6N138V芯片引脚定义引脚图及功能IC贸易商引脚图技术参数-中国IC网-芯三七

July 2005

Single-Channel: 6N138, 6N139

Dual-Channel: HCPL-2730, HCPL-2731

Low Input Current High Gain Split

Darlington Optocouplers

Features

Description

■ Low current - 0.5 mA

The 6N138/9 and HCPL-2730/HCPL-2731 optocouplers consist

of an AlGaAs LED optically coupled to a high gain split darling-

ton photodetector.

■ Superior CTR-2000%

■ Superior CMR-10 kV/µs

■ CTR guaranteed 0-70°C

■ U.L. recognized (File # E90700)

The split darlington conﬁguration separating the input photo-

diode and the ﬁrst stage gain from the output transistor permits

lower output saturation voltage and higher speed operation than

possible with conventional darlington phototransistor optocou-

pler. In the dual channel devices, HCPL-2730/HCPL2731, an

integrated emitter - base resistor provides superior stability over

temperature.

■ VDE recognized (File # 120915) Ordering option

V, e.g., 6N138V

■ Dual Channel - HCPL-2730

■ HCPL-2731

The combination of a very low input current of 0.5 mA and a

high current transfer ratio of 2000% makes this family particu-

larly useful for input interface to MOS, CMOS, LSTTL and EIA

RS232C, while output compatibility is ensured to CMOS as well

as high fan-out TTL requirements. An internal noise shield pro-

vides exceptional common mode rejection of 10 kV/µs.

Applications

■ Digital logic ground isolation

■ Telephone ring detector

■ EIA-RS-232C line receiver

■ High common mode noise line receiver

■ µP bus isolation

■ Current loop receiver

Package

Schematic

V_CC

N/C

1

8

V_CC

+

1

8

V_F1

_

8

V_B

+

2

3

4

7

6

5

V₀₁

2

3

7

6

5

V_F

_

1

_

V_O

V₀₂

V_F2

GND

N/C

GND

+

4

8

6N138 / 6N139

HCPL-2730 / HCPL-2731

1

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Single-Channel: 6N138, 6N139 Dual-Channel: HCPL-2730, HCPL-2731 Rev. 1.0.0

Absolute Maximum Ratings (T = 25°C unless otherwise speciﬁed)

A

Parameter

Symbol

Value

-55 to +125

-40 to +85

Units

°C

Storage Temperature

Operating Temperature

T

STG

T

°C

OPR

Lead Solder Temperature (Wave solder only. See recommended reﬂow proﬁle graph for

SMD mounting)

T

260 for 10 sec

°C

SOL

EMITTER

DC/Average Forward Input Current

Peak Forward Input Current (50% duty cycle, 1 ms P.W.)

Peak Transient Input Current - (≤1 µs P.W., 300 pps)

Reverse Input Voltage

Each Channel

I

(avg)

(pk)

20

40

1.0

5

mA

A

F

I

F

I (trans)

F

Each Channel

V

P

V

R

D

Input Power Dissipation

35

mW

DETECTOR

Average Output Current

Each Channel

(6N138 and 6N139)

(6N138, HCPL-2730)

(6N139, HCPL-2731)

Each Channel

I

(avg)

60

0.5

mA

V

O

Emitter-Base Reverse Voltage

Supply Voltage, Output Voltage

V

ER

V

, V

-0.5 to 7

-0.5 to 18

100

V

CC

O

Output Power Dissipation

P

mW

O

Electrical Characteristics (T = 0 to 70°C Unless otherwise speciﬁed)

A

Individual Component Characteristics

Parameter

Test Conditions Symbol

Device

Min Typ** Max Unit

EMITTER

T =25°C

V

All

1.30

1.7

V

A

F

Input Forward Voltage

Input Reverse Breakdown Voltage

Each channel (I = 1.6 mA)

1.75

F

(T = 25°C, I = 10 µA)

BV

R

All

5.0

20

V

A

R

Each Channel

Temperature coefﬁcient of forward voltage (I = 1.6 mA)

(∆V /∆T )

-1.8

0.01

mV/°C

µA

F

A

DETECTOR

Logic high output current

(I = 0 mA, V = V = 18 V)

