78033 (toshiba)

PRODUCT GUIDE

2006-9

Power Supply ICs

http: / /www.semicon.toshiba.co.jp/engs e m i c o n d u c t o r

32

1. Power Supply ICs Product Portfolio Overview

2. Power Supply IC Part Number Decoding

3. Features of the Toshiba Power Supply ICs

4. Overviews by the Product Series

4-1 TA48 Series (LDO Regulators)

4-2 TA48S Series (LDO Regulators with ON/Off Control)

4-3 TA58L/M and TA78DS Series (LDO Regulators)

4-4 TA58MS Series (LDO Regulators with ON/Off Control)

4-5 TA58ST/LT Series (LDOs with Voltage Tracking)

4-6 TA78/79 Series (General-Purpose Regulators)

4-7 TA76 Series (High-Accuracy Shunt Regulators)

4-8 TB71 Series (Monolithic DC/DC Converter ICs)

4-9 TB70 Series (Multichip Modules)

5. Series Regulators

5-1 Usage Considerations

5-2 Application Circuit Examples (Positive Output)

6. Shunt Regulators

6-1 Application Circuit Examples

7. Thermal Design for Three-Terminal Regulators

8. Package Markings (Typical Examples)

9. Tape and Reel Specifications

TO-92 Type

LSTM Type

TPL Type

UFV

S-Mini

SMV

PS-8

PW-Mini

PW-Mold

New PW-Mold

New PW-Mold5pin

10. Package Dimensions

11. List of Obsolete Devices

3

4

5

6

6

7

8

9

9

10-11

12

13

14

15

15

16-17

18

18

19

20

21

21

21

21

22

22

22

22

23

23

23

23

24-25

27

37 V

20 V

15 V

20 mA 50 mA 150 mA

TA76433FC± 1.4%

TA76431S± 2.2%

TA48SxxAF/BF(*)1.5/1.8/2.5/3.3/5/9

TA78DSxxBP/CP5/6/8/9/10/12/15

TA58LxxS5/6/8/9/10/12/15

TA78LxxS5/7/8/9/10/12/15

TA79LxxP-5/-6/-8/-9/-10/

-12/-15-/-18/-20/-24TA78MxxSB5/6/8/9/10/12/15/18/20/24

TA78xxSB5/5.7/6/7/8/9/10/12/15/18/20/24

TA79xxSB-5/-6/-7/-8/-9/-10/

-12/-15/-18/-20/-24

TA48MxxF2.5/3/3.3/3.45/4/5

TA58MxxS5/6/8/9/10/12/15

TA78LxxAP5/6/7/7.5/8/9/10/12/13.2/15/18/20/24

35 V~40 V

VIN

VIN

VkA

IOUT

29 V

30 mA 100 mA 150 mA 250 mA 500 mA 1000 mA

35 V~40 V

IOUT

20 V

29 V

16 V

30 mA 50 mA 100 mA 150 mA 250 mA 300 mA 500 mA 1000 mA

TA79LxxF-5/-6/-8/-9/-10/-12/

-15/-18/-20/-24TA78LxxF

5/6/7/8/9/10/12/15/18/20/24

TA78MxxF5/6/8/9/10/12/15/18/20/24

TA78xxF5/5.7/6/7/8/9/10/12/15/18/20/24

TA78xxAF3.3/4/5/7/8/9

TA78DSxxF5/6/8/9/10/12/15

TA58MxxF5/6/8/9/10/12/15

TA58MSxxF5/6/8/9/12

TA48MxxF2.5/3/3.3/3.45/4/5

TA58LxxF5/6/8/9/10/12/15

TA48LxxF1.8/2/2.5/3/3.3/5

TA48xxF1.5/1.8/2/2.5/3/3.3/5

TA48xxBF1.5/1.8/2.5/3.3/5/9

TA58ST00F(*)Tracking Regulators

TA58LT00FTracking Regulators

TA48LSxxF(*)1.5/1.8/2.5/3.3/5

General-Purpose

Upper line: Part numberLower line: Output voltages

LDOs

General-Purpose


LDOs

LDOs withOn/Off Control

Tracking Regulators

TA76431F/FR± 2.2%

TA76432AS/AF/AFR/AFT± 1%

TA76432S/F/FR/FC/FT± 1.4%

VREF = 2.49 V/2.495 V


VREF = 1.26 V

Low-Voltage Operation

Leaded Packages

Surface-Mount Packages

Shunt Regulators

* : Under development

TA76L431F/FB/FT± 1%

Power Supply ICs Product Portfolio Overview1

Ik

4

Series Regulators

PackagingF: Surface-mountS: LeadedOutput Voltages

Examples: 033: 3.3 V05: 5 V00: Adjustable

FeaturesBlank: 3-terminal power supply IC

S: On/off controlT: Voltage tracking

Current RatingsL: Up to 250 mAM: 250 to 500 mA

Blank: 500 mA to 1 ACategories

78: General-purpose regulators for positive voltages79: General-purpose regulators for negative voltages48: LDOs (for commercial applications)58: LDOs (for automotive applications)Toshiba Analog ICs

TA 48 S xxx F

Shunt Regulators

Reference Voltage (Typical)431: 2.49 V or 2.495 V432: 1.26 V433: 1.26 V (Low-voltage type)

Voltage RatingsL: 20 V (TA76L431xx)

Blank: TA76431xx = 37 VTA76432xx = 20 VTA76433FC = 20 VCategories

76: Shunt regulatorsToshiba Analog ICs

TA 76 L 431 F

DC/DC Converter ICs

Taping Specification and Management Code

PackagingF/FL: Surface-mount

Serial number

Categories70: Multichip modules (MCMs)71: Monolithic

* Some products do not follow these naming conventions.

Toshiba BiCD ICs

TB 71 01 F (T5L1.2,F)

PackagingF: Surface-MountS: Leaded

Power Supply IC Part Number Decoding2

5

3-1 Large ESR Margins

3-2 Low Bias Current

3-3 Low Dropout Voltage

TA4805F10

1

0.1

0.010 100 200 300 400 500

IOUT (mA)

VIN = 6 VCIN = 0.33 µFCout = 2.2 µF

Ta = 25˚C

ES

R (

Ω)

600 700 800 900 1000

UnstableESR Region

StableESR Region

TA4805BF(New Product)

Significant increasein the stable ESR region,

three times largerthan the TA4805F

10

1

0.1

0.010 100 200 300 400 500

IOUT (mA)

VIN = 6 VCIN = 0.33 µFCout = 2.2 µF

Ta = 25˚C

ES

R (

Ω)

600 700 800 900 1000

UnstableESR Region

StableESR Region

TA4805F/BFIN OUT

GND LoadESRVIN = 0 V: 6 V

CIN

0.33 µFCout

2.2 µF

Test Circuit

* The stable ESR region is greatly affected by the voltage, current, temperature and capacitor type. Perform experiments to assure stability.

50

40

30

20

10

00 0.1 0.2 0.3 0.4 0.5 0.6 0.7 0.8 0.9 1

IOUT (A)

I B (m

A)

VIN = 5 VTj = 25˚C

Power dissipation (PD) of a power supply ICPD = VIN x IB + (VIN – VOUT) x IOUT

VIN: Input voltage (V)VOUT: Output voltage (V)IB: Bias current (A)IOUT: Output current (A)

Power dissipation (PD) of a power supply ICPD = VIN x IB + (VIN – VOUT) x IOUT VIN: Input voltage (V)VOUT: Output voltage (V) IB: Bias current (A)IOUT: Output current (A)

A device’s power dissipation can be reduced due to lower bias current (IB).

When IOUT = 500 mA, there will be a difference of approx. 23 °C in junction temperature

(Tj) between Toshiba’s and Company A’s devices. Note: Based on Toshiba’s own standards

A device’s power dissipation can be reduced due to lower dropout voltage.

