DCX114TU-7-F_技术文档

SPICE MODELS: DCX124EU DCX144EU DCX114YU DCX123JU DCX114EU DCX143TU DCX114TU

DCX (xxxx) U

SMALL SIGNAL COMPLEMENTARY PRE-BIASED DUAL TRANSISTOR

Features

·

Epitaxial Planar Die Construction

SOT-363

Min

A

Built-In Biasing Resistors

Dim

A

Max

0.30

1.35

2.20

Lead Free/RoHS Compliant (Note 3)

Surface Mount Package Suited for Automated Assembly

0.10

C

B

CXX YM

B

1.15

Mechanical Data

C

2.00

·

Case: SOT-363

D

0.65 Nominal

G

H

Case Material: Molded Plastic. UL Flammability

Classification Rating 94V-0

F

0.30

1.80

¾

0.40

2.20

0.10

1.00

0.40

0.25

8°

H

K

J

M

·

Moisture Sensitivity: Level 1 per J-STD-020C

J

Terminals: Solderable per MIL-STD-202, Method 208

K

0.90

0.25

0.10

0°

Lead Free Plating (Matte Tin Finish annealed over Alloy

42 leadframe).

L

D

F

L

·

Terminal Connections: See Diagram

M

Marking: Date Code and Marking Code

(See Page 4)

a

All Dimensions in mm

·

Ordering Information (See Page 4)

Weight: 0.006 grams (approximate)

CQ1 BQ2 EQ2

6

5

4

6

5

4

P/N

R1

R2

MARKING

R₁

Q1

22KW

Q1: NPN Transistor

Q2: PNP Transistor

DCX124EU

DCX144EU

DCX114YU

DCX123JU

DCX114EU

DCX143TU

DCX143EU

DCX114TU

22KW

47KW

10KW

-

C17

C20

C14

C06

C13

C07

C08

C12

Q2

3

47KW

10KW

2.2KW

10KW

4.7KW

10KW

R₁

1

2

1

2

3

EQ1

CQ2

EQ1 BQ1 CQ2

BQ1

R₁Only

R₁, R₂

4.7KW

-

SCHEMATIC DIAGRAM

@ T_A= 25°C unless otherwise specified

Maximum Ratings NPN Section

Characteristic

Symbol

Value

Unit

V_CC

Supply Voltage, (6) to (1) and (4) to (3)

50

V

Input Voltage, (2) to (1) and (4) to (5)

DCX124EU

DCX144EU

-10 to +40

-6 to +40

-5 to +12

-10 to +40

-5 Vmax

DCX114YU

DCX123JU

DCX114EU

DCX143TU

DCX143EU

DCX114TU

V_IN

V

-10 to +30

-5 Vmax

Output Current

DCX124EU

DCX144EU

DCX114YU

DCX123JU

DCX114EU

DCX143TU

DCX143EU

DCX114TU

30

70

100

50

100

I_O

mA

I_C(Max)

P_d

Output Current

All

100

200

mA

mW

°C/W

°C

Power Dissipation (Total)

(Note 2)

R_qJA

Thermal Resistance, Junction to Ambient Air (Note 1)

Operating and Storage and Temperature Range

625

T_j, T_STG

-55 to +150

Note: 1. Mounted on FR4 PC Board with recommended pad layout at http://www.diodes.com/datasheets/ap02001.pdf.

2. 150mW per element must not be exceeded.

