SFH6751-X016 [VISHAY]

Optocoupler - IC Output, 1 CHANNEL LOGIC OUTPUT OPTOCOUPLER, 0.400 INCH, DIP-8;


型号：	SFH6751-X016
厂家：	VISHAY
描述：	Optocoupler - IC Output, 1 CHANNEL LOGIC OUTPUT OPTOCOUPLER, 0.400 INCH, DIP-8 输出元件
文件：	总12页 (文件大小：173K)
中文：	中文翻译
下载：	下载PDF数据表文档文件

6N137/ SFH6741 / 42 / 50 / 51 / 52

Vishay Semiconductors

High Speed Optocoupler, 10 Mbd

Features

• Choice of CMR performance of 10 kV/µs,

5 kV/µs, and 100 V/µs

• High speed: 10 Mbd typical

• + 5 V CMOS compatibility

Dual channel

Single channel

• Guaranteed AC and DC performance over tem-

perature: - 40 to + 100 °C Temp. Range

• Pure tin leads

GND

• Meets IEC60068-2-42 (SO ) and

IEC60068-2-43 (H S) requirements

6N137, SFH6741, SFH6742

SFH6750, SFH6751, SFH6752

18921

• Low input current capability: 5 mA

• Lead (Pb)-free component

provides a guaranteed common mode transient

immunity of 5 kV/µs for the SFH6741 and SFH6751

and 10 kV/µs for the SFH6742 and SFH6752.

• Component in accordance to RoHS 2002/95/EC

and WEEE 2002/96/EC

Agency Approvals

• UL1577, File No. E52744 System Code H or J,

Double Protection

Order Information

Part

Remarks

• CUL - File No. E52744, equivalent to CSA

bulletin 5A

6N137

100 V/µs, Single channel, DIP-8

6N137-X006

100 V/µs, Single channel, DIP-8 400 mil

(option 6)

• DIN EN 60747-5-2 (VDE0884)

• Reinforced insulation rating per

IEC60950 2.10.5.1

• VDE available with Option 1

6N137-X007

SFH6741

100 V/µs, Single channel, SMD-8 (option 7)

5 kV/µs, Single channel, DIP-8

SFH6741-X006 5 kV/µs, Single channel, DIP-8 400 mil

(option 6)

Applications

• Microprocessor System Interface

• PLC, ATE input/output isolation

• Computer peripheral interface

• Digital Fieldbus Isolation: CC-Link, DeviceNet,

Profibus, SDS

SFH6741-X007 5 kV/µs, Single channel, SMD-8 (option 7)

SFH6742

10 kV/µs, Single channel, DIP-8

SFH6742-X006 10 kV/µs, Single channel, DIP-8 400 mil

(option 6)

SFH6742-X007 10 kV/µs, Single channel, SMD-8 (option 7)

• High speed A/D and D/A conversion

• AC Plasma Display Panel Level Shifting

• Multiplexed Data Transmission

• Digital control power supply

SFH6750

100 V/µs, Dual channel, DIP-8

SFH6750-X006 100 V/µs, Dual channel, DIP-8 400 mil

(option 6)

SFH6750-X007 100 V/µs, Dual channel, SMD-8 (option 7)

SFH6751

5 kV/µs, Dual channel, DIP-8

• Ground loop elimination

SFH6751-X006 5 kV/µs, Dual channel, DIP-8 400 mil (option 6)

SFH6751-X007 5 kV/µs, Dual channel, SMD-8 (option 7)

Description

The 6N137, SFH674x and SFH675x are single chan-

nel 10 Mbd optocouplers utilizing a high efficient input

LED coupled with an integrated optical photodiode IC

detector. The detector has an open drain NMOS-tran-

sistor output, providing less leakage compared to an

open collector Schottky clamped transistor output.

