XC6701DJ2MR_技术文档

XC6701Series

ETR0334-003

28V Operation High Speed Voltage Regulators with Stand-by Function

■GENERAL DESCRIPTION

The XC6701 series are positive voltage regulator ICs manufactured using CMOS process with 28V of operation voltage.

The series consists of a voltage reference, an error amplifier, a current limiter, a thermal shutdown circuit and a phase

compensation circuit plus a driver transistor.

The output voltage is selectable in 0.1V increments within the range of 1.8V to 18V which fixed by laser trimming

technologies. The output stabilization capacitor (CL) is also compatible with low ESR ceramic capacitors.

The over current protection circuit and the thermal shutdown circuit are built-in. These two protection circuits will operate

when the output current reaches current limit level or the junction temperature reaches temperature limit level.

The CE function enables the output to be turned off and the IC becomes a stand-by mode resulting in greatly reduced power

consumption. Packages are selectable depending on the applications from SOT-25, SOT-89, SOT-89-5, USP-6C, SOT-223,

and TO-252.

■FEATURES

■APPLICATIONS

●Car audio, Car navigation systems

Max Output Current

: More than 150mA (200mA limit)

(V_IN=V_OUT(T)+3.0V)

Dropout Voltage

: 300mV@IOUT=20mA

: 2.0V~28.0V

: 1.8V~18.0V (100mV increments)

:±2%

●Note book computers, PDAs

Input Voltage Range

Output Voltage Range

High Accuracy

●Home appliances

●Audio visuals, Digital cameras, Video cameras

●Cordless phones, Wireless communication

Low Power Consumption : 50μA (VOUT(T)=5.0Ｖ）

Stand-by Current

: Less than 0.1μA

High Ripple Rejection

Operating Temperature

Low ESR Capacitor

: 50dB@1kHz

: -40℃~+85℃

: Ceramic Capacitor Compatible

(Internal Phase Compensation)

: SOT-25, SOT-89, SOT-89-5,

USP-6C, SOT-223, TO-252

Small Packages

■TYPICAL PERFORMANCE

■TYPICAL APPLICATION CIRCUITS

CHARACTERISTICS

XC6701B/D 502

V_IN=7.0V, tr=tf=5μs

C_IN=C_L=1.0μF (ceramic), Ta=25℃

5.6

5.4

5.2

5.0

4.8

4.6

4.4

4.2

4.0

3.8

3.6

150

120

90

60

30

0

Output Voltage

1μF

Output Current

Time (1ms/div)

1/32

XC6701 Series

■PIN CONFIGURATION

USP-6C

SOT-25

SOT-89

SOT-89-5

(BOTTOM VIEW)

(TOP VIEW)

* The dissipation pad for the USP-6C

package should be solder-plated in

recommended mount pattern and

metal masking so as to enhance

mounting strength and heat release.

If the pad needs to be connected to

other pins, it should be connected to

the VSS (No. 5) pin.

SOT-223

TO-252

(TOP VIEW)

■PIN ASSIGNMENT

●XC6701B Series

PIN NUMBER

PIN NAME

FUNCTIONS

SOT-25

SOT-89-5

USP-6C

1

2

3

4

5

2

4

3

1

6

5

VIN

VSS

NC

Power Input

Ground

2, 4

3

No connection

ON/OFF Control

Output

CE

1

VOUT

●XC6701D Series

PIN NUMBER

PIN NAME

FUNCTIONS

SOT-89

SOT-223

TO-252

3

2

1

3

2

1

2

3

VIN

VSS

Power Input

Ground

VOUT

Output

2/32

XC6701

Series

■PRODUCT CLASSIFICATION

●Ordering Information

XC6701①②③④⑤⑥

DESIGNATOR

DESCRIPTION

SYMBOL

B

DESCRIPTION

: Fixed output voltage with CE function (High Active)

Type and Options of

Regulators

①

D

: Fixed output voltage with no CE function

: For the voltage within 1.8V ~9.9V;

e.g. 2.5V ⇒ 25

18 ~ 99

5.0V ⇒ 50

②③

Output Voltage

: For the voltage above 10.0V;

e.g. 11.6V ⇒ B6

15.2V ⇒ F2

A ~ H, J

18.0V ⇒ J0

Output Voltage

Accuracy

: Output voltage 100mV increments, within ±2% accuracy

e.g. 2.5V ⇒ ②=2, ③=5, ④=2

④

⑤

⑥

2

M

P

E

F

J

: SOT-25 ( for B type only)

: SOT-89 (for D type only)

: SOT-89-5 (for B type only)

: USP-6C (for B type only)

: SOT-223 (for D type only)

: TO-252 (for D type only)

: Embossed tape, standard feed

: Embossed tape, reverse feed

Packages

R

L

Device Orientation

3/32

XC6701 Series

■BLOCK DIAGRAMS

●XC6701B Series

●XC6701D Series

(SOT-25, SOT-89-5, USP-6C)

(SOT-89, SOT-223, TO-252)

R1

R2

R1

R2

■ABSOLUTE MAXIMUM RATINGS

●XC6701B Series

PARAMETER

Input Voltage

SYMBOL

VIN

RATINGS

UNIT

V

VSS-0.3~30

300 ^(*1)

Output Current

Output Voltage

CE Input Voltage

IOUT

mA

V

VOUT

VCE

VSS-0.3~VIN+0.3

VSS-0.3~30

V

250

SOT-25

600(wiring on the PCB) *2

500

1300(wiring on the PCB) *2

100

mW

Power Dissipation

SOT-89-5

USP-6C

Pd

(TJ=25℃)

1000(wiring on the PCB) *2

-40~+85

Operating Temperature Range

Storage Temperature Range

Topr

Tstg

℃

-55~+125

*1: IOUT≦Pd / (VIN-VOUT)

*2: The values of power dissipation is a reference data at wiring on the PCB. Please see the condition in page 27.

●XC6701D Series

PARAMETER

Input Voltage

Output Current

Output Voltage

SYMBOL

VIN

RATINGS

UNIT

V

VSS-0.3~30

300 ^(*1)

IOUT

mA

V

VOUT

VSS-0.3~VIN+0.3

SOT-89

500

300

mW

Power Dissipation

SOT-223

Pd

(TJ=25℃)

1500(wiring on the PCB) *2

TO-252

500

Operating Temperature Range

Storage Temperature Range

Topr

Tstg

-40~+85

-55~+125

℃

*1: IOUT≦Pd / (VIN-VOUT)

*2: The values of power dissipation is a reference data at wiring on the PCB. Please see the condition in page 27.

