Manufacturer of Optocouplers / Optoisolators
www.isocom.com
Manufacturer of Optocouplers / Optoisolators
www.isocom.com
Contents
Which optocoupler to choose?
pg 2
Part Number Index
pg 3
4 Pin DIL & SMD Optocouplers
pg 4-5
6 Pin DIL & SMD Optocouplers
pg 6-9
8 Pin DIL & SMD Optocouplers
pg 10-11
16 Pin DIL & SMD Optocouplers
pg 12-13
6 Pin DIL & SMD Triac Optocouplers
pg
14-15
4 Pin Mini Flat Package Optocouplers
pg 16-17
6 Pin DIL & SMD Schmitt Trigger Optocouplers
pg 18
4 Pin Mini Flat Package Triac Optocouplers
pg 19
High Speed Optocouplers + Others
pg 20
Ordering Information and Options
pg 21
Welcome to the Isocom Components
Shortform Catalogue
Isocom Components has been a leading supplier of infrared optoelectronic devices for over
25 years with product families including all popular commercial optocoupler industry standard
types including many no longer supplied by other manufacturers. We also offer special parametric
selections to meet customer’s specific circuit design requirements.
Isocom Components undertakes final assembly, marking, lead forming, testing, and quality
control at its production facility in the UK. Original components are sourced from world class
approved suppliers in the Far East and elsewhere to ensure cost competitiveness and the very
highest quality standards.
We offer the shortest manufacturing lead times in the world for many parts and are proud of our
fast turnaround capability whilst maintaining excellent product quality.
Why settle for lengthy lead times when we can deliver your components at a time when you
need them?
For all the latest news and new product offerings please visit our website at:
www.isocom.com
1
2
Optocouplers
Why use an Optocoupler?
Optocouplers provide a low cost, space efficient, easy to use solution to high voltage isolation
requirements. With careful PCB design the input can be electronically isolated from the output
stage for up to 7,500 volts peak differential.
Which optocoupler to choose?
For those new to optocouplers the array of varieties may seem bewildering but by considering
the specific application the right optocoupler can usually be selected easily.
Transistor
Transistor optocouplers can be used in most circumstances. If the base lead of the output
transistor is not required in the circuit then the packages with no base lead connection provide
additional protection against noise. The special dual and quad packages provide excellent PCB
space savings where several optocouplers are required on the same circuit board.
AC Input
AC input devices, as the name implies, switch on the output transistor when an AC voltage (or
a DC voltage of either polarity) is applied to the input. A typical application of this device is to
detect the presence, or lack of, an AC voltage.
Darlington
Where high gain is required a darlington pair output device can provide up to 100% Current
Transfer Ratio (CTR)
Schmitt Trigger
Where hystersis control is needed together with a degree of speed, the Schmitt trigger devices
provide an ideal solution.
Triac
Triac optocouplers provide control of AC voltages. For very high current applications, Isocom
Components’ Triac optocouplers can be used to control an external Power Triac.
IGBT Octocoupler
Isocom’s newly developed ICPL3120 incorporates an infrared emitting diode optically coupled to
an integrated circuit with a Power Output stage. It is suited for driving power IGBT’s and MOSFETS
in motor control applications
Mini Flat Packages
A range of space saving optocouplers with various outputs including Zero Crossing Triacs and
Random Phase Triacs
Half Pitch Packages
A range of super small devices with both AC & DC
inputs coupled with a phototransistor output
High Speed
A range of industry standard High Speed
optocouplers with data rates in excess
of 10Mbits/sec
3
4N25
Pg 6
ILD1
Pg 11
IS452
Pg 16
ISP815-1
Pg 5
MOC3060
Pg 15
SFH620A-1
Pg 4
4N26
Pg 6
ILD2
Pg 11
IS4N45
Pg 9
ISP815-2
Pg 5
MOC3061
Pg 15
SFH620A-2
Pg 4
4N27
Pg 6
ILD5
Pg 11
IS4N46
Pg 9
ISP815-3
Pg 5
MOC3062
Pg 15
SFH620A-3
Pg 4
4N28
Pg 6
ILD74
Pg 11
IS5
Pg 6
ISP817
Pg 4
MOC3063
Pg 15
SFH628-2
Pg 4
4N29
Pg 8
ILQ1
Pg 13
IS6003
Pg 14
ISP824
Pg 10
MOC3080
Pg 15
SFH628-4
Pg 4
4N30
Pg 8
ILQ2
Pg 13
IS6005
Pg 14
ISP825
Pg 10
MOC3081
Pg 15
SFH628A-2
Pg 5
4N31
Pg 8
ILQ5
Pg 13
IS6010
Pg 14
ISP825-1
Pg 10
MOC3082
Pg 15
SFH628-3
Pg 4
4N32
Pg 8
ILQ74
Pg 13
IS6015
Pg 14
ISP825-2
Pg 10
MOC3083
Pg 15
SFH628A-3
Pg 5
4N33
Pg 8
IS1
Pg 6
IS6030
Pg 14
ISP825-3
Pg 10
MOC5007
Pg 18
SFH628A-4
Pg 5
4N35
Pg 6
IS121
Pg 16
IS604
Pg 8
ISP827
Pg 10
MOC5008
Pg 18
TIL111
Pg 7
4N36
Pg 6
IS126
Pg 16
IS607
Pg 14
ISP844
Pg 12
MOC5009
Pg 18
TIL113
Pg 8
4N37
Pg 6
IS127
Pg 16
IS608
Pg 14
ISP845
Pg 12
MOC8020
Pg 9
TIL114
Pg 7
4N38
Pg 6
IS181
Pg 16
IS609
Pg 18
ISP845-1
Pg 12
MOC8021
