Torex Semiconductor Ltd, XC9236A33DMR Datasheet - Page 18

XC9236A33DMR

Manufacturer Part Number

XC9236A33DMR

Description

IC, DCDC SYNCH BUCK 3MHZ 3.3V SOT25

Manufacturer

Torex Semiconductor Ltd

Datasheet

1.XC9236A18DMR.pdf (33 pages)

Specifications of XC9236A33DMR

Primary Input Voltage

No. Of Outputs

Output Voltage

3.3V

Output Current

600mA

Voltage Regulator Case Style

SOT-25

No. Of Pins

Operating Temperature Range

-40Â°C To +85Â°C

Svhc

No SVHC

Lead Free Status / RoHS Status

Lead free / RoHS Compliant

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Price

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Part Number:

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Manufacturer:

TOREX

Quantity:

20 000

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■NOTE ON USE

1. The XC9235/XC9236/XC9237 series is designed for use with ceramic output capacitors. If, however, the potential

2. Spike noise and ripple voltage arise in a switching regulator as with a DC/DC converter. These are greatly influenced by

3. Depending on the input-output voltage differential, or load current, some pulses may be skipped, and the ripple voltage may

4. When the difference between V

5. When the difference between V

6. With the IC, the peak current of the coil is controlled by the current limit circuit. Since the peak current increases when

7. When the peak current which exceeds limit current flows within the specified time, the built-in Pch MOS driver transistor

8. When V

9. Care must be taken when laying out the PC Board, in order to prevent misoperation of the current limit mode. Depending

10. Use of the IC at voltages below the recommended voltage range may lead to instability.

11. This IC should be used within the stated absolute maximum ratings in order to prevent damage to the device.

12. When the IC is used in high temperature, output voltage may increase up to input voltage level at no load because of the

13. The current limit is set to 1350mA (MAX.) at typical. However, the current of 1350mA or more may flow. In case that the

difference is too large between the input voltage and the output voltage, a ceramic capacitor may fail to absorb the resulting

high switching energy and oscillation could occur on the output. If the input-output potential difference is large, connect an

electrolytic capacitor in parallel to compensate for insufficient capacitance.

external component selection, such as the coil inductance, capacitance values, and board layout of external components.

Once the design has been completed, verification with actual components should be done.

increase.

possibility that some cycles may be skipped completely.

there is the possibility that some cycles may be skipped completely.

dropout voltage or load current is high, current limit starts operation, and this can lead to instability. When peak current

becomes high, please adjust the coil inductance value and fully check the circuit operation. In addition, please calculate

the peak current according to the following formula:

turns off. During the time until it detects limit current and before the built-in transistor can be turned off, the current for limit

current flows; therefore, care must be taken when selecting the rating for the external components such as a coil.

on the state of the PC Board, latch time may become longer and latch operation may not work. In order to avoid the effect of

noise, the board should be laid out so that input capacitors are placed as close to the IC as possible.

①Current flows into Pch MOS driver transistor to reach the current limit (I

②The current of I

③Because of no potential difference at both ends of the coil, the time rate of coil current becomes quite small.

④Lx oscillates very narrow pulses by the current limit for several ms.

⑤The circuit is latched, stopping its operation.

XC9235/XC9236/XC9237

Ipk = (V

L: Coil Inductance Value

leak current of the driver transistor.

OSC

current limit functions while the V

difference for input voltage will occur at both ends of a coil. For this, the time rate of coil current becomes large. By

contrast, when Nch MOS driver transistor is ON, there is almost no potential difference at both ends of the coil since the

repetition of this operation, and the delay time of the circuit, coil current will be converged on a certain current value,

exceeding the amount of current, which is supposed to be limited originally. Even in this case, however, after the over

current state continues for several ms, the circuit will be latched. A coil should be used within the stated absolute

maximum rating in order to prevent damage to the device.

OFF of Pch MOS driver transistor.

OUT

: Oscillation Frequency

pin is shorted to the GND pin. Consequently, the time rate of coil current becomes quite small. According to the

is less than 2.4V, limit current may not be reached because voltage falls caused by ON resistance.

- V

OUT

LIM

) x OnDuty / (2 x L x f

or more flows since the delay time of the circuit occurs during from the detection of the current limit to

ILIM

ILX

①

and V

OUT

Delay

OSC

②

pin is shorted to the GND pin, when Pch MOS driver transistor is ON, the potential

OUT

) + I

③

is small, and the load current is heavy, very wide pulses will be outputted and

is large in PWM control, very narrow pulses will be outputted, and there is the

OUT

Limit >

Series

④

# mS

LIM

⑤

XC9236A33DMR Torex Semiconductor Ltd, XC9236A33DMR Datasheet - Page 18

XC9236A33DMR

Specifications of XC9236A33DMR

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