For the single channel type, an enable function on pin

7 allows the detector to be strobed. The internal shield

SFH6752

10 kV/µs, Dual channel, DIP-8

SFH6752-X006 10 kV/µs, Dual channel, DIP-8 400 mil

(option 6)

SFH6752-X007 10 kV/µs, Dual channel, SMD-8 (option 7)

Document Number 82584

Rev. 1.9, 03-Mar-06

www.vishay.com

6N137/ SFH6741 / 42 / 50 / 51 / 52

Vishay Semiconductors

Truth Table (Positive Logic)

LED

ENABLE

OUTPUT

OFF

Absolute Maximum Ratings

T_amb= 25 °C, unless otherwise specified

Stresses in excess of the absolute Maximum Ratings can cause permanent damage to the device. Functional operation of the device is

not implied at these or any other conditions in excess of those given in the operational sections of this document. Exposure to absolute

Maximum Rating for extended periods of the time can adversely affect reliability.

Input

Parameter

Average forward current¹⁾

Test condition

Symbol

I_F

Value

Unit

Average forward current²⁾

Reverse input voltage

I_F

V_R

V_E

Enable input voltage¹⁾

V_CC+ 0.5 V

Enable input current¹⁾

Surge current

I_E

t = 100 µs

I_FSM

200

¹⁾Package: Single DIP-8

²⁾Package: Dual DIP-8

Output

Parameter

Test condition

1 minute max.

Symbol

V_CC

Value

Unit

Supply voltage

Output current

Output voltage

I_O

V_O

Output power dissipation¹⁾

Output power dissipation per channel²⁾

¹⁾Package: Single DIP-8

P_diss

²⁾Package: Dual DIP-8

Coupler

Parameter

Test condition

Symbol

T_stg

Value

Unit

°C

Storage temperature

- 55 to + 150

Operating temperature

T_amb

- 40 to + 100

260

°C

Lead solder temperature¹⁾

Solder reflow temperature²⁾

Isolation test voltage

for 10 sec.

for 1 minute

t = 1.0 sec.

260

°C

V_ISO

5300

V_RMS

¹⁾Package: DIP-8 through hole

²⁾Package: DIP-8 SMD

www.vishay.com

Document Number 82584

Rev. 1.9, 03-Mar-06

6N137/ SFH6741 / 42 / 50 / 51 / 52

Vishay Semiconductors

Recommended Operating Conditions

Parameter

Test condition

Symbol

T_amb

Min

- 40

Typ.

Max

100

Unit

°C

Operating temperature

Supply voltage

V_CC

I_FL

4.5

5.5

250

µA

Input current low level

Input current high level

Logic high enable voltage

Logic low enable voltage

Output pull up resistor

Fanout

I_FH

V_EH

V_EL

R_L

2.0

0.0

330

V_CC

0.8

4 K

R_L= 1 kΩ

Electrical Characteristics

T_amb= 25 °C and V_CC= 5.5 V, unless otherwise specified

Minimum and maximum values are testing requirements. Typical values are characteristics of the device and are the result of engineering

evaluation. Typical values are for information only and are not part of the testing requirements.

Input

Parameter

Test condition

I_F= 10 mA

_R= 5.0 V

Symbol

V_F

Min

1.0

Typ.

1.4

Max

1.7

Unit

Input forward voltage

Reverse current

I_R

0.01

µA

Input capacitance

f = 1 MHz, V_F= 0 V

C_I

Output

Parameter

Test condition

Symbol

I_CCH

Min

Typ.

4.1

Max

7.0

Unit

High level supply

current

(single channel)

_E= 0.5 V, I_F= 0 mA

_E= V_CC, I_F= 0 mA

I_CCH

3.3

6.9

6.0

High level supply

current

_F= 0 mA

12.0

(dual channel)

Low level supply

current (single)

_E= 0.5 V, I_F= 10 mA

I_CCL

4.0

7.0

V_E= V_CC, I_F= 10 mA

_F= 10 mA

I_CCL

3.3

6.5

6.0

Low level supply

current (dual)