I

6N139

100

250

F

O

CC

OH

Each Channel

HCPL-2731

6N138

(I = 0 mA, V = V = 7 V)

F

O

CC

Each Channel

(I = 1.6 mA, V = Open)

HCPL-2730

Logic low supply

Logic high supply

I

6N138

6N139

0.4

1.3

1.5

3

mA

µA

F

O

CCL

CCH

(V = 18 V)

CC

(I = I = 1.6 mA, V = 18 V)

HCPL-2731

HCPL-2730

F1

F2

CC

(V - V = Open, V = 7 V

O1

O2

CC

(I = 0 mA, V = Open,

I

6N135

6N136

0.05

0.10

10

20

F

O

V

= 18 V)

CC

(I = I = 0 mA, V = 18 V)

HCPL-2731

HCPL-2730

F1

F2

CC

(V - V = Open, V = 7 V

O1

O2

CC

** All Typicals at T = 25°C

A

2

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Single-Channel: 6N138, 6N139 Dual-Channel: HCPL-2730, HCPL-2731 Rev. 1.0.0

Transfer Characteristics (T = 0 to 70°C Unless otherwise speciﬁed)

A

Parameter

COUPLED

Test Conditions Symbol

Device

Min Typ** Max Unit

(I = 0.5 mA, V = 0.4 V, V = 4.5 V)

CTR

6N139

HCPL-2731

6N139

400

500

300

1100

3500

1300

2500

1300

2500

0.08

%

V

F

O

CC

Current transfer ratio

(Note 1, 2)

Each Channel

(I = 1.6 mA, V = 0.4 V, V = 4.5 V)

F

O

CC

Each Channel

HCPL-2731

6N138

(I = 1.6 mA, V = 0.4 V, V = 4.5 V)

F

O

CC

Each Channel

HCPL-2730

6N139

Logic low output voltage

output voltage (Note 2)

(I = 0.5 mA, I = 2 mA, V = 4.5 V)

V

OL

0.4

F

O

CC

(I = 1.6 mA, I = 8 mA, V = 4.5 V)

6N139

0.01

F

O

CC

Each Channel

HCPL-2731

6N139

(I = 0.5 mA, I = 15 mA, V = 4.5 V)

0.13

0.20

0.10

0.4

F

O

CC

Each Channel

HCPL-2731

6N139

(I = 12 mA, I = 24 mA, V = 4.5 V)

F

O

CC

Each Channel

HCPL-2731

6N138

(I = 1.6 mA, I = 4.8 mA, V = 4.5 V)

F

O

CC

Each Channel

HCPL-2730

** All Typicals at T = 25°C

A

3

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Single-Channel: 6N138, 6N139 Dual-Channel: HCPL-2730, HCPL-2731 Rev. 1.0.0

Switching Characteristics (T = 0 to 70°C unless otherwise speciﬁed., V = 5 V)

A

CC

Parameter

Test Conditions Symbol

Device

Min Typ** Max Unit

Propagation delay

time to logic low

(Note 2) (Fig. 22)

(R = 4.7 kΩ, I = 0.5 mA)

T

PHL

6N139

30

25

120

100

2

µs

L

F

T = 25°C

4

3

A

(R = 4.7 kΩ, I = 0.5 mA)

HCPL-2731

6N139

L

F

Each Channel

T = 25°C

A

(R = 270 Ω, I = 12 mA)

L

F

T = 25°C

0.2

0.3

1.5

1

A

(R = 270 Ω, I = 12 mA)

HCPL-2730

HCPL-2731

6N138

3

L

F

Each Channel

T = 25°C

2

A

(R = 2.2 kΩ, I = 1.6 mA)

15

10

25

20

90

L

F

T = 25°C

A

(R = 2.2 kΩ, I = 1.6 mA)

HCPL-2731

HCPL-2730

L

F

Each Channel

T = 25°C

A

Propagation delay

time to logic high

(Note 2) (Fig. 22)

(R = 4.7 kΩ, I = 0.5 mA)

T

PLH

6N139

HCPL-2731

6N139

µs

L

F

Each Channel

(R = 4.7 kΩ, I = 0.5 mA) T = 25°C

12

22

60

L

F

A

Each Channel

HCPL-2731

6N139

(R = 270 Ω, I = 12 mA)

