ACPL-847-00G [AVAGO]
Transistor Output Optocoupler, 4-Element;
| 型号: | ACPL-847-00G |
| 厂家: | 
AVAGO TECHNOLOGIES LIMITED |
| 描述: | Transistor Output Optocoupler, 4-Element 输出元件 光电 |
| 文件: | 总9页 (文件大小:231K) |
| 中文: | 中文翻译 | 下载: | 下载PDF数据表文档文件 |
ACPL-8x7
Multi-Channel Full-Pitch Phototransistor Optocoupler
Data Sheet
Description
Features
•
•
•
Current transfer ratio
(CTR: min. 50% at I = 5mA, V = 5V)
The ACPL-827 is a DC-input dual channel full-pitch
phototransistor optocoupler which contains two light
emitting diode optically coupled to two separate
transistor. It is packaged in a 8-pin DIP package.
F
CE
High input-output isolation voltage
(V = 5,000V
)
RMS
ISO
Response time
(tr: typ. 4µs at V = 2V, I = 2mA, R = 100W)
Likewise, the ACPL-847 is a DC-input quad channel full-
pitch phototransistor optocoupler which contains four
light emitting diode optically coupled to four separate
transistor. It is packaged in a 16-pin DIP package
CE
C
L
•
•
Compact dual-in-line package
Safety and regulatory approvals
-
-
-
CSA
UL 1577
IEC/EN/DIN EN 60747-5-2
For both types, it is also available in wide-lead spacing
option and lead bend SMD option with input-output
isolation voltage at 5000 Vrms. Response time, tr, is
typically 4 μs and minimum CTR is 50% at input current
of 5 mA
•
Options available:
– Leads with 0.4”(10.16 mm) spacing (W00)
– Lead bend for surface mounting (300)
– Tape and reel for SMD (500) – available only for
ACPL-827
ACPL-827 pin layout
8
7
6
5
– IEC/EN/DIN EN 60747-5-2 approved (060)
– Lead-Free (000E)
1
2
3
4
Applications
•
•
•
•
Pin 1, 3
Pin 2, 4
Pin 5, 7
Pin 6, 8
Anode
•
I/O Interface for Programmable controllers,
computers.
Cathode
Emitter
Collector
•
•
•
Sequence controllers
System appliances, measuring instruments
Signal transmission between circuits of different
potentials and impedances.
ACPL-847 pin layout
16 15 14 13
12 11 10
9
8
1
2
3
4
5
6
7
•
•
•
•
Pin 1, 3, 5, 7
Pin 2, 4, 6, 8
Pin 9,11,13,15
Pin 10,12,14,16
Anode
Cathode
Emitter
Collector
ꢀ
Ordering Information
Specify part number followed by option number (if desired).
ACPL-8x7-XXXE
060 = IEC/EN/DIN EN 60747-5-2 Option
W00 = 0.4" Lead Spacing Option
300 = Lead Bend SMD Option
500 = Tape and Reel Packaging Option
(ACPL-827 only)
00B = Rank Mark B (for ACPL-827 only)
00C = Rank Mark C (for ACPL-827 only)
00G = Rank Mark G (for ACPL-847 only)
000E = Lead Free Option
Contact Avago Technologies sales representative, authorized distributor, or visit our WEB site at http://www.
avagotech.com/optocouplers.