Toshiba

Company A

Company B

Company C

Company A

Toshiba

Company B

Company A

Toshiba

Company B

1

0.9

0.8

0.7

0.6

0.5

0.4

0.3

0.2

0.1

00 0.1 0.2 0.3 0.4 0.5 0.6 0.7 0.8 0.9 1

IOUT (A)

VD

(V)

IOUT = 500 mATj = 25˚C

1

0.9

0.8

0.7

0.6

0.5

0.4

0.3

0.2

0.1

0-50 0 50 100 150

Tj (˚C)

VD (

V)

IOUT = 500 mA

*VD = VIN – VOUT

Intended only as a guide

Features of the Toshiba Power Supply ICs3

6

TA48015BF

TA48018BF

TA48025BF

TA48033BF

TA4805BF

TA4809BF

TA48015F

TA48018F

TA48025F

TA4803F

TA48033F

TA4805F

TA4800AF

TA4800BF(*)

TA48M025F

TA48M03F

TA48M033F

TA48M345F

TA48M04F

TA48M05F

TA48L00F(*)

TA48L018F

TA48L02F

TA48L025F

TA48L03F

TA48L033F

TA48L05F

1000

1000

1000

500

300

150

0.85 (typ.)

0.8 (typ.)

0.85 (typ.)

0.8 (typ.)

0.8 (typ.)

0.8 (typ.)

± 3

@Tj = 25°C

± 3

@Tj = 25°C

± 2.5 (Vref)

@Tj = 25°C

± 4

± 2

± 3

1@Ta = 25°C

10@Tc = 25°C

1@Ta = 25°C

10@Tc = 25°C

1@Ta = 25°C

10@Tc = 25°C

1@Ta = 25°C

10@Tc = 25°C

0.5

@Ta = 25°C

New PW-Mold

PW-Mold

New PW-Mold

New PW-Mold5pin

PW-Mold

PS-8

PW-Mini

1.1 (max)

@IOUT = 500 mA

0.5 (max)

@IOUT = 500 mA

0.5 (max)

@IOUT = 500 mA

0.5 (max)

@IOUT = 500 mA

0.35 (max)

@IOUT = 250 mA

TBD

0.35 (max)

@IOUT = 40 mA

1.5

1.8

2.5

3.3

5

9

1.5

1.8

2.5

3

3.3

5

1.5 to 9

(Adjustable)

2.5

3

3.3

3.45

4

5

1.8

2

2.5

3

3.3

5

16

16

16

29

14

16

Part Number

OutputCurrent(mA)

OutputVoltage

(V)

InputVoltage

(V)

Dropout Voltage(V)

Bias Current(mA)

Output VoltageAccuracy(%)

Power Dissipation(W) Overcurrent

(Drooping)Overcurrent(Foldback)

Protection

ThermalShutdown

Overvoltage ReverseVoltage

Packaging

1.5 to 9(Adjustable)

0.62@Ta = 25°C

(*) Under development

4-1 TA48 Series (LDO Regulators)

Features The TA48xxBF Series allows use of a 2.2-µF ceramic capacitor as an output capacitor.*Note 1

High-accuracy output voltage: ± 3% (@Tj = 25°C)

Low bias current: 850 µA (typical)

Wide range of output voltages available: 1.5 V to 9 V

The TA4800AF/BF*Note 2 allows the output voltage to be adjusted with external resistors.

Protection features: overcurrent, thermal shutdown, overvoltage*Note 3 and reverse voltage.

*Note 1: Capacitance of an output capacitor needs to be optimized for each system.

*Note 2: The TA4800BF is under development.

*Note 3: Applied only for the TA48MxxF Series

Applications PC peripherals

Office equipment

Digital home appliances

Audio equipment

Selection Guide

Overviews by the Product Series4

7

Part Number

OutputCurrent(mA)

OutputVoltage

(V)

InputVoltage

(V)

Dropout Voltage(V)

Bias Current(mA)




Protection

ThermalShutdown


Packaging

TA48S015AF

TA48S018AF

TA48S033AF

TA48S05AF

TA48S09AF

TA48S015BF(*)

TA48S018BF(*)

TA48S033BF(*)

TA48S05BF(*)

TA48S09BF(*)

TA48S00AF

TA48S00BF(*)

TA48LS015F(*)

TA48LS018F(*)

TA48LS025F(*)

TA48LS033F(*)

TA48LS05F(*)

TA48LS00F(*)

1000

1000

1000

300

300

0.85 (typ.)

0.85 (typ.)

0.8 (typ.)

0.8 (typ.)

0.8 (typ.)

1@Ta = 25°C

10@Tc = 25°C

1@Ta = 25°C

10@Tc = 25°C

1@Ta = 25°C

10@Tc = 25°C

New PW-Mold5pin

New PW-Mold5pin

New PW-Mold5pin

PS-8

PS-8

1.1 (max)

@IOUT = 500 mA

0.5 (max)

@IOUT = 500 mA

1.1 (max)

@IOUT = 500 mA

0.5 (max)

@IOUT = 500 mA

0.5 (max)

@IOUT = 500 mA

TBD

TBD

1.5

1.8

3.3

5

9

1.5

1.8

3.3

5

9

1.5

1.8

2.5

3.3

5

16

16

16

14

14



0.62

@Ta = 25°C

0.62@Ta = 25°C

± 3

@Tj = 25°C

± 3

@Tj = 25°C

± 2.5(Vref)

@Tj = 25°C

± 2

@Tj = 25°C

± 2(Vref)@Tj = 25°C


4-2 TA48S Series (LDO Regulators with On/Off Control)

Features The on/off control switch helps to save a system’s power dissipation.

The TA48SxxAF/BF*Note 5 Series allows use of a 3.3-µF ceramic capacitor as an output capacitor.*Note 4

High-accuracy output voltage: ± 3% (@Tj = 25°C)

Low bias current: 850 µA (typical)

Available with output voltages from 1.5 V to 9 V

The TA48S00AF/BF*Note 5 allows the output voltage to be adjusted with external resistors.

Protection features: overcurrent and thermal shutdown

*Note 4: Capacitance of an output capacitor needs to be optimized for each system

*Note 5: The TA48S00BF/TA48SxxBF are under development.


Office equipment


Audio equipment

Selection Guide

8

Part Number

OutputCurrent(mA)

OutputVoltage

(V)

InputVoltage

(V)

Dropout Voltage(V)

Bias Current(mA)




Protection

ThermalShutdown


Packaging

TA58M05FTA58M06FTA58M08FTA58M09FTA58M10FTA58M12FTA58M15FTA58M05STA58M06STA58M08STA58M09STA58M10STA58M12STA58M15STA58L05FTA58L06FTA58L08FTA58L09FTA58L10FTA58L12FTA58L15FTA58L05STA58L06STA58L08STA58L09STA58L10STA58L12STA58L15STA78DS05AF/FTA78DS06FTA78DS08FTA78DS09FTA78DS10FTA78DS12FTA78DS15FTA78DS05BP/CPTA78DS06BPTA78DS08BPTA78DS09BPTA78DS10BPTA78DS12BPTA78DS15BP

500

500

250

250

30

30

5

6

8

9

10

12

15

5

6

8

9

10

12

15

5

6

8

9

10

12

15

5

6

8

9

10

12

15

5

6

8

9

10

12

15

5

6

8

9

10

12

15

29 (DC)

60 (pulse)

29 (DC)

60 (pulse)

29 (DC)

60 (pulse)

29 (DC)

60 (pulse)

29 (DC)

60 (pulse)

29 (DC)

60 (pulse)

0.35 (max)

@IOUT = 250 mA

0.35 (max)

@IOUT = 250 mA

0.5 (max)

@IOUT = 200 mA

0.5 (max)

@IOUT = 200 mA

0.3 (max)

@IOUT = 10 mA

0.3 (max)

@IOUT = 10 mA

0.5 (typ.)