12.0

High level output

current

V_E= 2.0 V, V_O= 5.5 V, I_F= 250 µA

I_OH

0.002

0.2

µA

Low level output

voltage

_E= 2.0 V, I_F= 5 mA,

V_OL

0.6

I_OL(sinking) = 13 mA

Input threshold

current

V_E= 2.0 V, V_O= 5.5 V,

I_OL(sinking) = 13 mA

I_TH

2.4

5.0

High level enable

current

_E= 2.0 V

I_EH

I_EL

- 0.6

- 0.8

- 1.6

Low level enable

current

V_E= 0.5 V

High level enable

voltage

V_EH

V_EL

2.0

Low level enable

voltage

0.8

Document Number 82584

Rev. 1.9, 03-Mar-06

www.vishay.com

6N137/ SFH6741 / 42 / 50 / 51 / 52

Vishay Semiconductors

Switching Characteristics

Over Recommended Temperature (T_a= - 40 to + 100 °C), V_CC= 5 V, I_F= 7.5 mA unless otherwise specified.

All Typicals at T_a= 25 °C, V_CC= 5 V.

Parameter

Test condition

Symbol

t_PLH

Min

Typ.

Max

75^*

Unit

Propagation delay time to high R_L= 350 Ω, C_L= 15 pF

output level

t_PLH

t_PHL

100

75^*

Propagation delay time to low

output level

R_L= 350 Ω, C_L= 15 pF

t_PHL

100

Pulse width distortion

R_L= 350 Ω, C_L= 15 pF

| t_PHL- t_PLH

2.9

Propagation delay skew

Output rise time (10 - 90 %)

Output fall time (90 - 10 %)

t_PSK

t_r

t_f

Propagation delay time of

enable from V_EHto V_EL

R_L= 350 Ω, C_L= 15 pF,

V_EL= 0 V, V_EH= 3 V

t_ELH

Propagation delay time of

enable from V_ELto V_EH

R_L= 350 Ω, C_L= 15 pF,

V_EL= 0 V, V_EH= 3 V

t_EHL

^*75 ns applies to the 6N137 only, a JEDEC registered specification

Single Channel

Pulse Gen.

= 50 Ω

= 7.5 mA

= 3.75 mA

0 mA

= t = 5 ns

Input I

0.1 µF

Bypass

Output V

Monitoring

Node

OUT

Input I

Monitoring

Output V

1.5 V

Node

= 15 pF

GND

PHL

PLH

The Probe and Jig Capacitances are included in C

18964-2

Figure 1. Single Channel Test Circuit for t_PLH, t_PHL, t_rand t_f

Pulse Gen.

= 50 Ω

= t = 5 ns

Dual Channel

Output V

Input

Monitoring

Node

0.1 µF

Bypass

= 15 pF

GND

18963-2

Figure 2. Dual Channel Test Circuit for t_PLH, t_PHL, t_rand t_f

www.vishay.com

Document Number 82584

Rev. 1.9, 03-Mar-06

6N137/ SFH6741 / 42 / 50 / 51 / 52

Vishay Semiconductors

Input V

Monitoring Node

Pulse Gen.

= 50 Ω

= t = 5 ns

Single Channel

3 V

7.5 mA

Output V

Monitoring

Node

1.5 V

Input V

0.1 µF

EHL

OUT

Bypass

ELH

= 15 pF

Output V

1.5 V

GND

The Probe and Jig Capacitances are included in C

18975-2

Figure 3. Single Channel Test Circuit for t_EHLand t_ELH

Common Mode Transient Immunity

Parameter

Test condition

Symbol

Min

100

Typ.

Max

Unit

Common mode

transient immunity

(high)