Package Outline Drawings
ACPL-827 Package Outline
DATE CODE
LEAD FREE
A 8ꢁꢂ
YYWW
PIN ONE DOT
ꢃ.ꢅ0 0.ꢅ0
0.ꢁꢅꢃ 0.0ꢁ0
ꢂ.ꢃꢁ 0.ꢄ0
0.ꢄ0 0.0ꢀ
9.ꢃ8 0.ꢅ0
0.ꢄ8ꢀ 0.0ꢁ0
ꢄ.ꢅ0 0.ꢅ0
0.ꢀꢄ8 0.0ꢁ0
0.ꢅ0
0.0ꢁ TYP
ꢄ.ꢄ0 0.ꢅ0
0.ꢀꢄ0 0.0ꢁ0
ꢁ.80 0.ꢅ0
0.ꢀꢀ 0.0ꢁ
0.ꢁꢃ
0.0ꢀ
0.ꢅ0 0.ꢀ0
0.0ꢁ 0.00
ꢁ.ꢅꢆ 0.ꢁꢅ
0.ꢀ0 0.0ꢀ
[ꢂ.ꢃꢁ - 9.98]
0.ꢄ - 0.ꢄ9
DIMENSIONS IN [MILLIMETERS] AND INCHES
ꢁ
ACPL-827 Package Outline – Option 060
DATE CODE
LEAD FREE
A 8ꢁꢂ V
YYWW
PIN ONE DOT
ꢃ.ꢅ0 0.ꢅ0
0.ꢁꢅꢃ 0.0ꢁ0
ꢂ.ꢃꢁ 0.ꢄ0
0.ꢄ0 0.0ꢀ
9.ꢃ8 0.ꢅ0
0.ꢄ8ꢀ 0.0ꢁ0
ꢄ.ꢅ0 0.ꢅ0
0.ꢀꢄ8 0.0ꢁ0
0.ꢅ0
0.0ꢁ TYP
ꢄ.ꢄ0 0.ꢅ0
0.ꢀꢄ0 0.0ꢁ0
ꢁ.80 0.ꢅ0
0.ꢀꢀ 0.0ꢁ
0.ꢁꢃ
0.0ꢀ
0.ꢅ0 0.ꢀ0
0.0ꢁ 0.00
ꢁ.ꢅꢆ 0.ꢁꢅ
0.ꢀ0 0.0ꢀ
[ꢂ.ꢃꢁ - 9.98]
0.ꢄ - 0.ꢄ9
DIMENSIONS IN [MILLIMETERS] AND INCHES
ACPL-827 Package Outline – Option W00
DATE CODE
LEAD FREE
A 8ꢁꢂ
YYWW
ꢃ.ꢅ0
0.ꢁꢅꢃ
PIN ONE DOT
ꢂ.ꢃꢁ 0.ꢄ0
0.ꢄ0 0.0ꢀ
9.ꢃ8 0.ꢅ0
0.ꢄ8ꢀ 0.0ꢁ0
ꢄ.ꢅ0 0.ꢅ0
0.ꢀꢄ8 0.0ꢁ0
ꢃ.90 0.ꢅ0
0.ꢁꢂꢁ 0.0ꢁ0
ꢁ.80 0.ꢅ0
0.ꢀꢀ 0.0ꢁ
ꢁ.ꢄ0 0.ꢅ0
0.09 0.0ꢁ
0.ꢁꢃ
0.0ꢀ
ꢀ0.ꢀꢃ 0.ꢅ0
0.ꢆ0 0.0ꢁ
ꢁ.ꢅꢆ 0.ꢁꢅ
0.ꢀ0 0.0ꢀ
0.ꢅ0 0.ꢀ0
0.0ꢁ 0.00
DIMENSIONS IN [MILLIMETERS] AND INCHES
ꢄ
ACPL-827 Package Outline – Option 300
DATE CODE
LEAD FREE
A 8ꢁꢂ
YYWW
PIN ONE DOT
ꢃ.ꢅ0 0.ꢅ0
0.ꢁꢅꢃ 0.0ꢁ0
9.ꢃ8 0.ꢅ0
0.ꢄ8ꢀ 0.0ꢁ0
ꢂ.ꢃꢁ 0.ꢄ0
0.ꢄ0 0.0ꢀ
ꢄ.ꢅ0 ꢀꢁ.ꢂ0
0.ꢀꢄ8 0.ꢅ00
0.ꢁꢃ
0.0ꢀ
0.ꢄꢅ 0.ꢁꢅ
0.0ꢀꢆ 0.0ꢀ0
ꢀ
0.ꢁꢅ
0.0ꢄ9 0.0ꢀ0
ꢀ.ꢁ0 0.ꢀ0
0.0ꢆꢂ 0.00ꢆ
ꢁ.ꢅꢆ 0.ꢁꢅ
0.ꢀ0 0.0ꢀ
ꢀ0.ꢀꢃ 0.ꢅ0
0.ꢆ0 0.0ꢁ
DIMENSIONS IN [MILLIMETERS] AND INCHES
ACPL-847 Package Outline
DATE CODE
LEAD FREE
A 8ꢆꢂ