Pg 9
TIL116
Pg 7
4N38A
Pg 6
IS2
Pg 6
IS620
Pg 15
ISP845-2
Pg 12
MOC8030
Pg 9
TIL117
Pg 7
CNX62A
Pg 7
IS201
Pg 6
IS621
Pg 15
ISP845-3
Pg 12
MOC8050
Pg 9
TIL119
Pg 9
CNX72A
Pg 6
IS202
Pg 6
IS622
Pg 15
ISP847
Pg 12
MOC8080
Pg 8
TIL191
Pg 4
CNX82A
Pg 7
IS203
Pg 6
IS623
Pg 15
ISQ1
Pg 13
MOC8101
Pg 7
TIL191A
Pg 4
CNX83AG
Pg 6
IS204
Pg 6
IS660
Pg 9
ISQ2
Pg 13
MOC8102
Pg 7
TIL191B
Pg 4
CNY17-1
Pg 6
IS204-1
Pg 6
IS661
Pg 9
ISQ201
Pg 13
MOC8103
Pg 8
TIL192
Pg 10
CNY17-2
Pg 6
IS204-2
Pg 6
IS725
Pg 9
ISQ202
Pg 13
MOC8104
Pg 8
TIL192A
Pg 10
CNY17-3
Pg 6
IS204-3
Pg 6
IS733
Pg 8
ISQ203
Pg 13
MOC8105
Pg 8
TIL192B
Pg 10
CNY17-4
Pg 6
IS205
Pg 7
IS74
Pg 6
ISQ204
Pg 13
MOC8106
Pg 8
TIL193
Pg 12
CNY17-5
Pg 6
IS205-1
Pg 7
IS829
Pg 11
ISQ204-1
Pg 13
MOC8107
Pg 8
TIL193A
Pg 12
CNY17F-1
Pg 7
IS205-2
Pg 7
IS849
Pg 13
ISQ204-2
Pg 13
MOC8108
Pg 8
TIL193B
Pg 12
CNY17F-2
Pg 7
IS205-3
Pg 7
ISD1
Pg 11
ISQ204-3
Pg 13
MOC8111
Pg 8
TIL194
Pg 5
CNY17F-3
Pg 7
IS206
Pg 7
ISD2
Pg 11
ISQ5
Pg 13
MOC8112
Pg 8
TIL194A
Pg 5
CNY17F-4
Pg 7
IS2701-1
Pg 16
ISD201
Pg 11
ISQ74
Pg 13
MOC8113
Pg 8
TIL194B
Pg 5
CNY17F-5
Pg 7
IS2702-1
Pg 16
ISD202
Pg 11
MCA2230
Pg 8
PS2501-1
Pg 4
TIL195
Pg 10
CNY35
Pg 8
IS2705-1
Pg 16
ISD203
Pg 11
MCA2231
Pg 8
PS2501-2
Pg 10
TIL195A
Pg 10
CNY75A
Pg 6
IS2732-1
Pg 16
ISD204
Pg 11
MCA2255
Pg 8
PS2501-4
Pg 12
TIL195B
Pg 10
CNY75B
Pg 6
IS3009
Pg 14
ISD204-1
Pg 11
MCA230
Pg 8
PS2502-1
Pg 5
TIL196
Pg 12
CNY75C
Pg 6
IS3010
Pg 14
ISD204-2
Pg 11
MCA231
Pg 8
PS2502-2
Pg 10
TIL196A
Pg 12
CQY80
Pg 6
IS3011
Pg 14
ISD204-3
Pg 11
MCA255
Pg 8
PS2502-4
Pg 12
TIL196B
Pg 12
H11A1
Pg 6
IS3012
Pg 14
ISD5
Pg 11
MCT2
Pg 6
PS2505-1
Pg 4
TIL197
Pg 5
H11A2
Pg 6
IS3020
Pg 14
ISPD60
Pg 9
MCT210
Pg 6
PS2505-2
Pg 10
TIL197A
Pg 5
H11A3
Pg 6
IS3021
Pg 14
ISPD61
Pg 9
MCT2200
Pg 6
PS2505-4
Pg 12
TIL197B
Pg 5
H11A4
Pg 6
IS3022
Pg 14
ISPD62
Pg 9
MCT2201
Pg 6
SFH600-0
Pg 7
TIL198
Pg 10
H11A5
Pg 6
IS3023
Pg 14
ISPD63
Pg 9
MCT2202
Pg 7
SFH600-1
Pg 7
TIL198A
Pg 10
H11AA1
Pg 8
IS3030
Pg 14
ISPD64
Pg 9
MCT270
Pg 7
SFH600-2
Pg 7
TIL198B
Pg 10
H11AA2
Pg 8
IS3031
Pg 14
ISPD65
Pg 9
MCT271
Pg 7
SFH600-3
Pg 7
TIL199
Pg 12
H11AA3
Pg 8
IS3032
Pg 14
ISD74
Pg 11
MCT272
Pg 7
SFH600-4
Pg 7
TIL199A
Pg 12
H11AA4
Pg 8
IS3033
Pg 14
ISP321-2
Pg 10
MCT2E
Pg 6
SFH601-1
Pg 7
TIL199B
Pg 12
H11AV1
Pg 6
IS3040
Pg 14
ISP321-4
Pg 12
MCT6
Pg 11
SFH601-2
Pg 7
TLP321
Pg 4
H11AV2
Pg 6
IS3041
Pg 14
ISP521-1
Pg 4
MCT61
Pg 11
SFH601-3
Pg 7
TLP321-2
Pg 10
H11AV3
Pg 6
IS3042
Pg 14
ISP521-2
Pg 10
MCT62
Pg 11
SFH601-4
Pg 7
TLP321-4
Pg 12
H11B1
Pg 8
IS3043
Pg 14
ISP521-4
Pg 12
MCT66
Pg 11
SFH609-1
Pg 7
TLP521
Pg 4
H11B2
Pg 8
IS3051
Pg 14
ISP620-1
Pg 4
MOC3009
Pg 14
SFH609-2
Pg 7
TLP521-2
Pg 10
H11B3
Pg 8
IS3052
Pg 14
ISP620-2
Pg 10
MOC3010
Pg 14
SFH609-3
Pg 7
TLP521-4
Pg 12
H11G1
Pg 9
IS3060
Pg 14
ISP620-4
Pg 12
MOC3011
Pg 14
SFH609-4
Pg 7
TLP620-1
Pg 5
H11G2
Pg 9
IS3061
Pg 14
ISP621-1
Pg 4
MOC3012
Pg 14
SFH615A-1
Pg 4
TLP620-2
Pg 10
H11G3
Pg 9
IS3062
Pg 15
ISP621-2
Pg 10
MOC3020
Pg 14
SFH615A-2
Pg 4
TLP620-4
Pg 12
H11J1
Pg 14
IS3063
Pg 15
ISP621-4
Pg 12
MOC3021
Pg 14
SFH615A-3
Pg 4
TLP621
Pg 4
H11J2
Pg 14
IS3080
Pg 15
ISP624-1
Pg 4
MOC3022
Pg 14
SFH615A-4
Pg 4
TLP621-2
Pg 10
H11J3
Pg 14
IS3081
Pg 15
ISP624-2
Pg 10
MOC3023
Pg 14
SFH617A-1
Pg 4
TLP621-4
Pg 12
H11J4
Pg 14
IS3082
Pg 15
ISP624-4
Pg 12
MOC3030
Pg 15
SFH617A-2
Pg 4
TLP624
Pg 4
H11J5
Pg 14
IS3083
Pg 15
ISP626-1
Pg 4
MOC3031
Pg 15
SFH617A-3
Pg 4
TLP624-2
Pg 10
H11L1
Pg 18
IS354
Pg 16
ISP626-2
Pg 10
MOC3032
Pg 15
SFH617A-4
Pg 4
TLP624-4
Pg 12
H11L2
Pg 18
IS354A
Pg 16
ISP626-4
Pg 12
MOC3033
Pg 15
SFH618A-2
Pg 4
TLP626-1
Pg 5
H11L3
Pg 18
IS355
Pg 16
ISP627-1
Pg 5
MOC3040
Pg 15
SFH618A-3
Pg 4
TLP626-2
Pg 10
H11L4
Pg 18
IS357
Pg 16
ISP814
Pg 4
MOC3041
Pg 15
SFH618A-4
Pg 4
TLP626-4
Pg 12
IL1
Pg 6
IS357A
Pg 16
ISP814-1
Pg 4
MOC3042
Pg 15
SFH618A-5
Pg 4
TLP627-1
Pg 5
IL2
Pg 6
IS357B
Pg 16
ISP814-2
Pg 4
MOC3043
Pg 15
SFH620-1
Pg 4
IL5
Pg 6
IS357C
Pg 16
ISP814-3
Pg 4
MOC3051
Pg 14
SFH620-2
Pg 4
IL74
Pg 6
IS357D
Pg 16
ISP815
Pg 5
MOC3052
Pg 14
SFH620-3
Pg 4
Index - Popular Part No. Many More Available
Transistor Output
Part
Number
Features
Current
Transfer Ratio
I
F
= 5mA
V
CE
= 5V
Min (%)
Isolation
Voltage
Min (KV)
Continuous
Forward
Current
Max (mA)
V
BR
I
R
=10µA
Min (V)
BV
CEO
I
C
=0.5mA
Min (V)
I
CEO(Dark)
V
CE
=20V
Max (nA)
V
CE(SAT)
I
F
=8mA
I
C
=2.4mA
Max (V)
ISP321-1
Single channel
Optocoupler with
a Phototransistor
Output
50-600
7.5(pk)
5.3(rms)
50
6
80
100
0.4
ISP521-1
50-600
55
ISP621-1
50-600
ISP817
50-600
35
0.2(I
F
=20mA) (I
C
=1mA)
ISP624-1
100-1200
1
55
0.4(I
F
=1mA) (I
C
=0.5mA)
PS2501-1
80-600
80
0.3(I
F
=10mA) (I
C
=2mA)
SFH615A-1
40-80/13 (I
F
=10mA/1mA)
70
50 (V
CE
=10V)
0.4(I
F
=10mA) (I
C
=2.5mA)
SFH615A-2
63-125/22 (I
F
=10mA/1mA)
SFH615A-3
100-200/34
(I
F
=10mA/1mA)
100 (V
CE
=10V)
SFH615A-4
160-320/56
(I