0.5 (typ.)

0.5 (typ.)

0.6 (typ.)

0.6 (typ.)

0.7 (typ.)

0.7 (typ.)

0.5 (typ.)

0.5 (typ.)

0.5 (typ.)

0.6 (typ.)

0.6 (typ.)

0.7 (typ.)

0.7 (typ.)

0.45 (typ.)

0.5 (typ.)

0.55 (typ.)

0.6 (typ.)

0.6 (typ.)

0.65 (typ.)

0.75 (typ.)

0.45 (typ.)

0.5 (typ.)

0.55 (typ.)

0.6 (typ.)

0.6 (typ.)

0.65 (typ.)

0.75 (typ.)

0.6 (typ.)

0.6 (typ.)

0.7 (typ.)

0.8 (typ.)

0.8 (typ.)

0.8 (typ.)

1.0 (typ.)

0.6 (typ.)

0.6 (typ.)

0.7 (typ.)

0.8 (typ.)

0.8 (typ.)

0.8 (typ.)

1.0 (typ.)

± 4 (AF) / ± 5 (F)

± 5 (BP) / ± 4 (CP)

1@Ta = 25¡C

10@Tc = 25¡C

2@Ta = 25¡C

20@Tc = 25¡C

1@Ta = 25¡C

10@Tc = 25¡C

2@Ta = 25¡C

20@Tc = 25¡C

0.5

@Ta = 25¡C

0.8

@Ta = 25¡C

New PW-Mold

TO-220NIS

New PW-Mold

TO-220NIS

PW-Mini

LSTM

± 3

@Tj = 25¡C

± 3

@Tj = 25¡C

± 3

@Tj = 25¡C

± 3

@Tj = 25¡C

± 5

@Tj = 25¡C

± 5

@Tj = 25¡C


4-3 TA58L/M and TA78DS Series (LDO Regulators)

Features Available with output voltages from 5 V to 15 V

Surface-mount and leaded packages

60-V load dump protection

High-accuracy output voltage: ± 3% (@Tj = 25¡C), ± 4% (@Tj = 40 to 105¡C) (TA58L/M Series)

Protection features: Overcurrent, overvoltage, thermal shutdown and reverse voltage


Office equipment


Audio equipment

Automotive equipment

Selection Guide


9

TA58ST00F(*)

TA58LT00F

50

150

2.5 to 13.4

(Adjustable)

38 (DC)

60 (pulse)

0.3 (max)

@IOUT = 10 mA

0.3 (max)

@IOUT = 50 mA

0.2 (typ.)

0.8 (max)

± 10

@Tj = 25¡C

TBD

1@Ta = 25¡C

10@Tc = 25¡C

SOP-8

New PW-Mold5pin

Part Number

OutputCurrent(mA)

OutputVoltage

(V)

InputVoltage

(V)

Dropout Voltage(V)

BiasCurrent(mA)

Trackingaccuracy(mV)



Protection

ThermalShutdown

OvervoltageReverseVoltage

Packaging

TA58MS05F

TA58MS06F

TA58MS08F

TA58MS09F

TA58MS12F

500

5

6

8

9

12

29 (DC)

60 (pulse)

0.4 (max)

@IOUT = 250 mA2.5 (typ.)

± 3

@Tj = 25¡C

1@Ta = 25¡C

10@Tc = 25¡CNew PW-Mold5pin

Part Number

OutputCurrent(mA)

OutputVoltage

(V)

InputVoltage

(V)

Dropout Voltage(V)

Bias Current(mA)




Protection

ThermalShutdown


Packaging

4-5 TA58ST/LT Series (LDOs with Voltage Tracking)

Features The voltage tracking function provides high-accuracy output voltages between 2.5 V and 13.4 V.

Tracking accuracy: ± 10 mV @ VIN = 14 V and Tj = 25¡C

The on/off control switch helps to save a systemÕs power dissipation


Protection features: overcurrent, overvoltage, thermal shutdown and reverse voltage


Office equipment


Audio equipment


Selection Guide


4-4 TA58MS Series (LDOs with On/Off Control)

Features The on/off control switch helps to save a systemÕs power dissipation.

Available with output voltages from 5 V to 12 V


Protection features: Overcurrent, overvoltage, thermal shutdown and reverse voltage


Office equipment


Audio equipment


Selection Guide

10

TA78033AFTA7804AFTA7805AFTA7807AFTA7808AFTA7809AFTA7805FTA78057FTA7806FTA7807FTA7808FTA7809FTA7810FTA7812FTA7815FTA7818FTA7820FTA7824FTA7805SBTA78057SBTA7806SBTA7807SBTA7808SBTA7809SBTA7810SBTA7812SBTA7815SBTA7818SBTA7820SBTA7824SBTA78M05FTA78M06FTA78M08FTA78M09FTA78M10FTA78M12FTA78M15FTA78M18FTA78M20FTA78M24FTA78M05SBTA78M06SBTA78M08SBTA78M09SBTA78M10SBTA78M12SBTA78M15SBTA78M18SBTA78M20SBTA78M24SB

1000

1000

1000

500

500

3.3

4

5

7

8

9

5

5.7

6

7

8

9

10

12

15

18

20

24

5

5.7

6

7

8

9

10

12

15

18

20

24

5

6

8

9

10

12

15

18

20

24

5

6

8

9

10

12

15

18

20

24

20

35

40

35

40

35

40

35

40

2.0 (typ.)

@IOUT = 1 A

2.0 (typ.)

@IOUT = 1 A

2.0 (typ.)

@IOUT = 1 A

1.7 (typ.)

@IOUT = 350 mA

1.7 (typ.)

@IOUT = 350 mA

3 (typ.)

8 (max)

8 (max)

8 (max)

8 (max)

± 4

@Tj = 25¡C

± 4

@Tj = 25¡C

± 4

@Tj = 25¡C

± 4

@Tj = 25¡C

± 4

@Tj = 25¡C

1@Ta = 25¡C

10@Tc = 25¡C

1@Ta = 25¡C

10@Tc = 25¡C

1.8@Ta = 25¡C

1@Ta = 25¡C

10@Tc = 25¡C

1.8@Ta = 25¡C

New PW-Mold

PW-Mold

TPL

PW-Mold

TPL

Part Number

OutputCurrent(mA)

OutputVoltage

(V)

InputVoltage

(V)

Dropout Voltage(V)

Bias Current(mA)




Protection

ThermalShutdown


Packaging

4-6 TA78/79 Series (General-Purpose Regulators)

Features Available with output voltages from 3.3 V to 24 V

Surface-mount and leaded packages

Available with output currents from 100 mA to 1 A

Protection features: Overcurrent and thermal shutdown


Office equipment


Audio equipment

Selection Guide


11

TA78L05FTA78L06FTA78L07FTA78L08FTA78L09FTA78L10FTA78L12FTA78L15FTA78L18FTA78L20FTA78L24FTA78L05PFTA78L06PFTA78L07PFTA78L08PFTA78L09PFTA78L10PFTA78L12PFTA78L15PFTA78L05APTA78L06APTA78L07APTA78L075APTA78L08APTA78L09APTA78L10APTA78L12APTA78L132APTA78L15APTA78L18APTA78L20APTA78L24APTA78L05STA78L07STA78L08STA78L09STA78L10STA78L12STA78L15STA7905SBTA7906SBTA7907SBTA7908SBTA7909SBTA7910SBTA7912SBTA7915SBTA7918SBTA7920SBTA7924SBTA79L05FTA79L06FTA79L08FTA79L09FTA79L10FTA79L12FTA79L15FTA79L18FTA79L20FTA79L24FTA79L005PTA79L006PTA79L008PTA79L009PTA79L010PTA79L012PTA79L015PTA79L018PTA79L020PTA79L024P

150

150

150

100

1000

150

150

5

6

7

8

9

10

12

15

18

20

24

5

6

7

8

9

10

12

15

5

6

7

7.5

8

9

10

12

13.2

15

18

20

24

5

7

8

9

10

12

15

-5

-6

-7

-8

-9

-10

-12

-15

-18

-20

-24

-5

-6

-8

-9

-10

-12

-15

-18

-20

-24

-5

-6

-8

-9

-10

-12

-15

-18

-20

-24

35

40

35

35

40

35

-35

-40

-35

-40

-35

-40

1.7 (typ.)