3. No purposefully added lead.

DS30347 Rev. 8 - 2

1 of 11

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@ T_A= 25°C unless otherwise specified

Maximum Ratings PNP Section

Characteristic

Symbol

Value

Unit

V_CC

Supply Voltage, (3) to (1)

50

V

Input Voltage, (2) to (1)

DCX124EU

DCX144EU

+10 to -40

+6 to -40

+5 to -12

+10 to -40

+5 Vmax

+10 to -30

+5 Vmax

DCX114YU

DCX123JU

DCX114EU

DCX143TU

DCX143EU

DCX114TU

V_IN

V

Output Current

DCX124EU

DCX144EU

DCX114YU

DCX123JU

DCX114EU

DCX143TU

DCX143EU

DCX114TU

-30

-70

-100

-50

-100

I_O

mA

I_C(Max)

P_d

Output Current

All

-100

200

mA

mW

°C/W

°C

Power Dissipation (Total)

(Page 1: Note 2)

R_qJA

Thermal Resistance, Junction to Ambient Air (Page 1: Note 1)

Operating and Storage and Temperature Range

625

T_j, T_STG

-55 to +150

@ T_A= 25°C unless otherwise specified

Electrical Characteristics NPN Section

Characteristic (DCX143TU & DCX114TU only) Symbol

Min Typ

Max

¾

Unit

V

Test Condition

BV_CBO

BV_CEO

BV_EBO

I_CBO

I_C= 50mA

I_C= 1mA

I_E= 50mA

V_CB= 50V

V_EB= 4V

Collector-Base Breakdown Voltage

Collector-Emitter Breakdown Voltage

Emitter-Base Breakdown Voltage

Collector Cutoff Current

50

5

¾

V

- -

V

¾

0.5

mA

I_EBO

Emitter Cutoff Current

¾

I_C/I_B= 2.5mA / 0.25mA

I_C/I_B= 1mA / 0.1mA

DCX143TU

DCX114TU

V_CE(sat)

Collector-Emitter Saturation Voltage

¾

0.3

V

h_FE

DR₁

f_T

I_C= 1mA, V_CE= 5V

DC Current Transfer Ratio

Input Resistor (R₁) Tolerance

Gain-Bandwidth Product

100

-30

¾

250

¾

600

+30

¾

%

¾

V_CE= 10V, I_E= -5mA, f = 100MHz

250

MHz

DS30347 Rev. 8 - 2

2 of 11

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@ T_A= 25°C unless otherwise specified

Electrical Characteristics NPN Section (Continued)

Characteristic

Symbol

Min

Typ

Max Unit

Test Condition

DCX124EU

DCX144EU

DCX114YU

DCX123JU

DCX114EU

DCX143EU

0.5

0.3

0.5

1.1

¾

V_l(off)

V_CC= 5V, I_O= 100mA

¾

1.1

1.16

Input Voltage

V

V_O= 0.3, I_O= 5mA

V_O= 0.3, I_O= 2mA

V_O= 0.3, I_O= 1mA

V_O= 0.3, I_O= 5mA

V_O= 0.3, I_O= 10mA

V_O= 0.3, I_O= 20mA

DCX124EU

DCX144EU

DCX114YU

DCX123JU

DCX114EU

DCX143EU

1.9

¾

1.9

1.99

3.0

1.4

1.1

3.0

V_l(on)

¾

DCX124EU

DCX144EU

DCX114YU

DCX123JU

DCX114EU

DCX143EU

I_O/I_l= 10mA / 0.5mA

I_O/I_l= 5mA / 0.25mA

I_O/I_l= 10mA / 0.5mA

V_O(on)

Output Voltage

0.1

0.3

V

DCX124EU

DCX144EU

DCX114YU

DCX123JU

DCX114EU

DCX143EU

0.36

0.18

0.88

3.6

V_I= 5V

I_l

Input Current

¾

mA

¾

0.88

V_CC= 50V, V_I= 0V

I_O(off)

