CNY17-2-560E [AVAGO]
Phototransistor Optocoupler High Collector-Emitter Voltage Type; 光电晶体管光耦合器高集电极 - 发射极电压型型号: | CNY17-2-560E |
厂家: | AVAGO TECHNOLOGIES LIMITED |
描述: | Phototransistor Optocoupler High Collector-Emitter Voltage Type |
文件: | 总7页 (文件大小:113K) |
中文: | 中文翻译 | 下载: | 下载PDF数据表文档文件 |
CNY17-x
Phototransistor Optocoupler High Collector-Emitter
Voltage Type
Data Sheet
Description
Features
•ꢀ Highꢀcollector-emitterꢀvoltageꢀ
Theꢀ CNY17ꢀ containsꢀ aꢀ lightꢀ emittingꢀ diodeꢀ opti-
callyꢀcoupledꢀtoꢀaꢀphoto-transistor.ꢀItꢀisꢀpackagedꢀinꢀaꢀ
6-pinꢀ DIPꢀ packageꢀ andꢀ availableꢀ inꢀ wide-leadꢀ spacingꢀ
optionꢀ andꢀ leadꢀ bendꢀ SMDꢀ option.ꢀ Collector-emitterꢀ
voltageꢀ isꢀ aboveꢀ 70ꢀ V.ꢀ Responseꢀ time,ꢀ t ,ꢀ isꢀ typicallyꢀ
5ꢀ µsꢀ andꢀ minimumꢀ CTRꢀ isꢀ 40%ꢀ atꢀ inputꢀ currentꢀ ofꢀ
10ꢀmA.
(V ꢀ=ꢀ70ꢀV)
CEO
•ꢀ Highꢀinput-outputꢀisolationꢀvoltageꢀ
(V ꢀ=ꢀ5000ꢀVrms)
iso
r
•ꢀ CurrentꢀTransferꢀRatioꢀ
(CTR:ꢀmin.ꢀ40%ꢀatꢀI ꢀ=ꢀ10ꢀmA,ꢀV ꢀ=ꢀ5ꢀV)
F
CE
•ꢀ Responseꢀtimeꢀ
(t :ꢀtyp.,ꢀ5ꢀµsꢀatꢀV ꢀ=ꢀ10ꢀV,ꢀI ꢀ=ꢀ2ꢀmA,ꢀR ꢀ=ꢀ100ꢀΩ)
r
CC
C
L
Applications
•ꢀ Dual-in-lineꢀpackage
•ꢀ ULꢀapproved
•ꢀ CSAꢀapproved
•ꢀ Systemꢀappliances,ꢀmeasuringꢀinstruments
•ꢀ Signalꢀtransmissionꢀbetweenꢀcircuitsꢀofꢀdifferentꢀꢀ ꢀ
potentialsꢀandꢀimpedances
•ꢀ IEC/EN/DINꢀENꢀ60747-5-2ꢀapproved
•ꢀ Feedbackꢀcircuitꢀinꢀpowerꢀsupply
•ꢀ Optionsꢀavailable:ꢀ
–ꢀꢀLeadsꢀwithꢀ0.4"ꢀ(10.16ꢀmm)ꢀspacingꢀ(W00)ꢀ
–ꢀꢀLeadsꢀbendꢀforꢀsurfaceꢀmountingꢀ(300)
ꢀ
ꢀ
ꢀ
ꢀ
ꢀ
Functional Diagram
PIN NO. AND INTERNAL
CONNECTION DIAGRAM
ꢀ –ꢀꢀTapeꢀandꢀreelꢀforꢀSMDꢀ(500)ꢀ
–ꢀꢀIEC/EN/DINꢀENꢀ60747-5-2ꢀapprovalsꢀ(060)
ꢀ
ꢀ
ꢀ
6
5
4
Schematic
I
1
+
F
6
ANODE
BASE
V
F
–
2
CATHODE
I
C
5
4
COLLECTOR
EMITTER
1
2
3
1. ANODE
2. CATHODE
3. NC
4. EMITTER
5. COLLECTOR
6. BASE
CAUTION: It is advised that normal static precautions be taken in handling and assembly
of this component to prevent damage and/or degradation which may be induced by ESD.
Ordering Information
CNY17-xꢀisꢀULꢀRecognizedꢀwithꢀ5000ꢀVrmsꢀforꢀ1ꢀminuteꢀperꢀUL1577ꢀandꢀisꢀapprovedꢀunderꢀCSAꢀComponentꢀAccep-
tanceꢀNoticeꢀ#5,ꢀFileꢀCAꢀ88324.