PIN ONE DOT
YYWW
ꢃ.ꢅ0 0.ꢅ0
0.ꢁꢅꢃ 0.0ꢁ0
ꢂ.ꢃꢁ 0.ꢄ0
0.ꢄ0 0.0ꢀ
ꢀ9.8ꢆ 0.ꢅ0
0.ꢂ8ꢀ 0.0ꢁ0
ꢄ.ꢅ0 0.ꢅ0
0.ꢀꢄ8 0.0ꢁ0
0.ꢅ0
0.0ꢁ TYP
ꢄ.ꢄ0 0.ꢅ0
0.ꢀꢄ0 0.0ꢁ0
ꢁ.80 0.ꢅ0
0.ꢀꢀ 0.0ꢁ
0.ꢁꢃ
0.0ꢀ
[ꢂ.ꢃꢁ - 9.98]
0.ꢄ - 0.ꢄ9
0.ꢅ0 0.ꢀ0
0.0ꢁ 0.00
ꢁ.ꢅꢆ 0.ꢁꢅ
0.ꢀ0 0.0ꢀ
DIMENSIONS IN [MILLIMETERS] AND INCHES
ꢆ
ACPL-847 Package Outline - Option 060
DATE CODE
LEAD FREE
A 8ꢆꢂ V
YYWW
PIN ONE DOT
ꢃ.ꢅ0 0.ꢅ0
0.ꢁꢅꢃ 0.0ꢁ0
ꢂ.ꢃꢁ 0.ꢄ0
0.ꢄ0 0.0ꢀ
ꢀ9.8ꢆ 0.ꢅ0
0.ꢂ8ꢀ 0.0ꢁ0
ꢄ.ꢅ0 0.ꢅ0
0.ꢀꢄ8 0.0ꢁ0
0.ꢅ0
0.0ꢁ TYP
ꢄ.ꢄ0 0.ꢅ0
0.ꢀꢄ0 0.0ꢁ0
ꢁ.80 0.ꢅ0
0.ꢀꢀ 0.0ꢁ
0.ꢁꢃ
0.0ꢀ
0.ꢅ0 0.ꢀ0
0.0ꢁ 0.00
ꢁ.ꢅꢆ 0.ꢁꢅ
0.ꢀ0 0.0ꢀ
[ꢂ.ꢃꢁ - 9.98]
0.ꢄ - 0.ꢄ9
DIMENSIONS IN [MILLIMETERS] AND INCHES
ACPL-847 Package Outline - Option W00
DATE CODE
LEAD FREE
A 8ꢆꢂ
YYWW
PIN ONE DOT
ꢃ.ꢅ0 0.ꢅ0
0.ꢁꢅꢃ 0.0ꢁ0
ꢂ.ꢃꢁ 0.ꢄ0
0.ꢄ0 0.0ꢀ
ꢀ9.8ꢆ 0.ꢅ0
0.ꢂ8ꢀ 0.0ꢁ0
ꢄ.ꢅ0 0.ꢅ0
0.ꢀꢄ8 0.0ꢁ0
ꢃ.90 0.ꢅ0
0.ꢁꢂꢁ 0.0ꢁ0
ꢁ.80 0.ꢅ0
0.ꢀꢀ 0.0ꢁ
0.ꢅ0 0.ꢀ0
0.0ꢁ 0.00
ꢀ0.ꢀꢃ 0.ꢅ0
0.ꢆ0 0.0ꢁ
ꢁ.ꢅꢆ 0.ꢁꢅ
0.ꢀ0 0.0ꢀ
DIMENSIONS IN [MILLIMETERS] AND INCHES
ꢅ
ACPL-847 Package Outline - Option 300
LEAD FREE
DATE CODE
A 8ꢆꢂ
YYWW
ꢃ.ꢅ0 0.ꢅ0
0.ꢁꢅꢃ 0.0ꢁ0
PIN ONE DOT
ꢂ.ꢃꢁ 0.ꢄ0
0.ꢄ0 0.0ꢀ
ꢀ9.8ꢆ 0.ꢅ0
0.ꢂ8ꢀ 0.0ꢁ0
ꢄ.ꢅ0 0.ꢅ0
0.ꢀꢄ8 0.0ꢁ0
ꢀ
0.ꢁꢅ
0.ꢁꢃ
0.0ꢀ
0.ꢄꢅ 0.ꢁꢅ
0.0ꢀ 0.0ꢀ
0.0ꢄ9 0.0ꢀ0
ꢁ.ꢅꢆ 0.ꢁꢅ
0.ꢀ0 0.0ꢀ
ꢀ0.ꢀꢃ 0.ꢄ0
0.ꢆ0 0.0ꢀ
ꢀ.ꢁ0 0.ꢀ0
0.0ꢅ 0.00
DIMENSIONS IN [MILLIMETERS] AND INCHES
Solder Reflow Temperature Profile
1. One-time soldering reflow is recommended within
the condition of temperature and time profile shown
at right.