4/32

XC6701

Series

■ELECTRICAL CHARACTERISTICS

●XC6701B Series

Ta=+25℃

PARAMETER

Output Voltage

SYMBOL

CONDITIONS

UNIT CIRCUIT

MIN.

TYP.

MAX.

VOUT(E)

IOUT=10mA, VCE=VIN

E-0

V

①

VIN= VOUT(T)+3.0V , VCE=VIN

（VOUT(T)≧3.0Ｖ）

mA

150

-

Maximum Output Current

IOUTMAX

VIN=VOUT(T)+3.0V, VCE=VIN

(VOUT(T)＜3.0V)

mA

mV

①

100

-

1mA≦IOUT≦50mA , VCE=VIN

1.8V≦VOUT(T)≦5.0V

-

50

90

175

275

1mA≦IOUT≦50mA , VCE=VIN

5.1V≦VOUT(T)≦12.0V

Load Regulation

△VOUT

①

110

180

1mA≦IOUT≦50mA , VCE=VIN

12.1V≦VOUT(T)≦18.0V

Dropout Voltage 1

Dropout Voltage 2

Vdif1

Vdif2

IOUT=20mA, VCE=VIN

IOUT=100mA ,VCE=VIN

1.8V≦VOUT(T)≦5.0V

5.1V≦VOUT(T)≦12.0V

12.1V≦VOUT(T)≦18.0V

VCE=VSS

mV

①

E-2

E-3

50

11

-

105

115

Supply Current

ISS

μA

②

60

65

125

0.10

Stand-by Current

Line Regulation 1

Istby

μA

②

①

0.01

△VOUT /

VOUT(T)+2.0V≦VIN≦28.0V

IOUT=5mA , VCE=VIN

%/V

-

0.05

0.10

△VIN・VOUT(T)

△VOUT /

VOUT(T)+2.0V≦VIN≦28.0V

IOUT=13mA , VCE=VIN

Line Regulation 2

%/V

V

①

-

2.0

-

0.15

-

0.30

28.0

-

△VIN・VOUT(T)

Input Voltage

Output Voltage

VIN

△VOUT /

IOUT=20mA, VCE=VIN

-40℃≦Ta≦85℃

ppm/℃

①

±100

△Ta・VOUT(T)

Temperature Characteristics

VIN=[VOUT(T)+2.0V]+0.5Vp-pAC

IOUT=20mA , f=1kHz , VCE=VIN

Ripple Rejection Rate

PSRR

dB

③

-

50

-

Short Current

Ishort

VCEH

VCEL

ICEH

VIN=VOUT(T)+2.0V , VCE=VIN

VIN=28.0V

mA

V

①

-

40

-

CE ”H” Level Voltage

CE ”L” Level Voltage

CE ”H” Level Current

1.1

0

VIN

0.35

0.1

VIN=28.0V

V

-

VIN=VCE=28.0V

VIN=28.0V, VCE=VSS

μA

-0.1

-

CE ”L” Level Current

Thermal Shutdown

Detect Temperature

Thermal Shutdown Release

Temperature

ICEL

-

TTSD

Junction Temperature

-

150

-

℃

①

TTSR

Junction Temperature

-

125

25

-

℃

①

Hysteresis Width

TTSD-TTSR

-

NOTE:

*1: VOUT(T): Specified output voltage

*2: VOUT(E): Effective output voltage

(i.e. the output voltage when “VOUT(T)+2.0V” is provided at the VIN pin while maintaining a certain IOUT value.)

{Note 4}

*3: Vdif={VIN1^{{Note 5}}- VOUT1

}

*4: VOUT1: A voltage equal to 98% of the output voltage whenever an amply stabilized when VOUT(T) < 3.0V, IOUT{VOUT(T)+3.0V} is input.

: A voltage equal to 98% of the output voltage whenever an amply stabilized when VOUT(T)≧3.0V, IOUT{VOUT(T)+2.0V} is input.

*5: VIN1: The input voltage when VOUT1 appears as input voltage is gradually decreased.

*6: Unless otherwise stated, VIN=VOUT(T)+2.0V.

5/32

XC6701 Series

■ELECTRICAL CHARACTERISTICS (Continued)

●XC6701D Series

Ta=+25℃

TYP.

PARAMETER

Output Voltage

SYMBOL

CONDITIONS

UNIT CIRCUIT

MIN.

MAX.

VOUT(E)

IOUT=10mA

E-0

V

①

VIN= VOUT(T)+3.0V

（VOUT(T)≧3.0Ｖ）

VIN=VOUT(T)+3.0V

(VOUT(T)＜3.0V )

mA

150

-

Maximum Output Current

IOUTMAX

mA

mV

①

100

-

1mA≦IOUT≦50mA

1.8V≦VOUT(T)≦5.0V

1mA≦IOUT≦50mA

5.1V≦VOUT(T)≦12.0V

1mA≦IOUT≦50mA

12.1V≦VOUT(T)≦18.0V

-

50

110

180

90

175

275

Load Regulation

△VOUT

①

Dropout Voltage1

Dropout Voltage2

Vdif1

Vdif2

IOUT=20mA

mV

μA

①

②

E-2

E-3

IOUT =100mA , VCE=VIN

1.8V≦VOUT(T)≦5.0V

11

50

60

65

105

115

125

Supply Current

ISS

5.1V≦VOUT(T)≦12.0V

12.1V≦VOUT(T)≦18.0V

VOUT(T)+2.0V≦VIN≦28.0V

IOUT=5mA

μA

②

①

△VOUT /

△VIN・VOUT(T)

△VOUT /

Line Regulation1

Line Regulation2

%/V

-

0.05

0.10

VOUT(T)+2.0V≦VIN≦28.0V

IOUT=13mA

%/V

V

①

-

2.0

-

0.15

-

0.30

28.0

-

△VIN・VOUT(T)

Input Voltage

VIN

Output Voltage

△VOUT /

IOUT=20mA

-40℃≦Ta≦85℃

ppm/℃

①

±100

Temperature Characteristics △Ta・VOUT(T)

VIN=[VOUT(T)+2.0V]+0.5Vp-pAC

IOUT=20mA , f=1kHz

Ripple Rejection Rate

PSRR

Ishort

TTSD

dB

mA

℃

③

①

-

50

40

-

Short Current

Thermal Shutdown Detect

Temperature

VIN=VOUT(T)+2.0V

Junction Temperature

150

Thermal Shutdown Release

Temperature

TTSR

Junction Temperature

-

125

25

-

℃

①

Hysteresis Width

TTSD-TTSR

-

NOTE:

*1: VOUT(T): Specified output voltage

*2: VOUT(E): Effective output voltage

(i.e. the output voltage when “VOUT(T)+2.0V” is provided at the VIN pin while maintaining a certain IOUT value.)