Output Current

DC Current Gain

0.5

V_O= 5V, I_O= 5mA

V_O= 5V, I_O= 10mA

V_O= 5V, I_O= 5mA

V_O= 5V, I_O= 10mA

DCX124EU

DCX144EU

DCX114YU

DCX123JU

DCX114EU

DCX143EU

56

68

80

30

50

G_l

¾

Input Resistor (R₁) Tolerance

Resistance Ratio Tolerance

DR₁

-30

-20

¾

+30

+20

%

¾

R₂/R₁

%

V_CE= 10V, I_E= 5mA,

f = 100MHz

f_T

Gain-Bandwidth Product

¾

250

¾

MHz

@ T_A= 25°C unless otherwise specified

Electrical Characteristics PNP Section

Characteristic (DCX143TU & DCX114TU only) Symbol

Min Typ

Max

¾

Unit

V

Test Condition

I_C= -50mA

I_C= -1mA

BV_CBO

BV_CEO

BV_EBO

I_CBO

Collector-Base Breakdown Voltage

Collector-Emitter Breakdown Voltage

Emitter-Base Breakdown Voltage

Collector Cutoff Current

-50

-5

¾

V

I_E= -50mA

V_CB= -50V

V_EB= -4V

¾

V

¾

-0.5

mA

I_EBO

Emitter Cutoff Current

¾

I_C/I_B= 2.5mA / 0.25mA

I_C/I_B= 1mA / 0.1mA

DCX143TU

DCX114TU

V_CE(sat)

Collector-Emitter Saturation Voltage

¾

-0.3

V

h_FE

DR₁

f_T

I_C= -1mA, V_CE= -5V

DC Current Transfer Ratio

Input Resistor (R₁) Tolerance

Gain-Bandwidth Product

100

-30

¾

250

¾

600

+30

¾

%

¾

V_CE= -10V, I_E= 5mA, f = 100MHz

250

MHz

DS30347 Rev. 8 - 2

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@ T_A= 25°C unless otherwise specified

Electrical Characteristics PNP Section (Continued)

Characteristic

Symbol

Min

Typ

Max Unit

Test Condition

DCX124EU

DCX144EU

DCX114YU

DCX123JU

DCX114EU

DCX143EU

-0.5

-0.3

-0.5

-1.1

¾

V_l(off)

V_CC= -5V, I_O= -100mA

¾

-1.1

-1.16

Input Voltage

V

V_O= -0.3, I_O= -5mA

V_O= -0.3, I_O=- 2mA

V_O= -0.3, I_O= -1mA

V_O= -0.3, I_O= -5mA

V_O= -0.3, I_O= -10mA

V_O= -0.3, I_O= -20mA

DCX124EU

DCX144EU

DCX114YU

DCX123JU

DCX114EU

DCX143EU

-1.9

¾

-1.9

-2.5

-3.0

-1.4

-1.1

-3.0

V_l(on)

¾

DCX124EU

DCX144EU

DCX114YU

DCX123JU

DCX114EU

DCX143EU

I_O/I_l= -10mA / -0.5mA

I_O/I_l= -5mA / -0.25mA

I_O/I_l= -10mA /- 0.5mA

V_O(on)

Output Voltage

-0.1

-0.3

V

DCX124EU

DCX144EU

DCX114YU

DCX123JU

DCX114EU

DCX143EU

-0.36

-0.18

-0.88

-3.6

V_I= -5V

I_l

Input Current

¾

mA

¾

-0.88

V_CC= 50V, V_I= 0V

I_O(off)

Output Current

DC Current Gain

-0.5

V_O= -5V, I_O= -5mA

V_O= -5V, I_O= -10mA

V_O= -5V, I_O= -5mA

V_O= -5V, I_O= -10mA

DCX124EU

DCX144EU

DCX114YU

DCX123JU

DCX114EU

DCX143EU

56

68

80

30

40

G_l

¾

Input Resistor (R₁) Tolerance

Resistance Ratio Tolerance

DR₁

-30

-20

¾

+30

+20

%

¾

R₂/R₁

V_CE= -10V, I_E= -5mA,

f = 100MHz

f_T

Gain-Bandwidth Product

¾

250

¾

MHz

(Note 4)

Ordering Information

Device

Packaging

SOT-363

Shipping

DCX124EU-7-F

DCX144EU-7-F

DCX114YU-7-F

DCX123JU-7-F

DCX114EU-7-F

DCX143TU-7-F

DCX143EU-7-F

DCX114TU-7-F

3000/Tape & Reel

Notes: 4. For Packaging Details, go to our website at http://www.diodes.com/datasheets/ap02007.pdf.