F
=10mA/1mA)
SFH617A-1
40-80/13 (I
F
=10mA/1mA)
50 (V
CE
=10V)
SFH617A-2
63-125/22 (I
F
=10mA/1mA)
SFH617A-3
100-200/34
(I
F
=10mA/1mA)
100 (V
CE
=10V)
SFH617A-4
160-320/56
(I
F
=10mA/1mA)
SFH618A-2
63-125
1
55
50 (V
CE
=10V)
0.4(I
F
=1mA) (I
C
=0.32mA)
SFH618A-3
100-200
1
0.4(I
F
=1mA) (I
C
=0.5mA)
SFH618A-4
160-320
1
100 (V
CE
=10V)
0.4(I
F
=1mA) (I
C
=0.8mA)
SFH618A-5
250-500
1
0.4(I
F
=1mA) (I
C
=1.25mA)
TIL191
20
35
0.4(I
F
=5mA) (I
C
=1mA)
TIL191A
50
TIL191B
100
TLP321
50-600
80
0.4
TLP521
50-600
TLP621
50-600
55
TLP624
100-1200
1
0.4(I
F
=1mA) (I
C
=0.5mA)
Note 1
Test Condition: I
F
=1mA V
CE
=0.5V
4 Pin DIL & SMD Optocouplers
AC Input
Part
Number
Features
Current
Transfer Ratio
I
F
= ±10mA
V
CE
= 5V
Min (%)
Isolation
Voltage
Min (KV)
Continuous
Forward
Current
Max (mA)
V
F
I
F
=±20mA
Max (V)
BV
CEO
I
C
=1mA
Min (V)
I
CEO(Dark)
V
CE
=20V
Max (nA)
V
CE(SAT)
Max (V)
ISP620-1
Single channel
Optocoupler
with two
infrared LED’s
wired in
inverse parallel
allowing
operation
with AC input
voltage
40-125
1
7.5(pk)
5.3(rms)
50mA
1.4
55 (I
C
=0.5mA) 100 (V
CE
=24V)
0.4(I
F
=±8mA) (I
C
=2.4mA)
ISP626-1
100
2
50
3
0.4(I
F
=±1mA) (I
C
=0.5mA)
ISP814
20-300
4
35
100
0.2(I
F
=±20mA) (I
C
=1mA)
ISP814-1
80
5
70
0.4(I
F
=±1mA) (I
C
=0.8mA)
ISP814-2
/40/80
5
0.4(I
F
=±0.5mA) (I
C
=0.2mA)
ISP814-3
20/40/80
5
0.4(I
F
=±0.25mA) (I
C
=0.05mA)
PS2505-1
80-600
80
100 (V
CE
=40V)
0.3(I
F
=±10mA) (I
C
=2mA)
SFH620-1
40-125
70
50
0.4(I
F
=±10mA) (I
C
=2.5mA)
SFH620-2
63-200
SFH620-3
100-320
100
SFH620A-1
40-125
50
SFH620A-2
63-200
100
SFH620A-3
100-320
SFH628-2
63-200
2
55
200 (V
CE
=10V)
0.4(I
F
=±1mA) (I
C
=0.5mA)
SFH628-3
100-320
2
0.4(I
F
=±1mA) (I
C
=0.8mA)
SFH628-4
160-500
2
0.4(I
F
=±1mA) (I
C
=1.25mA)
4
Darlington Output
Part
Number
Features
Current
Transfer Ratio
I
F
= 1mA
V
CE
=1V
Min (%)
Isolation
Voltage
Min (KV)
Continuous
Forward
Current
Max (mA)
V
F
I
F
=20mA
Max (V)
V
BR
I
R
=10uA
Min (V)
BV
CEO
I
C
=1mA
Min (V)
I
CEO(Dark)
V
CE
=10V
Max (nA)
V
CE(SAT)
Max (V)
ISP627-1
Single channel
Optocoupler
with a Photo-
Darlington
Transistor
1000
7.5(pk)
5.3(rms)
50mA
1.4
6
300 (I
C
=1mA)
200
(V
CE
=200V) 1.2(I
F
=10mA) (I
C
=100mA)
ISP815
600-7500 (V
CE
=2V)
35 (I
C
=0.1mA)
100
1(I
F
=20mA) (I
C
=5mA)
ISP815-1
/800
1
70
1(I
F
=1mA) (I
C
=8mA)
ISP815-2
/400/800
1
1(I
F
=0.5mA) (I
C
=2mA)
ISP815-3
200/400/800
1
1(I
F
=0.25mA) (I
C
=0.5mA)
PS2502-1
200-2000
80
1(I
F
=1mA) (I
C
=2mA)
TIL197
500-7500 (I
F
=2mA)
35
1(I
F
=2mA) (I
C
=10mA)
TIL197A
1000-7500 (I
F
=2mA)
TIL197B
1500-7500 (I
F
=2mA)
TLP627-1
1000
300 (I
C
=1mA)
200
(V
CE
=200V) 1.2(I
F
=10mA) (I
C
=100mA)
Note 1
Test condition: I
F
= ±0.25 / ±0.5 / ±1mA, V
CE
=1V
Note 2
Test condition: Device has a reverse biased diode connected between pin 3 and 4 giving high breakdown stability
Transistor Output
AC Input
Darlington Output
5
AC Input
Part
Number
Features
Current
Transfer Ratio
I
F
= ±10mA
V
CE
= 5V
Min (%)
Isolation
Voltage
Min (KV)
Continuous
Forward
Current
Max (mA)
V
F
I
F
=±20mA
Max (V)
BV
CEO
I
C
=1mA
Min (V)
I
CEO(Dark)
V
CE
=20V
Max (nA)
V
CE(SAT)
Max (V)
SFH628A-2
Single channel
Optocoupler
with two
infrared LED’s
wired in
inverse parallel
allowing
operation
with AC input
voltage
63-200
2
7.5(pk)
5.3(rms)
50mA
1.4
55
200
(V
CE
=10V)
0.4(I
F
=±1mA) (I
C
=0.5mA)
SFH628A-3
100-320
2
0.4(I
F
=±1mA) (I
C
=0.8mA)
SFH628A-4
160-500
2
0.4(I
F
=±1mA) (I
C
=1.25mA)
TIL194
20
35
100
(V
CE
=24V)
0.4(I
F
=±5mA) (I
C
=1mA)
TIL194A
50
TIL194B
100
TLP620-1
40-125
1
55
0.4(I
F
=±8mA) (I
C
=2.4mA)
TLP626-1
100
2
50
3
0.4(I
F
=±1mA) (I
C
=0.5mA)
Note 1
Test condition: I
F
= ±5mA
Note 2
Test condition: I
F
= ±1mA, V
CE
=0.5V
Note 3
Test condition: I
F
= ±0.5mA, V
CE
=1.5V
Note 4
Test condition: I
F
= ±1mA
Note 5
Test condition: I
F
= ±0.25 / ±0.5 / ±1mA, V
CE
=5V
4 Pin DIL & SMD Optocouplers
Transistor Output - Base Connected
Part
Number
Features
Current
Transfer Ratio
I
F
= 10mA
V
CE
= 10V
Min (%)
Isolation
Voltage
Min (KV)
Continuous
Forward
Current
Max (mA)
V
F
I
F
=10mA
Max (V)
BV
CEO
I
C
=1mA
Min (V)
I
CEO(Dark)
V
CE
=10V
Max (nA)
V
CE(SAT)
Max (V)
4N25
Single channel
Optocoupler with
a Phototransistor
Output
20
7.5(pk)
5.3(rms)
50mA
1.4
30
50
0.5(I
F
=50mA) (I
C
=2mA)
4N26
4N27
10
4N28
4N35
100
0.3(I
F
=10mA) (I
C
=0.5mA)
4N36
4N37
4N38
20 (V
CE
=1V)
80
50 (V
CE
=60V)
1.0(I
F
=20mA) (I
C
=4mA)
4N38A
CNX72A
40-160 (V
CE
=0.4V)
30
50
0.4(I
F
=10mA) (I
C
=4mA)
CNX83AG
40 (V
CE
=0.4V)
50
CNY17-1
40-80 (V
CE
=5V)
70
0.4(I
F
=10mA) (I
C
=2.5mA)
CNY17-2
63-125 (V
CE
=5V)
CNY17-3
100-200 (V
CE
=5V)
CNY17-4
160-320 (V
CE
=5V)
CNY17-5
200-400 (V
CE
=5V)
CNY75A
100-200 (V
CE
=5V)
90
150 (V
CE
=20V)
0.3(I
F
=10mA) (I
C
=1mA)
CNY75B
160-320 (V
CE
=5V)
CNY75C
200-400 (V
CE
=5V)
CQY80
50 (V
CE
=5V)
32
200 (V
CE
=20V)
H11A1
50
30
50
0.4(I
F
=10mA) (I
C
=0.5mA)