{Note 4}

*3: Vdif={VIN1^{{Note 5}}- VOUT1

}

*4: VOUT1: A voltage equal to 98% of the output voltage whenever an amply stabilized when VOUT(T) < 3.0V, IOUT{VOUT(T)+3.0V} is input.

: A voltage equal to 98% of the output voltage whenever an amply stabilized when VOUT(T)≧3.0V, IOUT{VOUT(T)+2.0V} is input.

*5: VIN1: The input voltage when VOUT1 appears as input voltage is gradually decreased.

*6: Unless otherwise stated, VIN=VOUT(T)+2.0V.

6/32

XC6701

Series

■ELECTRICAL CHARACTERISTICS (Continued)

●Voltage Chart

SYMBOL

E-0

E-2

E-3

PARAMETER

DROPOUT VOLTAGE 1

(mV)

DROPOUT VOLTAGE 2

(mV)

OUTPUT VOLTAGE（V）

(2% products)

I_OUT=20mA

I_OUT=100mA

SETTING

OUTPUT

VOLTAGE (V)

V_OUT(T)

(V)

V_OUT

Vdif1

Vdif2

MIN.

1.764

1.862

1.960

2.058

2.156

2.254

2.352

2.450

2.548

2.646

2.744

2.842

2.940

3.038

3.136

3.234

3.332

3.430

3.528

3.626

3.724

3.822

3.920

4.018

4.116

4.214

4.312

4.410

4.508

4.606

4.704

4.802

4.900

4.998

5.096

5.194

5.292

5.390

5.488

5.586

5.684

5.782

5.880

MAX.

1.836

1.938

2.040

2.142

2.244

2.346

2.448

2.550

2.652

2.754

2.856

2.958

3.060

3.162

3.264

3.366

3.468

3.570

3.672

3.774

3.876

3.978

4.080

4.182

4.284

4.386

4.488

4.590

4.692

4.794

4.896

4.998

5.100

5.202

5.304

5.406

5.508

5.610

5.712

5.814

5.916

6.018

6.120

TYP.

550

450

390

310

260

220

190

MAX.

710

600

520

450

360

320

280

TYP.

2200

1900

1700

1500

1300

1100

1000

MAX.

2700

2600

2200

1900

1700

1500

1300

1.8

1.9

2.0

2.1

2.2

2.3

2.4

2.5

2.6

2.7

2.8

2.9

3.0

3.1

3.2

3.3

3.4

3.5

3.6

3.7

3.8

3.9

4.0

4.1

4.2

4.3

4.4

4.5

4.6

4.7

4.8

4.9

5.0

5.1

5.2

5.3

5.4

5.5

5.6

5.7

5.8

5.9

6.0

7/32

XC6701 Series

■ELECTRICAL CHARACTERISTICS (Continued)

●Voltage Chart (Continued)

SYMBOL

E-0

E-2

E-3

PARAMETER

DROPOUT VOLTAGE 1

(mV)

DROPOUT VOLTAGE 2

(mV)

OUTPUT VOLTAGE（V）

(2% products)

I_OUT=20mA

I_OUT=100mA

SETTING

OUTPUT

VOLTAGE (V)

V_OUT(T)

(V)

V_OUT

Vdif1

Vdif2

MIN.

5.978

6.076

6.174

6.272

6.370

6.468

6.566

6.664

6.762

6.860

6.958

7.056

7.154

7.252

7.350

7.448

7.546

7.644

7.742

7.840

7.938

8.036

8.134

8.232

8.330

8.428

8.526

8.624

8.722

8.820

8.918

9.016

9.114

9.212

9.310

9.408

9.506

9.604

9.702

9.800

MAX.

6.222

6.324

6.426

6.528

6.630

6.732

6.834

6.936

7.038

7.140

7.242

7.344

7.446

7.548

7.650

7.752

7.854

7.956

8.058

8.160

8.262

8.364

8.466

8.568

8.670

8.772

8.874

8.976

9.078

9.180

9.282

9.384

9.486

9.588

9.690

9.792

9.894

9.996

10.098

10.200

TYP.

190

170

130

MAX.

280

230

190

TYP.

1000

800

700

MAX.

1300

1150

950

6.1

6.2

6.3

6.4

6.5

6.6

6.7

6.8

6.9

7.0

7.1

7.2

7.3

7.4

7.5

7.6

7.7

7.8

7.9

8.0

8.1

8.2

8.3

8.4

8.5

8.6

8.7

8.8

8.9

9.0

9.1

9.2

9.3

9.4

9.5

9.6

9.7

9.8

9.9

10.0

950

8/32

XC6701

Series

■ELECTRICAL CHARACTERISTICS (Continued)

●Voltage Chart (Continued)

SYMBOL

E-0

E-1

E-2

PARAMETER

DROPOUT VOLTAGE 1

(mV)

DROPOUT VOLTAGE 2

(mV)

OUTPUT VOLTAGE（V）

(2% products)

I_OUT=20mA

I_OUT=100mA

SETTING

OUTPUT

VOLTAGE (V)

V_OUT(T)

(V)

V_OUT

Vdif1

Vdif2

MIN.

MAX.

TYP.

120

MAX.

170

TYP.

650

MAX.

850

10.1

10.2

10.3

10.4

10.5

10.6

10.7

10.8

10.9

11.0

11.1

11.2

11.3

11.4

11.5

11.6

11.7

11.8

11.9

12.0

12.1

12.2

12.3

12.4

12.5

12.6

12.7

12.8

12.9

13.0

13.1

13.2

13.3

13.4

13.5

13.6

13.7

13.8

13.9

14.0

9.898

10.302

10.404

10.506

10.608

10.710

10.812

10.914

11.016

11.118

11.220

11.322

11.424

11.526

11.628

11.730

11.832

11.934

12.036

12.138

12.240

12.342

12.444

12.546

12.648

12.750

12.852

12.954

13.056

13.158

13.260

13.362

13.464

13.566

13.668

13.770

13.872

13.974

14.076

14.178

14.280

9.996

10.094

10.192

10.290

10.388

10.486

10.584

10.682

10.780

10.878

10.976

11.074

11.172

11.270

11.368

11.466

11.564

11.662

11.760

11.858

11.956

12.054

12.152

12.250

12.348

12.446

12.544

12.642

12.740

12.838

12.936

13.034

13.132

13.230

13.328

13.426

13.524

13.622

13.720

9/32

XC6701 Series

■OUTPUT VOLTAGE CHART (Continued)

●Voltage Chart (Continued)

SYMBOL

E-0

E-1

E-2

PARAMETER

DROPOUT VOLTAGE 1

(mV)

DROPOUT VOLTAGE 2

(mV)

OUTPUT VOLTAGE（V）

(2% products)

I_OUT=20mA

I_OUT=100mA

SETTING

OUTPUT

VOLTAGE (V)

V_OUT(T)

(V)

V_OUT

Vdif1

Vdif2

MIN.

