TK71523ASCL/23 datasheet, PDF - EEWORLD Datasheet

TK715xxAS

LOW DROPOUT VOLTAGE REGULATOR

FEATURES

n

High Voltage Precision at ± 2.0% or ± 60 mV

Very Low Quiescent Current

Very Low Dropout Voltage

Reverse Voltage Protection

Miniature Package (SOT23-3)

Short Circuit Protection

High Ripple Rejection

Can use Multilayer Ceramic Capacitors

APPLICATIONS

n

Battery Powered Systems

Cellular Telephones

Pagers

Personal Communications Equipment

Portable Instrumentation

Portable Consumer Equipment

Radio Control Systems

Toys

Low Voltage Systems

DESCRIPTION

The TK715xx is a low dropout linear regulator housed in a

small SOT23-3 package, rated at 400 mW. An internal

PNP transistor is used to achieve a low dropout voltage of

105 mV (typ.) at 50 mA load current. This device offers

high precision output voltage of ± 2.0 % or ± 60 mV. The

TK715xx has a very low quiescent current of 25 µA (typ.)

at no load. The low quiescent current and dropout voltage

make this part ideal for battery powered applications. The

internal reverse bias protection eliminates the requirement

for a reverse voltage protection diode, saving cost and

board space. The high 60 dB ripple rejection and low noise

provide enhanced performance for critical applications.

TK715xxAS

VIN

VOUT

30T

20P

GND

ORDERING INFORMATION

TK715

Voltage Code

ASCL

Tape/ Reel Code

Temp. Code

Package Code

BLOCK DIAGRAM

VOLTAGE CODE

15 = 1.5 V

16 = 1.6 V

17 = 1.7 V

18 = 1.8 V

19 = 1.9 V

20 = 2.0 V

21 = 2.1 V

22 = 2.2 V

23 = 2.3 V

24 = 2.4 V

25 = 2.5 V

26 = 2.6 V

27 = 2.7 V

28 = 2.8 V

29 = 2.9 V

30 = 3.0 V

31 = 3.1 V

32 = 3.2 V

33 = 3.3 V

34 = 3.4 V

35 = 3.5 V

36 = 3.6 V

37 = 3.7 V

38 = 3.8 V

39 = 3.9 V

40 = 4.0 V

41 = 4.1 V

42 = 4.2 V

43 = 4.3 V

44 = 4.4 V

45 = 4.5 V

46 = 4.6 V

47 = 4.7 V

48 = 4.8 V

49 = 4.9 V

50 = 5.0 V

60 = 6.0 V

70 = 7.0 V

80 = 8.0 V

90 = 9.0 V

TEMPERATURE CODE

C -30 to +80 °C

TAPE/REEL CODE

L: Tape Left

VIN

VOUT

THERMAL

PROTECTION

PACKAGE CODE

S : SOT-23-3

-

+

-

+

BANDGAP

REFERENCE

GND

March 2001 TOKO, Inc.

Page 1

TK715xxAS

ABSOLUTE MAXIMUM RATINGS (V

OUT

£

5.0 V)

Supply Voltage ............................................. -0.4 to 19 V

Power Dissipation (Note 1) ................................ 400 mW

Reverse Bias ............................................................. 8 V

Short Circuit Current ........................................... 170 mA

Storage Temperature (Ambient) .............. -55 to +150 °C

Operating Temperature (Ambient) ............ -30 to +80 °C

Max. Operating Temperature (Junction) ............. 125 °C

Operating Voltage Range ........................... 1.8 to 18.0 V

Junction Temperature ......................................... 150 °C

Lead Soldering Temperature (10 s) ..................... 235 °C

TK715xx ELECTRICAL CHARACTERISTICS (V

OUT

£

5.0 V)

Test conditions: V

IN

= V

OUT(TYP)

+ 1V, T

A

= 25 °C, unless otherwise specified.