Marking Information

CXX = Product Type Marking Code

YM = Date Code Marking

Y = Year ex: T = 2006

CXX YM

M = Month ex: 9 = September

Date Code Key

Year

2006

2009

2010

2011

2007

2008

2012

Code

T

W

X

Y

U

V

Z

Month

Code

Jan

Feb

Mar

Apr

May

Jun

Jul

Aug

Sep

Oct

Nov

Dec

1

2

3

4

5

6

7

8

9

O

N

D

DS30347 Rev. 8 - 2

4 of 11

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TYPICAL CURVES - DCX123JU

PNP SECTION

1

250

200

150

100

I /I = 10

C

B

T_A= 75°C

0.1

0.01

T_A= -25°C

T_A= 25°C

50

0

0.001

-50

0

50

100

150

10

40

20

0

30

50

I_C, COLLECTOR CURRENT (mA)

Fig. 2 V_CE(SAT)vs. I_C

T_A, AMBIENT TEMPERATURE (°C)

Fig. 1 Derating Curve

1000

V_CE= 10V

12

10

I_E= 0mA

f = 1MHz

T_A= 75°C

8

6

4

2

0

T_A= 25°C

T_A= -25°C

100

0

10

15

30

20

25

5

10

V_R, REVERSE BIAS VOLTAGE (V)

Fig. 4 Output Capacitance

1

10

100

I_C, COLLECTOR CURRENT (mA)

Fig. 3 DC Current Gain

100

10

T_A= 75°C

V_O= 5V

V_O= 0.2V

T_A= 25°C

10

T_A= -25°C

1

T_A= 75°C

1

0.1

0.01

T_A= 25°C

0.001

0.1

1

6

7

8

9

0

2

3

4

5

10

0

10

20

30

40

50

V_in, INPUT VOLTAGE (V)

Fig. 5 Collector Current Vs. Input Voltage

DS30347 Rev. 8 - 2

I_C, COLLECTOR CURRENT (mA)

Fig. 6 Input Voltage vs. Collector Current

5 of 11

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TYPICAL CURVES - DCX123JU

NPN SECTION

1000

1

V_CE= 10V

I /I = 10

C

B

T_A= 75°C

0.1

T_A= 75°C

T_A= 25°C

T_A= -25°C

T_A= 25°C

100

0.01

0.001

10

40

20

0

30

50

1

10

100

I_C, COLLECTOR CURRENT (mA)

Fig. 7 V_CE(SAT)vs. I_C

I_C, COLLECTOR CURRENT (mA)

Fig. 8 DC Current Gain

100

T_A= 75°C

4

3

2

V_O= 5V

I_E= 0mA

f = 1MHz

T_A= 25°C

10

1

T_A= -25°C

0.1

0.01

1

0

0.001

0

10

15

30

25

5

20

1

6

7

8

9

0

2

3

4

5

10

V_R, REVERSE BIAS VOLTAGE (V)

Fig. 9 Output Capacitance

V_in, INPUT VOLTAGE (V)

Fig. 10 Collector Current Vs. Input Voltage

10

V_O= 0.2V

T_A= -25°C

1

T_A= 75°C

T_A= 25°C

0.1

0

10

20

30

40

50

I_C, COLLECTOR CURRENT (mA)

Fig. 11 Input Voltage vs. Collector Current

DS30347 Rev. 8 - 2

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TYPICAL CURVES - DCX143EU

PNP SECTION

250

200

150

100

0.12

0.11

0.1

I_b= 4.5mA

I_b= 4mA

I_b= 3.5mA

I_b= 3mA

0.09

0.08

0.07

0.06

I_b= 1mA

0.05

0.04

0.03

0.02

I_b= 0.5mA

I_b= 1.5mA

50

0

I_b= 2mA

I_b= 2.5mA

0.01

0

100

0

25

50

100 150 175

75

0.5

1.5

0

1

2

T_A, AMBIENT TEMPERATURE (°C)