MAX.

TYP.

120

MAX.

170

TYP.

650

MAX.

850

14.1

14.2

14.3

14.4

14.5

14.6

14.7

14.8

14.9

15.0

15.1

15.2

15.3

15.4

15.5

15.6

15.7

15.8

15.9

16.0

16.1

16.2

16.3

16.4

16.5

16.6

16.7

16.8

16.9

17.0

17.1

17.2

17.3

17.4

17.5

17.6

17.7

17.8

17.9

18.0

13.818

13.916

14.014

14.112

14.210

14.308

14.406

14.504

14.602

14.700

14.798

14.896

14.994

15.092

15.190

15.288

15.386

15.484

15.582

15.680

15.778

15.876

15.974

16.072

16.170

16.268

16.366

16.464

16.562

16.660

16.758

16.856

16.954

17.052

17.150

17.248

17.346

17.444

17.542

17.640

14.382

14.484

14.586

14.688

14.790

14.892

14.994

15.096

15.198

15.300

15.402

15.504

15.606

15.708

15.810

15.912

16.014

16.116

16.218

16.320

16.422

16.524

16.626

16.728

16.830

16.932

17.034

17.136

17.238

17.340

17.442

17.544

17.646

17.748

17.850

17.952

18.054

18.156

18.258

18.360

10/32

XC6701

Series

■OPERATIONAL EXPLANATION

R1

R2

The voltage divided by resistors R1 & R2 is compared with the internal reference voltage by the error amplifier. The

P-channel MOSFET, which is connected to the VOUT pin, is then driven by the subsequent output signal. The output

voltage at the VOUT pin is controlled and stabilized by a system of negative feedback. The current limit circuit and short

protect circuit operate in relation to the level of output current and heat dissipation. Further, the IC’s internal circuitry can

be shutdown via the CE pin’s signal.

<Short-Circuit Protection>

The XC6701 series includes a current fold-back circuit as a short circuit protection. When the load current reaches the

current limit level, the current fold-back circuit operates and output voltage drops. The output voltage drops further and

output current decreases. When the output pin is shorted, a current of about 30mA flows.

The IC’s internal circuitry can be shutdown via the signal from the CE pin with the XC6701B series. In shutdown mode,

output at the VOUT pin will be pulled down by R1 and R2 to the VSS level. Note that as the XC6701B series’ operations will

become unstable with the CE pin open. We suggest that you use this IC with either a VIN voltage or a VSS voltage input at

the CE pin. If this IC is used with the correct specifications for the CE pin, the operational logic is fixed and the IC will

operate normally. However, supply current may increase as a result of through current in the IC’s internal circuitry if a

medium voltage is applied.

When the junction temperature of the built-in driver transistor reaches the temperature limit level (150℃ TYP.), the thermal

shutdown circuit operates and the driver transistor will be set to OFF. The IC resumes its operation when the thermal

shutdown function is released and the IC’s operation is automatically restored because the junction temperature drops to

the level of the thermal shutdown release voltage.

For the stable operation of the IC, over 2.0V of input voltage is necessary. The output voltage may not be generated

normally if the input voltage is less than 2.0V.

■NOTES ON USE

1． Please use this IC within the stated absolute maximum ratings. The IC is liable to malfunction should the ratings be

exceeded.

2． Where wiring impedance is high, operations may become unstable due to the noise and/or phase lag depending on output

current. Please strengthen VIN and VSS wiring in particular.

3. Phase compensation inside the IC is performed in the XC6701 series. Therefore, an abnormal oscillation does not occur

even if there is no output capacitor CL. An input capacitor CIN around 0.1μF~1.0μF between the VIN pin and the VSS pin

is required for input stability. Also, the output voltage fluctuation such as under shoot or over shoot, which occurs

because of the load change can be controlled by placing the output capacitor CL around 0.1μF~1.0μF between the VOUT

pin and VSS pin. The input capacitor (CIN) and the output capacitor (CL) should be placed to the IC as close as possible

with a shorter wiring.

4. When the IC is operated with no load, the output voltage may increase in the high temperature beyond operating

range.

11/32

XC6701 Series

■TEST CIRCUITS

Circuit ①

●XC6701B Series

●XC6701D Series

CIN=1μF

CL=1μF

Circuit ②

●XC6701B Series

●XC6701D Series

CIN=1μF

Circuit ③

●XC6701B Series

●XC6701D Series

CL=1μF

12/32

XC6701

Series

■TYPICAL PERFORMANCE CHARACTERISTICS

（1） Output Voltage vs. Output Current

XC6701B/D 182

V_IN=V_CE=4.8V, C_IN=C_L=1.0μF (ceramic)

XC6701B/D 182

V_IN=V_CE, C_IN=C_L=1.0μF (ceramic), Ta=25℃

2.0

1.8

1.6

1.4

1.2

1.0

0.8

0.6

0.4

0.2

0.0

2.0

1.8

1.6

1.4

1.2

1.0

0.8

0.6

0.4

0.2

0.0

VIN=2.8V

VIN=3.8V

VIN=4.8V

Ta=-40℃

Ta=25℃

Ta=85℃

0

50

100 150 200 250 300

0

50

100 150 200 250 300

Output Current : I_OUT(mA)

XC6701B/D 502

V_IN=V_CE=8.0V, C_IN=C_L=1.0μF (ceramic)

V_IN=V_CE, C_IN=C_L=1.0μF (ceramic), Ta=25℃

6.0

5.0

4.0

3.0

2.0

1.0

0.0

6.0

5.0

4.0

3.0

2.0

1.0

0.0

VIN=6V

VIN=7V

VIN=8V

Ta=-40℃

Ta=25℃

Ta=85℃

0

50

100 150 200 250 300

0

50

100 150 200 250 300

Output Current : I_OUT(mA)