2. When using another soldering method such as
infrared ray lamp, the temperature may rise partially
in the mold of the device. Keep the temperature on
the package of the device within the condition of (1)
above.
30 seconds
260 °C (Peak Temperature)
250°C
217°C
200°C
150°C
60 sec
90 sec
Note: Use of non chlorine-activated fluxes is highly recommended.
25°C
60 ~ 150 sec
60 sec
Time (sec)
ꢃ
Absolute Maximum Ratings
Parameter
Symbol
Min.
Max.
ꢀꢁꢅ
ꢀ00
ꢅ0
Units
°C
Note
Storage Temperature
T
S
-ꢅꢅ
Operating Temperature
Average Forward Current
Input Power Dissipation
Input Reverse Voltage
T
A
-ꢄ0
-
°C
I
mA
mW
V
F(AVG)
P
I
-
ꢂ0
V
R
-
ꢃ
Collector Current
I
-
ꢅ0
mA
V
C
Collector-Emitter Voltage
Emitter-Collector Voltage
Isolation Voltage (AC for ꢀmin, R.H. ꢆ0~ꢃ0%)
Collector Power Dissipation
Total Power Dissipation
Lead Solder Temperature
V
V
V
-
ꢂ0
CEO
ECO
ISO
C
-
ꢃ
V
-
ꢅ000
ꢀꢅ0
ꢁ00
V
RMS
P
P
-
mW
mW
-
TOT
ꢁꢃ0°C for ꢀ0 sec., ꢀ.ꢃ mm below seating plane
Electrical Specifications (DC)
Over recommended operating conditions unless otherwise specified.
Parameter
Symbol
Min.
Typ.
ꢀ.ꢁ
-
Max.
ꢀ.ꢆ
ꢀ0
ꢁꢅ0
ꢀ00
-
Units
V
Test Conditions
Note
Forward Voltage
Reverse Current
V
F
-
-
I = ꢁ0mA
F
I
R
mA
pF
nA
V
V = ꢆV
R
Terminal Capacitance
Collector Dark Current
C
t
ꢄ0
-
V = 0, f = ꢀKHz
I
V = ꢁ0V, I = 0 mA
CE F
CEO
Collector-Emitter Breakdown Voltage BV
Emitter-Collector Breakdown Voltage BV
ꢂ0
ꢃ
-
I = 0.ꢀ mA, I = 0 mA
C F
CEO
-
-
V
I = ꢀ0 mA, I = 0 mA
E F
ECO
Collector Current
I
ꢁ.ꢅ
ꢅ0
-
-
ꢄ0
ꢃ00
0.ꢁ
-
mA
%
I = ꢅ mA, V = ꢅV
CTR=(I /I )* ꢀ00%
C F
C
F
CE
Current Transfer Ratio
Collector-Emitter Saturation Voltage
Isolation Resistance
CTR
-
V
R
0.ꢀ
ꢀxꢀ0
0.ꢃ
80
V
I = ꢁ0 mA, I = ꢀmA
F C
CE(sat)
ꢀ0
ꢀꢀ
W
pF
KHz
ꢅxꢀ0
-
DCꢅ00V, R.H. ꢆ0~ꢃ0%
V = 0, f = ꢀMHz
ISO
F
Floating Capacitance
C
ꢀ
Cut-off Frequency (-ꢄdB)
F
-
-
V
CE
= ꢅV, I = ꢁ mA,
See fig ꢀꢄ
See fig ꢀꢁ
C
C
RL = ꢀ00W
V = ꢁV, I = ꢁ mA,
CE
Response Time (Rise)
Response Time (Fall)
t
t
-
-
ꢆ
ꢄ
ꢀ8
ꢀ8
ms
ms
r
C
RL = ꢀ00W
f
Rank Mark
CTR (%)
Conditions
V = ꢅV, I = ꢅ mA, T = ꢁꢅ°C
CE
B
C
G
ꢀꢄ0 ~ ꢁꢃ0
ꢁ00 ~ ꢆ00
ꢀꢄ0 ~ ꢆ00
F
A
ꢂ
60
50
40
30
20
10
0
200
150
100
50
0
-30
0
25
50
75 100 125
-30
0
25
50
75 100 125
Ambient temperature Ta (oC)
Ambient temperature Ta (oC)
Figure 1. Forward Current vs. Ambient Temperature.