10

7

L

F

T = 25°C

1.3

5

A

(R = 270 Ω, I = 12 mA) Each Channel

HCPL-2730

HCPL-2731

15

10

50

L

F

T = 25°C

A

(R = 2.2 kΩ, I = 1.6 mA)

6N138

HCPL-2730/1

6N138

L

F

Each Channel

(R = 2.2 kΩ, I = 1.6 mA) T = 25°C

7

35

L

F

A

Each Channel

HCPL-2730/1

16

Common mode

transient immunity

at logic high

(I = 0 mA, |V | = 10 V

)

|CM |

6N138

6N139

1,000

10,000

V/µs

F

CM

P-P

H

T = 25°C, (R = 2.2 kΩ) (Note 3) (Fig. 23)

A

L

Each Channel

HCPL-2730

HCPL-2731

Common mode

transient immunity

at logic low

(I = 1.6 mA, |V | = 10 V , R = 2.2 kΩ)

|CM |

6N138

6N139

10,000

F

CM

P-P

L

T = 25°C, (Note 3) (Fig. 23)

A

Each Channel

HCPL-2730

HCPL-2731

** All Typicals at T = 25°C

A

4

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Single-Channel: 6N138, 6N139 Dual-Channel: HCPL-2730, HCPL-2731 Rev. 1.0.0

Isolation Characteristics (T = 0 to 70°C Unless otherwise speciﬁed)

A

Characteristics

Test Conditions Symbol

Min

Typ**

Max

Unit

Input-output

insulation leakage current

(Relative humidity = 45%)

(T = 25°C, t = 5 s)

I

1.0

µA

I-O

A

(V = 3000 VDC)

I-O

(Note 8)

Withstand insulation test voltage

(RH ≤ 50%, T = 25°C)

V

2500

V

A

ISO

RMS

(Note 4) ( t = 1 min.)

12

Resistance (input to output)

Capacitance (input to output)

(Note 4) (V = 500 VDC)

R

C

I

10

Ω

I-O

I-I

(Note 4, 5) (f = 1 MHz)

0.6

pF

µA

Input-Input

(RH ≤ 45%, V = 500 VDC) (Note 6)

0.005

I-I

Insulation leakage current

t = 5 s, (HCPL-2730/2731 only)

11

Input-Input Resistance

(V = 500 VDC) (Note 6)

(HCPL-2730/2731 only)

R

10

Ω

I-I

Input-Input Capacitance

(f = 1 MHz) (Note 6)

C

0.03

pF

(HCPL-2730/2731 only)

** All Typicals at T = 25°C

A

Notes

1. Current Transfer Ratio is deﬁned as a ratio of output collector current, I , to the forward LED input current, I , times 100%.

O

F

2. Pin 7 open. (6N138 and 6N139 only)

3. Common mode transient immunity in logic high level is the maximum tolerable (positive) dV /dt on the leading edge of the com-

cm

mon mode pulse signal V , to assure that the output will remain in a logic high state (i.e., V >2.0 V). Common mode transient

CM

O

immunity in logic low level is the maximum tolerable (negative) dV /dt on the trailing edge of the common mode pulse signal,

cm

V

, to assure that the output will remain in a logic low state (i.e., V <0.8 V).

CM

O

4. Device is considered a two terminal device: Pins 1, 2, 3 and 4 are shorted together and Pins 5, 6, 7 and 8 are shorted together.

5. For dual channel devices, C is measured by shorting pins 1 and 2 or pins 3 and 4 together and pins 5 through 8 shorted

I-O

together.

6. Measured between pins 1 and 2 shorted together, and pins 3 and 4 shorted together.

I

5

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Single-Channel: 6N138, 6N139 Dual-Channel: HCPL-2730, HCPL-2731 Rev. 1.0.0

Electrical Characteristics (T = 25°C unless otherwise speciﬁed)

A

Current Limiting Resistor Calculations

R

(Non-Invert) = V

- V - V

DD1 DF OL1

1

OUTPUT

I

F

CMOS CMOS

@ 5 V @ 10 V

R

(Invert) = V

- V

DF

INPUT

R1 (V)

74XX 74LXX 74SXX 74LSXX 74HXX

1

DD1

OH1

I

F

R2 (V) R2 (V) R2 (V) R2 (V) R2 (V)

R2 (V)

R = V

- = V

(@ I - I )

2

DD2

OLX L 2

CMOS NON-INV. 2000 1000 2200

@ 5 V

750

1000 1000

1000

560

I

L

INV.

