S-812C25AMC-C2F-T2 Seiko Instruments, S-812C25AMC-C2F-T2 Datasheet - Page 9

S-812C25AMC-C2F-T2

Manufacturer Part Number

S-812C25AMC-C2F-T2

Description

Low Dropout (LDO) Regulators 2.5V 0.9uA 2.0%

Manufacturer

Seiko Instruments

Datasheet

1.S-812C25AMC-C2F-T2.pdf (26 pages)

Specifications of S-812C25AMC-C2F-T2

Number Of Outputs

Polarity

Positive

Input Voltage Max

18 V

Output Voltage

2.5 V

Output Voltage Tolerance

+/- 2 %

Output Type

Fixed

Dropout Voltage (max)

0.95 V

Output Current

75 mA

Line Regulation

20 mV

Load Regulation

30 mV

Voltage Regulation Accuracy

2 %

Maximum Power Dissipation

600 mW

Maximum Operating Temperature

+ 85 C

Mounting Style

SMD/SMT

Package / Case

SOT-23-5

Minimum Operating Temperature

- 40 C

Lead Free Status / Rohs Status

Lead free / RoHS Compliant

Available stocks

Company

Part Number

Manufacturer

Quantity

Price

Company:

Bonase Electronics (HK) Co., Limited

Part Number:

S-812C25AMC-C2F-T2

Manufacturer:

HOLT

Quantity:

101

Current page: 9 of 26
Download datasheet (338Kb)

Rev.1.0

TApplication Circuits

1. Output Current Boost Circuit

2. Constant Current Circuit

As shown in Figure 11, the output current

can be boosted by externally attaching a

PNP transistor.

base current of the PNP transistor so that the

output voltage V

specified in the S-812C if the sufficient base-

emitter voltage V

transistor is obtained between input voltage

The S-812C series can be served in a

constant current circuit as shown in the

figure 12. Constant current I

from the following equation:

the effective output voltage.

Please note that in case of the circuit

shown in the figure 12 (1) the magnitude of

the constant current I

driving ability of the S-812C.

The circuit shown in the figure 12 (2) can,

however, provide the current beyond the

driving ability of the S-812C by combining a

constant current circuit with a current boost

circuit. The maximum input voltage for the

constant current circuit is the sum of the

voltage V

recommended

between the S-812C power source VIN

and VSS pins or between output VOUT

and VSS pins because rush current flows

at power-on.

3. Output Voltage Adjustment Circuit

The output voltage can be increased using the configuration shown in the figure 13. The output Voltage V

can be calculated using the following equation;

Value of R1 and R2 should be determined so as not to be affected by the current consumption I

where V

= (V

of the circuit shown in figure 11 is not enough in some applications, evaluation for output variation due to

power-on, power line variation and load variation in actual condition is needed before massproduction.

protection for the boost circuit.

As the transient response characteristics

Note that the short-circuit protection incorporated in the S-812C series does not work as a short-circuit

and S-812C power source pin VIN.

OUT

1 = V

(E)

of the device and 16 V. It is not

(E) is the effective output voltage

OUT

RL) +I

(E) x (R1 + R2)

OUT

The S-812C controls the

attach

SS,

becomes the voltage

to turn on the PNP

is limited by the

where V

is calculated

HIGH OPERATING VOLTAGE CMOS VOLTAGE REGULATOR

capacitor

OUT

R1 + R2 x I

(E) is

Seiko Instruments Inc.

(1) Constant Current Circuit

(2) Constant Current Boost Circuit

GND

Figure 11 Output Current Boost Circuit

VIN

Figure 12 Constant Current Circuits

Tr1

VSS

ON/OFF

S-812C

Series

VIN

S-812C

VSS

Series

S-812C

Series

ON/OFF

VOUT

VSS

ON/OFF

VOUT

S-812C Series

OUT

Device

OUT

S-812C25AMC-C2F-T2 Seiko Instruments, S-812C25AMC-C2F-T2 Datasheet - Page 9

S-812C25AMC-C2F-T2

Specifications of S-812C25AMC-C2F-T2

Available stocks

Related parts for S-812C25AMC-C2F-T2