XC6701B/D C02

V_IN=V_CE=15.0V, C_IN=C_L=1.0μF (ceramic)

V_IN=V_CE, C_IN=C_L=1.0μF (ceramic), Ta=25℃

14.0

12.0

10.0

8.0

14.0

12.0

10.0

8.0

Ta=-40℃

Ta=25℃

Ta=85℃

VIN=13V

VIN=14V

VIN=15V

6.0

4.0

2.0

0.0

0

50

100 150 200 250 300

0

50

100 150 200 250 300

Output Current : I_OUT(mA)

13/32

XC6701 Series

■TYPICAL PERFORMANCE CHARACTERISTICS (Continued)

（1） Output Voltage vs. Output Current (Continued)

XC6701B/D J02

V_IN=V_CE=21.0, C_IN=C_L=1.0μF (ceramic)

20.0

V_IN=V_CE, C_IN=C_L=1.0μF (ceramic), Ta=25℃

20.0

18.0

16.0

Ta=-40℃

14.0

12.0

10.0

8.0

Ta=25℃

Ta=85℃

VIN=19V

VIN=20V

VIN=21V

12.0

10.0

8.0

6.0

4.0

2.0

0.0

0

50

100 150 200 250 300

0

50

100 150 200 250 300

Output Current : I_OUT(mA)

（2） Output Voltage vs. Input Voltage

XC6701B/D 182

V_IN=V_CE, C_IN=C_L=1.0μF(ceramic), Ta=25℃

V_IN=V_CE, C_IN=C_L=1.0μF(ceramic),Ta=25℃

2.1

2.0

1.9

1.8

1.7

1.6

1.5

2.0

1.9

1.8

1.7

IOUT=1mA

IOUT=10mA

IOUT=30mA

IOUT=1mA

1.6

1.5

IOUT=10mA

IOUT=30mA

4

8

12

16

20

24

28

0.8

1.8

2.8

3.8

Input Voltage : V_IN(V)

XC6701B/D 502

V_IN=V_CE, C_IN=C_L=1.0μF(ceramic), Ta=25℃

XC6701B/D 502

V_IN=V_CE, C_IN=C_L=1.0μF(ceramic), Ta=25℃

6.0

5.8

5.6

5.4

5.2

5.0

4.8

4.6

4.4

4.2

4.0

6.0

5.8

5.6

5.4

5.2

5.0

4.8

4.6

4.4

4.2

4.0

IOUT=1mA

IOUT=10mA

IOUT=30mA

IOUT=1mA

IOUT=10mA

IOUT=30mA

4.0

4.5

5.0

5.5

6.0

8

12

16

20

24

28

Input Voltage : V_IN(V)

14/32

XC6701

Series

■TYPICAL PERFORMANCE CHARACTERISTICS (Continued)

（2） Output Voltage vs. Input Voltage (Continued)

XC6701B/D C02

V_IN=V_CE, C_IN=C_L=1.0μF(ceramic), Ta=25℃

V_IN=V_CE,C_IN=C_L=1.0μF(ceramic), Ta=25℃

15.0

14.0

13.0

12.0

11.0

10.0

9.0

15.0

14.0

13.0

12.0

11.0

10.0

9.0

IOUT=1mA

IOUT=10mA

IOUT=30mA

IOUT=1mA

IOUT=10mA

IOUT=30mA

14 16 18 20 22 24 26 28

Input Voltage : V_IN(V)

10

11

12

13

14

Input Voltage : V_IN(V)

XC6701B/D J02

V_IN=V_CE, C_IN=C_L=1.0μF(ceramic), Ta=25℃

V_IN=V_CE,C_IN=C_L=1.0μF(ceramic), Ta=25℃

21.0

20.0

19.0

18.0

17.0

16.0

15.0

21.0

20.0

19.0

18.0

17.0

16.0

15.0

IOUT=1mA

IOUT=10mA

IOUT=30mA

IOUT=10mA

IOUT=30mA

20

22

24

26

28

16

17

18

19

20

Input Voltage : V_IN(V)

（3） Dropout Voltage vs. Output Current

XC6701B/D 182

XC6701B/D 502

V_IN=V_CE, C_IN=C_L=1.0μF(ceramic)

4.0

Ta=85℃

3.5

3.0

2.5

2.0

1.5

1.0

0.5

0.0

Ta=25℃

Ta=-40℃

3.0

Ta=-40℃

2.5

2.0

1.5

1.0

0.5

0.0

0

25

50

75

100

125

150

0

25

50

75

100

125 150

Output Current : I_OUT(mA)

15/32

XC6701 Series

■TYPICAL PERFORMANCE CHARACTERISTICS (Continued)

（3） Dropout Voltage vs. Output Current (Continued)

XC6701B/D C02

XC6701B/D J02

V_IN=V_CE, C_IN=C_L=1.0μF(ceramic)

4.0

3.5

3.0

2.5

2.0

1.5

1.0

0.5

0.0

4.0

3.5

3.0

2.5

2.0

1.5

1.0

0.5

0.0

Ta=85℃

Ta=25℃

Ta=-40℃

0

25

50

75

100

125

150

0

25

50

75

100

125

150

Output Current : I_OUT(mA)

（4） Supply Current vs. Input Voltage

XC6701B/D 182

VIN=3.8V

70

60

50

40

30

20

10

0

70

60

50

40

30

20

Ta=85℃

Ta=25℃

10

Ta=-40℃

24 28

0

4

8

12

16

20

-40 -20

0

20

40

60

80 100

Input Voltage : V_IN(V)

Ambient Temperature : Ta (℃)

XC6701B/D 502

VIN=7.0V

70

60

50

40

30

20

10

0

70

60

50

40

30

20

10

0

Ta=85℃

Ta=25℃

Ta=-40℃

0

4

8

12

16

20

24

28

-40 -20

0

20

40

60

80 100

Input Voltage : V_IN(V)

Ambient Temperature : Ta (℃)

16/32

XC6701

Series

■TYPICAL PERFORMANCE CHARACTERISTICS (Continued)

（4） Supply Current vs. Input Voltage (Continued)

XC6701B/D C02

VIN=14.0V

70

60

50

40

30

20

10

0

70

60

50

40

30

20

10

0

Ta=85℃

Ta=25℃

Ta=-40℃

0

4

8

12

16

20

24

28

-40 -20

0

20

40

60

80 100

Input Voltage : V_IN(V)

Ambient Temperature : Ta (℃)