510

CMOS NON-INV. 5100

@ 10 V

INV.

4700

Where:

74XX NON-INV. 2200

INV. 180

74LXX NON-INV. 1800

INV. 100

74SXX NON-INV. 2000

INV. 360

74LSXX NON-INV. 2000

INV. 180

74HXX NON-INV. 2000

INV. 180

V

- Input Supply Voltage

DD1

DD2

- Output Supply Voltage

- Diode Forward Voltage

DF

- Logic “0” Voltage of Driver

OL1

OH1

- Logic “1” Voltage of Driver

I - Diode Forward Current

F

V

- Saturation Voltage of

Output Transistor

OLX

I - Load Current Through

L

Resistor R2

Fig. 1 Resistor Values for Logic Interface

I - Input Current of Output Gate

2

V_DD1

V_DD2

1

2

3

8

7

6

5

1

2

3

4

8

7

6

5

R₂

IN

OUT

IN

R₁

OUT

R₁

4

Fig. 2 Non-Inverting Logic Interface

Fig. 3 Inverting Logic Interface

6

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Single-Channel: 6N138, 6N139 Dual-Channel: HCPL-2730, HCPL-2731 Rev. 1.0.0

Fig. 4 LED Forward Current vs. Forward Voltage

Fig. 5 LED Forward Voltage vs.Temperature

100

1.5

1.4

1.3

1.2

1.1

I

F

= 1.6 mA

10

1

T

= 85˚C

A

T

= 70˚C

A

0.1

0.01

T

A

= 25˚C

T

= -40˚C

1.4

A

T

= 0˚C

1.2

A

0.001

1.0

1.1

1.3

1.5

1.6

-40

-20

0

20

40

60

80

100

FORWARD VOLTAGE - V (V)

TEMPERATURE - T (˚C)

F

A

Fig. 6 Non-saturated Rise and Fall Times vs.

Load Resistance (6N138 / 6N139 Only)

Fig. 7 Non-saturated Rise and Fall Times vs.

Load Resistance (HCPL-2730 / HCPL-2731 Only)

100

10

1

T

= 25˚C

A

T

A

= 25˚C

t

f

t

f

10

t

r

t

r

1

I

ADJUSTED FOR V = 2 V

OL

F

0.1

1

10

0.1

1

10

R

- LOAD RESISTANCE (kΩ)

R

L

- LOAD RESISTANCE (kΩ)

L

Fig. 8 Propagation Delay To Logic Low

vs. Base-Emitter Resistance

Fig. 9 Current Transfer Ratio vs. Forward Current

(6N138 / 6N139 Only)

(HCPL-2730 / HCPL-2731 Only)

6

V

= 5 V

CC

= 0.4 V

I

R

= 1.6 mA, V = 5 V

CC

O

F

1600

1200

800

400

0

= 2.2 K, T = 25°C

L

A

5

4

3

2

1

Normalized to R = None

BE

T

A

= 85˚C

T

= 70˚C

A

T

= 25˚C

A

T

A

= 0˚C

T

A

= -40˚C

0

0.01

0.1

1

10

0.01

0.1

1

10

I

F

- FORWARD CURRENT - mA

RBE - BASE-EMITTER RESISTANCE - M

Ω

7

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Single-Channel: 6N138, 6N139 Dual-Channel: HCPL-2730, HCPL-2731 Rev. 1.0.0

Fig. 10 Current Transfer Ratio vs. Base-Emitter Resistance

(6N138 / 6N139 Only)

Fig. 11 Current Transfer Ratio vs. Forward Current

(HCPL-2730 / HCPL-2731 Only)