H11A2
20
H11A3
20
H11A4
10
H11A5
30
H11AV1
100-300
70
0.4(I
F
=20mA) (I
C
=2mA)
H11AV2
50
H11AV3
20
IL1
20-300
50
0.4(I
F
=16mA) (I
C
=2mA)
IL2
100-500
70
IL5
50-400
IL74
12.5 (I
F
=16mA)
50
IS1
20
IS2
100
IS201
75/10 (I
F
=10mA/1mA)
70
0.4(I
F
=10mA) (I
C
=2mA)
IS202
125-250/30
(I
F
=10mA/1mA)
IS203
225-450/30
(I
F
=10mA/1mA)
IS204
200-400 (I
F
=10mA/1mA)
IS204-1
/50
1
100
0.4(I
F
=1mA) (I
C
=0.5mA)
IS204-2
50/
2
IS204-3
70
2
/100
1
IS5
50-400
70
50
0.4(I
F
=16mA) (I
C
=2mA)
IS74
12.5 (I
F
=16mA)
50
MCT2
20
30
MCT2E
50
MCT210
50 (I
F
=3.2-32mA)
(V
CE
=0.4V)
MCT2200
20 (V
CE
=5V)
0.4(I
F
=10mA) (I
C
=2.5mA)
MCT2201
100 (V
CE
=5V)
Note 1
Test Condition: I
F
=1mA, V
CE
=0.4V
Note 2
Test Condition: I
F
=0.5mA, V
CE
=0.4V
6 Pin DIL & SMD Optocouplers
6
Transistor Output - Base Connected
Part
Number
Features
Current
Transfer Ratio
I
F
= 10mA
V
CE
= 10V
Min (%)
Isolation
Voltage
Min (KV)
Continuous
Forward
Current
Max (mA)
V
F
I
F
=10mA
Max (V)
BV
CEO
I
C
=1mA
Min (V)
I
CEO(Dark)
V
CE
=10V
Max (nA)
V
CE(SAT)
Max (V)
MCT2202
Single channel
Optocoupler
with a
Phototransistor
Output
63-125 (V
CE
=5V)
7.5(pk)
5.3(rms)
50mA
1.4
30
50
0.4(I
F
=10mA) (I
C
=2.5mA)
MCT270
50
0.4(I
F
=16mA) (I
C
=2mA)
MCT271
45-90
MCT272
75-150
SFH600-0
40-80 (V
CE
=5V)
70
0.4(I
F
=10mA) (I
C
=2.5mA)
SFH600-1
63-125 (V
CE
=5V)
SFH600-2
100-200 (V
CE
=5V)
SFH600-3
160-320 (V
CE
=5V)
SFH600-4
200-400 (V
CE
=5V)
SHF601-1
40-80 (V
CE
=5V)
100
SFH601-2
63-125 (V
CE
=5V)
SFH601-3
100-200 (V
CE
=5V)
SFH601-4
160-320 (V
CE
=5V)
SFH609-1
40-80 (V
CE
=5V)
90
SFH609-2
63-125 (V
CE
=5V)
SFH609-3
100-200 (V
CE
=5V)
SFH609-4
160-320 (V
CE
=5V)
TIL111
20 (I
F
=16mA) (V
CE
=0.4V)
30
0.4(I
F
=16mA) (I
C
=2mA)
TIL114
TIL116
20
0.4(I
F
=15mA) (I
C
=2.2mA)
TIL117
50
0.4(I
F
=10mA) (I
C
=0.5mA)
Transistor Output - Non Base
Part
Number
Features
Current
Transfer Ratio
I
F
= 10mA
V
CE
= 10V
Min (%)
Isolation
Voltage
Min (KV)
Continuous
Forward
Current
Max (mA)
V
F
I
F
=10mA
Max (V)
BV
CEO
I
C
=1mA
Min (V)
I
CEO(Dark)
V
CE
=20V
Max (nA)
V
CE(SAT)
Max (V)
CNX62A
Single channel
Optocoupler
with a
Phototransistor
Output with
base lead not
connected for
improved noise
immunity
40 (V
CE
=0.4V)
7.5(pk)
5.3(rms)
50mA
1.4
50
100
0.4(I
F
=10mA) (I
C
=4mA)
CNX82A
CNY17F-1
40-80 (V
CE
=5V)
70
0.4(I
F
=10mA) (I
C
=2.5mA)
CNY17F-2
63-125 (V
CE
=5V)
CNY17F-3
100-200 (V
CE
=5V)
CNY17F-4
160-320 (V
CE
=5V)
CNY17F-5
200-400 (V
CE
=5V)
IS205
100
50
0.4(I
F
=10mA) (I
C
=0.5mA)
IS205-1
/50
1
70
0.4(I
F
=1mA) (I
C
=0.5mA)
IS205-2
50/
2
IS205-3
70
2
/100
1
IS206
50
50
0.4(I
F
=10mA) (I
C
=0.5mA)
MOC8101
50-80
0.4(I
F
=5mA) (I
C
=0.5mA)
MOC8102
73-117
Note 1
Test Condition: I
F
=1mA, V
CE
=0.4V
Note 2
Test Condition: I
F
=0.5mA, V
CE
=0.4V
7
DRAWINGS OVERLEAF
6 Pin DIL & SMD Optocouplers
Transistor Output - Non Base
Part
Number
Features
Current
Transfer Ratio
I
F
= 10mA
V
CE
= 10V
Min (%)
Isolation
Voltage
Min (KV)
Continuous
Forward
Current
Max (mA)
V
F
I
F
=10mA
Max (V)
BV
CEO
I
C
=1mA
Min (V)
I
CEO(Dark)
V
CE
=20V
Max (nA)
V
CE(SAT)
Max (V)
MOC8103
Single channel
Optocoupler
with a
Phototransistor
Output with
base lead not
connected for
improved noise
immunity
103-173
7.5(pk)
5.3(rms)
50mA
1.4
50
100
0.4(I
F
=5mA) (I
C
=0.5mA)
MOC8104
160-256
MOC8105
65-133
MOC8106
50-150
MOC8107
100-300
MOC8108
250-600
0.4(I
F
=5mA) (I
C
=1mA)
MOC8111
20
MOC8112
50
MOC8113
100
AC Input
Part
Number
Features
Current
Transfer Ratio
I
F
=±10mA
V
CE
=10V
Min (%)
Isolation
Voltage
Min (KV)
Continuous
Forward
Current
Max (mA)
V
F
I
F
=±20mA
Max (V)
BV
CEO
I
C
=0.1mA
Min (V)
I
CEO(Dark)
V
CE
=10V
Max (nA)
V
CE(SAT)
I
F
=±10mA
I
C
=0.5mA
Max (V)
CNY35
Single channel
Optocoupler
with two
infrared LED’s
wired in
inverse parallel
allowing
operation
with AC input
voltage
10
7.5(pk)
5.3(rms)
±50mA
1.4
30
50
0.4
H11AA1
20
H11AA2
10
H11AA3
50
H11AA4
100
IS604
50
IS733
20-300 (I
F
=1mA) (V
CE
=5V)
35
100 (V
CE
=20V)
0.2(I
F
=±20mA) (I
C
=1mA)
Darlington Output - Base Connected
Part
Number
Features
Current
Transfer Ratio
I
F
= 10mA
V
CE
= 10V
Min (%)
Isolation
Voltage
Min (KV)
Continuous
Forward
Current
Max (mA)
V
F
I
F
=50mA
Max (V)
BV
CEO
I
C
=1mA
Min (V)
I
CEO(Dark)
V
CE
=10V
Max (nA)
V
CE(SAT)
I
F
=8mA
I
C
=2mA
Max (V)
4N29
Single channel
Optocoupler
with a Photo-
Darlington
Transistor
100
7.5(pk)
5.3(rms)
60mA
1.5
30
100
1
4N30
4N31
50
1.2
4N32
500
1
4N33
H11B1
500 (I
F
=1mA) (V
CE
=5V)
1.0(I
F
=1mA) (I
C
=1mA)
H11B2
200 (I
F
=1mA) (V
CE
=5V)
H11B3
100 (I
F
=1mA) (V
CE
=5V)
MCA2230
100 (V
CE
=5V)
1.0(I
F
=50mA) (I
C
=50mA)
MCA2231
500 (V
CE
=5V)
1.0(I
F
=1mA) (I
C
=2mA)
MCA2255
55
1.0(I
F
=50mA) (I
C
=50mA)
MCA255
100 (V
CE
=5V)
MCA230
30
MCA231
MOC8080
500 (V
CE
=5V)
55
1.0(I
F
=1mA) (I
C
=1mA)
TIL113
500 (V
CE
=1V)
30
1.0(I
F
=50mA) (I
C
=50mA)
8
6 Pin DIL & SMD Optocouplers
cont.