RoHS Compliant Option
-1
40%
<CTR<
80%
-2
63%
<CTR<
125%
-3
-4
100%
<CTR<
200%
160%
<CTR<
320%
Part
Number
Surface Gull Tape IEC/EN/DIN
Mount Wing & Reel EN60747-5-2
Package
Quantity
ꢀ
ꢀ
-000Eꢀ
ꢀ
-000Eꢀ
ꢀ
-000Eꢀ
ꢀ
-000Eꢀ
ꢀ
300ꢀmilꢀꢀ
DIP-6ꢀ
ꢀ
ꢀ
ꢀ
ꢀ
ꢀ
ꢀ
ꢀ
ꢀ
65ꢀꢀpcsꢀ
perꢀtube
ꢀ
ꢀ
-300Eꢀ
ꢀ
-300Eꢀ
ꢀ
-300Eꢀ
ꢀ
-300Eꢀ
ꢀ
300ꢀmilꢀ
DIP-6ꢀ
Xꢀ
ꢀ
Xꢀ
ꢀ
ꢀ
ꢀ
ꢀ
ꢀ
65ꢀꢀpcsꢀꢀ
perꢀtube
ꢀ
ꢀ
-500Eꢀ
ꢀ
-500Eꢀ
ꢀ
-500Eꢀ
ꢀ
-500Eꢀ
ꢀ
300ꢀmilꢀ
DIP-6ꢀ
Xꢀ
ꢀ
Xꢀ
ꢀ
Xꢀ
ꢀ
ꢀ
ꢀ
1000ꢀpcsꢀ
perꢀreel
ꢀ
ꢀ
-060Eꢀ
ꢀ
-060Eꢀ
ꢀ
-060Eꢀ
ꢀ
-060Eꢀ
ꢀ
300ꢀmilꢀ
DIP-6ꢀ
ꢀ
ꢀ
ꢀ
ꢀ
ꢀ
ꢀ
Xꢀ
ꢀ
65ꢀpcsꢀ
perꢀtube
CNY17
ꢀ
-360Eꢀ
ꢀ
-360Eꢀ
ꢀ
-360Eꢀ
ꢀ
-360Eꢀ
ꢀ
300ꢀmilꢀ
DIP-6ꢀ
Xꢀ
ꢀ
Xꢀ
ꢀ
ꢀ
ꢀ
Xꢀ
ꢀ
65ꢀpcsꢀ
perꢀtube
ꢀ
ꢀ
ꢀ
-560Eꢀ
ꢀ
-560Eꢀ
ꢀ
-560Eꢀ
ꢀ
-560Eꢀ
ꢀ
300ꢀmilꢀ
DIP-6ꢀ
Xꢀ
ꢀ
Xꢀ
ꢀ
Xꢀ
ꢀ
Xꢀ
ꢀ
1000ꢀpcsꢀ
perꢀreel
ꢀ
ꢀ
-W00Eꢀ
ꢀ
-W00Eꢀ
ꢀ
-W00Eꢀ
ꢀ
-W00Eꢀ
ꢀ
400ꢀmilꢀ
DIP-6ꢀ
ꢀ
ꢀ
ꢀ
ꢀ
ꢀ
ꢀ
ꢀ
ꢀ
65ꢀpcsꢀ
perꢀtube
ꢀ
ꢀ
-W60Eꢀ
ꢀ
-W60Eꢀ
ꢀ
-W60Eꢀ
ꢀ
-W60Eꢀ
ꢀ
400ꢀmilꢀ
DIP-6ꢀ
ꢀ
ꢀ
ꢀ
ꢀ
ꢀ
ꢀ
Xꢀ
ꢀ
65ꢀpcsꢀ
perꢀtube
Toꢀorder,ꢀchooseꢀaꢀpartꢀnumberꢀfromꢀtheꢀpartꢀnumberꢀcolumnꢀandꢀcombineꢀwithꢀtheꢀdesiredꢀoptionꢀfromꢀtheꢀop-
tionꢀcolumnꢀtoꢀformꢀanꢀorderꢀentry.ꢀ
Exampleꢀ1:
CNY17-1-360Eꢀtoꢀorderꢀproductꢀofꢀ300ꢀmilꢀDIP-6ꢀDCꢀGullꢀWingꢀSurfaceꢀMountꢀpackageꢀinꢀTubeꢀpackagingꢀwithꢀ
40%<CTR<80%,ꢀIEC/EN/DINꢀENꢀ60767-5-2ꢀSafetyꢀApprovalꢀandꢀRoHSꢀcompliant.