|V_CM| = 10 V, V_CC= 5 V, I_F= 0 mA,

V_O(min)= 2 V, R_L= 350 Ω, T_amb= 25 °C ¹⁾

| CM_H

V/µs

|V_CM| = 50 V, V_CC= 5 V, I_F= 0 mA,

V_O(min)= 2 V, R_L= 350 Ω, T_amb= 25 °C ²⁾

|V_CM| = 1 kV, V_CC= 5 V, I_F= 0 mA,

| CM_H

5000

10000

100

10000

15000

V/µs

_O(min)= 2 V, R_L= 350 Ω, T_amb= 25 °C ³⁾

|V_CM| = 10 V, V_CC= 5 V, I_F= 7.5 mA,

_O(max)= 0.8 V, R_L= 350 Ω, T_amb= 25 °C ¹⁾

|V_CM| = 50 V, V_CC= 5 V, I_F= 7.5 mA,

_O(max)= 0.8 V, R_L= 350 Ω, T_amb= 25 °C ²⁾

| CM_L|

5000

10000

15000

|V_CM| = 1 kV, V_CC= 5 V, I_F= 7.5 mA,

V_O(max)= 0.8 V, R_L= 350 Ω, T_amb= 25 °C ³⁾

¹⁾For 6N137 and SFH6750

²⁾For SFH6741 and SFH6751

³⁾For SFH6742 and SFH6752

Single Channel

(PEAK)

0 V

5 V

Output V

Monitoring

Node

Switch AT A:I

0 mA

0.1 μF

Bypass

OUT

)

(min.

Switch AT A:

7.5 mA

(max.)

GND

0.5

Pulse Generator

= 50 Ω

18976-2

Figure 4. Single Channel Test Circuit for Common Mode Transient Immunity

Document Number 82584

Rev. 1.9, 03-Mar-06

www.vishay.com

6N137/ SFH6741 / 42 / 50 / 51 / 52

Vishay Semiconductors

Dual Channel

+ 5 V

Output V

Monitoring

Node

0.1 µF

Bypass

GND

Pulse Generator

= 50 Ω

18977

Figure 5. Dual Channel Test Circuit for Common Mode Transient Immunity

Safety and Insulation Ratings

As per IEC60747-5-2, §7.4.3.8.1, this optocoupler is suitable for "safe electrical insulation" only within the safety ratings. Compliance with

the safety ratings shall be ensured by means of protective circuits.

Parameter

Test condition

Symbol

Min

Typ.

Max

Unit

Climatic Classification

55/110/21

(according to IEC 69 part 1)

Comparative Tracking Index

V_IOTM

CTI

175

399

8000

V_IORM

P_SO

I_SI

630

500

300

175

°C

T_SI

Creepage

Clearance

Creepage

Clearance

standard DIP-8

400 mil DIP-8

Insulation thickness, reinforced rated per IEC60950.2.10.5.1

0.2

www.vishay.com

Document Number 82584

Rev. 1.9, 03-Mar-06

6N137/ SFH6741 / 42 / 50 / 51 / 52

Vishay Semiconductors

Typical Characteristics

T_amb= 25 °C, unless otherwise specified

4.0

3.5

1.7

= 50 mA

1.6

1.5

1.4

1.3

1.2

1.1

1.0

= 20 mA

3.0

2.5

2.0

1.5

1.0

0.5

0.0

= 7 V

= 10 mA

= 5 V

= 10 mA

= 1 mA

- 40 - 20

80 100

- 40 - 20

80 100

17614

– Ambient Temperature (°C)

17610

- Ambient Temperature (°C)

amb

Figure 6. Forward Voltage vs. Ambient Temperature

Figure 9. Low Level Supply Current vs. Ambient Temperature

3.5

1.60

1.55

1.50

1.45

1.40

1.35

1.30

1.25

1.20

1.15

1.10

= 7 V

3.4

3.3

3.2

3.1

3.0

2.9

2.8

= 0.25 mA

= 5 V

= 0.25 mA

- 40 - 20

80 100

10 15 20 25 30 35 40 45 50

– Forward Current (mA)

17615

amb

- Ambient Temperature (°C)

17611

Figure 7. Forward Voltage vs. Forward Current

Figure 10. High Level Supply Current vs. Ambient Temperature

2.8

2.7

2.6

= 350

2.5

2.4

2.3

2.2

2.1

= 4 k

= 1 k

- 40 - 20

80 100

- 40 - 20

80 100

17616

amb

- Ambient Temperature (°C)