SYMBOL

I

Q

I

GND

V

OUT

Line Reg

Load Reg

PARAMETER

Quiescent Current

Ground Pin Current

Output Voltage

Line Regulation

Load Regulation

TEST CONDITIONS

I

OUT

= 0 mA

I

OUT

= 15 mA

I

OUT

= 5 mA

V

IN

= V

OUT(TYP)

+ 1 V to V

OUT(TYP)

+ 6 V

I

OUT

= 5 to 100 mA, (Note 2)

I

OUT

= 50 mA

MIN

TYP

25

300

See Table 1

3

18

0.105

0.16

MAX

45

500

UNITS

µA

V

12

36

0.18

0.28

0.30

mV

V

mA

V

DROP

Dropout Voltage (Note 5)

I

OUT

= 100 mA, 2.4 V

£

V

OUT

£

5.0 V

I

OUT

= 100 mA, 2.1 V

£

V

OUT

£

2.4 V

115

155

90

60

30

dB

ppm/°C

I

OUT(MAX)

RR

Continuous Output Current

Ripple Rejection

1.8

V

£

V

in

£

2.1 V (Note 3)

(Note 4)

I

OUT

= 5 mA

70

∆V

OUT

/

∆T

Temperature Coefficient

Note 1: Power dissipation is 400 mW when mounted as recommended. Derate at 3.2 mW/°C for operation above 25 °C.

Note 2: Refer to “Definition of Terms.”

Note 3: Please refer to the Applications Section for more information.

Note 4: Ripple rejection is measured at V

R

= 200 mVrms, V

IN

= V

OUT(TYP)

+ 2 V, I

OUT

= 10 mA, C

L

= 2.2 µF, f = 100 Hz.

Note 5: The minimum operating voltage for V

IN

can be 1.8 V. Also, the minimum voltage required for V

IN

is V

IN

= V

DROP

+ V

OUT

. As a result, operating at

V

OUT

£

2.0 V at the minimum input operating voltage is not preferred.

Gen. Note: Parameters with min. or max. values are 100% tested at T

A

= 25 °C.

Page 2

March 2001 TOKO, Inc.

TK715xxAS

ABSOLUTE MAXIMUM RATINGS (V

OUT

³

5.1 V)

Supply Voltage ............................................. -0.4 to 19 V

Power Dissipation (Note 1) ................................ 400 mW

Reverse Bias ............................................................. 8 V

Short Circuit Current ........................................... 170 mA

Storage Temperature (Ambient) .............. -55 to +150 °C

Operating Temperature (Ambient) ............ -30 to +80 °C

Max. Operating Temperature (Junction) ............. 125 °C

Operating Voltage Range .............................. 1.8 to 18 V

Junction Temperature ......................................... 150 °C

Lead Soldering Temperature (10 s) ..................... 235 °C

TK715xx ELECTRICAL CHARACTERISTICS (V

OUT

³

5.1 V)

Test conditions: V

IN

= V

OUT(TYP)

+ 1V, T

A

= 25 °C, unless otherwise specified.

SYMBOL

I

Q

I

GND

V

OUT

Line Reg

Load Reg

V

DROP

I

OUT(MAX)

RR

∆V

OUT

/

∆T

PARAMETER

Quiescent Current

Ground Pin Current

Output Voltage

Line Regulation

Load Regulation

Dropout Voltage

Continuous Output Current

Ripple Rejection

Temperature Coefficient

TEST CONDITIONS

I

OUT

= 0 mA

I

OUT

= 15 mA

I

OUT

= 5 mA

V

IN

= V

OUT(TYP)

+ 1 V to

V

OUT(TYP)

+ 6 V or Max 18 V

I

OUT

= 5 to 100 mA, (Note 2)

I

OUT

= 50 mA

I

OUT

= 100 mA

MIN

TYP

32

300

See Table 1

3

35

0.105

0.160

MAX

60

500

UNITS

µA

V

12

80

0.18

0.28

mV

V

mA

dB

ppm/°C

115

(Note 3)

I

OUT

= 5 mA

155

60

30

Note 1: Power dissipation is 400 mW when mounted as recommended. Derate at 3.2 mW/°C for operation above 25 °C.

Note 2: Refer to “Definition of Terms.”

Note 3: Ripple rejection is measured at V

R

= 200 mVrms, V

IN

= V

OUT(TYP)

+ 2 V, I

OUT

= 10 mA, C

L

= 2.2 µF, f = 100 Hz.

Gen. Note: Parameters with min. or max. values are 100% tested at T

A

= 25 °C.