Darlington Output - Non Base
Part
Number
Features
Current
Transfer Ratio
I
F
= 1mA
V
CE
= 2V
Min (%)
Isolation
Voltage
Min (KV)
Continuous
Forward
Current
Max (mA)
V
F
I
F
=10mA
Max (V)
BV
CEO
I
C
=1mA
Min (V)
I
CEO(Dark)
V
CE
=10V
Max (nA)
V
CE(SAT)
Max (V)
ISPD60
Single channel
Optocoupler
with a Photo-
Darlington
Transistor with
base lead not
connected for
improved noise
immunity
100
7.5(pk)
5.3(rms)
50mA
1.4
35 (I
C
=0.1mA)
100
1.0(I
F
=10mA) (I
C
=10mA)
ISPD61
500
ISPD62
1000
ISPD63
100
ISPD64
500
ISPD65
1000
MOC8020
500 (I
F
=10mA) (V
CE
=5V)
50
MOC8021
1000 (I
F
=10mA) (V
CE
=5V)
MOC8030
300 (I
F
=10mA) (V
CE
=5V)
80
MOC8050
500 (I
F
=10mA) (V
CE
=5V)
TIL119
300 (I
F
=10mA) (V
CE
=1V)
30
1.0(I
F
=10mA) (I
C
=30mA)
Darlington Output - Base Connected High Voltage
Part
Number
Features
Current
Transfer Ratio
I
F
= 10mA
V
CE
= 10V
Min (%)
Isolation
Voltage
Min (KV)
Continuous
Forward
Current
Max (mA)
V
F
I
F
=10mA
Max (V)
BV
CEO
I
C
=1mA
Min (V)
I
CEO(Dark)
Max (nA)
V
CE(SAT)
Max (V)
H11G1
Single channel
Optocoupler
with a Photo-
Darlington
Transistor
with a high
operating
voltage
1000 (I
F
=1mA) (V
CE
=5V)
7.5(pk)
5.3(rms)
50
1.4
100
100 (V
CE
=80V)
1.0 (I
F
=1mA)
(I
C
=1mA)
H11G2
80
100 (V
CE
=60V)
H11G3
200 (I
F
=1mA) (V
CE
=5V)
55
100 (V
CE
=30V)
1.2(I
F
=20mA)
(I
C
=50mA)
IS4N45
250 (I
F
=1mA) (V
CE
=1V)
100 (V
CE
=55V)
1.0(I
F
=1mA)
(I
OL
=2.5mA)
IS4N46
500 (I
F
=1mA) (V
CE
=1V)
1.0(I
F
=0.5mA)
(I
OL
=1.75mA)
IS660
1000 (I
F
=1mA) (V
CE
=5V)
200
1000 (V
CE
=200V)
1.2(I
F
=20mA)
(I
C
=100mA)
IS661
300
IS725
9
Transistor Output - Non Base
Darlington Output
Darlington Output - High Voltage
Transistor Output
AC Input
Darlington Output - Non Base
6 Pin DIL & SMD Optocouplers
Transistor Output
Part
Number
Features
Current
Transfer Ratio
I
F
= 5mA
V
CE
= 5V
Min (%)
Isolation
Voltage
Min (KV)
Continuous
Forward
Current
Max (mA)
V
BR
I
R
=10µA
Min (V)
BV
CEO
I
C
=0.5mA
Min (V)
I
CEO(Dark)
V
CE
=20V
Max (nA)
V
CE(SAT)
I
F
=8mA
I
C
=2.4mA
Max (V)
ISP321-2
Two channel
Optocoupler
with a
Phototransistor
Output
50-600
7.5(pk)
5.3(rms)
50
6
80
100
0.4
ISP521-2
50-600
55
ISP621-2
50-600
ISP827
50-600
35
0.2(I
F
=20mA)
(I
C
=1mA)
ISP624-2
100-1200
1
55
0.4(I
F
=1mA)
(I
C
=0.5mA)
PS2501-2
80-600
80
0.3(I
F
=10mA)
(I
C
=2mA)
TIL192
20
35
0.4(I
F
=5mA)
(I
C
=1mA)
TIL192A
50
TIL192B
100
TLP321-2
50-600
80
0.4
TLP521-2
50-600
TLP621-2
50-600
55
TLP624-2
50-600
0.4(I
F
=1mA)
(I
C
=0.5mA)
Note 1
Test condition : I
F
= 1mA,V
CE
=0.5V
8 Pin DIL & SMD Optocouplers
AC Input
Part
Number
Features
Current
Transfer Ratio
I
F
= ±10mA
V
CE
= 5V
Min (%)
Isolation
Voltage
Min (KV)
Continuous
Forward
Current
Max (mA)
V
F
I
F
=±20mA
Max (V)
BV
CEO
I
C
=1mA
Min (V)
I
CEO(Dark)
V
CE
=20V
Max (nA)
V
CE(SAT)
Max (V)
ISP620-2
Two channel
Optocoupler
with two infrared LED’s
wired in inverse parallel
allowing operation with
AC input voltage
40-125
1
7.5(pk)
5.3(rms)
50mA
1.4
55 (I
C
=0.5mA)
100
(V
CE
=24V)
0.4(I
F
=±8mA)
(I
C
=2.4mA)
ISP626-2
100-1200
2
50
3
0.4(I
F
=±1mA)
(I
C
=0.5mA)
ISP824
20-300
4
35
100
0.2(I
F
=±20mA)
(I
C
=1mA)
PS2505-2
80-600
80
100
(V
CE
=40V)
0.3(I
F
=±10mA)
(I
C
=2mA)
TIL195
20
35
100
(V
CE
=24V)
0.4(I
F
=±5mA) (I
C
=1mA)
TIL195A
50
TIL195B
100
TLP620-2
40-125
1
55
0.4(I
F
=±8mA)
(I
C
=2.4mA)
TLP626-2
100-1200
2
50
3
0.4(I
F
=±1mA)
(I
C
=0.5mA)
Note 1
Test condition: I
F
= ±5mA
Note 2
Test condition: I
F
= ±1mA, V
CE
=0.5V
Note 3
Test condition: I
F
= ±0.5mA, V
CE
=1.5V
Note 4
Test conditions: I
F
= ±1mA
Darlington Output
Part
Number
Features
Current
Transfer Ratio
I
F
= 1mA
V
CE
=1V
Min (%)
Isolation
Voltage
Min (KV)
Continuous
Forward
Current
Max (mA)
V
F
I
F
=20mA
Max (V)
V
BR
I
R
=10uA
Min (V)
BV
CEO
I
C
=1mA
Min (V)
I
CEO(Dark)
V
CE
=10V
Max (nA)
V
CE(SAT)
Max (V)
ISP825
Two channel
Optocoupler
with a Photo-
Darlington
Transistor
600-7500 (V
CE
=2V)
7.5(pk)
5.3(rms)
50mA
1.4
6
35 (I
C
=0.1mA)
100
1(I
F
=20mA) (I
C
=5mA)
ISP825-1
/800
1
70
1(I
F
=1mA) (I
C
=8mA)
ISP825-2
/400
2
/800
1
1(I
F
=0.5mA) (I
C
=2mA)
ISP825-3
200
3
/400
2
/800
1
1(I
F
=0.25mA) (I
C
=0.5mA)
PS2502-2
200-2000
80
1(I
F
=1mA) (I
C
=2mA)
TIL198
500-7500 (I
F
=2mA)
35
1(I
F
=2mA) (I
C
=10mA)
TIL198A
1000-7500 (I
F
=2mA)
TIL198B
1500-7500 (I
F
=2mA)
Note 1
Test condition: I
F
= 1mA, V
CE
=1V
Note 2
Test condition: I
F
= 0.5mA, V
CE
=1V
Note 3
Test condition: I
F
= 0.25mA, V
CE
=1V
10
8 Pin Transistor Symmetrical Configuration DIL & SMD Optocouplers
Part
Number
Features
Current
Transfer Ratio
I
F
= 10mA
V
CE
= 10V
Min (%)
Isolation
Voltage
Min (KV)
Continuous
Forward
Current
Max (mA)
V
BR
I
R
=10µA
Min (V)
BV
CEO
I
C
=1mA
Min (V)
I
CEO(Dark)
V
CE
=10V
Max (nA)
V
CE(SAT)
I
F
=16mA
I
C
=2mA
Max (V)
ILD1
Two channel
Optocoupler
with a
Phototransistor