XC6701B/D J02

VIN=20.0V

70

60

50

40

30

20

10

0

70

60

50

40

30

20

10

0

Ta=85℃

Ta=25℃

Ta=-40℃

0

4

8

12

16

20

24

28

-40 -20

0

20

40

60

80 100

Input Voltage : V_IN(V)

Ambient Temperature : Ta (℃)

（5） Output Voltage vs. Ambient Temperature

XC6701B/D 182

XC6701B/D 502

V_IN=V_CE, C_IN=C_L=1.0μF(ceramic)

2.00

5.20

5.15

5.10

5.05

5.00

4.95

4.90

4.85

4.80

1.95

1.90

1.85

1.80

1.75

IOUT=1mA

1.70

IOUT=1mA

IOUT=10mA

IOUT=20mA

IOUT=10mA

1.65

1.60

IOUT=20mA

-50 -25

0

25

Ambient Temperature : Ta (℃）

50

75

100

-50 -25

0

25

Ambient Temperature : Ta (℃）

50

75

100

17/32

XC6701 Series

■TYPICAL PERFORMANCE CHARACTERISTICS (Continued)

（5）Output Voltage vs. Ambient Temperature (Continued)

XC6701B/D C02

XC6701B/D J02

V_IN=V_CE, C_IN=C_L=1.0μF(ceramic)

19.0

18.8

18.6

18.4

18.2

18.0

17.8

17.6

17.4

17.2

17.0

12.5

12.4

12.3

12.2

12.1

12.0

11.9

11.8

11.7

11.6

11.5

IOUT=1mA

IOUT=10mA

IOUT=20mA

IOUT=1mA

IOUT=10mA

IOUT=20mA

-50 -25

0

25

Ambient Temperature : Ta (℃）

50

75

100

-50 -25

0

25

Ambient Temperature : Ta (℃）

50

75

100

（6） Input Transient Response

XC6701B/D 332

I_OUT=30mA, tr=tf=5μs

I_OUT=1mA, tr=tf=5μs

C_L=1.0μF (ceramic), Ta=25℃

7.3

6.3

5.3

4.3

3.3

2.3

1.3

^{C =1.0μF (ceramic), Ta=25}3^℃.38

7.3

3.38

3.36

3.34

3.32

3.30

3.28

3.26

L

3.36

6.3

5.3

4.3

3.3

2.3

1.3

Input Voltage

3.34

3.32

3.30

3.28

3.26

Output Voltage

Time (1ms/div)

XC6701B/D 502

I_OUT=1mA, tr=tf=5μs

I_OUT=30mA, tr=tf=5μs

C_L=1.0μF (ceramic), Ta=25℃

^{C =1.0μF (ceramic), Ta=25℃}5.08

L

9

8

7

6

5

4

3

5.08

5.06

5.04

5.02

5.00

4.98

4.96

9

8

7

6

5

4

3

5.06

Input Voltage

5.04

5.02

5.00

4.98

4.96

Output Voltage

Time (1ms/div)

Output Voltage

Time (1ms/div)

18/32

XC6701

Series

■TYPICAL PERFORMANCE CHARACTERISTICS (Continued)

（6） Input Transient Response (Continued)

XC6701B/D C02

I_OUT=1mA, tr=tf=5μs

I_OUT=30mA, tr=tf=5μs

C_L=1.0μF (ceramic), Ta=25℃

^{C =1.0μF (ceramic), Ta=25℃}12.08

L

16

15

14

13

12

11

10

12.08

12.06

12.04

12.02

12.00

11.98

11.96

16

15

14

13

12

11

10

12.06

Input Voltage

12.04

12.02

12.00

11.98

11.96

Output Voltage

Time (1ms/div)

Output Voltage

Time (1ms/div)

XC6701B/D J02

I_OUT=1mA, tr=tf=5μs

I_OUT=30mA, tr=tf=5μs

C_L=1.0μF (ceramic), Ta=25℃

22

21

20

19

18

17

16

18.12

18.09

18.06

18.03

18.00

17.97

17.94

22

18.12

18.09

18.06

18.03

18.00

17.97

17.94

21

20

19

18

17

16

Input Voltage

Output Voltage

Time (1ms/div)

Output Voltage

Time (1ms/div)

（7） Load Transient Response

XC6701B/D 332

XC6701B/D 502

V_IN=7.0V, tr=tf=5μs

V_IN=5.3V, tr=tf=5μs

C_IN=C_L=1.0μF (ceramic), Ta=25℃

3.6

3.5

3.4

3.3

3.2

3.1

3.0

2.9

2.8

2.7

2.6

150

5.4

150

5.3

5.2

5.1

5.0

4.9

4.8

4.7

4.6

4.5

4.4

120

90

60

30

0

120

90

60

30

0

Output Voltage

Output Current

Time (1ms/div)

Output Current

Time (1ms/div)

19/32

XC6701 Series

■TYPICAL PERFORMANCE CHARACTERISTICS (Continued)

（7） Load Transient Response (Continued)

XC6701B/D C02

V_IN=14.0V, tr=tf=5μs

XC6701B/D J02

V_IN=20.0V, tr=tf=5μs

C_IN=C_L=1.0μF (ceramic), Ta=25℃

12.6

12.4

12.2

12.0

11.8

11.6

11.4

11.2

11.0

10.8

10.6

150

120

90

60

30

0

18.6

18.4

18.2

18.0

17.8

17.6

17.4

17.2

17.0

16.8

16.6

150

120

90

60

30

0

Output Voltage

Output Current

Time (1ms/div)

Output Current

Time (1ms/div)

（8） Rising Response Time

XC6701B 332

V_IN=5.3V, tr=5μs

I

_OUT=30mA, C_L=1μF (ceramic), Ta=25℃

I

_OUT=1mA, C_L=1μF (ceramic), Ta=25℃

8

6

8

7

6

5

4

3

2

1

0

8

6

8

7

6

5

4

3

2

1

0

Input Voltage

4

2

0

-2

-4

-6

-8

-2

-4

-6

-8

Output Voltage

Time (1ms/div)

XC6701B 502

V_IN=7.0V, tr=5μs

I

_OUT=30mA, C_L=1μF (ceramic), Ta=25℃

I

_OUT=1mA, C_L=1μF (ceramic), Ta=25℃

8

6

8

7

6

5

4

3

2

1

0

8

6

8

7

6

5

4

3

2

1

0

Input Voltage

4

2

Output Voltage

0

-2

-4

-6

-8

-2

-4

-6

-8

Time (1ms/div)

20/32

XC6701

Series

■TYPICAL PERFORMANCE CHARACTERISTICS (Continued)