Fig. 12 Power Derating Curve

V_CE, COLLECTOR EMITTER VOLTAGE (V)

Fig. 13 V_CEvs I_C

12

180

1

T_A= 150°C

V_CE= -5V

I

/I = 10

B

V_CE= -5V

C

11

160

140

T_A= 125°C

T_A= 85°C

10

9

8

120

100

80

T_A= 150°C

T_A= 125°C

T_A= 85°C

7

6

5

4

0.1

T_A= 25°C

60

T_A= -55°C

T_A= 25°C

3

2

T_A= 85°C

40

T_A= 25°C

T_A= -55°C

20

1

0

T_A= 150°C

T_A= 125°C

0.01

0

40

20

30

50

0

10

0.1

1

10

1000

0.1

100

1

10

100

I_C, COLLECTOR CURRENT (mA)

Fig. 15 V_CE(SAT)vs I_C

I_C, COLLECTOR CURRENT (mA)

Fig. 14 DC Current Gain

I_C, COLLECTOR CURRENT (mA)

Fig. 16 V_BEvs I_C

15

12

9

30

27

24

I

/I = 10

B

V

= -0.3V

C

CE

21

18

15

12

T_A= 150°C

6

3

0

T_A= 85°C

T_A= 25°C

9

6

3

0

T_A= 125°C

T_A= 85°C

T_A= 25°C

T_A= 150°C

T_A= -55°C

T_A= 125°C

0.1

1

10

100

0.1

1

10

100

I_C, OUTPUT CURRENT (mA)

Fig. 18 V_I(ON)vs I_C

I_C, COLLECTOR CURRENT (mA)

Fig. 17 V_BE(SAT)vs I_C

DS30347 Rev. 8 - 2

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TYPICAL CURVES - DCX143EU

NPN SECTION

250

200

150

100

0.15

0.14

I_b= 4mA

I_b= 3.5mA

0.13

0.12

0.11

I_b= 2.5mA

I_b= 3mA

0.1

0.09

0.08

0.07

I_b= 1.5mA

I_b= 1mA

0.06

0.05

0.04

0.03

0.02

0.01

I_b= 0.5mA

I_b= 2mA

50

0

100

0

25

50

100 150 175

75

0

0.2 0.4 0.6 0.8

1

1.2 1.4 1.6 1.8

2

T_A, AMBIENT TEMPERATURE (°C)

Fig. 19 Power Derating Curve

V_CE, COLLECTOR EMITTER VOLTAGE (V)

Fig. 20 V_CEvs I_C

250

200

150

100

50

10

1

9

I

/I = 10

V_CE= 5V

V_CE= -5V

C B

T_A= 150°C

8

T_A= 125°C

T_A= 150°C

T_A= 85°C

7

6

5

4

0.1

T_A= 125°C

T_A= 85°C

T_A= 25°C

T_A= -55°C

0.01

3

2

1

0

T_A= 85°C

T_A= 25°C

T_A= -55°C

T_A= 150°C

0.001

T_A= 125°C

0

40

20

30

50

0

10

0.1

1

10

1000

100

0.1

1

10

100

I_C, COLLECTOR CURRENT (mA)

Fig. 22 V_CE(SAT)vs I_C

I_C, COLLECTOR CURRENT (mA)

Fig. 21 DC Current Gain

I_C, COLLECTOR CURRENT (mA)

Fig. 23 V_BEvs I_C

25

22.5

20

30

27

24

V

= 0.3V

CE

I

/I = 10

B

C

21

18

15

12

17.5

15

12.5

T_A= 150°C

10

7.5

5

9

6

3

0

T_A= 85°C

T_A= 25°C

T_A= 125°C

T_A= 85°C

T_A= 25°C

T_A= -55°C

2.5

0

T_A= 150°C

T_A= 125°C

T_A= -55°C

0.1

1

10

100

0.1

1

10

100

I_C, OUTPUT CURRENT (mA)

Fig. 25 V_I(ON)vs I_C

I_C, COLLECTOR CURRENT (mA)