Output
20-300
7.5(pk)
5.3(rms)
50
6
50
50
0.4
ILD2
100-500
70
ILD5
50-400
ILD74
12.5 (I
F
=16mA V
CE
=5V)
50
IS829
50 (I
F
=5mA V
CE
=5V)
35
100
(V
CE
=24V)
0.2(I
F
=20mA) (I
C
=1mA)
ISD1
20
50
50
0.3(I
F
=10mA) (I
C
=2mA)
ISD2
100-500
70
0.4(I
F
=5mA) (I
C
=1mA)
ISD5
50
0.4
ISD74
12.5 (I
F
=16mA V
CE
=5V)
50
MCT6
20
3
30
100
MCT61
50 (I
F
=5mA V
CE
=5V)
MCT62
100 (I
F
=5mA V
CE
=5V)
MCT66
6
High CTR, High Sensitivity / Low Input Current
ISD201
Two channel
Optocoupler
with a
Phototransistor
Output
75 (10)
1
7.5(pk)
5.3(rms)
50
6
70
50
0.4(I
F
=10mA) (I
C
=2mA)
ISD202
125-250 (30)
1
ISD203
225-450 (50)
1
ISD204
200-400 (100)
1
ISD204-1
/50
2
0.4(I
F
=1mA) (I
C
=0.5mA)
ISD204-2
50/
3
0.4(I
F
=0.5mA) (I
C
=0.25mA)
ISD204-3
70
3
/100
2
0.4(I
F
=0.5mA) (I
C
=0.35mA)
Note 1
Test condition : I
F
= 1mA
Note 2
Test condition : I
F
= 1mA, V
CE
=0.4V
Note 3
Test condition : I
F
= 0.5mA, V
CE
=0.4V
Transistor Output
AC Input
Darlington Output
Symmetrical Configuration
11
8 Pin DIL & SMD Optocouplers
Transistor Output
Part
Number
Features
Current
Transfer Ratio
I
F
= 5mA
V
CE
= 5V
Min (%)
Isolation
Voltage
Min (KV)
Continuous
Forward
Current
Max (mA)
V
BR
I
R
=10µA
Min (V)
BV
CEO
I
C
=0.5mA
Min (V)
I
CEO(Dark)
V
CE
=20V
Max (nA)
V
CE(SAT)
I
F
=8mA
I
C
=2.4mA
Max (V)
ISP321-4
Four channel
Optocoupler with
a Phototransistor
Output
50-600
7.5(pk) 5.3(rms)
50
6
80
100
0.4
ISP521-4
50-600
55
ISP621-4
50-600
ISP847
50-600
35
0.2(I
F
=20mA) (I
C
=1mA)
ISP624-4
100-1200
1
55
0.4(I
F
=1mA) (I
C
=0.5mA)
PS2501-4
80-600
80
0.3(I
F
=10mA) (I
C
=2mA)
TIL193
20
35
0.4(I
F
=5mA) (I
C
=1mA)
TIL193A
50
TIL193B
100
TLP321-4
50-600
80
0.4
TLP521-4
50-600
55
TLP621-4
50-600
TLP624-4
50-600
0.4(I
F
=1mA) (I
C
=0.5mA)
Note 1
Test Condition: I
F
=1mA V
CE
=0.5V
16 Pin DIL & SMD Optocouplers
AC Input
Part
Number
Features
Current
Transfer Ratio
I
F
= ±10mA
V
CE
= 5V
Min (%)
Isolation
Voltage
Min (KV)
Continuous
Forward
Current
Max (mA)
V
F
I
F
=±20mA
Max (V)
BV
CEO
I
C
=1mA
Min (V)
I
CEO(Dark)
V
CE
=20V
Max (nA)
V
CE(SAT)
Max (V)
ISP620-4
Four channel
Optocoupler
with two infrared
LED’s
wired in inverse
parallel allowing
operation with AC
input voltage
40-125
1
7.5(pk)
5.3(rms)
50mA
1.4
55 (I
C
=0.5mA) 100 (V
CE
=24V)
0.4(I
F
=±8mA) (I
C
=2.4mA)
ISP626-4
100-1200
2
50
3
0.4(I
F
=±1mA) (I
C
=0.5mA)
ISP844
20-300
4
35
100
0.2(I
F
=±20mA) (I
C
=1mA)
PS2505-4
80-600
80
100 (V
CE
=40V)
0.3(I
F
=±10mA) (I
C
=2mA)
TIL196
20
35
100 (V
CE
=24V)
0.4(I
F
=±5mA) (I
C
=1mA)
TIL196A
50
TIL196B
100
TLP620-4
40-125
1
55
0.4(I
F
=±8mA) (I
C
=2.4mA)
TLP626-4
100-1200
2
50
3
0.4(I
F
=±1mA) (I
C
=0.5mA)
Note 1
Test condition : I
F
= ±5mA
Note 2
Test condition : I
F
= ±1mA, V
CE
=0.5V
Note 3
Test condition : I
F
= ±0.5mA, V
CE
=1.5V
Note 4
Test condition : I
F
= ±1mA
Darlington Output
Part
Number
Features
Current
Transfer Ratio
I
F
= 1mA
V
CE
=1V
Min (%)
Isolation
Voltage
Min (KV)
Continuous
Forward
Current
Max (mA)
V
F
I
F
=20mA
Max (V)
V
BR
I
R
=10uA
Min (V)
BV
CEO
I
C
=1mA
Min (V)
I
CEO(Dark)
V
CE
=10V
Max (nA)
V
CE(SAT)
Max (V)
ISP845
Four channel
Optocoupler
with a Photo-
Darlington
Transistor
600-7500 (V
CE
=2V)
7.5(pk)
5.3(rms)
50mA
1.4
6
35 (I
C
=0.1mA)
100
1(I
F
=20mA) (I
C
=5mA)
ISP845-1
/800
1
70
1(I
F
=1mA) (I
C
=8mA)
ISP845-2
/400
2
/800
1
1(I
F
=0.5mA) (I
C
=2mA)
ISP845-3
200
3
/400
2
/800
1
1(I
F
=0.25mA) (I
C
=0.5mA)
PS2502-4
200-2000
80
1(I
F
=1mA) (I
C
=2mA)
TIL199
500-7500 (I
F
=2mA)
35
1(I
F
=2mA) (I
C
=10mA)
TIL199A
1000-7500 (I
F
=2mA)
TIL199B
1500-7500 (I
F
=2mA)
Note 1
Test condition: I
F
= 1mA, V
CE
=1V
Note 2
Test condition: I
F
= 0.5mA, V
CE
=1V
Note 3
Test condition: I
F
= 0.25mA, V
CE
=1V
12
16 Pin Transistor Symmetrical Configuration DIL & SMD Optocouplers
Part
Number
Features
Current
Transfer Ratio
I
F
= 10mA
V
CE
= 10V
Min (%)
Min (KV)
Isolation
Voltage
Min (KV)
Forward
Current
Max (mA)
V
BR
Min (V)
BV
CEO
I
C
=1mA
Min (V)
I
CEO(Dark)
V
CE
=10V
Max (nA)
V
CE(SAT)
I
F
=16mA
I
C
=2mA
Max (V)
ILQ1
Four channel
Optocoupler
with a
Phototransistor
Output
20-300
7.5(pk)
5.3(rms)
50
6
50
50
0.4
ILQ2
100-500
70
ILQ5
50-400
ILQ74
12.5(I
F
=16mA V
CE
=5V)
50
IS849
50(I
F
=5mA V
CE
=5V)
35
100
(V
CE
=24V)
0.2(I
F
=20mA) (I
C
=1mA)
ISQ1
20
50
50
0.3(I
F
=10mA) (I
C
=2mA)
ISQ2
100-500
70
0.4(I
F
=5mA) (I
C
=1mA)
ISQ5
50
0.4
ISQ74
12.5(I
F
=16mA V
CE
=5V)
50
High CTR, High Sensitivity / Low Input Current
ISQ201
Four channel
Optocoupler
with a
Phototransistor
Output
75 (10)
1
7.5(pk)
5.3(rms)
50
6
70
50
0.4(I
F
=10mA) (I
C
=2mA)
ISQ202
125-250 (30)
1
ISQ203
225-450 (50)
1
ISQ204
200-400 (100)
1
ISQ204-1
/50
2
0.4(I
F
=1mA) (I
C
=0.5mA)
ISQ204-2
50/
3
0.4(I
F
=0.5mA) (I
C
=0.25mA)
ISQ204-3
70
3
/100
2
0.4(I
F
=0.5mA) (I
C
=0.35mA)
Note 1