（8） Rising Response Time (Continued)

XC6701B C02

V_IN=14.0V, tr=5μs

XC6701B C02

V_IN=14.0V, tr=5μs

I

_OUT=30mA, C_L=1μF (ceramic), Ta=25℃

I

_OUT=1mA, C_L=1μF (ceramic), Ta=25℃

15

10

5

18

15

12

9

15

10

5

18

15

12

9

Input Voltage

Output Voltage

0

-5

-10

-15

6

-5

-10

-15

6

3

0

Time (1ms/div)

XC6701B J02

V_IN=20.0V, tr=5μs

I

_OUT=1mA, C_L=1μF (ceramic), Ta=25℃

I

_OUT=30mA, C_L=1μF (ceramic), Ta=25℃

20

16

12

8

20

18

16

14

12

10

8

20

16

12

8

20

18

16

14

12

10

8

Output Voltage

4

0

Input Voltage

-4

-8

-12

-16

-20

-4

-8

-12

-16

-20

6

4

2

0

Time (1ms/div)

（9） CE Rising Response Time

XC6701B 332

V_IN=5.3V, tr=5μs

I_OUT=30mA, C_L=1μF (ceramic), Ta=25℃

I_OUT

L

^{=1mA, C =1μF (cera}O^miu^c)t^{, T}p^au⁼t²⁵V^℃oltage

8

6

8

6

8

7

6

5

4

3

2

1

0

CE Input Voltage

6

CE Input Voltage

Output Voltage

4

2

5

4

2

0

-2

-4

-6

-8

3

-2

-4

-6

-8

Output Voltage

2

1

0

Time (1ms/div)

21/32

XC6701 Series

■TYPICAL PERFORMANCE CHARACTERISTICS (Continued)

（9） CE Rising Response Time (Continued)

XC6701B 502

V_IN=7.0V, tr=5μs

XC6701B 502

V_IN=7.0V, tr=5μs

I

_OUT=30mA, C_L=1μF (ceramic), Ta=25℃

I

_OUT=1mA, C_L=1μF (ceramic), Ta=25℃

8

6

8

7

6

5

4

3

2

1

0

8

6

8

7

6

5

4

3

2

1

0

CE Input Voltage

Output Voltage

4

2

Output Voltage

0

-2

-4

-6

-8

-2

-4

-6

-8

Time (1ms/div)

XC6701B C02

V_IN=14.0V, tr=5μs

XC6701B C02

V_IN=14.0V, tr=5μs

I

_OUT=30mA, C_L=1μF (ceramic), Ta=25℃

I

_OUT=1mA, C_L=1μF (ceramic), Ta=25℃

15

18

15

12

9

15

10

5

18

CE Input Voltage

Output Voltage

10

5

15

12

9

Output Voltage

0

-5

-10

-15

6

-5

-10

-15

6

3

0

Time (1ms/div)

XC6701B J02

V_IN=20.0V, tr=5μs

I_OUT=1mA, C_L=1μF (ceramic), Ta=25℃

I_OUT=30mA, C_L=1μF (ceramic), Ta=25℃

20

16

12

8

20

18

16

14

12

10

8

20

18

16

14

12

10

8

16

12

8

Output Voltage

4

0

CE Input Voltage

-4

-8

-12

-16

-20

-4

-8

-12

-16

-20

6

4

2

0

Time (1ms/div)

22/32

XC6701

Series

■TYPICAL PERFORMANCE CHARACTERISTICS (Continued)

（10） Ripple Rejection Rate

XC6701B/D 332

V_IN=V_CE=5.3Vdc+0.5Vp-p, I_OUT=1mA

V_IN=V_CE=5.3Vdc+0.5Vp-p, I_OUT=30mA

C_L=1μF(ceramic),Ta=25℃

90

80

70

60

50

40

30

20

10

0

90

80

70

60

50

40

30

20

10

0

0.01

0.1

1

10

100

0.01

0.1

1

10

100

Ripple Frequency: f (kHz)

XC6701B/D 502

V_IN=V_CE=7.0Vdc+0.5Vp-p, I_OUT=30mA

C_L=1μF(ceramic),Ta=25℃

V_IN=V_CE=7.0Vdc+0.5Vp-p, I_OUT=1mA

C_L=1μF(ceramic),Ta=25℃

90

80

70

60

50

40

30

20

10

0

90

80

70

60

50

40

30

20

10

0

0.01

0.1

1

10

100

0.01

0.1

1

10

100

Ripple Frequency: f (kHz)

XC6701B/D C02

V_IN=V_CE=14.0Vdc+0.5Vp-p, I_OUT=1mA

C_L=1μF(ceramic),Ta=25℃

V_IN=V_CE=14.0Vdc+0.5Vp-p, I_OUT=30mA

C_L=1μF(ceramic),Ta=25℃

90

80

70

60

50

40

30

20

10

0

90

80

70

60

50

40

30

20

10

0

0.01

0.1

1

10

100

0.01

0.1

1

10

100

Ripple Frequency: f (kHz)

23/32

XC6701 Series

■TYPICAL PERFORMANCE CHARACTERISTICS (Continued)

（10） Ripple Rejection Rate (Continued)

XC6701B/D J02

V_IN=V_CE=14.0Vdc+0.5Vp-p, I_OUT=1mA

V_IN=V_CE=14.0Vdc+0.5Vp-p, I_OUT=30mA

C_L=1μF(ceramic),Ta=25℃

90

80

70

60

50

40

30

20

10

0

90

80

70

60

50

40

30

20

10

0

0.01

0.1

1

10

100

0.01

0.1

1

10

100

Ripple Frequency: f (kHz)

24/32

XC6701

Series

■PACKAGING INFORMATION

●SOT-89-5

●SOT-25

4.5±0.1

2.9±0.2

+0.15

-0.2

1.6

+0.1

0.4 -0.05

0.42±0.06

+0.03

-0.02

0.42±0.06

0.4

5

1

4

2

4

5

0.05±0.05

Φ1.0

2

3

+0.1

(0.95)

0.15

-0.05

1.9±0.2

1

2

3

0.4 ⁺^-^0.03²

0.42±0.06

0.47±0.06

0.42±0.06

8

°

1.5±0.1

●SOT-89

●USP-6C

Note: The side of pins are not gilded, but nickel is used.

25/32

XC6701 Series

■PACKAGING INFORMATION (Continued)

●SOT-223

.

●TO-252

6. 55±0. 2

5. 3 ±0. 2

0. 5 ±0. 1

.