Exampleꢀ2:
CNY17-2-W00Eꢀtoꢀorderꢀproductꢀofꢀ400ꢀmilꢀDIP-6ꢀDCꢀinꢀTubeꢀpackagingꢀwithꢀ63%<CTR<125%ꢀandꢀRoHSꢀcompli-
ant.
Optionꢀdatasheetsꢀareꢀavailable.ꢀContactꢀyourꢀAvagoꢀsalesꢀrepresentativeꢀorꢀauthorizedꢀdistributorꢀforꢀinformation.ꢀꢀꢀꢀ
2
Package Outline Drawings
CNY17-X-000E
7.3 ꢀ.5
(ꢀ.287)
7.62 ꢀ.3
(ꢀ.3)
MODEL
NO.
3.5 ꢀ.5
(ꢀ.138)
LEAD FREE
A CNY17 -
6.5 ꢀ.5
(ꢀ.256)
ꢀ.5
Y Y WW
TYP.
(ꢀ.ꢀ2)
3.3 ꢀ.5
(ꢀ.13)
2.8 ꢀ.5
(ꢀ.11ꢀ)
ANODE
DATE
CODE
ꢀ.26
(ꢀ.ꢀ1ꢀ)
ꢀ.5 ꢀ.1
(ꢀ.ꢀ2)
2.54 ꢀ.25
(ꢀ.1)
DIMENSIONS IN MILLIMETERS AND (INCHES)
7.62 ~ 9.98
CNY17-X-060E
7.3 ꢀ.5
(ꢀ.287)
7.62 ꢀ.3
(ꢀ.3)
MODEL
NO.
3.5 ꢀ.5
(ꢀ.138)
LEAD FREE
ANODE
A CNY17- V
6.5 ꢀ.5
(ꢀ.256)
ꢀ.5
(ꢀ.ꢀ2)
Y Y WW
TYP.
3.3 ꢀ.5
(ꢀ.13)
2.8 ꢀ.5
(ꢀ.11ꢀ)
DATE
CODE
ꢀ.26
(ꢀ.ꢀ1ꢀ)
ꢀ.5 ꢀ.1
(ꢀ.ꢀ2)
2.54 ꢀ.25
(ꢀ.1)
DIMENSIONS IN MILLIMETERS AND (INCHES)
7.62 ~ 9.98
CNY17-X-W00E
7.3 ꢀ.5
(ꢀ.287)
7.62 ꢀ.3
(ꢀ.3)
MODEL
NO.
3.5 ꢀ.5
(ꢀ.138)
LEAD FREE
ANODE
A CNY17 -
6.5 ꢀ.5
(ꢀ.256)
6.9 ꢀ.5
(ꢀ.272)
Y Y WW
2.3 ꢀ.5
(ꢀ.ꢀ9)
2.8 ꢀ.5
(ꢀ.11ꢀ)
DATE
CODE
ꢀ.26
(ꢀ.ꢀ1ꢀ)
ꢀ.5 ꢀ.1
(ꢀ.ꢀ2)
2.54 ꢀ.25
(ꢀ.1)
1ꢀ.16 ꢀ.5
(ꢀ.4)
DIMENSIONS IN MILLIMETERS AND (INCHES)
3
CNY17-X-300E
7.3 ꢀ.5
(ꢀ.287)
7.62 ꢀ.3
(ꢀ.3)
MODEL
NO.
ꢀ.35 +ꢀ.15/-ꢀ.1ꢀ
(ꢀ.ꢀ14)
3.5 ꢀ.5
(ꢀ.138)
LEAD FREE
ANODE
A CNY17 -
6.5 ꢀ.5
(ꢀ.256)
Y Y WW
1.ꢀ ꢀ.25
(ꢀ.ꢀ39)
1.2 ꢀ.1
(ꢀ.ꢀ47)
ꢀ.35 ꢀ.25
(ꢀ.ꢀ14)
2.54 ꢀ.25
(ꢀ.1)
DATE
1ꢀ.16 ꢀ.3
CODE
(ꢀ.4)
DIMENSIONS IN MILLIMETERS AND (INCHES)
30 seconds
Solder Reflow Temperature Profile
260°C (Peak Temperature)
250°C
217°C
1)ꢀ One-timeꢀsolderingꢀreflowꢀisꢀrecommendedꢀwithinꢀ
theꢀconditionꢀofꢀtemperatureꢀandꢀtimeꢀprofileꢀshownꢀ
atꢀright.
