MII 66058 Datasheet

66058

]

SINGLE/DUAL CHANNEL, LOW-INPUT CURRENT,

OPTOCOUPLER (Electrically similar to 6N140)

Features:

DSCC Approved 8978501PX (Dual) and

•

8981001PX (Single)

High current transfer ratio: 1000% typical

•

1500 Vdc isolation test voltage

•

Low input current requirement: 0.5mA

•

Applications:

• Telephone ring detection
Voltage level shifting

•

Isolated receiver input

•

Communication systems

•

Medical systems

•

DESCRIPTION

Mii

OPTOELECTRONIC PRODUCTS

DIVISION

The
optocoupler provides high CTR and low leakage current over the full military temperature range (-55

single/dual optocoupler utilizes infrared LEDs optically coupled to high gain photodarlington detectors. This unique

66058

°

to +125°C). The 66058
is a 8 pin dual-in-line, hermetically sealed package and is available in standard and screened versions or tested to customer
specifications.

ABSOLUTE MAXIMUM RATINGS

Storage Temperature........................................................................................................................................... -65°C to +150°C

Operating Free-Air Temperature Range ............................................................................................................. -55°C to +125°C

Lead Solder Temperature......................................................................................... 260

C for 10s (1.6mm below seating plane)

°

Peak Forward Input Current (each channel) ................................................................................................ 20mA (1ms duration)

Average Forward Input Current ........................…............(see Note 1) ...............................................................................10mA

Reverse Input Voltage ...............................................................................................................................................................5V

Output Current - I

(each channel) ......................................................................................................................................40mA

O

Output Power Dissipation (each channel) ........................(see Note 2) ..............................................................................50mW

Supply Voltage - V
Output Voltage - V

..........................................................(see Note 3)........................................................................0.5 to 20V

CC

(each channel).……........................(see Note 3) ...................................................................... -0.5 to 20V

O

Package Dimensions Schematic Diagram

0.370 [9.040]

REAR VIEW

PIN ONE

0.390 [9.90]

6875

YYWW

USA
XXXX

3

24

1

TYPE NUMBER

DATE CODE

NC

NC

8

1

2

A

3

K

4

Vcc

7

EN

6

V0

5GND

0.320 [8.13]MAX

0.280 [7.11]

0.310 [7.88]

0.007 [0.18]

0.013 [0.33]

SIDE VIEW

ALL DIMENSIONS ARE IN INCHES [MILLIMETERS

0.90 [2.28]

0.110 [2.80]

PIN ONE

0.170 [4.32]MAX

0.020 [0.51] MIN

.020 [0.51] MAX

END VIEW

A1

K3

Vcc8

2K

4A

7V01

6V02

5

GND

Notes:

1. Derate I

at 0.33 mA/°C above 110°C.

F

2. Collector output power plus one half of the total supply power is total output power. Derate at 1.66mW/°C above 110°C.

3. The lowest total I

over temperature is developed by keeping VCC as low as possible, but greater that 2 volts. The

OH

negative voltage at the detector side should be applied to Pin 10.

MICROPAC INDUSTRIES, INC. OPTOELECTRONIC PRODUCTS DIVISION • 725 E. Walnut St., Garland, TX 75040 • (972) 272-3571 • Fax (972) 487-6918

www.micropac.com

E-MAIL: optosales@micropac.com

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66058

SINGLE/DUAL CHANNEL, LOW-INPUT CURRENT OPTOCOUPLER

ELECTRICAL CHARACTERISTICS

Ta = -55°C to 125°C unless otherwise specified.