@IOUT = 150 mA

1.7 (typ.)

@IOUT = 150 mA

1.7 (typ.)

@IOUT = 150 mA

1.7 (typ.)

@IOUT = 100 mA

2 (typ.)

@IOUT = 1 A

1.7 (typ.)

@IOUT = 40 mA

1.7 (typ.)

@IOUT = 40 mA

6 (max)

6 (max)

6 (max)

6 (max)

8 (max)

6 (max)

6.5 (max)

6 (max)

6.5 (max)

± 5

@Tj = 25¡C

± 4

@Tj = 25¡C

± 4

@Tj = 25¡C

± 4

@Tj = 25¡C

± 4

@Tj = 25¡C

± 4

@Tj = 25¡C

± 4

@Tj = 25¡C

0.5@Ta = 25¡C

0.62@Ta = 25¡C

0.8@Ta = 25¡C

0.6@Ta = 25¡C

1.8@Ta = 25¡C

0.5@Ta = 25¡C

0.8@Ta = 25¡C

PW-Mini

PS-8

LSTM

TO-92

TPL

PW-Mini

LSTM

Part Number

OutputCurrent(mA)

OutputVoltage

(V)

InputVoltage

(V)

Dropout Voltage(V)

Bias Current(mA)




Protection

ThermalShutdown


Packaging

12

TA76431S

TA76431F/FR

TA76L431FB

TA76L431S

TA76L431FT

TA76432S

TA76432F/FR

TA76432FC

TA76432FT

TA76432AS

TA76432AF/AFR

TA76432AFT

TA76433FC

2.495

2.495

2.49

1.26

1.26

± 2.2

± 1

± 1

± 1.4

± 1

± 1.4

37

20

20

15

150

50

20

20

LSTM

PW-Mini

S-Mini

LSTM

UFV

LSTM

PW-Mini

SMV

UFV

LSTM

PW-Mini

UFV

SMV

Part NumberTypical Value (V)

Reference Voltage Absolute Maximum Ratings

Accuracy (%) VKA (V) IK (mA)Packaging Comments

The F and FR versions havereverse pin ordering.



Cathode-input pins isolated

4-7 TA76 Series (High-Accuracy Shunt Regulators)

Features High-accuracy reference voltage: ± 1% (TA76L431 and TA76432Ax Series)

Available in small, thin packages

Applications AC/DC converters

DC/DC converters

Reference voltage sources

Selection Guide


13

TB7100F

TB7101F(T5L1.2,F) (*)

TB7101F(T5L1.5,F) (*)

TB7101F(T5L1.8,F) (*)

TB7101F(T5L2.5,F) (*)

TB7101F(T5L3.3,F) (*)

TB7102F

Buck

Buck

Buck

3 to 5.5

2.7 to 5.5

2.7 to 5.5

Adjustable

1.2

1.5

1.8

2.5

3.3

Adjustable

700

1000

1000

External

Integrated

Integrated

PS-8

PS-8

PS-8

Part Number Function Input Voltage (V) Output Voltage (V) Output Current (mA)Phase Compensation

Circuit Packaging

Application Circuit Example TB7100F Reference Board

TB7101F

ENB

CIN

10 µF

10 to 22 µF

3.3 µH

SGND

GND

PGND

VOUT

IOUT = 1 A max

LX

VIN = 2.7 to 5.5 VVIN

VOUT

COUT


4-8 TB71 Series (Monolithic DC/DC Converter ICs)

Features Uses current mode control to provide good stability.

Allows use of a small ceramic capacitor as an output capacitor.

Peak efficiency: 94% (typical) @ VIN = 5V, VOUT = 3.3 V and IOUT = 300 mA (TB7102F)

Housed in a small, thin PS-8 package measuring 2.8 mm x 2.9 mm x 0.8 mm

Applications Portable equipments


Selection Guide

14

Now400 k to 600 kHz

Future600 k to 1 MHz

4-9 TB70 Series (Multichip Modules)

Provides an ideal solution for large-current and high-frequency switching applications.

Efficiency Comparison between MCM and Discrete MOSFETs

Before200 k to 300 kHz

Faster aster Transient Responseransient Response, Higher Accurac Higher Accuracy, Smaller Form F Smaller Form Factor and Higher Efficiencactor and Higher EfficiencyFaster Transient Response, Higher Accuracy, Smaller Form Factor and Higher Efficiency

Due to small signal current,

the L and R values of wires

are not obstacles in the way

of high-frequency switching.

Power MOSFET

Driver

Controller IC

Not affectedby L and R

PowerMOSFET

Driver

Controller IC

Sensitive toL and R

Solution for High-Frequency Switching Applications

0.406.30

29

28 43

42

56

0.852.203.5514

15

0.85

0.85

0.50

3.50

0.55

2.25

0.23

0.85

0.55

Package dimensions (unit: mm)

MCM components provide higher efficiency

than discrete MOSFETs for high-frequency

switching and high-current situations.

Evaluation Board

MCM TB7003FL(*) MCM TB7004FL(*)

Signal Current

Drive Current

Multiphase Multiphase

PWMController IC

PWMController IC

Driver IC

MOSFET (Larger Current)MCM

(Driver + MOSFET)

Single Phase

PWMController IC

MOSFET

Efficiency - IoutputMCM vs Discrete 3Phase

VIN = 12 V, VID = 1.3 V, fsw = 1 MHz 95

90

85

80

75

70

65

Effi

cien

cy (

%)

0 5 10 15 20 25 30 35Output current IOUT(A)

MCMDiscrete MOSFET

Features Suitable for buck converters with low output voltage and

high output current. Reduces standby current by shutting down the internal

circuitry. Allows power loss to be reduced at light loads by turning

off the low-side MOS gates. QFN56 package (8 mm x 8 mm x 0.85 mm)

General Specification Recommended maximum input voltage: 12 V (Maximum rating: 20 V) Maximum average output current: 30 A Controller supply voltage: 5 V Maximum operating frequency: 1 MHz Thermal shutdown protection Undervoltage lockout

Features Suitable for buck converters with low output voltage and high

output current Based on DrMOS specification (Rev. 1.0) created by Intel Reduces standby current by shutting down the internal circuitry. Supports the 20-V input of notebook PCs, with the maximum input

voltage rating of 30 V. Contains a switch for charging a bootstrap capacitor, eliminating

the need for an external SBD. The low-side MOS gates can be driven externally at an arbitrary voltage. QFN56 package (8 mm x 8 mm x 0.85 mm)

General Specification Recommended maximum input voltage: 20 V (Maximum rating: 30 V) Maximum average output current: 30 A Controller supply voltage: 12 V Low-side MOS gate drive voltage: 5 to 16 V Maximum operating frequency: 1 MHz Thermal shutdown protection Undervoltage lockout

(*) Under development (*) Under development


15

Faster Transient Response, Higher Accuracy, Smaller Form Factor and Higher Efficiency

5-1 Usage Considerations

To ensure stable operation, low-dropout regulators (TA48 XX /TA48M XX /TA48L XX /TA48S XX /TA58M XX /TA58L XX /TA78DS XX) are required to maintain low output impedance. At low temperatures, the impedance of the output capacitor connected to the regulator can increase, causing voltage ripple. Therefore, it is recommended to use a capacitor with good temperture stability. Since the output ripple is affected by the input voltage and load conditions and by PCB traces, the output capacitor value should be carefully selected through experimentation using real hardware. The output capacitor should be placed as close as possible to the regulator terminal.

