6N137
6N137
Super High Speed Response
OPIC Photocoupler
■ Features
1. Super high speed response
(t
PHL
, t
: TYP. 45ns at RL= 350Ω
PLH
)
2. Isolation voltage between input and output
V
: 2 500V
iso
3. Low input current drive (I
rms
: MAX. 5mA
FHL
4. Instantaneous common mode rejection
voltage
CM
: TYP. 500V/ s
H
µ
5. LSTTL and TTL compatible output
6. Recognized by UL , file No. E64380
■ Applications
1. High speed interfaces for computer
peripherals, microcomputer systems
2. High speed line receivers
3. Noise reduction
4. Interfaces for data transmission equipment
■ Absolute Maximum Ratings
Parameter
*1
Forward current
Input
Output
*1 Ta = 0 to 70 ˚C
*2 Pulse width <= 1ms
*3 For 1 minute MAX.
*4 Not exceed 500mV or more than
supply voltage (V
*2
Peak forward current
Reverse voltage
Supply voltage
Enable voltage
High level output voltage
Low level output current
Output collector
power dissipation
*5
Isolation voltage
Operating temperature
Storage temperature
*6
Soldering temperature
)
CC
■ Outline Dimensions
± 0.3
0.85
6N137
)
1423
± 0.3
1.2
Primary side mark (Sunken place
9.22
± 0.5
0.5TYP
3.5
± 0.5
3.7
± 0.1
0.5
* “ OPIC ” (Optical IC) is a trademark of the SHARP Corporation.
An OPIC consists of a light-detecting element and signal processing circuit integrated onto a single chip.
(
Ta = 25˚C
Symbol
I
F
I
FM
V
R
V
CC
C
E
V
OIL
I
OL
P
C
V
iso
T
opr
T
stg
T
sol
*5 AC for 1 minute, 40 to 60% RH
Apply the specific voltage between all the input
electrode pins connected together and all the
output electrode pins connected together.
*6 2mm or more away from the lead base for 10
seconds
Rating Unit
20 mA
40 mA
5V
7V
5.5 V
7V
50 mA
85 mW
2 500
0 to + 70 ˚C
- 55 to + 125
260 ˚C
1.2
6758
± 0.5
6.5
± 0.2
0.8
2.54
)
± 0.25
5 GND
6 V
7 V
± 0.5
1 NC
2 Anode
3 Cathode
4 NC 8 V
)
V
rms
˚C
(
Unit : mm
Internal connection
diagram
6758
1423
± 0.3
7.62
θ
θ = 0 to 13 ˚
± 0.1
0.26
O
E
CC
)
θ
“ In the absence of confirmation by device specification sheets, SHARP takes no responsibility for any defects that occur in equipment using any of SHARP's devices, shown in catalogs,
data books, etc. Contact SHARP in order to obtain the latest version of the device specification sheets before using any SHARP's device.”
6N137
■ Electro-optical Characteristics
(
Ta= 0 to+ 70˚C unless otherwise specified
Parameter Symbol Conditions MIN. TYP. MAX. Unit
Logic (1) output current I
OHVCC
Logic (0) output voltage V
Logic (1) enable current I
Logic (0) enable current I
Logic (1) supply current I
Logic (0) supply current I
*1
Leak current I
*1
Isolation resistance (input-output)
*1
Capacitance (input-output
*2
Input forward voltage VFI
)
EHVCC
ELVCC
CCHVCC
CCLVCC
I-O
R
C
I-O
Input reverse voltage BV
Input capacitance C
*3
Current transfer ratio CTR I
*4
Propagation delay time
Output (0)→ (1)
*5
Propagation delay time
Output (1) → (0
Output rise-fall time (10 to 90%
*6
Enable propagation
delay time (1) → (0
*7
Enable propagation
delay time (0)→ (1)
*8
Instantaneous common mode
rejection voltage “ Output (0)”
*8
Instantaneous common mode
)
)
rejection voltage “ Output (1) ”
Note) Typical values are all at VCC= 5V, Ta= 25˚C
*1 Measured as 2-pin element. Connect pins 2 and 3, connect pins 5, 6, 7 and 8.
*2 At I
*3 DC current transfer ratio is defined as the ratio of output collector current to forward bias input current.
*4, *5 Refer to the Fig. 1.
*6, *7 Refer to the Fig. 2.
*8 CM
=10mA, VF decreases at the rate of 1.6mV/˚C if the temperature goes up.
in
represents a common mode voltage ignorable rise time ratio that can hold logic (1) state in output.
H
represents a common mode voltage ignorable fall time ratio that can hold logic (0) state in output.
CM
L
t
PLH
t
PHL
)
t
, tfRL= 350Ω , CL= 15pF, I
r
t
ELHRL
t
EHLRL
CM
CM
= 5.5V, VO= 5.5V, IF= 250µA, VE= 2.0V
= 2.0V, I
OLVCC
= 5.5V, I
= 5mA, V
F
EH
(Sinking)= 13mA
OL
= 5.5V, VE= 2.0V
= 5.5V, VE= 0.5V
= 5.5V, I
= 5.5V, I
= 0mA, V
F
= 10mA, V
F
45% RH, Ta =25˚C, t = 5s, V = 3 000V
I-OVI-O
= 500V, Ta= 25˚C - 10
E
E
I-O dc
= 0.5V
= 0.5V
f= 1MHz, Ta= 25˚C - 0.6 - pF
= 10mA, Ta= 25˚C
F
= 10 m A, Ta= 25˚C 5 - - V
RIR
= 0, f= 1MHz - 60 - pF
INVF
= 5.0mA, R
F
Ta = 25˚C, VCC= 5V, RL= 350Ω, CL= 15pF, I
Ta = 25˚C, VCC= 5V, RL= 350Ω, CL= 15pF, I
= 350Ω, CL= 15pF, I
= 350Ω, CL= 15pF, I
VCM= 10V, RL= 350Ω, V
H
= 10V, RL= 350Ω, V
LVCM
= 100Ω
L
= 7.5mA
F
= 7.5mA
F
= 7.5mA
F
= 7.5mA, V
FEH
= 7.5mA, V
FEH
OF
(max. )= 0.8V, I
O
= 3.0V, VEL= 0.5V
= 3.0V, VEL= 0.5V
= 0mA (min. )= 2V, I
= 5mA
F
■ Recommmended Operating Conditions
Low level input current I
High level input current I
High level enable voltage V
Low level enable voltage V
Supply voltage V
Fanout (TTL load
)
Operating temperature T
1. No necessary external pull-up resistor to hold enable input at high level
2. Connect a ceramic by-pass capacitor (0.01 to 0.1 F) between V
µ
FL
FH
EH
EL
CC
N-8
opr
and GND at the position within 1cm from pin.
CC
Parameter Symbol MIN. MAX. Unit
0 250 A
7.0 15
2.0 V
CC
0 0.8 V
4.5 5.5 V
070˚C
- 2 250 A
- 0.4 0.6 V
- - 0.8 -
- - 1.2 - 2.0
-715
-1318
- - 1.0 m A
12
- Ω
- 1.6 1.75 V
- 700 - %
-4575ns
-4575ns
- 20, 30 - ns
-40-ns
-15-ns
- 500 - V/ s
- - 500 - V/ s
µ
mA
V
-
)
µ
mA
mA
mA
mA
µ
µ
Circuit Block Diagram
Anode
Cathode
V
CC
V
E
(
Enable
V
O
GND
Truth Table
Input Enable Output
HHL
)
LHH
HLH
LLH
L:Logic (0) H:Logic (1
)