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Phototransistor
Industry Standard Single Channel 6 Pin DIP Optocoupler
DEVICE TYPES
Part No. CTR % Min. Part No.
CTR % Min.
Dimensions in Inches (mm)
4N25
4N26
4N27
4N28
4N35
4N36
4N37
4N38
H11A1
H11A2
H11A3
H11A4
H11A5
20
20
10
10
100
100
100
10
50
20
20
10
30
MCT2
MCT2E
MCT270
MCT271
MCT272
MCT273
MCT274
MCT275
MCT276
MCT277
20
20
50
4590
75150
125250
225400
7090
1560
100
FEATURES
• Interfaces with Common Logic Families
321
pin one ID
.248 (6.30)
.256 (6.50)
.039
(1.00)
Min.
4°
typ.
.018 (0.45)
.022 (0.55)
Anode 1
Cathode 2
4 56
.335 (8.50)
.343 (8.70)
NC 3
.048 (0.45)
.022 (0.55)
.130 (3.30)
.150 (3.81)
.031 (0.80) min. 3°9°
.031 (0.80)
.035 (0.90)
.100 (2.54) typ.
6 Base
5 Collector
4 Emitter
.300 (7.62)
typ.
18°
.010 (.25)
typ.
.300.347
(7.628.81)
.114 (2.90)
.130 (3.0)
• Input-output Coupling Capacitance < 0.5 pF
• Industry Standard Dual-in-line 6-pin Package
• Field Effect Stable by TRIOS®
• 5300 VRMS Isolation Test Voltage
• Underwriters Laboratory File #E52744
DESCRIPTION
This data sheet presents five families of Vishay Industry Standard DataShee
Single Channel Phototransistor Couplers. These families include the
DataSh4eNe2t54/U26.c/2o7m/28 types, the 4N35/36/37/38 couplers, the H11A1/A2/
V
DE
VDE #0884 Approval Available with Option 1
A3/A4/A5, the MCT2/2E, and MCT270/271/272/273/274/275/276/
APPLICATIONS
• AC Mains Detection
• Reed Relay Driving
• Switch Mode Power Supply Feedback
• Telephone Ring Detection
• Logic Ground Isolation
• Logic Coupling with High Frequency Noise
Rejection
Notes:
Designing with data sheet is covered in Application Note 45.
277 devices.Each optocoupler consists of Gallium Arsenide infra-
red LED and a silicon NPN phototransistor.
These couplers are Underwriters Laboratories (UL) listed to comply
with a 5300 VRMS Isolation Test Voltage. This isolation performance
is accomplished through Vishay double molding isolation manufac-
turing process. Compliance to VDE 0884 partial discharge isolation
specification is available for these families by ordering option 1.
Phototransistor gain stability, in the presence of high isolation volt-
ages, is insured by incorporating a TRansparent lOn Shield
(TRIOS)® on the phototransistor substrate. These isolation pro-
cesses and the Vishay IS09001 Quality program results in the high-
est isolation performance available for a commercial plastic
phototransistor optocoupler.
The devices are available in lead formed configuration suitable for
surface mounting and are available either on tape and reel, or in
standard tube shipping containers.
DataSheet4U.com
Document Number: 83717
Revision 17-August-01
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Maximum Ratings TA=25°C
Emitter
Reverse Voltage .......................................................................................... 6.0 V
Forward Current ........................................................................................ 60 mA
Surge Current (t10 µs)............................................................................... 2.5 A
Power Dissipation................................................................................... 100 mW
Detector
Collector-Emitter Breakdown Voltage........................................................... 70 V
Emitter-Base Breakdown Voltage ................................................................ 7.0 V
Collector Current ....................................................................................... 50 mA
Collector Current(t <1.0 ms).................................................................... 100 mA
Power Dissipation................................................................................... 150 mW
Package
Isolation Test Voltage.......................................................................... 5300 VRMS
Creepage .............................................................................................. 7.0 mm
Clearance ............................................................................................. 7.0 mm
Isolation Thickness between Emitter and Detector ............................... 0.4 mm
Comparative Tracking Index per DIN IEC 112/VDE0303, part 1 .................. 175
Isolation Resistance
VIO=500 V, TA=25°C...............................................................................1012
VIO=500 V, TA=100°C............................................................................ 1011
Storage Temperature................................................................ 55°C to +150°C
Operating Temperature ............................................................ 55°C to +100°C
Junction Temperature................................................................................ 100°C
Soldering Temperature (max. 10 s, dip soldering:
distance to seating plane 1.5 mm) ...................................................... 260°C
4N25/26/27/28—Characteristics TA=25°C
Emitter
et4U.com Forward Voltage*
Reverse Current*
Capacitance
Detector
Symbol Min. Typ.