Capacitors should be connected between the input terminal and GND, and between the output terminal and GND. The capacitor values must be adjusted, depending on PCB traces and the wiring conditions. A thorough review must be made, especially at high and low temperatures, in choosing capacitors.

Do not apply voltages which are negative relative to GND to the input and / or output terminals. Take special care in building a voltage boost circuit.

If the input terminal is subjected to a surge voltage exceeding the absolute maximum rating , or if the output terminal is subjected to a voltage higher than the input terminal voltage, the IC may be damaged. Special care is required, especially in the latter case. If the input terminal is shorted to GND during normal use, the output terminal voltage will exceed that of the input voltage (GND, 0 V); As a result the capacitor discharges through the IC to the input, causing the IC to be damaged. To prevent these situations, a Zener diode and an ordinary silicon diode should be connected as shown to the right:

If the input voltage is too high, the three-terminal regulator will dissipate extra power, causing an increase in the junction temperature. If this happens, the recommended solution is to connect an input limiting resistor, RSD to lower the power dissipation of the IC. The power dissipation of the IC, PD, is calculated as follows:PD = (VIN' – VOUT) x IOUT + VIN' x IB If VIN' falls below the minimum voltage required by the IC, an increase in ripple, deterioration of input regulation, and occasionally even parasitic oscillation may result. Use the following formula to determine the RSD value so as to achieve a design with sufficient margins.

1

2

3

4

5

RSD < VIN – VIN'IOUT + IB

IN OUT

GND

Reg.VIN VOUT

VZ

VZ > VIN

Protection diode for input surges

Diode for protection against output surges and input short circuit

IN OUT

GND

Reg.VIN IOUT

VOUT

IB

VIN'RSD

Series Regulators5

16

1 2

5-2 Application Circuit Examples (Positive Output)

Standard application circuit

Voltage boost circuits Current boost circuits

Take into account the worst-case usage condition of the following circuit configurations and constants.

(a) Voltage boost using a Zener diode

VOUT = VZ = VOUT (of IC)Pass a current of a few mA through R.

(b) Voltage boost using resistors

where IB is the IC’s bias current

(c) Voltage boost using an op-amp

(a) Without short-circuit protection

Use an appropriate heat sink for Q1 if necessary.

where VBE1 is the VBE of the external transistor Q1, and IB (MAX) is the IC’s maximum bias current.

(b) With short-circuit protection

where VBE1 is the VBE of Q1, IB(MAX) is the IC’s maximum bias current, VBE2 is the VBE of Q2, and ISC is the short-circuit current.

RSC =VBE2ISC

IN OUT

GND

Reg.

0.33

µF

0.1

µF

1 µF

VOUTVIN

VZ

R

+

–

IN OUT

GND

Reg.

0.33

µF

0.1

µF

1 µF

VOUTVIN

R1

R2 +

–

IN OUT

GND

TA75558P/S x 1/2

Reg.

0.33

µF

0.1

µF

VOUTVIN

R1

R2

+

–

IN OUT

GND

Reg.0.

33 µ

F

0.1

µF

VOUT

VINR1

Q1

IN OUT

GND

Reg.

0.33

µF

0.1

µF

VOUT

VIN

R1

RSC Q1

Q2VOUT = R2 (IB + ) + VOUT (of IC)VOUT(of IC)

R1

VOUT = VOUT (of IC) (1 + )R2R1

R1 <VBE1

IB (MAX)

R1 <VBE1

IB (MAX)

Note: For low-dropout regulators, refer to the

technical datasheets and use a capacitor

that possesses good temperature stability.

IN OUT

GND

Reg.

CIN

0.3

3 µF

CO

UT

0.1

µF

VOUTVIN

IBRL

IOUT

Series Regulators5

17

3

4

5

6

7

Constant-current circuit

Negative power supply

Positive and negative power supplies

High-input-voltage circuit

High-input-voltage, high-output-voltage circuit

IN OUT

GND

Reg.

0.33

µF

IOUT

VIN

RIN OUT

GND

Reg.

0.33

µF

0.1

µF

VOUTIOUT

VIN

R1

VZ

Q1

IOUT = + IBVOUTR

R1 =VIN - VZ

IOUT (MAX)hFEQ1 (MIN)

IN OUT

GND

Reg.

0.33

µF

0.1

µF

+

–

–VOUT

IN OUT

GND

Reg.

0.33

µF

0.1

µF

+VOUT+

–

IN OUT

GND

Reg.

0.33

µF

0.1

µF

–VOUT

+

–

IN OUT

GND

Reg.

0.33

µF

0.1

µF

VOUTIOUT

VIN

R1

VZ2

VZ1

Q1 (darlington)

R1 =VIN - (VZ1 + VZ2)

IOUT (MAX)hFEQ1 (MIN)

VOUT = VZ1 + VOUT (of IC)

VCEOQ1 > VIN

where IOUT (MAX) is the maximum output current for

the IC, and hFEQ1 (MIN) is the minimum hFE of Q1

18

1

2

3

4

5

6

7

8

6-1 Application Circuit Exampls

2.5-V reference voltage

Shunt regulator

High-current shunt regulator

Output voltage adjustment for a three-terminal regulator

Low-voltage series regulator

Constant-sink-current regulator

Constant-source-current regulator (current limiter)

Error amplifier for a switching regulator

VIN

VOUT = 2.5 V

R1

R2

VIN VOUT

R1

R2

VIN VOUT

R1

R2

VIN VOUTGND

IN OUT

TA7805

R1

R2

VIN VOUT

RS

Isink

RCLIOUT

+

-

TA76431S

TLP421

VOUT = VREF + IREF • R1(1 + ) R1R2

VOUT = VREF + IREF • R1(1 + )R1R2

VOUT Min = VREF + 5.0 V

VOUT = VREF(1 + )R1R2

VOUT = VREF(1 + )R1R2

Isink =VREFRS

IOUT =VREFRCL

VOUT Min = VREF + VBE

Take into account the worst-case usage condition of the following circuit configurations and constants.

Shunt Regulators6

19

Power Dissipation

Junction Temperature

TO-220NIS None 0.4 to 0.6 1.0 to 1.5

Packaging Mica

θc (°C/W)

Without Silicone Grease

With Silicone Grease

Power dissipation is calculated using the following equation:

The route by which heat generated inside a power supply IC is dissipated to the outside can be represented in terms of thermal resistance and thermal capacitance of the constituent devices. The thermal radiation equivalent circuit of a three-terminal regulator is shown below.

θi: Internal thermal resistance (junction to case)θb: External thermal resistance (case to ambient)θc: Contact thermal resistance (case to heat sink)

θf: Heat sink thermal resistance (heat sink to ambient)θj-a (= θi + θb): Junction-to-ambient thermal resistance (without heat sink)θj-c (= θi): Junction-to-case thermal resistance

* θc and θf are used for the TO-220 package with heat sink mounting holes.