200°C
150°C
2)ꢀ Whenꢀusingꢀanotherꢀsolderingꢀmethodꢀsuchꢀasꢀin-
fraredꢀrayꢀlamp,ꢀtheꢀtemperatureꢀmayꢀriseꢀpartiallyꢀ
inꢀtheꢀmoldꢀofꢀtheꢀdevice.ꢀKeepꢀtheꢀtemperatureꢀonꢀ
theꢀpackageꢀofꢀtheꢀdeviceꢀwithinꢀtheꢀconditionꢀofꢀ(1)ꢀ
above.
60 sec
25°C
60 ~ 150 sec
90 sec
Time (sec)
60 sec
Note: Non-halide flux should be used.
Absolute Maximum Ratings
Storage Temperature, T
–55˚C to +150˚C
–55˚C to +100˚C
260˚C for 10 s
S
Operating Temperature, T
A
Lead Solder Temperature, max.
(1.6 mm below seating plane)
Average Forward Current, I
60 mA
6 V
F
Reverse Input Voltage, V
R
Input Power Dissipation, P
100 mW
150 mA
70 V
I
Collector Current, I
C
Collector-Emitter Voltage, V
CEO
ECO
Emitter-Collector Voltage, V
6 V
Collector-Base Voltage, V
70 V
CBO
Collector Power Dissipation
Total Power Dissipation
150 mW
250 mW
5000 Vrms
Isolation Voltage, V
iso
(AC for 1 minute, R.H. = 40 ~ 60%)
4
Electrical Specifications (T = 25˚C)
A
Parameter
Symbol
Min.
–
Typ.
1.4
–
Max.
1.7
10
100
50
–
Units
V
Test Conditions
I = 60 mA
Forward Voltage
V
F
F
Reverse Current
I
R
–
µA
pF
nA
V
V = 6 V
R
Terminal Capacitance
C
t
–
–
V = 0, f = 1 MHz
Collector Dark Current
Collector-Emitter Breakdown Voltage
Emitter-Collector Breakdown Voltage
Collector-Base Breakdown Voltage
Collector Current
I
–
–
V = 10 V
CE
CEO
BV
CEO
BV
ECO
BV
CBO
70
6
–
I = 0.1 mA, I = 0
C F
–
–
V
I = 10 µA, I = 0
E F
70
4
–
–
V
I = 0.1 mA, I = 0
C F
I
C
–
32
mA
%
I = 10 mA
F
*Current Transfer Ratio
CNY17-1
CTR
40
63
100
160
–
–
–
–
80
V = 5 V
CE
CNY17-2
CNY17-3
CNY17-4
125
200
320
Collector-Emitter Saturation Voltage
Response Time (Rise)
V
–
–
5
0.3
10
10
–
V
I = 10 mA, I = 2.5 mA
F C
CE(sat)
t
t
–
µs
µs
Ω
V = 5 V, I = 10 mA
CE C
r
Response Time (Fall)
–
5
R = 100 Ω
L
f
11
Isolation Resistance
R
1 x 10
–
DC 500 V
iso
40 ~ 60% R.H.
Floating Capacitance
C
f
–
–
2
pF
V = 0, f = 1 MHz
I
C
* CTR = x 100%
I
F
2
ꢀ
8ꢀ
6ꢀ
4ꢀ
2ꢀ
ꢀ
2ꢀꢀ
I
V
T
= 1ꢀ mA
F
= 5 V
CC
= 25°C
A
16ꢀ
15ꢀ
-2
-4
-6
R
R
= 2ꢀꢀ Ω
= 15ꢀ Ω
L
L
1ꢀꢀ
5ꢀ
ꢀ
R
= 75 Ω
L
-8
-1ꢀ
-55 -25
ꢀ
25 5ꢀ 75 1ꢀꢀ 125
ꢀ.5
1
2
5
1ꢀ 2ꢀ 5ꢀ 1ꢀꢀ 2ꢀꢀ 5ꢀꢀ
-55 -25
ꢀ
25 5ꢀ 75 1ꢀꢀ 125
T
– AMBIENT TEMPERATURE – °C
f – FREQUENCY – kHz
T
– AMBIENT TEMPERATURE – °C
A
A
Figure 1. Forward current vs. temperature.