PARAMETER SYMBOL MIN TYP MAX UNITS TEST CONDITIONS NOTE

Current Transfer Ratio CTR 300

300

200

Logic Low Output Voltage V

Logic High Output Current I

High Level Output Current -XX1

I

CCH

OL

OH

-XX2

Low Level Supply Current -XX1

I

CCL

-XX2

Input Forward Voltage V

Input Reverse Breakdown Voltage BV

Input-Output Insulation Leakage

I

I—O

F

R

5VI

Current

Propagation Delay Time To High

t

PLH

Output Level

Propagation Delay Time To Low

t

PHL

Output Level

1000

750

400

0.1

0.2

0.4

0.4

.005 250

.01 10

20

.01 2

4

%

%

%

V

V

µ

AI

µ

A

µ

A

mA

mA

I

= 0.5mA, V

F

I

= 1.6mA, V

F

I

= 5.0mA, V

F

I

= 0.5mA, I

F

I

= 5.0mA, I

F

OL

OL

= 2µA, VO = VCC = 18V 1,3

F

I

= 0mA, VCC = 18V

F1

I

= I

= 0mA, VCC = 18V

F1

F2

I

= 1.6mA, VCC = 18V

F1

I

= I

=1.6mA, VCC = 18V

F1

F2

= 0.4V, VCC = 4.5V

O

= 0.4V, VCC = 4.5V

O

= 0.4V, VCC = 4.5V

O

= 1.5mA, VCC = 4.5V

= 10mA, VCC = 4.5V

1.4 1.7 V IF = 1.6mA 1

= 10µA 1

R

1.0 µA V

= 1500Vdc,

I—0

Relative Humidity = 45%

tA = 25°C, t = 5s

6

6

4

8

3

2

60

50

30

100

30

10

µ

s

µ

s

µ

s

µ

s

µ

s

µ

s

I

= 0.5mA, VCC = 5.0V, R

F

I

= 1.6mA, VCC = 5.0V, R

F

I

= 5mA, VCC = 5.0V, R

F

I

= 0.5mA, VCC = 5.0V, RL= 4.7kΩ

F

I

= 1.6mA, VCC = 5.0V, R

F

I

= 5mA, VCC = 5.0V, R

F

= 4.7kΩ

L

= 1.5k

L

= 680

L

= 1.5k

L

= 680

L

Ω

Ω

TYPICAL CHARACTERISTICS

Ta = 25°C, VCC = 5V Each Channel

PARAMETER SYMBOL MIN TYP MAX UNITS TEST CONDITIONS NOTE

Input Capacitance C

Capacitance (Input-Output) C

Input Diode Temperature

Coefficient

Resistance (Input-Output) R

Resistance (Input-Input) R

Input-Input Insulation Leakage

IN

I-O

∆

v

F

∆

T

A

I-0

I-I

I

I-I

Current

Common Mode Transient

CM

H

500 1000 V/µsV

immunity at High Output Level

Common Mode Transient

CM

L

500 1000 V/µsV

Immunity at Low Output Level

NOTES:

1. Each channel.

2. CURRENT TRANSFER RATIO is defined as the ratio of output collector current, IO, to the forward LED input current., I

3. I

= 2µA for channel under test. For all other channels, I

F

4. Device considered a two-terminal device.

5. Measured between each input pair shorted together and all output pins shorted together.

6. Measured between each input pair shorted together.

7. CM

8. CM

is the maximum tolerable common mode transient to assure that the output will remain in a high logic state (ie. V

H

is the maximum tolerable common mode transient to assure that the output will remain in a low logic state (ie. V

L

9. In applications where dv/dt may exceed 50,000 V/µs (such as static discharge) a series resistor, R

destructively high surge currents. The recommended value is R

0.6I

60 pF VF = 0, f = MHz, t

1.5 pF f = 1MHz, t

-1.8 mV/°CI

10

10

12

12

Ω

Ω

F

V

= 500V, t

I—O

V

= 500V, ta = 25°C6

I—I

a

= 25°C1, 5

a

= 1.6mA 1

= 25°C1, 5

a

0.5 nA Relative Humidity = 45%

V

= 500V, t = 5s

I—I

= 50V

CM

P-P,VCC

RL = 1.5kΩ, IF = OmA, t

= 50V

CM

P-P,VCC

RL = 1.5kΩ, IF = 1.6mA, t

= 10mA.

F

= 1V = k

CC

(mA)

F

, should be included to protect the detector IC’s from

Ω

CC

F

> @.0V).

O

< 0.8V).

O

= 25°C 1

= 5.0V,

= 25°C

a

= 5.0V,

= 25°C

a

, times 100%.

RECOMMENDED OPERATING CONDITIONS:

Input Current, Low Level

Input Current, High Level

Supply Voltage

PARAMETER SYMBOL MIN MAX UNITS

I

FL

I

FH

V

CC

02

0.5 5 mA

2.0 18 V

µ

A

1,2

1,2

1,2

1

4

Ω

Ω

6

7,9

8,9

MICROPAC INDUSTRIES, INC. OPTOELECTRONIC PRODUCTS DIVISION • 725 E. Walnut St., Garland, TX 75040 • (972) 272-3571 • Fax (972) 487-6918

www.micropac.com

E-MAIL: optosales@micropac.com

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