Test Condition: I
F
=1mA
Note 2
Test Condition: I
F
=1mA,V
CE
=0.4V
Note 3
Test Condition: I
F
=0.5mA,V
CE
=0.4V
Transistor Output
AC Input
Darlington Output
Symmetrical Configuration
13
16 Pin DIL & SMD Optocouplers
1
2
3
4
5
6
7
8
16
15
14
13
12
11
10
9
Random Phase Triac
Part
Number
Features
Input Trigger
Current
V
D
= 3V
Max (mA)
Isolation
Voltage
Min (KV)
Continuous Forward
Current Input Diode
Max (mA)
V
BR
I
R
=10µA
Min (V)
I
DRM
Peak Off-State
Current
V
DRM
=Rated
Max (nA)
V
DRM
Peak Blocking
Voltage
I
DRM
=0.1mA
Min (V)
H11J1
Infrared Emitting
Diode And Light
Activated Silicon
Bilateral Switch
10
7.5(pk)
5.3(rms)
50
6
100
250
H11J2
15
H11J3
10
H11J4
15
H11J5
25
IS3009
30
IS3010
15
IS3011
10
IS3012
5
IS3020
30
400
IS3021
15
IS3022
10
IS3023
5
IS3051
15
600
IS3052
10
IS6003
3
IS6005
5
IS6010
10
IS6015
15
IS6030
30
IS607
10
450
IS608
7
MOC3009
30
250
MOC3010
15
MOC3011
10
MOC3012
5
MOC3020
30
400
MOC3021
15
MOC3022
10
MOC3023
5
MOC3051
15
600
MOC3052
10
6 Pin DIL & SMD Triac Optocouplers
Zero Crossing Triac
Part
Number
Features
Input Trigger
Current
V
D
= 3V
Max (mA)
Isolation
Voltage
Min (KV)
Continuous
Forward
Current
Input Diode
Max (mA)
V
BR
I
R
=10µA
Min (V)
I
DRM
Peak Off-State
Current V
DRM
=Rated
Max (nA)
V
DRM
Peak Blocking
Voltage I
DRM
=0.1mA
Min (V)
IS3030
Infrared Emitting
Diode And Light
Activated Zero
Crossing Bilateral
Switch
30
7.5(pk)
5.3(rms)
50
6
300
250
IS3031
15
IS3032
10
IS3033
5
IS3040
30
400
IS3041
15
IS3042
10
IS3043
5
IS3060
30
600
IS3061
15
14
Zero Crossing Triac
Part
Number
Features
Input Trigger
Current
V
D
= 3V
Max (mA)
Isolation
Voltage
Min (KV)
Continuous
Forward
Current
Input Diode
Max (mA)
V
BR
I
R
=10µA
Min (V)
I
DRM
Peak Off-State
Current
V
DRM
=Rated
Max (nA)
V
DRM
Peak Blocking
Voltage
I
DRM
=0.1mA
Min (V)
IS3062
Infrared Emitting
Diode And Light
Activated Zero
Crossing Bilateral
Switch
10
7.5(pk)
5.3(rms)
50
6
300
600
IS3063
5
IS3080
30
800
IS3081
15
IS3082
10
IS3083
5
IS620
30
400
IS621
15
IS622
10
IS623
5
MOC3030
30
250
MOC3031
15
MOC3032
10
MOC3033
5
MOC3040
30
400
MOC3041
15
MOC3042
10
MOC3043
5
MOC3060
30
600
MOC3061
15
MOC3062
10
MOC3063
5
MOC3080
30
800
MOC3081
15
MOC3082
10
MOC3083
5
Random Phase Triac
Zero Crossing Triac
15
6 Pin DIL & SMD Triac Optocouplers
16
Transistor Output
Part
Number
Features
Current
Transfer Ratio
I
F
= 5mA
V
CE
= 5V
Min (%)
Isolation
Voltage
Min (KV
RMS
)
Continuous
Forward
Current
Max (mA)
V
F
I
F
=20mA
Max (V)
BV
CEO
I
C
=0.5mA
Min (V)
I
CEO(Dark)
V
CE
=20V
Max (nA)
V
CE(SAT)
I
F
=20mA
I
C
=1mA
Max (V)
IS121
Single channel
Optocoupler with
a Phototransistor
Output
50-600
3.75
50
1.4
35
100
0.2
IS181
IS2701-1
IS357
IS357A
80-160
IS357B
130-260
IS357C
200-400
IS357D
300-600
4 Pin Mini Flat Package
AC Input
Part
Number
Features
Current
Transfer Ratio
I
F
=±1mA
V
CE
= 5V
Min ( % )
Isolation
Voltage
Min (KV
RMS
)
Continuous
Forward
Current
Max (mA)
V
F
I
F
=±20mA
Max (V)
BV
CEO
I
C
=0.1mA
Min (V)
I
CEO(Dark)
V
CE
=20V
Max (nA)
V
CE(SAT)
I
F
=±20mA
I
C
=1mA
Max (V)
IS126
Single channel
Optocoupler
with two infrared
LED’s
wired in inverse
parallel allowing
operation with
AC input voltage
20-400
3.75
±50
1.4
35
100
0.2
IS2705-1
IS354
IS354A
50-150
Darlington Output
Part
Number
Features
Current
Transfer Ratio
I
F
=1mA
V
CE
= 2V
Min ( % )
Isolation
Voltage
Min (KV
RMS
)
Continuous
Forward
Current
Max (mA)
V
F
I
F
=20mA
Max (V)
BV
CEO
I
C
=0.1mA
Min (V)
I
CEO(Dark)
V
CE
=20V
Max (µA)
V
CE(SAT)
I
F
=20mA
I
C
=1mA
Max (V)
IS355
Single channel
Optocoupler
with a Photo-
Darlington
Transistor
600-7500
3.75
50
1.4
35
1
1
IS2702-1
Darlington Output - High Voltage
Part
Number
Features
Current
Transfer Ratio
I
F
=1mA
V
CE
= 2V
Min (%)
Isolation
Voltage
Min (KV
RMS
)
Continuous
Forward
Current
Max (mA)
V
F
I
F
=10mA
Max (V)
BV
CEO
I
C
=0.1mA
Min (V)
I
CEO(Dark)
V
CE
=200V
Max (nA)
V
CE(SAT)
I
F
=20mA
I
C
=100mA
Max (V)
IS2732-1
Single channel
Optocoupler
with a Photo-
Darlington
Transistor with
a high operating
voltage
1000
3.75
50
1.4
300
200
1.2
IS452
IS127
17
Transistor Output
AC Input
Darlington Output
Darlington Output - High Voltage
4 Pin Mini Flat Package
# = Internal binning
18
Lead Form Diagrams
6 Pin DIL & SMD Schmitt Optocouplers
Schmitt Trigger
Part
Number
Features
Turn-On
Threshold Current
R
L
=270
Ω
V
CE
= 5V
Max (mA)
Turn-Off
Threshold Current
R
L
=270
Ω
V
CE
= 5V
Min (mA)
Isolation
Voltage
Min (KV)
Continuous
Forward
Current
Max (mA)
V
F
I
F
=50mA
Max (V)
V
BR
(LED)
I
R
=10µA
Min (V)
Output Voltage
(Low)
R
L
=270
Ω
V
CC
=5V
Max (V)
H11L1
Microprocessor
compatible
1.6
0.3
7.5(pk)
5.3(rms)
50mA
1.5
100
0.4
H11L2
10
H11L3
5
H11L4
2.0
IS609
1.6
MOC5007
MOC5008
4
MOC5009
10
Schmitt Trigger
19
Mini Flat Triac Series
Zero Crossing Series
Part Number