1600

1400

1200

1000

800

5000

V

= 5 V

CC

= 0.4 V

O

4000

3000

2000

1000

0

T

= 70˚C

= 85˚C

= 25˚C

A

T

A

T

A

T

= 0˚C

A

T

= -40˚C

600

A

400

I

V

= 1.6 mA

F

200

0

= 5 V

CC

= 0.4 V

O

1

10

100

1000

0.1

1

10

100

R

BE

- BASE RESISTANCE (kΩ)

I - FORWARD CURRENT - mA

F

Fig. 12 Output Current vs Output Voltage

(6N138 / 6N139 Only)

Fig. 13 Output Current vs Output Voltage

(HCPL-2730 / HCPL-2731 Only)

120

100

80

60

50

40

30

20

10

0

I

= 5.0 mA

F

5 mA

V

= 5V

4.5 mA

4 mA

CC

= 25˚C

T

V

= 25˚C

A

T

A

I

= 4.5 mA

= 5.0 V

F

CC

3.5 mA

I

= 4.0 mA

= 3.5 mA

F

3 mA

I

F

2.5 mA

I

= 3.0 mA

= 2.5 mA

F

2 mA

I

= 2.0 mA

= 1.5 mA

= 1.0 mA

F

60

1.5 mA

40

1 mA

20

I

= 0.5 mA

F

0

1

2

0.0

0.2

0.4

0.6

V - OUTPUT VOLTAGE (V)

O

0.8

1.0

1.2

1.4

1.6

1.8

2.0

V

O

- OUTPUT VOLTAGE (V)

Fig. 14 Output Current vs. Input Diode Forward Current

(6N138 / 6N139 Only)

Fig. 15 Output Current vs

Input Diode Forward Current

(HCPL-2730 / HCPL-2731 Only)

100

10

1

V

= 5.0 V

= 0.4 V

CC

O

T

= 85˚C

A

V

= 5 V

CC

= 0.4 V

O

10

T

= 25˚C

A

1

T

= 85˚C

A

T

= -40˚C

A

T

= 70˚C

A

0

T

= 25˚C

A

T

= 0˚C

A

T

= -40˚C

A

0.1

0

0.01

0.1

1

10

0.1

1

10

I - INPUT DIODE FORWARD CURRENT - mA

F

100

I

- INPUT DIODE FORWARD CURRENT - mA

F

8

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Single-Channel: 6N138, 6N139 Dual-Channel: HCPL-2730, HCPL-2731 Rev. 1.0.0

Fig. 16 Logic Low Supply Current vs.

Input Diode Forward Current

(6N138 / 6N139 Only)

Fig. 17 Logic Low Supply Current vs.

Input Diode Forward Current

(HCPL-2730 / HCPL-2731 Only)

100

10

1

4.0

3.5

3.0

2.5

2.0

1.5

1.0

0.5

0.0

T

= 25˚C

A

HCPL-2731

= 18 V

V

CC

HCPL-2730

HCPL-2731

V

CC

= 5 V

V

CC

= 7 V

V

CC

= 18 V

0.1

0

2

4

6

8

10

12

14

16

0.1

1

10

100

I

F

- FORWARD CURRENT (mA)

I

F

- INPUT DIODE FORWARD CURRENT - mA

Fig. 18 Propagation Delay vs. Input Diode Forward Current

(6N138 / 6N139 Only)

Fig. 19 Propagation Delay vs. Input Diode Forward Current

(HCPL-2730 / HCPL-2731 Only)

70

V

= 5 V

V

= 5 V

CC

= 25˚C

CC

T = 25˚C

A

T

A

60

50

40

30

20

10

0

60

50

40

30

20

10

0

(t

PHL

) R = 2.2 kΩ or 4.7 kΩ

(t

) R = 2.2 kΩ or 4.7 kΩ

PHL

L

(t

) R = 4.7 kΩ

PLH

L

(t

PLH

) R = 4.7 kΩ

L

(t

) R = 2.2 kΩ

PLH

L

(t

) R = 2.2 kΩ

PLH

L

0

2

4

6

8

10

0

1

2

3

4

5

6

7

8

9

10

I

F

- INPUT DIODE FORWARD CURRENT - mA

I - INPUT DIODE FORWARD CURRENT - mA

F

Fig. 21 Propagation Delay to Logic Low vs. Pulse Period

(HCPL-2730 / HCPL-2731 Only)

