Optoisolators (Photocouplers)
CNZ3731, CNC7C501, CNZ3734
CNC2S501, CNC7C502, CNC7H501
Optoisolators
Overview
The CNZ3731 series of optoisolators consist of a GaAs infrared
LED which is optically coupled with a Si NPN Darlington
phototransistor, and housed in a small DIL package. The series
provides high I/O isolation voltage and high collector/emitter isolation
voltage, as well as a high current transfer ratio (CTR). This opto
isolator series also includes the two-channel CNC7C501 and the fourchannel CNZ3734, and A type of these models with increased
collector to emitter breakdown voltage (V
Features
High collector to emitter breakdown voltage : V
A type : V
CEO
> 350 V
High current transfer ratio with Darlington phototransistor output
CTR = 4000% (typ.)
High I/O isolation voltage : V
≥ 5000 V
ISO
Small DIL package for saving mounting space
UL listed (UL File No. E79920)
A-type models have a guaranteed internal insulating distance of 0.4 mm
Applications
Telephones
Telephone exchange
FAX
Programmable controllers
Signal transfer between circuits with different potentials and impedances
Pin Connection
CNZ3731
CNC2S501
1
4
CNZ3734
CNC7H501
CEO
1
> 350V).
CEO
rms
> 300 V,
:
16
CNZ3731/CNC2S501
LED Mark
1
23
4.58±0.3
7.62±0.3
6.2±0.5
2.0
3.85±0.3
0 to 15˚
CNC7C501/CNC7C502
LED Mark
1
2
3
9.66±0.3
4
7.62±0.3
6.2±0.5
2.0
3.85±0.3
0 to 15˚
CNZ3734/CNC7H501
LED Mark
1
2
3
4
5
19.82±0.5
6
7
8
7.62±0.3
6.2±0.5
2.0
3.85±0.3
0 to 15˚
5.2 max.
4
–0
+0.15
0.25
0 to 15˚
5.2 max.
8
7
6
5
–0
+0.15
0.25
0 to 15˚
5.2 max.
16
15
14
13
12
11
10
9
–0
+0.15
0.25
0 to 15˚
2.54 min.0.5 min.
4-0.5±0.1
1: Anode
2: Cathode
3: Emitter
4: Collector
2.54 min.0.5 min.
1,3: Anodee
2,4: Cathode
5,7: Emitter
6,8: Collector
2.54 min.0.5 min.
1,3,5,7:
2,4,6,8:
9,11,13,15:
10,12,14,16:
Unit : mm
4-1.2±0.15
2.54±0.25
Unit : mm
8-0.5±0.1
8-1.2±0.15
2.54±0.25
Unit : mm
16-0.5±0.1
2.54±0.25
16-1.2±0.15
Anode
Cathode
Emitter
Collector
2
CNC7C501
CNC7C502
1
2
3
4
3
Top View
8
7
6
5
Top View
2
3
4
5
6
7
8
15
14
13
12
11
10
9
Top View
1
CNZ3731, CNC7C501, CNZ3734, CNC2S501, CNC7C502, CNC7H501
Optoisolators (Photocouplers)
Absolute Maximum Ratings (Ta = 25˚C)
Parameter
Reverse voltage (DC)
Input (Light
emitting diode)
Forward current (DC)
Pulse forward current
Power dissipation
Collector current
Output (Photo
transistor)
Collector to emitter voltage
Emitter to collector voltage
Collector power dissipation
Total power dissipation
Isolation voltage, input to output
Operating ambient temperature
Storage temperature
*1
Pulse width ≤ 100 µs, repeat 100 pps
*2
Input power derating ratio is 0.75 mW/˚C at Ta ≥ 25˚C.
*3
Output power derating ratio is 3.0 mW/˚C at Ta ≥ 25˚C (CNZ3731, CNC2S501).
Output power derating ratio is 0.75 mW/˚C at Ta ≥ 25˚C (CNC7C501, CNC2S502, CNZ3734, CNC7H501).
*4
AC 1min., RH < 60 %
Symbol
V
R
I
F
*1
I
FP
*2
P
D
I
C
V
CEO
V
ECO
*3
P
C
P
T
*4
V
ISO
T
opr
T
stg
CNZ3731 CNC2S501
66V
50 50 mA
11A
75 75 mW
150 150 mA
300 350 V
0.3 0.3 V
300 150 300 150 mW
320 200 320 200 mW
5000 5000 V
–30 to +100 –30 to +100 ˚C
–55 to +125 –55 to +125 ˚C
CNC7C501
CNZ3734
Ratings
CNC7C502
CNC7H501
Unit
rms
Electrical Characteristics (Ta = 25˚C)
Parameter
Input
characteristics
Reverse current (DC)
Forward voltage (DC)
Capacitance between pins
Output
characteristics
Collector cutoff current
Collector to emitter capacitance
DC current transfer ratio
Isolation capacitance, input to output
Transfer
characteristics
Isolation resistance, input to output
Rise time
Fall time
Collector to emitter saturation voltage
*1
DC current transfer ratio (CTR) is a ratio of output current against DC input current.
I
C
I
F
CTR = × 100 (%)
*2
tr : Time required for the collector current to increase from 10% to 90% of its final value
*3
tf : Time required for the collector current to decrease from 90% to 10% of its initial value
Symbol
Conditions min typ max Unit
IRVR = 3V 10 µA
VFIF = 50mA 1.35 1.5 V
CtVR = 0V, f = 1MHz 30 pF
I
CEOVCE
CCV
= 200V 200 nA
= 10V, f = 1MHz 10 pF
CE
CTR*1VCE = 2V, IF = 1mA 1000 4000 %
C
= 1MHz 0.7 pF
ISOf
R
ISOVISO
*2
t
r
*3
t
f
V
CE(sat)IF
= 500V 10
V
= 10V, IC = 10mA, 40 µs
CC
Rt = 100Ω 15 µs
= 1mA, IC = 2mA 1.0 V
11
Ω
2