0. 75±0. 15

0. 5 ±0. 1

.

（2. 28）

26/32

XC6701

Series

■PACKAGING INFORMATION (Continued)

●USP-6C Reference Pattern Layout

●USP-6C Reference Metal Mask Design

27/32

XC6701 Series

■PACKAGING INFORMATION (Continued)

●

SOT-25 Power Dissipation

Power dissipation data for the SOT-25 is shown in this page.

The value of power dissipation varies with the mount board conditions.

Please use this data as one of reference data taken in the described condition.

1. Measurement Condition (Reference data)

Condition:

Ambient:

Soldering:

Board:

Mount on a board

Natural convection

Lead (Pb) free

Dimensions 40 x 40 mm (1600 mm²in one side)

Copper (Cu) traces occupy 50% of the board area

In top and back faces

Package heat-sink is tied to the copper traces

(Board of SOT-26 is used.)

Glass Epoxy (FR-4)

Material:

Thickness:

1.6 mm

Through-hole: 4 x 0.8 Diameter

評価基板レイアウト（単位：mm）

Evaluation Board (Unit: mm)

2. Power Dissipation vs. Operating temperature

Board Mount (Tj max = 125℃)

Ambient Temperature（℃）

Power Dissipation Pd（mW） Thermal Resistance (℃/W)

25

85

600

240

166.67

Pd-Ta特性グラフ

Pd vs. Ta

700

600

500

400

300

200

100

0

25

45

65

85

105

125

Ambient Temperature Ta (℃)

周辺温度Ta（℃）

28/32

XC6701

Series

■PACKAGING INFORMATION (Continued)

●

SOT-89-5 Power Dissipation

Power dissipation data for the SOT-89-5 is shown in this page.

The value of power dissipation varies with the mount board conditions.

Please use this data as one of reference data taken in the described condition.

1. Measurement Condition (Reference data)

Condition:

Ambient:

Soldering:

Board:

Mount on a board

て

Natural convection

Lead (Pb) free

Dimensions 40 x 40 mm (1600 mm²in one side)

Copper (Cu) traces occupy 50% of the board area

In top and back faces

Package heat-sink is tied to the copper traces

Glass Epoxy (FR-4)

Material:

Thickness:

1.6 mm

Through-hole: 5 x 0.8 Diameter

Evaluation Board (Unit: mm)

2. Power Dissipation vs. Operating temperature

Board Mount (Tj max = 125℃)

Ambient Temperature（℃）

Power Dissipation Pd（mW） Thermal Resistance (℃/W)

25

85

1300

76.92

520

グラフ

Pd-Ta特性

Pd vs. Ta

1400

1200

1000

800

600

400

200

0

25

45

65

85

105

125

Ambient Temperature Ta (℃)

Ta（℃）

周辺温度

29/32

XC6701 Series

■PACKAGING INFORMATION (Continued)

●

USP-6C Power Dissipation

Power dissipation data for the USP-6C is shown in this page.

The value of power dissipation varies with the mount board conditions.

Please use this data as one of reference data taken in the described condition.

1. Measurement Condition (Reference data)

Condition:

Ambient:

Soldering:

Board:

Mount on a board

て

Natural convection

Lead (Pb) free

Dimensions 40 x 40 mm (1600 mm²in one side)

Copper (Cu) traces occupy 50% of the board area

In top and back faces

Package heat-sink is tied to the copper traces

Glass Epoxy (FR-4)

Material:

Thickness:

1.6 mm

Through-hole: 4 x 0.8 Diameter

Evaluation Board (Unit: mm)

2. Power Dissipation vs. Operating temperature

Board Mount (Tj max = 125℃)

Ambient Temperature（℃）

Power Dissipation Pd（mW） Thermal Resistance (℃/W)

25

85

1000

100.00

400

グラフ

Pd-Ta特性

Pd vs. Ta

1200

1000

800

600

400

200

0

25

45

65

85

105

125

Ambient Temperature Ta (℃)

Ta（℃）

周辺温度

30/32

XC6701

Series

■PACKAGING INFORMATION (Continued)

●

SOT-223 Power Dissipation

Power dissipation data for the SOT-223 is shown in this page.

The value of power dissipation varies with the mount board conditions.

Please use this data as one of reference data taken in the described condition.

1. Measurement Condition (Reference data)

Condition:

Ambient:

Soldering:

Board:

Mount on a board

Natural convection

Lead (Pb) free

Dimensions 40 x 40 mm (1600 mm²in one side)

Copper (Cu) traces occupy 50% of the board area

In top and back faces

Package heat-sink is tied to the copper traces

Glass Epoxy (FR-4)

Material:

Thickness:

1.6 mm

Through-hole: 4 x 0.8 Diameter

Evaluation Board (Unit: mm)

2. Power Dissipation vs. Operating temperature

Board Mount (Tj max = 125℃)

Ambient Temperature（℃）

Power Dissipation Pd（mW） Thermal Resistance (℃/W)

25

85

1500

600

66.67

Pd-Ta特性グラフ

Pd vs. Ta

1600

1400

1200

1000

800

600

400

200

0

25

45

65

85

105

125

周辺温度Ta（℃）

Ambient Temperature Ta (℃)

31/32

XC6701 Series

1. The products and product specifications contained herein are subject to change without

notice to improve performance characteristics. Consult us, or our representatives

before use, to confirm that the information in this datasheet is up to date.

2. We assume no responsibility for any infringement of patents, patent rights, or other

rights arising from the use of any information and circuitry in this datasheet.

3. Please ensure suitable shipping controls (including fail-safe designs and aging

protection) are in force for equipment employing products listed in this datasheet.

4. The products in this datasheet are not developed, designed, or approved for use with

such equipment whose failure of malfunction can be reasonably expected to directly

endanger the life of, or cause significant injury to, the user.

(e.g. Atomic energy; aerospace; transport; combustion and associated safety

equipment thereof.)

5. Please use the products listed in this datasheet within the specified ranges.

Should you wish to use the products under conditions exceeding the specifications,

please consult us or our representatives.

6. We assume no responsibility for damage or loss due to abnormal use.

prior permission of TOREX SEMICONDUCTOR LTD.

32/32


型号：	XC6701DJ2MR
厂家：	Torex Semiconductor
描述：	28V Operation High Speed Voltage Regulators with Stand-by Function 28V操作的高速电压调整器与待机功能
文件：	总32页 (文件大小：483K)
中文：	中文翻译
下载：	下载PDF数据表文档文件

XC6701DJ2MR [TOREX]

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