PD = VIN x IB + (VIN – VOUT) x IOUT...... 1PD: Power dissipation (W) VIN: Input voltage (V) VOUT: Output voltage (V) IB: Bias current (A)IOUT: Output current (A)

Tj = PD x θj-a + Ta...... 2Tj: Junction Temperature (°C) PD: Power dissipation (W)θj-a: Case-to-ambient thermal resistance (°C/W)Ta: Ambient temperature (°C)

Note: Use the above equations for thermal design of a three-terminal regulator, based on the actual conditions in which it will be used.

It is recommended to derate the maximum power dissipation allowed for the absolute maximum voltage, current and temperature ratings.

For the values of PD(MAX) and Tj(MAX), see the datasheets of indiridual devices.

θb

Tj

∆Tj

Tc

Ta

θi

θf

θc

Thermal Design for Three-Terminal Regulators7

20

Package Markings (Typical Examples)8

Lot No. (monthly code: two digits)

Part No. (or brevity code)

Lot No.

The week of manufacture

The year of manufacture

The last digit of the calendar year

Example: Ò014Ó denotes the 14th week of the year 2000



TO-220NIS

TPL

TO-92

PW-Mini

PS-8

SMV

UFV


S-Mini

LSTM

PW-Mold / New PW-Mold

New PW-Mold5pin


Lot No. (weekly code: two digits)








Quick Reference Table for Weekly Lot Numbers

Example: Ò4.aÓ denotes the 35th week of the year 2004.

Monthly Lot No.The last digit of the calendar year and characters A to Ldenoting January to December respectively

Lot No. A lot number consists of three digits. The first digit denotes the year ofmanufacture, expressed as the last digit of the calendar year; the next twodigits denotes the week of manufacture.

0

0

K

V

g

v

0

1

2

3

4

5

1

1

A

L

W

h

w

2

2

B

M

X

i

x

3

3

C

N

Y

m

y

4

4

D

P

Z

n

5

5

E

Q

a

p

6

6

F

R

b

q

7

7

G

S

d

r

8

8

H

T

e

t

9

9

J

U

f

u

FirstDigit

SecondDigit



TA58L S

* on the lower left of the marking indicates pin 1.

7 8 L

Lot No. (weekly three digits)

Week of manufacture (01 for the first week

of the year, continuing up to 52 or 53)

Year of manufacture (the last digit of the calendar year)

21

Tape and Reel Specifications9TO-92 Type

Unit: mm

Unit: mm

Unit: mm

TPL Type

LSTM Type

Tape Type Suffix

TPE6

Packing Type

Ammo pack

Devices Per Reel

2000

Weight (g)

1100 (approx.)

Tape Type Suffix

TPE2

Packing Type

Ammo pack

Devices Per Reel

3000

Weight (g)

1100 (approx.)

Tape Type Suffix

TP

Packing Type

Ammo pack

Devices Per Reel

1000

Weight (g)

1800 (approx.)

Tape SpecificationsTape Dimensions



5.1

4.7

20.0

32.25

11.0

0.5

4.1

6.0

16.0

4.0

12.7

12.7

6.35

2.5

18.0

9.0

2.5

2.5

0.45

0.6

5.1

8.2

2.1

20.0

32.25

11.0

0.5

4.1

6.0

16.0

4.0

12.7

12.7

18.0

9.0

0.6

0.60

6.35

2.5 2.5

3.5

13.4

32.25

11.0

1.0

4.5

16.0

17.5

4.0

10

12.7

12.7

18.0

9.0

0.5

0.5

0.6

Mark

6.35

2.5 2.5

6.0

4.8

22

Package Style Tape Dimensions Reel Dimensions

¿1.5

8.0 3.5

1.75

2.75

4.0A'

A

2.0

1.6

1.45

0.3

f1.1

A'

A

5.53.3

4.0

3000 Devices / reel

¿180

¿60

2 ¿21

¿13

5.09.0

11.4

120¡

3000 Devices / reel

¿180

¿60

2 ¿21

¿13

5.09.0

11.4

120¡

3000 Devices / reel

3000 Devices / reel

¿180

¿60

2 ¿21

¿13

5.09.0

11.4

120¡

4.0

2.0

4.0 ¿1.1

1.75

8.03.5

A'

B-B' Cross section

A

0.18

A'

(Feed hole)

(Pocket)

B

B'0.85

2.3

A-A' Cross section

2.2

¿1.5

Unit: mm Unit: mm

UFV

S-Mini

SMV

PS-8

4.0

4.0

8.0

5.0

11.4

9.0

¿180

¿60

¿1.50

¿1.1

1.75 0.2

0.95

3.1

4.0

5.5

8.0

1.15

2.0

4.0

3.1

2.75

Tape and Reel Specifications9

23

Package Style Tape Dimensions Reel DimensionsUnit: mm Unit: mm

¿178

46

30

Rib structure

¿13

¿75

1.1

2

0.9

13.5

75

98

120¡

41.5

8

A'

A

Sensor hole

41.5

5.1

4.9

4.5

4.7

4.0

2.0 2.012.0

5.65

1.5

4.85

9.5

0.5

8.0

A'

A

1.8

1.65

0.3

2.3

A'

A

0.9

¿1.5

2000 Devices / reel

PW-Mini

PW-Mold

New PW-Mold

New PW-Mold5pin

700 Devices / reel

2000 Devices / reel

10.1

0.3

4.0

2.0

16.0

7.5

1.75

6.75

8.0

6.82.7

¿1.5 ¿3.0

¿178

1.8 1.8

¿80

¿13

17.5

2.0

120¡

R702

4

6

R5

40¡

2000 Devices / reel

10.1

13.5

0.3

4.0

2.0

16.0

7.5

1.75

6.75

8.0

6.82.8

¿1.5 ¿3.0

¿178

1.8 1.8

¿80

¿13

17.5

2.0

120¡

R702

4

6

R5

40¡

4.0

2.0

16.0

10.1

7.5

1.75

6.75

8.0

6.8

2.7

0.3¿1.5 ¿3.0

¿330

¿13

¿80

21.5

17.5

4.0

2.0

24

Package Dimensions10TO-220NIS PW-Mold (Straight)

PW-Mold (Lead-formed) New PW-Mold

0.1

± 0.

11.

7 ±

0.2

5.2 ± 0.2

6.8 max

0.6 max

0.95 max

0.6 ± 0.15

0.6 ± 0.15

5.5

± 0.

2

9.6

± 0.

3

2.5

max

1.1

± 0.

2

1 2 3

1.5

± 0.

2

0.6 max

2.3 2.3

2.3 2.3

1 2 3

6.5 ± 0.2

5.2 ± 0.25.

5 ±

0.2

1.2

max

1.05 max0.6 ± 0.15

9.5

± 0.

3

1.5

± 0.

22.

3 ±

0.2

0.1

± 0.

1

0.8 max0.6 max

0.6 max

1.1 ± 0.2

2.3 ± 0.15 2.3 ± 0.15

10 ± 0.3

15.0

± 0

.3

0.75

± 0

.15

0.75 ± 0.15

ø3.2 ± 0.2

13.0

min

3.9

3.0

4.5

± 0.

2

2.54 ± 0.25 2.54 ± 0.25

2.6

1.11.1

5.6

max

2.7 ± 0.2

6.8 max5.2 ± 0.2

5.5

± 0.

2

1.1

± 0.

2

0.6 ± 0.15

0.6 max

0.6 max

2 3

2.3 2.3

0.95 max

12.0

min

2.5

max

1

1.7

± 0.

2

25

LSTM TO-92

New PW-Mold5pin TPL

6.5±0.25.2±0.2

0.6±0.1

0.5±0.1

0.7max

0.5±0.1

1.1±0.2

0.8max 0.6max

0.6max

0.7±0.1

1.27

0.1±0

.1

2.3±0

.2

1.5±0.