17613-1

- Ambient Temperature (°C)

amb

Figure 8. Reverse Current vs. Ambient Temperature

Figure 11. Input Threshold ON Current vs. Ambient Temperature

Document Number 82584

Rev. 1.9, 03-Mar-06

www.vishay.com

6N137/ SFH6741 / 42 / 50 / 51 / 52

Vishay Semiconductors

2.6

2.5

2.4

2.3

2.2

2.1

2.0

= 350

= 4 k

= 1 k

- 40 - 20

80 100

- 40 - 20

80 100

17620

amb

- Ambient Temperature (°C)

17617

amb

- Ambient Temperature (°C)

Figure 12. Input Threshold OFF Current vs. Ambient Temperature

Figure 15. High Level Output Current vs. Ambient Temperature

0.30

5.5

5.0

4.5

4.0

3.5

3.0

2.5

2.0

= 5.5 V

= 5 mA

= 16 mA

= 13 mA

0.25

0.20

0.15

0.10

0.05

0.00

= 10 mA

= 6 mA

= 350

1.5

1.0

0.5

0.0

= 1 k

= 4 k

- 40 - 20

80 100

17618

amb

- Ambient Temperature (°C)

17621

- Forward Input Current (mA)

Figure 13. Low Level Output Voltage vs. Ambient Temperature

Figure 16. Output Voltage vs. Forward Input Current

120

4 kΩ

PLH,

= 5 mA

100

= 10 mA

1 kΩ

PLH,

350 Ω

PLH,

PHL,

1 kΩ

PHL,

4 kΩ

PHL,

- 40 - 20

80 100

- 40 - 20

80 100

17622

- Ambient Temperature (°C)

17619

amb

– Ambient Temperature (°C)

amb

Figure 14. Low Level Output Current vs. Ambient Temperature

Figure 17. Propagation Delay vs. Ambient Temperature

www.vishay.com

Document Number 82584

Rev. 1.9, 03-Mar-06

6N137/ SFH6741 / 42 / 50 / 51 / 52

Vishay Semiconductors

300

120

100

4 kΩ

PLH,

t , R = 4 kΩ

250

200

150

100

1 kΩ

PLH,

350 Ω

PLH,

t , R = 350 Ω

t , R = 1 kΩ

t , R = 4 kΩ

350 Ω

PHL,

t , R = 1 kΩ

1 kΩ

PHL,

4 kΩ

PHL,

t , R = 350 Ω

- 40 - 20

80 100

17626

– Ambient Temperature (°C)

17623

I - Forward Current (mA)

amb

Figure 18. Propagation Delay vs. Forward Current

Figure 21. Rise and Fall Time vs. Ambient Temperature

300

t , R = 4 kΩ

250

200

150

100

= 4 kΩ

t , R = 350 Ω

t , R = 1 kΩ

t , R = 4 kΩ

= 1 kΩ

t , R = 1 kΩ

= 350 Ω

t , R = 350 Ω

- 40 - 20

80 100

17627

I - Forward Current (mA)

17624

amb

- Ambient Temperature (°C)

Figure 19. Pulse Width Distortion vs. Ambient Temperature

Figure 22. Rise and Fall Time vs. Forward Current

= 4 kΩ

= 1 kΩ

= 4 kΩ

eLH

= 350 Ω

eLH

= 350 Ω

eHL

= 1 kΩ

eLH

= 1 kΩ

eHL

= 4 kΩ

eHL

= 350 Ω

- 40 - 20

80 100

17628

- Ambient Temperature (°C)

17625

I - Forward Current (mA)

amb

Figure 20. Pulse Width Distortion vs. Forward Current

Figure 23. Enable Propagation Delay vs. Ambient Temperature

Document Number 82584

Rev. 1.9, 03-Mar-06

www.vishay.com

6N137/ SFH6741 / 42 / 50 / 51 / 52

Vishay Semiconductors

Package Dimensions in Inches (mm)

pin one ID

0.255 (6.48)

0.268 (6.81)

ISO Method A

0.379 (9.63)

0.390 (9.91)

0.030 (0.76)

0.045 (1.14)

0.300 (7.62)

0.031(0.79)

typ.

4° typ.

