6N137
10MBit/s High Speed Logic Gate Optocoupler
Features
•
•
High speed 10MBit/s
High isolation voltage between input and output
(Viso=5000 Vrms )
•
•
Guaranteed
performance from -40° to 85°
C
C
Description
The 6N137 optocouplers consist of a 850 nm
AlGaAS LED, optically coupled to a very high speed
integrated photo-detector logic gate with a strobable
output. This output features an open collector,
there by permitting wired OR outputs. The switching
parameters are guaranteed over the temperature
range of -40° to +85°C. A maximum input signal of
C
5mA will provide a minimum output sink current of
13mA (fan out of 8).
Wide operating temperature range of -55° to
C
100°C
•
Regulatory Approvals
UL - UL1577 (E364000)
VDE - EN60747-5-5(VDE0884-5)
CQC – GB4943.1, GB8898
IEC60065, IEC60950
Applications
•
•
•
•
•
Line receivers
Telecommunication equipment
Feedback loop in switch-mode power supplies
Home appliances
High speed logic ground isolation
Package Outline
Schematic
Note: Different lead forming options available. See package
dimension.
CT Micro
Proprietary & Confidential
Page 1
Rev 2
Jul, 2014
6N137
10MBit/s High Speed Logic Gate Optocoupler
Absolute Maximum Rating at 25
o
C
Symbol
V
ISO
T
OPR
T
STG
T
SOL
Isolation voltage *1
Operating temperature
Storage temperature
Soldering temperature *2
Parameters
Ratings
5000
-55 ~ +100
-55 ~ +125
260
Units
V
RMS
o
C
o
C
o
C
Notes
Emitter
I
F
V
R
P
I
Forward current
Reverse voltage
Power dissipation
50
5
100
mA
V
mW
Detector
P
O
I
O
V
O
V
CC
VE
Power dissipation
Average Output current
Output voltage
Supply voltage
Enable Input Voltage Not to Exceed VCC by more than 500mV
85
50
7.0
7.0
5.5
mW
mA
V
V
V
1min(Max.)
CT Micro
Proprietary & Confidential
Page 2
Rev 2
Jul, 2014
6N137
10MBit/s High Speed Logic Gate Optocoupler
Electrical Characteristics
T
A
= -40 - 85° (unless otherwise specified). Typical values are measured at T
A
= 25
0
C and V
CC
=5V
C
Emitter Characteristics
Symbol
V
F
V
R
V
F
/ T
A
Parameters
Forward voltage
Reverse Voltage
Temperature coefficient of forward
IF =10mA
voltage
-
-1.8
-
mV/°
C
Test Conditions
IF = 10mA
IR = 10µA
Min
-
5.0
Typ
1.4
-
Max
1.6
-
Units
V
V
Notes
Detector Characteristics
Symbol
I
CCH
I
CCL
V
EH
V
EL
I
EH
I
EL
Parameters
Logic High Supply Current
Logic Low Supply
I
F
=10mA, V
E
=0.5V, V
CC
=5.5V
Current
High Level Enable Voltage
Low Level Enable Voltage
High Level Enable Current
Low Level Enable Current
I
F
=10mA, V
CC
=5.5V
I
F
=10mA, V
CC
=5.5V
V
E
=2.0V, V
CC
=5.5V
V
E
=0.5V, V
CC
=5.5V
2.0
-
-
-
-
-
-0.53
-0.75
-
0.8
-1.6
-1.6
V
V
mA
mA
-
8.8
13
mA
Test Conditions
I
F
=0mA, V
E
=0.5V, V
CC
=5.5V
Min
-
Typ
6.5
Max
10
Units
mA
Notes
Transfer Characteristics
Symbol
I
FT
Parameters
Input Threshold Current
V
E
=2.0V, I
O
=13mA
I
F
=250µA, V
O
=V
CC
=5.5V,
Logic High Output Current
V
E
=2.0V
I
F
=5mA, V
CC
=5.5V, V
E
=2.0V,
Low Level Output Voltage
I
O
=13mA
-
0.35
0.6
V
-
2.0
100
µA
Test Conditions
V
CC
=5.5V, V
O
=0.6V,
Min
-
Typ
2.5
Max
5
Units
mA
Notes
I
OH
V
OL
CT Micro
Proprietary & Confidential
Page 3
Rev 2
Jul, 2014
6N137
10MBit/s High Speed Logic Gate Optocoupler
Electrical Characteristics
T
A
= -40 - 85° (unless otherwise specified). Typical values are measured at T
A
= 25
0
C, V
CC
=5V and I
F
= 7.5mA
C
Switching Characteristics
Symbol
T
PHL
Parameters
Output Propagation Delay High to
-
Low
Output Propagation Delay Low to
-
High
Pulse Width Distortion
Output Rise Time
Output Fall Time
Enable Propagation Delay Low To
-
High
Enable Propagation Delay High
To Low
Common Mode Transient
Immunity at Logic High
Common Mode Transient
Immunity at Logic Low
I
F
= 0mA, V
CM
= 50Vp-p, V
OH
=
5000
2.0V, R
L
= 350
I
F
=7.5mA, V
CM
= 50Vp-p,
5000
V
OL
= 0.8V, R
L
= 350
-
-
V/µs
-
-
V/µs
VEH= 3.5V, C
L
= 15pF, R
L
=
350
-
15
-
ns
15
-
ns
C
L
= 15pF, R
L
= 350
-
-
-
5
37
10
34
-
-
ns
ns
ns
39
75
ns
34
75
ns
Test Conditions
Min
Typ
Max
Units
Notes
T
PLH
P
WD
T
r
T
f
T
ELH
T
EHL
CM
H
CM
L
CT Micro
Proprietary & Confidential
Page 4
Rev 2
Jul, 2014
6N137
10MBit/s High Speed Logic Gate Optocoupler
Typical Characteristic Curves
CT Micro
Proprietary & Confidential
Page 5
Rev 2
Jul, 2014