25.5±

0.2

9.5±

0.3

14.8

±0.5

13.4

±0.2

10±0.2

4.5±

0.2

2.5 2.5

ø1.2

Mark

C0.5C0.51.4

1.5

0.5+0.15 –0.05

0.5+0.15 –0.05

MARK

25.1max

8.2m

ax

0.6m

ax

4.1m

ax10

.5m

in

2.2m

ax

0.75max

1.0max

0.80max

0.60max

1.0

1.27 1.27

2.54

5.1max

4.7m

ax

0.45

4.1m

ax12

.7m

in

1.80.45

0.45

0.55max

0.8

1.27 1.27

26

PW-Mini (SOT-89) SMV

UFV PS-8S-Mini

4.6max

1.7max

4.2m

ax

0.8m

in

1.6max

0.4±0.05

1.5±0.1 1.5±0.1

2.5±

0.1

+0.080.45–0.05

+0.080.4–0.05

0.4±

0.1

2.9±

0.2

1.9±

0.2 0.

950.

95

1 5

42

3

2.8 +0.2–0.3

1.6 +0.2–0.1

1.1

+0.

2–0

.1

0~0.1

0.16

+0.1

–0.0

6

0.65

2.8±

0.1

2.4±

0.1

0.025

0.05 AM

SS

A

0.475

2.9±0.1

0.33±0.05

0.8±

0.05

1

4

58

B

0.05 BM

0.33±0.05

0 to 0.1

2.9

± 0.

21.

11.

9 0.95

0.95

1

2 3

0.4

+ 0

.1

- 0

.05

0.16

+ 0

.1

- 0

.06

2.5 + 0.5

- 0.3

1.5 + 0.25

- 0.15

+ 0

.2

- 0

.1

0.3

2.1±0.1

1.7±0.1

2.1±

0.1

0.7±

0.05

1.3±

0.1

0.65

0.65

+0.1

–0.

050.

3

+0.0

6–0

.05

0.16

1

2

3

5

4

Package Dimensions10

27

Part Number Replacement Part Number Replacement Part Number Replacement

TA7084P

TA7084AM

TA7085M

TA7085AM

TA7086M

TA78005AP

TA78006AP

TA78008AP

TA78009AP

TA78010AP

TA78012AP

TA78015AP

TA78018AP

TA78020AP

TA78024AP

TA78033LF

TA7804LF

TA7805LF

TA7807LF

TA7808LF

TA7809LF

TA78033LS

TA7804LS

TA7805LS

TA7807LS

TA7808LS

TA7809LS

TA78DL05AF/F

TA78DL06AF/F

TA78DL08AF/F

TA78DL09AF/F

TA78DL10AF/F

TA78DL12AF/F

TA78DL15AF/F

TA78DL05AP/P

TA78DL06AP/P

TA78DL08AP/P

TA78DL09AP/P

TA78DL10AP/P

TA78DL12AP/P

TA78DL15AP/P

TA78DL05AS/S

TA78DL06S

TA78DL08S

TA78DL09S

TA78DL10S

TA78DL12S

TA78DL15S

TA78DS05P

TA78DS05AP

TA78DS10P

TA78L005P

TA78L006P

TA78L007P

TA78L075P

TA78L008P

TA78L009P

TA78L010P

TA78L012P

TA78L132P

TA78L015P

TA78L018P

TA78L020P

TA78L024P

TA78M05P

TA78M06P

TA78M08P

TA78M09P

TA78M10P

TA78M12P

TA78M15P

TA78M18P

TA78M20P

TA78M24P

TA79005P

TA79006P

TA79008P

TA79009P

TA79010P

TA79012P

TA79015P

TA79018P

TA79020P

TA79024P

TA8003S

TA8004AS

TA7805SB

TA7805SB

TA79005SB

TA79005SB

TA7805SB

TA7805SB

TA7806SB

TA7808SB

TA7809SB

TA7810SB

TA7812SB

TA7815SB

TA7818SB

TA7820SB

TA7824SB

TA78033AF

TA7804AF

TA7805AF

TA7807AF

TA7808AF

TA7809AF

TA78033AF

TA7804AF

TA7805AF

TA7807AF

TA7808AF

TA7809AF

TA58L05F

TA58L06F

TA58L08F

TA58L09F

TA58L10F

TA58L12F

TA58L15F

TA58L05S

TA58L06S

TA58L08S

TA58L09S

TA58L10S

TA58L12S

TA58L15S

TA58L05S

TA58L06S

TA58L08S

TA58L09S

TA58L10S

TA58L12S

TA58L15S

TA78DS05BP

TA78DS05CP

TA78DS10BP

TA78L005AP

TA78L006AP

TA78L007AP

TA78L075AP

TA78L008AP

TA78L009AP

TA78L010AP

TA78L012AP

TA78L132AP

TA78L015AP

TA78L018AP

TA78L020AP

TA78L024AP

TA78M05SB

TA78M06SB

TA78M08SB

TA78M09SB

TA78M10SB

TA78M12SB

TA78M15SB

TA78M18SB

TA78M20SB

TA78M24SB

TA79005SB

TA79006SB

TA79008SB

TA79009SB

TA79010SB

TA79012SB

TA79015SB

TA79018SB

TA79020SB

TA79024SB

-

TA8004SA

List of Obsolete Devices11

2006-9

BCE0056A

Previous edition: BCE0002A2006-9(1k)SO-DQ

2006

Pow

er Supply IC

s

The information contained herein is subject to change without notice. 021023_D

TOSHIBA is continually working to improve the quality and reliability of its products. Nevertheless, semiconductor devices in general can malfunction or fail due to their inherent electrical sensitivity and vulnerability to physical stress. It is the responsibility of the buyer, when utilizing TOSHIBA products, to comply with the standards of safety in making a safe design for the entire system, and to avoid situations in which a malfunction or failure of such TOSHIBA products could cause loss of human life, bodily injury or damage to property. In developing your designs, please ensure that TOSHIBA products are used within specified operating ranges as set forth in the most recent TOSHIBA products specifications. Also, please keep in mind the precautions and conditions set forth in the “Handling Guide for Semiconductor Devices,” or “TOSHIBA Semiconductor Reliability Handbook” etc. 021023_A

The TOSHIBA products listed in this document are intended for usage in general electronics applications (computer, personal equipment, office equipment, measuring equipment, industrial robotics, domestic appliances, etc.). These TOSHIBA products are neither intended nor warranted for usage in equipment that requires extraordinarily high quality and/or reliability or a malfunction or failure of which may cause loss of human life or bodily injury (“Unintended Usage”). Unintended Usage include atomic energy control instruments, airplane or spaceship instruments, transportation instruments, traffic signal instruments, combustion control instruments, medical instruments, all types of safety devices, etc. Unintended Usage of TOSHIBA products listed in this document shall be made at the customer’s own risk. 021023_B

The products described in this document shall not be used or embedded to any downstream products of which manufacture, use and/or sale are prohibited under any applicable laws and regulations. 060106_Q

The information contained herein is presented only as a guide for the applications of our products. No responsibility is assumed by TOSHIBA for any infringements of patents or other rights of the third parties which may result from its use. No license is granted by implication or otherwise under any patent or patent rights of TOSHIBA or others. 021023_C

Please contact your sales representative for product-by-product details in this document regarding RoHS compatibility. Please use these products in this document in compliance with all applicable laws and regulations that regulate the inclusion or use of controlled substances. Toshiba assumes no liability for damage or losses occurring as a result of noncompliance with applicable laws and regulations. 060819_Z

The products described in this document are subject to foreign exchange and foreign trade laws. 021023_E