Features
Input Trigger Current
V
D
= 3V
Max (mA)
Isolation Voltage
Min (vrms)
Continuous
Forward
Current
Input Diode
Max (mA)
V
BR
I
R
=10µA
Min (V)
I
DRM
Peak Off-State
Current
V
DRM
Rated
Max (mA)
V
DRM
Peak Blocking
Voltage
I
DRM =
0.1mA
Min (V)
MF3030
Infrared
Emitting Diode
and Light
activated
Zero crossing
Bilateral Switch
in a space
saving Mini
Flat Package
30
3750
60
6
100
250
MF3031
15
MF3032
10
MF3033
5
MF3040
30
400
MF3041
15
MF3042
10
MF3043
5
MF3060
30
600
MF3061
15
MF3062
10
MF3063
5
MF3080
30
800
MF3081
15
MF3082
10
MF3083
5
Random Phase Series
Part Number
Features
Input Trigger Current
V
D
= 3V
Max (mA)
Isolation Voltage
Min (vrms)
Continuous
Forward
Current
Input Diode
Max (mA)
V
BR
I
R
=10µA
Min (V)
I
DRM
Peak Off-State
Current
V
DRM
Rated
Max (mA)
V
DRM
Peak Blocking
Voltage
I
DRM =
0.1mA
Min (V)
MF3009
Infrared Emitting
Diode and
Light activated
Zero crossing
Bilateral Switch
in a space
saving Mini
Flat Package
30
3750
60
6
100
250
MF3010
15
MF3011
10
MF3012
5
MF3020
30
400
MF3021
15
MF3022
10
MF3023
5
MF3051
15
600
MF3052
10
Zero Crossing Pin Configuration
Random Phase Pin Configuration
20
Cross List
Isocom
Part No.
Avago
Part No.
Fairchild
Part No.
SHARP
Part No.
NEC
Part No.
Toshiba
Part No.
6N135
6N135
6N135
6N136
6N136
6N136
6N137
6N137
6N137
6N138
6N138
6N138
6N139
6N139
6N139
ICPL-3120
HCPL-3120
ICPLW137
HCNW137
ICPLW2601
HCNW2601
ICPLW2611
HCNW2611
ICPL2601
HCPL2601
HCPL2601
TLP554
TLP2601
ICPL2611
HCPL2611
HCPL2611
PS9587
ICPL600
HCPLM600
ICPLM601
HCPLM601
TLP113
TLP115
TLP115A
ICPLM611
HCPLM611
FODM611
PC410L
PS9117A
ICPL0630
HCPL0630
HCPL0637
ICPL0631
HCPL0631
HCPL0638
PC4D10
ICPL0661
HCPL0661
HCPL0639
PS9817A-2
ICPL0600
HCPL0600
HCPL0600
ICPL0601
HCPL0601
HCPL0601
ICPL0611
HCPL0611
HCPL0611
PC410S
PS9817A-1
ICPL2630
HCPL2630
HCPL2630
TLP2630
ICPL2631
HCPL2631
HCPL2631
TLP2631
ICPL2661
HCPL2661
ICPLW135
HCNW135
ICPLW136
HCNW136
ICPL0500
HCPL0500
HCPL0500
ICPL0501
HCPL0501
HCPL0501
ICPL0530
HCPL0530
HCPL0530
ICPL0531
HCPL0531
HCPL0531
ICPL2530
HCPL2530
HCPL2530
TLP2530
ICPL2531
HCPL2531
HCPL2531
TLP2531
ICPL4502
HCPL4502
TLP559
TLP750
TLP759
ICPL4503
HCPL4503
ICPL452
FODM452
TLP112
TLP112A
TLP114A
ICPL453
FODM453
PC457
PS8101
ICPL0452
HCPL0452
ICPL0453
HCPL0453
PC457S
IGBT & High Speed
For price and delivery
• Call ISOCOM COMPONENTS direct on +44 (0)1429 863609 or email your requirements to
sales@isocom.co.uk
, or
• Contact your local ISOCOM COMPONENTS distributor, visit
www.isocom.com
for further details
How to order
• For VDE approval, add the suffix X to the required part number (e.g. ISP817X)
• For 10.16mm lead spread, add the suffix G to the required part number (e.g. ISP817XG)
• For surface mount option, add the suffix SM to the required part number (e.g. ISP817XSM)
• For tape and reel packaging, add the suffix T&R to the required part number (e.g. ISP817XSMT&R)
If your required part number is not shown please contact us to discuss
your requirements.
All parts conform to the EU RoHS Directive 2002/95/EC
Lead form & packaging options
•
All devices are supplied in tubes in standard straight lead form unless specified
•
All devices are available in 10.16mm lead spread to ensure a minimum creepage distance of 8.0mm
•
All devices are available in surface mount lead form (SMD)
•
All surface mount devices are available in Tape and Reel packaging
Special Selections • Just-In-Time Delivery • Superior Service
Short Lead Times • Unbeatable Quality • Technical Support
21
Isocom Components is a leading manufacturer of high performance
infrared optoelectonic devices specialising in optocouplers and
optoswitches. Since the business was established over 25 years ago, we
have consistently delivered in excess of our customers expectations
to become one of the most respected brands in the worldwide
optoelectronic industry.
Our expert knowledge and flexible manufacturing processes result in the
shortest production lead times in the world for many parts. Our product
quality and superior customer service is unrivalled and is endorsed by
our many long standing customers.
Isocom Components is your natural alternative to all popular
commercial optocoupler industry standard types including
many no longer supplied by other manufacturers. In addition,
we carry out special parametric selections to meet customers’
specific design requirements.
Our parts are available approved to the leading recognised
industry standards and all devices are supplied in various lead
forms and Tape and Reel packaging if required.
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Office: 61 Lerin str.
1680 Sofia, Bulgaria
Call us: 029731195; 9734626
Send us email: office@famousconnections.eu
www.famousconnections.eu