March 2001 TOKO, Inc.

Page 3

TK715xxAS

TK715xxAS ELECTRICAL CHARACTERISTICS TABLE 1

Output

Voltage

1.5 V

1.6 V

1.7 V

1.8 V

1.9 V

2.0 V

2.1 V

2.2 V

2.3 V

2.4 V

2.5 V

2.6 V

2.7 V

2.8 V

2.9 V

3.0 V

3.1 V

3.2 V

3.3 V

3.4 V

Voltage

Code

15

16

17

18

19

20

21

22

23

24

25

26

27

28

29

30

31

32

33

34

V

OUT(MIN)

1.440

1.540

1.640

1.740

1.840

1.940

2.040

2.140

2.240

2.340

2.440

2.540

2.640

2.740

2.840

2.940

3.040

3.140

3.240

3.340

V

OUT(MAX)

1.560

1.660

1.760

1.860

1.960

2.060

2.160

2.260

2.360

2.460

2.560

2.660

2.760

2.860

2.960

3.060

3.160

3.260

3.360

3.460

V

Test

Voltage

2.5 V

2.6 V

2.7 V

2.8 V

2.9 V

3.0 V

3.1 V

3.2 V

3.3 V

3.4 V

3.5 V

3.6 V

3.7 V

3.8 V

3.9 V

4.0 V

4.1 V

4.2 V

4.3 V

4.4 V

Output

Voltage

3.5 V

3.6 V

3.7 V

3.8 V

3.9 V

4.0 V

4.1 V

4.2 V

4.3 V

4.4 V

4.5 V

4.6 V

4.7 V

4.8 V

4.9 V

5.0 V

6.0 V

7.0 V

8.0 V

9.0 V

Voltage

Code

35

36

37

38

39

40

41

42

43

44

45

46

47

48

49

50

60

70

80

90

V

OUT(MIN)

3.440

3.530

3.630

3.730

3.830

3.930

4.030

4.130

4.230

4.330

4.430

4.530

4.630

4.730

4.830

4.930

5.880

6.860

7.840

8.820

V

OUT(MAX)

3.560

3.670

3.770

3.870

3.970

4.070

4.170

4.270

4.370

4.470

4.570

4.670

4.770

4.870

4.970

5.070

6.120

7.140

8.160

9.180

V

Test

Voltage

4.5 V

4.6 V

4.7 V

4.8 V

4.9 V

5.0 V

5.1 V

5.2 V

5.3 V

5.4 V

5.5 V

5.6 V

5.7 V

5.8 V

5.9 V

6.0 V

7.0 V

8.0 V

9.0 V

10.0 V

Page 4

March 2001 TOKO, Inc.

TK715xxAS

TEST CIRCUIT

IIN

VIN

CIN

0.1 µF

CL

1.0 µF

TANTALUM

IOUT

VOUT

VIN

VOUT

GND

TYPICAL PERFORMANCE CHARACTERISTICS

T

A

= 25 °C, unless otherwise specified.

LOAD REGULATION

SHORT CIRCUIT CURRENT

5

VOUT (10 mV/ DIV)

OUTPUT VOLTAGE vs.

INPUT VOLTAGE

VOUT TYPICAL

4

VOUT (25 mV/ DIV)

IOUT = 0 mA

IOUT = 50 mA

VOUT (V)

3

2

1

IOUT = 100 mA

50 mV/DIV

VIN = VOUT

0

50

IOUT (mA)

100

0

100

IOUT (mA)

200

0

VIN (V)

LINE REGULATION

VOUT TYPICAL

REVERSE BIAS CURRENT RANGE

100

80

Because the output voltage is

different, the reverse current

will change this area.

(VIN = 0 V)

INPUT CURRENT

VS.

INPUT VOLTAGE

2

I OUT = 0 mA

VOUT (50 mV/ DIV)

IREV (µA)

60

40

20

0

VOUT = 8.0 V

I Q (mA)

VOUT = 2.0 V

1

VOUT = 3 V

0

5

VIN (V)

10

0

10

VIN (V)

20

0

5

VREV (V)

10

March 2001 TOKO, Inc.

Page 5

TK71523ASCL/23

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