Fig. 24 V_BE(SAT)vs I_C

DS30347 Rev. 8 - 2

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TYPICAL CURVES - DCX114TU

PNP SECTION

1

1000

V_CE= 10V

I /I = 10

C

B

T_A= 75°C

T_A= -25°C

T_A= 25°C

0.1

100

T_A= 75°C

T_A= -25°C

T_A= 25°C

0.01

0.001

10

1

10

40

20

0

30

50

1

10

100

I_C, COLLECTOR CURRENT (mA)

Fig. 26 V_CE(SAT)vs. I_C

I_C, COLLECTOR CURRENT (mA)

Fig. 27 DC Current Gain

100

T_A= 75°C

4

3

2

I_E= 0mA

f = 1MHz

T_A= 25°C

10

T_A= -25°C

1

0.1

0.01

1

0

0.001

0

10

15

30

25

5

20

6

7

8

9

0

1

2

3

4

5

10

V_R, REVERSE BIAS VOLTAGE (V)

Fig. 28 Output Capacitance

V_in, INPUT VOLTAGE (V)

Fig. 29 Collector Current Vs. Input Voltage

10

V_O= 0.2V

T_A= -25°C

T_A= 75°C

1

T_A= 25°C

1

0

10

20

30

40

50

I_C, COLLECTOR CURRENT (mA)

Fig. 30 Input Voltage vs. Collector Current

DS30347 Rev. 8 - 2

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TYPICAL CURVES - DCX114TU

NPN SECTION

1000

1

V_CE= 10V

I /I = 10

C

B

T_A= 75°C

T_A= -25°C

T_A= 25°C

0.1

100

T_A= 75°C

T_A= -25°C

T_A= 25°C

0.01

0.001

10

1

10

40

20

0

30

50

1

10

100

I_C, COLLECTOR CURRENT (mA)

Fig. 31 V_CE(SAT)vs. I_C

I_C, COLLECTOR CURRENT (mA)

Fig. 32 DC Current Gain

100

T_A= 75°C

4

3

2

T_A= 25°C

I_E= 0mA

f = 1MHz

10

T_A=-25°C

1

0.1

0.01

1

0

0.001

0

10

15

30

25

5

20

6

7

8

9

0

1

2

3

4

5

10

V_R, REVERSE BIAS VOLTAGE (V)

Fig. 33 Output Capacitance

V_in, INPUT VOLTAGE (V)

Fig. 34 Collector Current Vs. Input Voltage

10

V_O= 0.2V

T_A= -25°C

T_A= 75°C

1

T_A= 25°C

1

0

10

20

30

40

50

I_C, COLLECTOR CURRENT (mA)

Fig. 35 Input Voltage vs. Collector Current

DS30347 Rev. 8 - 2

10 of 11

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IMPORTANT NOTICE

Diodes Incorporated and its subsidiaries reserve the right to make modifications, enhancements, improvements, corrections or other changes without further

notice to any product herein. Diodes Incorporated does not assume any liability arising out of the application or use of any product described herein; neither

does it convey any license under its patent rights, nor the rights of others. The user of products in such applications shall assume all risks of such use and will

agreetoholdDiodes Incorporatedandall thecompanies whoseproducts arerepresentedonour website, harmless againstall damages.

LIFE SUPPORT

Diodes Incorporated products are not authorized for use as critical components in life support devices or systems without the expressed written approval of the

PresidentofDiodes Incorporated.

DS30347 Rev. 8 - 2

11 of 11

DCX (xxxx) U

www.diodes.com


型号：	DCX114TU-7-F
厂家：	DIODES INCORPORATED
描述：	SMALL SIGNAL COMPLEMENTARY PRE-BIASED DUAL TRANSISTOR 小信号互补预偏置Dual晶体管晶体晶体管
文件：	总11页 (文件大小：610K)
中文：	中文翻译
下载：	下载PDF数据表文档文件

DCX114TU-7-F [DIODES]

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