S-8521F25MC-BPKT2G Seiko Instruments, S-8521F25MC-BPKT2G Datasheet - Page 19

S-8521F25MC-BPKT2G

Manufacturer Part Number

S-8521F25MC-BPKT2G

Description

IC REG PWM/PFM 300KHZ SOT23-5

Manufacturer

Seiko Instruments

Type

Step-Down (Buck)r

Datasheet

1.S-8520A21MC-AVGT2G.pdf (44 pages)

Specifications of S-8521F25MC-BPKT2G

Internal Switch(s)

Synchronous Rectifier

Number Of Outputs

Voltage - Output

2.5V

Current - Output

120mA

Frequency - Switching

300kHz

Voltage - Input

2.5 ~ 16 V

Operating Temperature

-40°C ~ 85°C

Mounting Type

Surface Mount

Package / Case

SOT-23-5, SC-74A, SOT-25

Power - Output

250mW

Output Voltage

2.5 V

Input Voltage

2.5 V to 16 V

Maximum Operating Temperature

+ 85 C

Mounting Style

SMD/SMT

Minimum Operating Temperature

- 40 C

Lead Free Status / RoHS Status

Lead free / RoHS Compliant

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STEP-DOWN, PWM CONTROL or PWM / PFM SWITCHABLE SWITCHING REGULATOR CONTROLLER

Rev.9.0

S-8520/8521 Series

_00

5. External transistor

Enhancement (Pch) MOS FET or bipolar (PNP) MOS FET can be used for external transistor.

5. 1 Enhancement (Pch) MOS FET type

The EXT pin of the S-8520/8521 Series is capable of directly driving a Pch MOS FET with a gate capacity

around 1000 pF.

When using a Pch MOS FET, 2 to 3% higher efficiency is provided because its switching speed is faster and it

does not cause power dissipation, compared to PNP bipolar transistors.

The important parameters in selecting MOS FETs are the threshold voltage, the breakdown voltage between

gate and source, the breakdown voltage between drain and source, the total gate capacity, the on-resistance,

and the current ratings.

The EXT pin swings from voltages between V

to V

. If the input voltage is low, use a MOS FET with the low

threshold voltage. If the input voltage is high, use a MOS FET having the breakdown voltage between gate and

source higher several volts than the input voltage.

Immediately after the power-on or power-off (stopping the step-down operation), the input voltage will be applied

between drain and source of the MOS FET. Use the breakdown voltage between drain and source also higher

several volts than the input voltage.

The total gate capacity and the on-resistance affect efficiency.

Power dissipation when charging and discharging the gate capacity by switching operation affects efficiency, in

the area of low load current, as the total gate capacity is larger and the input voltage is higher. Select a MOS

FET with a small total gate capacity for efficiency at light load.

In the area of large load current, efficiency is affected by power dissipation caused by MOS FET’s on-resistance.

For efficiency at large load, select a MOS FET having as low on-resistance as possible.

As for the current rating, select a MOS FET having the maximum continuous drain current rating higher than I

For reference, this document has the data of efficiency. TM6201 by Toyota Industries Corporation for

applications with an input voltage of 10 V or less, IRF7606 by International Rectifier Corporation Japan for

applications with an input voltage over 10 V (Refer to “ Reference Data”).

Seiko Instruments Inc.

S-8521F25MC-BPKT2G Seiko Instruments, S-8521F25MC-BPKT2G Datasheet - Page 19

S-8521F25MC-BPKT2G

Specifications of S-8521F25MC-BPKT2G

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