Fig. 20 Propagation Delay to Logic Low vs. Pulse Period

(6N138 / 6N139 Only)

100

10

1

100

6N139

I

= 0.5 mA

F

R

L

= 4.7 kΩ

HCPL-2731

= 0.5 mA

I

F

R

L

= 4.7 kΩ

10

6N138

= 1.6 mA

I

F

R

L

= 2.2 kΩ

1

HCPL-2730

HCPL-2731

I

R

=1.6 mA

F

T = 25˚C

A

= 2.2kΩ

L

T

A

= 25˚C

0.1

0.01

0.1

1

10

0.01

0.1

1

10

T - INPUT PULSE PERIOD - ms

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Single-Channel: 6N138, 6N139 Dual-Channel: HCPL-2730, HCPL-2731 Rev. 1.0.0

Fig. 22 Propagation Delay vs.Temperature

(6N138 / 6N139 Only)

Fig. 23 Propagation Delay vs.Temperature

(HCPL-2730 / HCPL-2731 Only)

50

40

30

20

10

0

50

40

30

20

10

0

HCPL-2730 : I = 1.6 mA, R = 2.2 k

F

L

F

L

HCPL-2731 : I = 0.5 mA, R = 4.7 k

F

L

F

L

t

(HCPL-2731)

t

(HCPL-2731)

PLH

t

(HCPL-2730)

t

(HCPL-2730)

PLH

t

(HCPL-2731)

t

(HCPL-2731)

PHL

t

(HCPL-2730)

t

(HCPL-2730)

PHL

0

10

20

30

40

50

60

70

80

0

10

20

30

40

50

60

70

80

T

A

- TEMPERATURE (˚C)

T

- TEMPERATURE (˚C)

A

10

Single-Channel: 6N138, 6N139 Dual-Channel: HCPL-2730, HCPL-2731 Rev. 1.0.0

www.fairchildsemi.com

Noise

Shield

Noise

Shield

Pulse

Generator

tr = 5ns

+

IF

V_CC

VCC

+5 V

V_O

1

2

3

4

8

7

6

5

1

2

3

4

8

7

6

5

Pulse

Z_O= 50

V

RL

V^F1

-

0.1 µF

Generator

tr = 5ns

Z_O= 50 V

I_F

V_B

V01

10% DUTY CYCLE

I/f < 100 µS

R_L

10% D.C.

f

V_F

I/ < 100 s

m

CL = 15 pF*

V_O

V02

V_O

-

IF

VF2

0.1 µF

MONITOR

I_FMonitor

R_m

GND

Rm

+

CL = 15 pF*

GND

Test Circuit for 6N138, 6N139

Test Circuit for HCPL-2730 and HCPL-2731

I_F

5 V

V_O

1.5 V

V_OL

T_PHL

T_PLH

Fig. 22 Switching Time Test Circuit

I_F

Noise

Shield

Noise

Shield

V_CC

VCC

V01

V02

+

+5 V

1

2

3

4

8

7

6

5

1

2

3

4

8

7

6

5

I_F

V^F1

-

R^L

V_B

R_L

V_O

A

V_F

0.1 µF

A

B

V_O

-

V_O

B

V_FF

VF2

+

0.1 µF

V_FF

GND

-

V_CM

-

+

V_CM

-

+

Pulse Gen

Test Circuit for HCPL-2730 and HCPL-2731

Test Circuit for 6N138 and 6N139

V

CM

10 V

90% 90%

10%

t_f

0 V

t_r

V_O

5 V

Switch at A : I _F= 0 mA

V_O

V_OL

Switch at B : I _F= 1.6 mA

Fig. 23 Common Mode Immunity Test Circuit

11

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Single-Channel: 6N138, 6N139 Dual-Channel: HCPL-2730, HCPL-2731 Rev. 1.0.0

Package Dimensions (Through Hole)

Package Dimensions (Surface Mount)

0.390 (9.91)

0.370 (9.40)

PIN 1

ID.

PIN 1

ID.