0.130 (3.30)

0.150 (3.81)

0.230 (5.84)

0.050 (1.27)

10°

0.110 (2.79)

0.130 (3.30)

0.250 (6.35)

0.020 (0.51)

0.035 (0.89)

3°- 9°

0.018 (0.46)

0.022 (0.56)

0.008 (0.20)

0.100 (2.54) typ.

0.012 (0.30)

i178006

Option 7

Option 6

Option 9

0.375 (9.53)

0.395 (10.03)

0.300(7.62)

TYP.

0.407(10.36)

0.391(9.96)

0.307(7.8)

0.291(7.4)

0.300 (7.62)

ref.

0.028 (0.7)

MIN.

0.180(4.6)

0.160(4.1)

0.0040 (0.102)

0.012 (0.30) ty.p

0.0098 (0.249)

0.315(8.0)

MIN.

0.020 (0.51)

0.040 (1.02)

0.014(0.35)

0.010(0.25)

0.400(10.16)

0.430(10.92)

0.331(8.4)

MIN.

15° max.

0.315 (8.00)

min.

0.406(10.3)

MAX.

18450

www.vishay.com

Document Number 82584

Rev. 1.9, 03-Mar-06

6N137/ SFH6741 / 42 / 50 / 51 / 52

Vishay Semiconductors

Ozone Depleting Substances Policy Statement

It is the policy of Vishay Semiconductor GmbH to

1. Meet all present and future national and international statutory requirements.

2. Regularly and continuously improve the performance of our products, processes, distribution and operating

systems with respect to their impact on the health and safety of our employees and the public, as well as

their impact on the environment.

It is particular concern to control or eliminate releases of those substances into the atmosphere which are

known as ozone depleting substances (ODSs).

The Montreal Protocol (1987) and its London Amendments (1990) intend to severely restrict the use of ODSs

and forbid their use within the next ten years. Various national and international initiatives are pressing for an

earlier ban on these substances.

Vishay Semiconductor GmbH has been able to use its policy of continuous improvements to eliminate the use

of ODSs listed in the following documents.

1. Annex A, B and list of transitional substances of the Montreal Protocol and the London Amendments

respectively

2. Class I and II ozone depleting substances in the Clean Air Act Amendments of 1990 by the Environmental

Protection Agency (EPA) in the USA

3. Council Decision 88/540/EEC and 91/690/EEC Annex A, B and C (transitional substances) respectively.

Vishay Semiconductor GmbH can certify that our semiconductors are not manufactured with ozone depleting

substances and do not contain such substances.

We reserve the right to make changes to improve technical design

and may do so without further notice.

Parameters can vary in different applications. All operating parameters must be validated for each

customer application by the customer. Should the buyer use Vishay Semiconductors products for any

unintended or unauthorized application, the buyer shall indemnify Vishay Semiconductors against all

claims, costs, damages, and expenses, arising out of, directly or indirectly, any claim of personal

damage, injury or death associated with such unintended or unauthorized use.

Vishay Semiconductor GmbH, P.O.B. 3535, D-74025 Heilbronn, Germany

Document Number 82584

Rev. 1.9, 03-Mar-06

www.vishay.com

Legal Disclaimer Notice

Vishay

Notice

Specifications of the products displayed herein are subject to change without notice. Vishay Intertechnology, Inc.,

or anyone on its behalf, assumes no responsibility or liability for any errors or inaccuracies.

Information contained herein is intended to provide a product description only. No license, express or implied, by

estoppel or otherwise, to any intellectual property rights is granted by this document. Except as provided in Vishay's

terms and conditions of sale for such products, Vishay assumes no liability whatsoever, and disclaims any express

or implied warranty, relating to sale and/or use of Vishay products including liability or warranties relating to fitness

for a particular purpose, merchantability, or infringement of any patent, copyright, or other intellectual property right.

The products shown herein are not designed for use in medical, life-saving, or life-sustaining applications.

Customers using or selling these products for use in such applications do so at their own risk and agree to fully

indemnify Vishay for any damages resulting from such improper use or sale.

Document Number: 91000

Revision: 08-Apr-05

www.vishay.com

SFH6751-X016 [VISHAY]

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