Siemens ILD74, IL74, ILQ74 Datasheet

.
.

r
r

r
r

FEATURES

• 7400 Series T2L Compatible

• Transfer Ratio, 35% Typical

• Coupling Capacitance, 0.5 pF

• Single, Dual, & Quad Channel

• Industry Standard DIP Package

• Underwriters Lab File #E52744

V

DE

• VDE Approvals #0884
(Optional with Option 1, Add -X001 Suffix)

DESCRIPTION

The IL74 is an optically coupled pair with a Gal­lium Arsenide infrared LED and a silicon NPN
phototransistor. Signal information, including a
DC level, can be transmitted by the device while
maintaining a high degree of electrical isolation
between input and output. The IL74 is especially
designed for driving medium-speed logic, where
it may be used to eliminate troublesome gound
loop and noise problems. Also it can be used to
replace relays and transformers in many digital
interface applications, as well as analog applica­tions such as CRT modulation.

The ILD74 has two isolated channels in a single
DIP package; the ILQ74 has four isolated chan­nels per package.

PHOTOTRANSISTOR OPTOCOUPLER

Dimensions in inches (mm)

3

.248 (6.30)
.256 (6.50)

4

5

.335 (8.50)
.343 (8.70)

.039

(1.00)

min.

4°

typ.

.018 (0.45)
.022 (0.55)

2

34

.268 (6.81)
.255 (6.48)

65

.390 (9.91)
.379 (9.63)

.045 (1.14)
.030 (.76)

Pin One ID.

12

6

.130 (3.30)
.150 (3.81)

.020 (.051) min.

.031 (0.80)
.035 (0.90)

.100 (2.54) typ.

Pin One I.D.

1

87

.150 (3.81)
.130 (3.30)

SINGLE CHANNEL

DUAL CHANNEL

QUAD CHANNEL

6

Anode

Cathode

NC

Anode
Cathode
Cathode

Anode

1

2

3

.300 (7.62)

18° typ.

.010 (.25)
.014 (.35)

.300 (7.62)
.347 (8.82)

1
2

3
4

typ.

.305 typ.

(7.75) typ.

Base

5

Collector

4

Emitter

.110 (2.79)
.150 (3.81)

8
7

6
5

IL74

ILD74

ILQ74

Emitter
Collector
Collector
Emitter

4°

Typ.

.022 (.56)
.018 (.46)

67

8

.240 (6.10)
.260 (6.60)

9

10

040 (1.02)
050 (1.27)

.280 (7.11)
.330 (8.38)

.014
(.35)

typ.

.016 (.41)
.020 (.51)

11

.048 (1.22)
.052 (1.32)

.033 (.84)

.040 (1.02)
.030 (.76 )

.100 (2.54) Typ.

5

12

.780 (19.81)
.800 (20.32)

typ.

4

13

3

14

.034 (.86)

3°–9°

1

2

16

15

.100 (2.54) typ.

.020 (.51)
.030 (.76)

Cathode
Cathode

pin one

ID.

Cathode
Cathode

.130 (3.30)
.150 (3.81)

.0255 (.65)
typ.

10°
Typ.

.012 (.30)
.008 (.20)

Anode

Anode
Anode

Anode

1
2
3
4
5
6
7
8

.300 (7.62)

typ.

3° to 9°

.008 (.20)
.012 (.31)

.135 (3.43)
.115 (2.92)

16
15
14
13
12
11
10
9

.130 (3.30)
.150 (3.81)

Emitter
Collecto
Collecto
Emitter
Emitter
Collecto
Collecto
Emitter

5–1

:

C

Maximum Ratings
Emitter (each channel)

Peak Reverse Voltage.....................................3.0 V

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

Power Dissipationat 25 °
Derate Linearly from 25 °

C...........................100 mW

C....................1.33 mW/ ° C

Detector (each channel)

Collector-Emitter Breakdown Voltage ..............20 V

Emitter-Base Breakdown Voltage.......................5 V

Collector-Base Breakdown Voltage .................70 V

Power Dissipation at 25 °
Derate Linearly from 25 °

C..........................150 mW

C......................2.0 mW/ ° C

Package

Isolation Test V oltage (t=1 sec.)........5300 VAC

Isolation Resistance

V

=500 V, T

IO

V

=500 V, T

IO

=25 ° C ............................... ≥ 10

A

=100 ° C ............................. ≥ 10

A

RMS

12
11

Ω
Ω

Total Package Dissipation

at 25 °

C Ambient (LED Plus Detector)

IL74.........................................................200 mW

ILD74......................................................400 mW

IL74Q......................................................500 mW

Derate Linearly from 25 °

IL74.....................................................2.7 mW/ °

ILD74................................................5.33 mW/ °

ILQ74................................................6.67 mW/ °

C

C
C

C

Creepage...............................................7 mm min.

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

Storage Temperature ...................–55 °

Operating Temperature ...............–55 °

Lead Soldering Time at 260 °

Electrical Characteristics (T

Emitter

Forward Voltage V
Reverse Current I
Capacitance C

Detector

Breakdown
Voltage,
Collector-Emitter

Leakage Current,
Collector-Emitter

Capacitance,
Collector-Emitter

Package

DC Current Trans­fer Ratio

Saturation Voltage,
Collector-Emitter

Resistance, Input
to Output R

Capacitance, Input
to Output C

Switching Times t

C.................... 10 sec.

=25 ° C)

A

Symbol Min. Typ. Max. Unit Condition

F

R

O

BV

CEO

I

CEO

C

CE

CTR

DC

V

CEsat

IO

IO

,t

ON

OFF

C to +150 ° C
C to +100 ° C

1.3 1.5 V I

0.1 100 µ AV
25 pF V

20 50 V I

5.0 500 nA V

10.0 pF V

12.5 35 % I

0.3 0.5

100 G Ω

0.5 pF

3.0

=20 mA

F

=3.0 V

R

=0

R

=1 mA

C

=5 V,

CE

I

=0

F

=0,

CE

F=1 MHz

=16 mA,

F

V

=5 V

CE

I

=2 mA,

C

V

µ sR

=16 mA

I

F

=100 Ω ,

E

V

=10 V,

CE

I

=2 mA

C

Figure 1. Forward voltage versus forward current

1.4

1.3

Ta = -55°C

1.2

1.1

Ta = 25°C

1.0

0.9

Ta = 85°C

0.8

VF - Forward Voltage - V

0.7

100101.1

IF - Forward Current - mA

Figure 2. Normalized non-saturated and saturated
CTR at T

=25 ° C versus LED current

A

1.5
Normalized to

Vce = 10V, IF = 10mA
Ta = 25°C

1.0

CTRce(sat) Vce = 0.4V

0.5

NCTR - Normalized CTR

0.0

IF - LED Current - mA

NCTR(SAT)

NCTR

100101.1

Figure 3. Normalized non-saturated and saturated
CTR at T

=50 ° C versus LED current

A

1.5
Normalized to:

Vce = 10V, IF = 10mA, Ta = 25°

CTRce(sat) Vce = 0.4V

1.0

Ta = 50°C

0.5

NCTR - Normalized CTR

0.0

IF - LED Current - mA

NCTR(SAT)
NCTR

100101.1

Figure 4. Normalized non-saturated and saturated
CTR at T

=70 ° C versus LED current

A

1.5

Normalized to:

Vce = 10V, IF = 10mA
Ta = 25°C

1.0
CTRce(sat) Vce = 0.4V

0.5

NCTR - Normalized CTR

0.0

IF - LED Current - mA

Ta = 70°C

NCTR(SAT)
NCTR

100101.1

5–2

IL/ILD/ILQ74