4

3

2

1

4

5

3

6

2

7

1

8

0.270 (6.86)

0.250 (6.35)

0.270 (6.86)

0.250 (6.35)

5

6

7

8

0.390 (9.91)

0.370 (9.40)

0.300 (7.62)

TYP

0.070 (1.78)

0.045 (1.14)

0.070 (1.78)

0.045 (1.14)

0.020 (0.51)

MIN

0.016 (0.41)

0.008 (0.20)

0.020 (0.51) MIN

0.200 (5.08)

0.140 (3.55)

0.154 (3.90)

0.120 (3.05)

0.045 [1.14]

0.022 (0.56)

0.016 (0.41)

0.022 (0.56)

0.016 (0.41)

15° MAX

0.315 (8.00)

MIN

0.016 (0.40)

0.008 (0.20)

0.100 (2.54)

TYP

0.300 (7.62)

TYP

0.100 (2.54) TYP

0.405 (10.30)

MIN

Lead Coplanarity : 0.004 (0.10) MAX

Package Dimensions (0.4"Lead Spacing)

Recommended Pad Layout for

Surface Mount Leadform

PIN 1

ID.

4

3

2

1

0.070 (1.78)

0.270 (6.86)

0.250 (6.35)

0.060 (1.52)

5

6

7

8

0.390 (9.91)

0.370 (9.40)

0.100 (2.54)

0.295 (7.49)

0.415 (10.54)

0.070 (1.78)

0.045 (1.14)

0.030 (0.76)

0.004 (0.10) MIN

0.200 (5.08)

0.140 (3.55)

0.154 (3.90)

0.120 (3.05)

0.022 (0.56)

0.016 (0.41)

0° to 15°

0.016 (0.40)

0.008 (0.20)

0.400 (10.16)

TYP

0.100 (2.54) TYP

NOTE

All dimensions are in inches (millimeters)

12

Single-Channel: 6N138, 6N139 Dual-Channel: HCPL-2730, HCPL-2731 Rev. 1.0.0

www.fairchildsemi.com

Ordering Information

Option

Example Part Number

6N138S

Description

S

SD

W

Surface Mount Lead Bend

6N138SD

Surface Mount; Tape and reel

0.4" Lead Spacing

6N138W

V

6N138V

VDE0884

TV

SV

SDV

6N138TV

VDE0884; 0.4” lead spacing

VDE0884; surface mount

VDE0884; surface mount; tape and reel

6N138SV

6N138SDV

Marking Information

1

2

2730

6

V XX YY T1

5

3

4

Deﬁnitions

1

2

Fairchild logo

Device number

VDE mark (Note: Only appears on parts ordered with VDE

option – See order entry table)

3

4

5

6

Two digit year code, e.g., ‘03’

Two digit work week ranging from ‘01’ to ‘53’

Assembly package code

13

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Single-Channel: 6N138, 6N139 Dual-Channel: HCPL-2730, HCPL-2731 Rev. 1.0.0

Tape Specifications

12.0 0.1

4.0 0.1

4.90 0.20

Ø1.55 0.05

1.75 0.10

4.0 0.1

0.30 0.05

7.5 0.1

16.0 0.3

10.30 0.20

13.2 0.2

Ø1.6 0.1

10.30 0.20

User Direction of Feed

0.1 MAX

Reﬂow Proﬁle

300

250

200

150

100

50

215C, 10–30 s

225C peak

Time above 183C, 60–150 sec

Ramp up = 3C/sec

0

0.5

1

1.5

2

2.5

3

3.5

4

4.5

Time (Minute)

• Peak reflow temperature: 225C (package surface temperature)

• Time of temperature higher than 183C for 60–150 seconds

• One time soldering reflow is recommended

14

www.fairchildsemi.com

Single-Channel: 6N138, 6N139 Dual-Channel: HCPL-2730, HCPL-2731 Rev. 1.0.0

TRADEMARKS

The following are registered and unregistered trademarks Fairchild Semiconductor owns or is authorized to use and is

not intended to be an exhaustive list of all such trademarks.