Figure 2. Collector power dissipation vs. tempera-
ture.
Figure 3. Frequency response.
45
4ꢀ
35
3ꢀ
25
5ꢀꢀ
2ꢀꢀ
18ꢀ
16ꢀ
14ꢀ
12ꢀ
1ꢀꢀ
8ꢀ
T
P
= 25°C
(MAX.)
V
= 5 V
A
CE
I
= 3ꢀ mA
T
T
T
= 75°C
= 5ꢀ°C
= 25°C
F
A
A
A
T
= 25°C
A
C
2ꢀꢀ
1ꢀꢀ
T
T
= ꢀ°C
A
A
= -25°C
R
=
BE
I
= 2ꢀ mA
5ꢀ
F
2ꢀ
1ꢀ
2ꢀ
15
1ꢀ
5
I
= 1ꢀ mA
F
6ꢀ
1ꢀꢀ kΩ
5
I
= 5 mA
= 2 mA
4ꢀ
2ꢀ
ꢀ
F
5ꢀꢀ kΩ
I
2
1
F
ꢀ
ꢀ
2
4
6
8
1ꢀ
ꢀ
ꢀ.5
1.ꢀ
1.5
2.ꢀ
2.5
3.ꢀ
ꢀ
2
5
1ꢀ
2ꢀ
5ꢀ
V
– COLLECTOR-EMITTER VOLTAGE – V
V
– FORWARD VOLTAGE – V
I – FORWARD CURRENT – mA
F
CE
F
Figure 4. Forward current vs. forward voltage.
Figure 5. Current transfer ratio vs. forward current.
Figure 6. Collector current vs. collector-emitter volt-
age.
1ꢀ-6
15ꢀ
ꢀ.16
V
= 1ꢀ V
CE
F
1ꢀ-7
I
= 1ꢀ mA
= 2.5 mA
I
= 1ꢀ mA
= 5 V
CE
F
V
I
ꢀ.14
C
1ꢀ-8
1ꢀ-9
ꢀ.12
ꢀ.1ꢀ
1ꢀꢀ
ꢀ.ꢀ8
ꢀ.ꢀ6
ꢀ.ꢀ4
ꢀ.ꢀ2
ꢀ
1ꢀ-1ꢀ
5ꢀ
ꢀ
1ꢀ-11
1ꢀ-12
1ꢀ-13
-55 -25
ꢀ
25
5ꢀ
75
1ꢀꢀ
-55
-25
ꢀ
25
5ꢀ
75
1ꢀꢀ
-3ꢀ
ꢀ
T – AMBIENT TEMPERATURE – °C
A
2ꢀ
4ꢀ
6ꢀ
8ꢀ 1ꢀꢀ
T
– AMBIENT TEMPERATURE – °C
T
– AMBIENT TEMPERATURE – °C
A
A
Figure 7. Relative current transfer ratio vs. tempera-
ture.
Figure 8. Collector-emitter saturation voltage vs.
temperature.
Figure 9. Collector dark current vs. temperature.
6
1ꢀ
T
= 25°C
I
= 1ꢀ mA
A
F
V
T
= 5 V
CC
= 25°C
5
4
3
2
I
I
I
= ꢀ.5 mA
= 1 mA
= 2 mA
C
C
C
5
A
tr
tf
2
1
I
I
= 3 mA
= 5 mA
C
C
1
ꢀ
ꢀ.5
ꢀ
2.5
5.ꢀ
7.5
1ꢀ.ꢀ
12.5
ꢀ.ꢀ2
ꢀ.ꢀ5
ꢀ.1
ꢀ.2
ꢀ.5
I
– FORWARD CURRENT – mA
R
– LOAD RESISTANCE – kΩ
F
L
Figure 10. Response time vs. load resistance.
Figure 11. Collector-emitter saturation voltage vs.
forward current.
6
Test Circuit for Response Time
Test Circuit for Frequency Response
V
V
CC
CC
R
R
L
L
R
R
D
D
INPUT
OUTPUT
OUTPUT
~
INPUT
1ꢀ%
9ꢀ%
OUTPUT
ts
td
tr
tf
For product information and a complete list of distributors, please go to our website: www.avagotech.com
Avago, Avago Technologies, and the A logo are trademarks of Avago Technologie s Limited in the United States and other countries.
Data subject to change. Copyright © 2007 Avago Technologies Limited. All rights reserved. Obsoletes AV01-0536EN
AV02-0772EN - October 18, 2007
7
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