Website: http://www.semicon.toshiba.co.jp/eng

Semiconductor Company

(As of February 23, 2006)OVERSEAS SUBSIDIARIES AND AFFILIATES Toshiba AmericaElectronic Components, Inc. Headquarters-Irvine, CA19900 MacArthur Boulevard, Suite 400, Irvine, CA 92612, U.S.A.Tel: (949)623-2900 Fax: (949)474-1330 Boulder, CO (Denver)3100 Araphahoe #500,Boulder, CO 80303, U.S.A.Tel: (303)442-3801 Fax: (303)442-7216 Buffalo Grove (Chicago)2150 E. Lake Cook Road, Suite 310, Buffalo Grove, IL 60089, U.S.A.Tel: (847)484-2400 Fax: (847)541-7287 Duluth, GA (Atlanta)3700 Crestwood Pkwy, #160,Duluth, GA 30096, U.S.A.Tel: (770)931-3363 Fax: (770)931-7602 Portland, OR2560 NW 141st Place Portland, OR 97229, U.S.A.Tel: (503)784-8879 Fax: (503)466-9729 Raleigh, NC3120 Highwoods Blvd., #108, Raleigh,NC 27604, U.S.A.Tel: (919)859-2800 Fax: (919)859-2898 Richardson, TX (Dallas)777 East Campbell Rd., #650, Richardson,TX 75081, U.S.A.Tel: (972)480-0470 Fax: (972)235-4114 San Jose Engineering Center, CA2590 Orchard Parkway San Jose, CA 95131, U.S.A.Tel: (408)526-2400 Fax:(408)526-2410 Wakefield, MA (Boston)401 Edgewater Place, #360, Wakefield, MA 01880-6229, U.S.A. Tel: (781)224-0074 Fax: (781)224-1095 Wixom (Detroit)48679 Alpha Drive, Suite 100, Wixom, MI 48393 U.S.A. Tel: (248)449-6165 Fax: (248)449-8430 Toshiba Electronics do Brasil Ltda.Rua Afonso Celso, 552-8 andar, CJ. 81 Vila Mariana Cep 04119-002 Sao Paulo SP, BrasilTel: (011)5576-6619 Fax: (011)5576-6607 Toshiba India Private Ltd.6F DR. Gopal Das Bhawan 28, Barakhamba Road, New Delhi, 110001, IndiaTel: (011)2331-8422 Fax: (011)2371-4603

Toshiba Electronics Europe GmbH

Düsseldorf Head OfficeHansaallee 181, D-40549 Düsseldorf,Germany Tel: (0211)5296-0 Fax: (0211)5296-400

München OfficeBüro München Hofmannstrasse 52,D-81379, München, GermanyTel: (089)748595-0 Fax: (089)748595-42

France BranchLes Jardins du Golf 6 rue de Rome F-93561,Rosny-Sous-Bois, Cedex, FranceTel: (1)48-12-48-12 Fax: (1)48-94-51-15

Italy BranchCentro Direzionale Colleoni,Palazzo Perseo 3,I-20041 Agrate Brianza, (Milan), ItalyTel: (039)68701 Fax: (039)6870205

Spain BranchParque Empresarial, San Fernando, Edificio Europa,1a Planta, E-28831 Madrid, SpainTel: (91)660-6798 Fax:(91)660-6799

U.K. BranchRiverside Way, Camberley Surrey,GU15 3YA, U.K.Tel: (01276)69-4600 Fax: (01276)69-4800

Sweden BranchGustavslundsvägen 18, 5th Floor,S-167 15 Bromma, SwedenTel: (08)704-0900 Fax: (08)80-8459 Toshiba Electronics Asia(Singapore) Pte. Ltd.438B Alexandra Road, #06-08/12 AlexandraTechnopark, Singapore 119968Tel: (6278)5252 Fax: (6271)5155 Toshiba Electronics Service(Thailand) Co., Ltd.135 Moo 5, Bangkadi Industrial Park, Tivanon Road,Pathumthani, 12000, ThailandTel: (02)501-1635 Fax: (02)501-1638 Toshiba Electronics Trading (Malaysia) Sdn. Bhd. Kuala Lumpur Head OfficeSuite W1203, Wisma Consplant, No.2,Jalan SS 16/4, Subang Jaya, 47500 Petaling Jaya,Selangor Darul Ehsan, MalaysiaTel: (03)5631-6311 Fax: (03)5631-6307 Penang OfficeSuite 13-1, 13th Floor, Menara Penang Garden,42-A, Jalan Sultan Ahmad Shah,10050 Penang, MalaysiaTel: (04)226-8523 Fax: (04)226-8515 Toshiba Electronics Philippines, Inc.26th Floor, Citibank Tower, Valero Street, Makati,Manila, PhilippinesTel: (02)750-5510 Fax: (02)750-5511

Toshiba Electronics Asia, Ltd.

Hong Kong Head OfficeLevel 11, Tower 2, Grand Century Place, No.193, Prince Edward Road West, Mongkok, Kowloon, Hong KongTel: 2375-6111 Fax: 2375-0969

Beijing OfficeRoom 714, Beijing Fortune Building, No.5 Dong San Huan Bei-Lu, Chao Yang District, Beijing, 100004, ChinaTel: (010)6590-8796 Fax: (010)6590-8791

Chengdu OfficeRoom 2508A, 2 Zongfu Street, Times Plaza, Chengdu 610016 Sichuan, ChinaTel: (028)8675-1773 Fax: (028)8675-1065

Qingdao OfficeRoom 4(D-E), 24F, International Financial Center, 59 Xiang Gang Zhong Road, Qingdao, Shandong, ChinaTel: (0532)579-3328 Fax: (0532)579-3329

Toshiba Electronics Shenzhen Co., Ltd. Room 2601-2609, 2616, Office Tower Shun Hing Square,Di Wang Commercial Center, 5002 Shennan Road East,Shenzhen, 518008, ChinaTel: (0755)2583-0810 Fax: (0755)8246-1581 Toshiba Electronics (Shanghai) Co., Ltd. Shanghai Head Office11F, HSBC Tower, 1000 Lujiazui Ring Road, Pudong New Area, Shanghai 200120, ChinaTel: (021)6841-0666 Fax: (021)6841-5002 Hangzhou Office502 JiaHua International Business Center, No.28 HangDa Road, Hangzhou, 310007, ChinaTel: (0571)8717-5004 Fax: (0571)8717-5013 Nanjing Office23F Shangmao Century Plaza, No.49 Zhong Shan South Road, Nanjing, 210005, ChinaTel: (025)8689-0070 Fax: (025)8689-0125 Toshiba Electronics (Dalian) Co., Ltd.14/F, Senmao Building, 147, Zhongshan Road, Xigang Dist., Dalian, 116011, China Tel: (0411)8368-6882 Fax: (0411)8369-0822 Tsurong Xiamen Xiangyu Trading Co., Ltd.14G, International Bank BLDG., No.8 Lujiang Road, Xiamen, 361001, China Tel: (0592)226-1398 Fax: (0592)226-1399

Toshiba Electronics Korea Corporation

Seoul Head Office891, Samsung Life Insurance Daechi Tower 20F, Daechi-dong, Gangnam-gu, Seoul, 135-738, KoreaTel: (02)3484-4334 Fax: (02)3484-4302

Gumi Office6F, Goodmorning Securities Building, 56 Songjung-dong, Gumi-shi, Kyeongbuk, 730-090, KoreaTel: (054)456-7613 Fax: (054)456-7617

Toshiba Electronics Taiwan Corporation

Taipei Head Office17F, Union Enterprise Plaza Building, 109 Min Sheng East Road, Section 3, Taipei, 10544, TaiwanTel: (02)2514-9988 Fax: (02)2514-7892

Kaohsiung Office16F-A, Chung-Cheng Building, 2, Chung-Cheng 3Road, Kaohsiung, 80027, TaiwanTel: (07)237-0826 Fax: (07)236-0046

78033 (toshiba)

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