Siemens ILD217, ILD207, ILD206, ILD205, ILD213 Datasheet

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ILD205/206/207/211/213/217

DUAL PHOTOTRANSISTOR

SMALL OUTLINE

FEATURES

• Two Channel Coupler

Dimensions in inches (mm)

• Industry Standard SOIC-8 Surface Mountable
Package

• Standard Lead Spacing of .05"

• Available in Tape and Reel Option
(Conforms to EIA Standard 481-2)

.120±.002

(3.05±.05)

240

6.10)

• Isolation T est V oltage, 2500 VRMS

• High Current Transfer Ratios
ILD205, 40 – 80%
ILD206, 63 –125%
ILD207, 100 – 200%
ILD211, 20% Minimum
ILD213, 100% Minimum

.004 (.10)
.008 (.20)

ILD217, 100% Minimum at 1 mA

• High BVCEO, 70 V

• Compatible with Dual Wave, Vapor Phase and
IR Reflow Soldering

DESCRIPTION

The ILD205/206/207/211/213/217 are optically
coupled pairs 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
ILD205/6/7/11/13/17 come in a standard SOIC-8
small outline package for surface mounting which
makes it ideally suited for high density applications
with limited space. In addition to eliminating
through-holes requirements, this package con­forms to standards for surface mounted devices.

A specified minimum and maximum CTR allows a

Characteristics (T

Parameter Min. Typ Max.Unit Test

Emitter

Forward Voltage 1.2 1.55 V I
Reverse Current 0.1 100 mA V
Capacitance 25 pF V

Detector

BV

CEO

BV

ECO

I

CEO

narrow tolerance in the electrical design of the
adjacent circuits. The high BV

of 70 volts gives

CEO

a higher safety margin compared to the industry
standard of 30 volts.

Maximum Ratings (Each Channel)
Emitter

Peak Reverse Voltage.....................................6.0 V

Peak Pulsed Current (1 µ

s, 300 pps).................1 A

Continuous Forward Current per Channel....30 mA

Power Dissipation at 25 °
Derate Linearly from 25 °

C............................45 mW

C......................0.5 mW/ ° C

Detector

Collector-Emitter Breakdown Voltage...............70 V

Emitter-Collector Breakdown Voltage.................7 V

Power Dissipation per Channel....................55 mW

Derate Linearly from 25 °

Package

C....................0.55 mW/ ° C

Total Package Dissipation at 25 ° C Ambient

(2 LEDs + 2 Detectors, 2 Channels).......200 mW

Derate Linearly from 25 °
Storage Temperature –55 °
Operating Temperature –55 °
Soldering Time at 260 °

C......................2.0 mW/ ° C

C................... to +150 ° C

C............... to +100 ° C

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

Collector-Emitter
Capacitance

Package

DC Current Transfer
ILD205
ILD206
ILD207
ILD211
ILD213
ILD205
ILD206
ILD207
ILD217

Collector-Emitter Saturation
Voltage V

Capacitance, Input to
Output

Isolation Test Voltage 2500 VAC
Resistance, Input to Output 100 G Ω
Turn-on Time 5.0
Turn-off Time 4.0

SURFACE MOUNT OPTOCOUPLER

CE (sat)

.230±.002
(4.88±.05)

.050 (1.27) Typ.

.040 (1.02)

=25 ° C)

A

Pin 1

.154±.002

C

L

(3.91±.05)

.016 (.41)

70 V I
7VI

40
63
100
20
100
13
22
34
100

Anode

1

Cathode

Cathode

.015±.002

(.38±.05)

.008 (.20)

.020±.004

(.15±.10)

2 Plcs.

550nA V

10 pF V

30
45
70
130

0.5 pF

Anode

80
125
200

0.4 V

2
3
4

7°

40°

.058±.005

(1.49±.13)

5° Max.

R.010
(.25) Max.

%
%
%

%
%
%
%
%

RMS

µ sI
µ s

AUGUST 1995

8

Collecto

7

Emitter

6

Collecto

5

Emitter

.125±.005

(3.18±.13)

Lead
Coplanarity
±.001 (.04)
Max.

Condition

=10 mA

F

=6.0 V

R

=0

R

=10 mA

C

=10 mA

E

=10 V

CE

I

=0

F

=0

CE

V

=5 V

CE

I

=10 mA

F

I

=10 mA

F

I

=10 mA

F

I

=10 mA

F

I

=10 mA

F

I

=1 mA

F

I

=1 mA

F

I

=1 mA

F

I

=1 mA

F

I

=10 mA

F

I

=2.5 mA

F

t=1 min.

=2 mA,

C

R

= 100 Ω

E

V

=5 V

CE

5–1

%

%

%

Figure 1. Forward current versus forward voltage

Figure 5. Switching speed versus load resistor

3

10

 If=10 ma
 P ul s e w i dt h = 100ms

 Duty cycle = 50%

2

10

To f f

Figure 2. Collector-emitter current versus temperature

1.2

1.0

0.8

0.6

0.4

0.2

0.0

NIc Normalized Collector Current

Vce-Collector to Emitter Voltage (V)

If=1ma

If=10ma

If=5ma

Coll current
normalized
@ If=10ma

Vce=10v
Ta=25°C

121086420

Figure 3. Normalized CTRce versus forward current

1.2
CTR norm al ized @

1.0

If= 10 m a
Ta=25 °C

0.8

Vce= 5V

0.6

10

1

To n

S witchi n g speed (µs)

0

10

100101.1

Rl-Load Resistor (KΩ)

Figure 6. Collector current versus temperature

Figure 7. Power dissipation versus ambient temperature

200

Total pkg

150

100

0.4

V ce=0.4V

0.2

NCTRce -Norm aliz ed CTRce

0.0

100101.1.01

If-LED current (ma)

Figure 4. CTR (normalized) versus temperature

1.2

1.0
If=10ma

0.8

0.6

If=5ma

0.4

0.2

If=1ma

0.0

NCTRce-normalized CTRce

10080604020

Ta-Temperature (°C)

CTR (nonsat)
normalized @

If=10ma
Vce=10v
Ta=25°C

per channel

50

0

Package Power Dissipation (mw )

125100755025

Ta-Ambi ent Temperature (°C)

Figure 8. Switching time test schematic and waveform

V

OUT

INPUT

0

t

pdon

OUTPUT

10%
50%

90%

t

on

t

pdof

t

r

t

d

0

t

s

ILD205/206/207/211/213/217

5–2

Input

VCC=5 V

R

L

t

off

t

r

10
50

90