VF 1.3
DIaRtaSheet4U.com 0.1
CO 25
Breakdown Voltage*
ICEO(dark)*
Collector-Emitter BVCEO 30
Emitter-Collector BVECO
7.0
Collector-Base
BVCBO 70
4N25/26/27
4N28
5.0
10
ICBO(dark)*
Capacitance, Collector-Emitter
Package
DC Current Transfer Ratio*
4N25/26
4N27/28
CCE
CTR
2.0
6.0
20 50
10 30
Isolation Voltage*
4N25
4N26/27
VIO 2500
1500
4N28
500
Saturation Voltage, Collector-Emitter
Resistance, Input to Output*
Coupling Capacitance
Rise and Fall Times
VCE(sat)
RIO 100
CIO 0.5
tr, tf 2.0
DataSheet*4InUd.iccaotmes JEDEC registered values
Document Number: 83717
Revision 17-August-01
Max.
1.5
100
Unit
V
µA
pF
V
50 nA
100
20 nA
pF
%
V
0.5 V
G
pF
µs
Condition
IF=50 mA
VR=3.0 V
VR=0
DataShee
IC=1.0 mA
IE=100 µA
IC=100 µA
VCE=10 V, (base open)
VCB=10 V, (emitter open)
VCE=0
VCE=10 V, IF=10 mA
Peak, 60 Hz
ICE=2.0 mA, IF=50 mA
VIO=500 V
f=1.0 MHz
IF=10 mA
VCE=10 V, RL=100
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4N35/36/37/38—Characteristics TA=25°C
Emitter
Symbol Min. Typ.
Forward Voltage*
VF 1.3
0.9
Reverse Current*
Capacitance
Detector
IR 0.1
CO 25
Breakdown Voltage, Collector-Emitter*
4N35/36/37
4N38
BVCEO
30
80
Breakdown Voltage, Emitter-Collector*
BVECO 7.0
Breakdown Voltage, Collector-Base*
4N35/36/37 BVCBO 70
4N38
80
Leakage Current, Collector-Emitter*
4N35/36/37
4N38
ICEO
5.0
——
Leakage Current, Collector-Emitter*
4N35/36/37
4N38
ICEO
——
6.0
Capacitance, Collector-Emitter
Package
CCE 6.0
DC Current Transfer Ratio*
4N35/36/37 CTR
100
4N38
20
DC Current Transfer Ratio*
4N35/36/37 CTR
40 50
et4U.com Resistance, Input to Output*
Coupling Capacitance
Switching Time*
* Indicates JEDEC registered value
4N38
— — 30
RIO 1011
CIO 0.5
DtaOtNa, StOhFeF et4U.com10
H11A1 through H11A5—Characteristics TA=25°C
Emitter
Forward Voltage
H11A1H11A4
H11A5
Reverse Current
Capacitance
Detector
Breakdown Voltage, Collector-Emitter
Breakdown Voltage, Emitter-Collector
Breakdown Voltage, Collector-Base
Leakage Current, Collector-Emitter
Capacitance, Collector-Emitter
Package
DC Current Transfer Ratio
H11A1
H11A2/3
H11A4
H11A5
Saturation Voltage, Collector-Emitter
Capacitance, Input to Output
Switching Time
DataSheet4U.com
Document Number: 83717
Revision 17-August-01
Symbol
VF
IR
C0
Min.
Typ.
1.1
1.1
50
BVCEO 30
BVECO 7.0
BVCBO 70
ICEO
5.0
CCE 6.0
CTR
VCEsat
CIO
tON, tOFF
50
20
10
30
0.5
3.0
Max.
1.5
1.7
10
Unit
V
µA
pF
V
V
V
——
50 nA
50
500 µA
pF
%
%
——
pF
µs
Max.
1.5
1.7
10
Unit
V
µA
pF
V
V
V
50 nA
pF
%
0.4 V
pF
µs
Condition
IF=10 mA
IF=10 mA, TA=55°C
VR=6.0 V
VR=0, f=1.0 MHz
IC=1.0 mA
IE=100 µA
IC=100 µA, IB=1.0 µA
VCE=10 V, IF=0
VCE=60 V, IF=0
VCE=30 V, IF=0, TA=100°C
VCE=60 V, IF=0, TA=100°C
VCE=0
VCE=10 V, IF=10 mA,
VCE=1.0 V, IF=20 mA
VCE=10 V, IF=10 mA,
TA=55 to 100°C
VIO=500 V
f=1.0 MHz
IC=2.0 mA, RL=100 Ω, VCC=10 V
DataShee
Condition
IF=10 mA
VR=3.0 V
VR=0, f=1.0 MHz
IC=1.0 mA, IF=0 mA
IE=100 µA, IF=0 mA
IC=10 µA, IF=0 mA
VCE=10 V, IF=0 mA
VCE=0
VCE=10 V, IF=10 mA
ICE=0.5 mA, IF=10 mA
IC=2.0 mA, RL=100 Ω, VCE=10 V
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