Figure 2 Collector Power Dissipation vs. Ambient Temperature
6
500
Ta=25OC
Ta=75oC
50oC
25oC
0oC
5
200
100
-25oC
4
3
2
1
0
50
20
10
5
2
1
0
5
10
15
0
0.5
1.0
1.5
2.0
2.5
3.0
Forward current IF(mA)
Forward voltage VF(V)
Figure 4. Forward Current vs. Forward Voltage
Figure 3. Collector-emitter Saturation Voltage vs. Forward Current
200
30
Ta=25oC
VCE=5V
IF=30mA
180
Ta=25oC
25
20
15
10
5
20mA
160
140
120
100
80
Pc(MAX.)
10mA
60
5mA
5
40
20
0
0
1
2
5
10
20
50
0
1
2
3
4
6
7
8
9
Forward current IF(mA)
Collector-emitter voltage VCE(V)
Figure 5. Current Transfer Ratio vs. Forward Current
Figure 6. Collector Current vs. Collector-emitter Voltage.
8
150
100
50
0.16
0.14
0.12
0.10
0.08
0.06
0.04
0.02
0
IF =5mA
VCE=5V
IF=20mA
Ic=1mA
0
-30
0
25
50
75
100
-25
0
25
50
75
100
Ambient temperature Ta (oC)
Ambient temperature Ta (oC)
Figure 7. Relative Current Transfer Ratio vs. Ambient Temperature
Figure 8. Collector-emitter Saturation Voltage vs. Ambient Temperature
-5
10
500
VCE=2V
Ic=2mA
VCE=20V
-6
200
Ta=25oC
100
10
-7
50
tr
tf
10
20
10
5
-8
10
td
-9
10
ts
1
2
1
-10
10
0.5
-11
10
0.2
0.05
-25
0
25
50
75
100
0.1 0.2 0.5
2
5
10
Ambient temperature Ta (oC)
Load resistance RL(k
Ω)
Figure 9. Collector Dark Current vs. Ambient Temperature
Figure 10. Response Time vs. Load Resistance
VCE =2V
Ic=2mA
Input
Vcc
Ta=25oC
0
Output
RL
10%
90%
R D
Output
Input
10
ts
td
1kΩ
100Ω
Ω
RL=10k
tr
tf
Figure 12. Test Circuit for Response Time
20
Vcc
R L
0.5 1
2
5
10 20 50 100
500
RD
Frequency f (kHz)
Output
Figure 11. Frequency Response
Figure 13. Test Circuit for Frequency Response
For product information and a complete list of distributors, please go to our web site: www.avagotech.com
Avago, Avago Technologies, and the A logo are trademarks of Avago Technologies, Limited, in the United States and other countries.
Data subject to change. Copyright © ꢁ00ꢅ Avago Technologies, Limited. All rights reserved. Obsoletes AV0ꢀ-0ꢅꢄ0EN
AV0ꢀ-0ꢃꢀꢁEN - October ꢄ0, ꢁ00ꢃ
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