ACEx™

PowerSaver™

SuperSOT™-8

SyncFET™

TinyLogic

ISOPLANAR™

LittleFET™

MICROCOUPLER™

MicroFET™

MicroPak™

MICROWIRE™

MSX™

FAST



ActiveArray™

Bottomless™

Build it Now™

CoolFET™

CROSSVOLT™

DOME™

EcoSPARK™

E²CMOS™

EnSigna™

FACT™

PowerTrench

FASTr™

FPS™

FRFET™

GlobalOptoisolator™

GTO™



QFET

QS™

TINYOPTO™

TruTranslation™

UHC™

QT Optoelectronics™

Quiet Series™

RapidConfigure™

RapidConnect™

µSerDes™

SILENT SWITCHER

SMART START™

SPM™



UltraFET

HiSeC™

I²C™

UniFET™

VCX™

Wire™

MSXPro™

OCX™

i-Lo™

ImpliedDisconnect™

IntelliMAX™



OCXPro™

OPTOLOGIC



OPTOPLANAR™

PACMAN™

POP™

Power247™

PowerEdge™

FACT Quiet Series™

Stealth™

Across the board. Around the world.™

SuperFET™

SuperSOT™-3

SuperSOT™-6



The Power Franchise

Programmable Active Droop™

DISCLAIMER

FAIRCHILD SEMICONDUCTOR RESERVESTHE RIGHTTO MAKE CHANGES WITHOUTFURTHER NOTICETOANY

PRODUCTS HEREINTO IMPROVE RELIABILITY, FUNCTION OR DESIGN. FAIRCHILD DOES NOTASSUMEANYLIABILITY

ARISING OUTOFTHEAPPLICATION OR USE OFANYPRODUCTOR CIRCUITDESCRIBED HEREIN; NEITHER DOES IT

CONVEYANYLICENSE UNDER ITS PATENTRIGHTS, NORTHE RIGHTS OF OTHERS.

LIFE SUPPORT POLICY

FAIRCHILD’S PRODUCTS ARE NOT AUTHORIZED FOR USE AS CRITICAL COMPONENTS IN LIFE SUPPORT

DEVICES OR SYSTEMS WITHOUTTHE EXPRESS WRITTENAPPROVALOF FAIRCHILD SEMICONDUCTOR CORPORATION.

As used herein:

1. Life support devices or systems are devices or

systems which, (a) are intended for surgical implant into

the body, or (b) support or sustain life, or (c) whose

failure to perform when properly used in accordance

with instructions for use provided in the labeling, can be

reasonably expected to result in significant injury to the

user.

2. A critical component is any component of a life

support device or system whose failure to perform can

be reasonably expected to cause the failure of the life

support device or system, or to affect its safety or

effectiveness.

PRODUCT STATUS DEFINITIONS

Definition of Terms

Datasheet Identification

Product Status

Definition

Advance Information

Formative or

In Design

This datasheet contains the design specifications for

product development. Specifications may change in

any manner without notice.

Preliminary

First Production

This datasheet contains preliminary data, and

supplementary data will be published at a later date.

Fairchild Semiconductor reserves the right to make

changes at any time without notice in order to improve

design.

No Identification Needed

Obsolete

Full Production

This datasheet contains final specifications. Fairchild

Semiconductor reserves the right to make changes at

any time without notice in order to improve design.

Not In Production

This datasheet contains specifications on a product

that has been discontinued by Fairchild semiconductor.

The datasheet is printed for reference information only.

Rev. I16

15

Single-Channel: 6N138, 6N139 Dual-Channel: HCPL-2730, HCPL-2731 Rev. 1.0.0

www.fairchildsemi.com

型号:	6N138V
是否无铅：	不含铅
是否Rohs认证：	符合
生命周期：	Obsolete
包装说明：	DIP-6
Reach Compliance Code：	compliant
HTS代码：	8541.40.80.00
风险等级：	5.61
其他特性：	UL RECOGNIZED, VDE APPROVED
配置：	SINGLE
最大正向电流：	0.02 A
最大绝缘电压：	2500 V
JESD-609代码：	e3
元件数量：	1
最大通态电流：	0.06 A
最高工作温度：	85 °C
最低工作温度：	-40 °C
光电设备类型：	LOGIC IC OUTPUT OPTOCOUPLER
端子面层：	Matte Tin (Sn)
Base Number Matches：	1

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