MOC8050 Datasheet, PDF(1/2 Page) Motorola, Inc – 6-Pin DIP Optoisolators Darlington Ouput(No Base Connection)

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MOC8050 Datasheet, PDF (1/2 Pages) Motorola, Inc – 6-Pin DIP Optoisolators Darlington Ouput(No Base Connection)

MOC8050

PHOTODARLINGTON

OPTOCOUPLER

FEATURES

â¢ High Current Transfer Ratio 500% at 50 mA

Output

â¢ High Collector to Emitter Breakdown Voltage:

80 V Min.

â¢ High Isolation Voltage VISO=5300 VACRMS

â¢ Base Lead Not Connected

â¢ Solid State Reliability

â¢ Standard DIP Package

â¢ Underwriters Lab File #E52744

â¢

VDE 0884 Availablle with Option 1

DESCRIPTION

The MOC8050 is an optically coupled isolator with a

Gallium Arsenide infrared emitter and a silicon pho-

todarlington sensor. Switching can be achieved

while maintaining a high degree of isolation

between driving and load circuits, with no cross talk

between channels. These optocouplers can be

used to replace reed and mercury relays with

advantages of long life, high speed switching and

elimination of magnetic ï¬elds.

Maximum Ratings

Emitter

Peak Reverse Voltage ........................................ 3 V

Continuous Forward Current .........................60 mA

Power Dissipation at 25Â°C........................... 100 mW

Derate Linearly from 25Â°C .................... 1.33 mW/Â°C

Detector

Collector-Emitter Reverse Voltage..................... 80 V

Collector Load Current ................................125 mA

Power Dissipation at 25Â°C Ambient ............ 150 mW

Derate Linearly from 25Â°C ...................... 2.0 mW/Â°C

Package

Total Package Dissipation at 25Â°C .............. 250 mW

Derate Linearly from 25Â°C ...................... 3.3 mW/Â°C

Isolation Test Voltage.......................... 5300 VACRMS

Isolation Resistance

VIO=500 V, TA=25Â°C .................................. 1012 â¦

VIO=500 V, TA=100Â°C ................................ 1011 â¦

Creepage Path ....................................... 8 mm min.

Clearance Path........................................ 7 mm min.

Comparative Tracking Index .............................. 175

Storage Temperature Range ......... â55Â°C to +125Â°C

Operating Temperature Range...... â55Â°C to +100Â°C

Lead Soldering Time at 260Â°C ..................... 10 sec.

Package Dimensions in inches (mm)

Pin One ID.

321

Anode 1

.248 (6.30)

.256 (6.50)

Cathode 2

6 Base

5 Collector

.039

(1.00)

min.

4Â°

typ.

.018 (0.45)

.022 (0.55)

4 56

.335 (8.50)

.343 (8.70)

NC 3

.300 (7.62)

typ.

.130 (3.30)

.150 (3.81)

.020 (.051) min.

.031 (0.80)

.035 (0.90)

.100 (2.54) typ.

18Â° typ.

.010 (.25)

.014 (.35)

.300 (7.62)

.347 (8.82)

4 Emitter

.110 (2.79)

.150 (3.81)

Electrical Characteristics (TA=25Â°C)

Parameter

Symbol Min. Typ. Max. Unit

Emitter

Condition

Forward Voltage VF

Reverse Current IR

Capacitance

Detector

1.25 1.5 V

0.1 10 ÂµA

Collector-Emitter BVCEO 80

Breakdown Volt-

age

IF=20 mA

VR=3.0 V

VR=0

IC=10 ÂµA

Collector-Emitter

Leakage Current

Emitter-Collector

Breakdown

Voltage

ICEO

VECO

25 1000 nA

5.0 8.0

VCE=60 V

IF=0

IC=10 ÂµA

Package

Current Transfer

Ratio

Collector-Emitter

Saturation Voltage

Isolation Test

Voltage

CTR

VCEsat

VISO

500

IF=10 mA

VCE=1.5 V

0.9 1.0 V

IC=50 mA

IF=50 mA

5300

VACRMS 1 sec., 60 Hz

Coupling

Capacitance

Rise Time

Fall Time

CISOL

0.5

Âµs

VCC=13.5 V

Âµs

IF=50 mA

RL=100 â¦

5â219

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