PC901V [SHARP]
Digital Output Type OPIC Photocoupler; 数字输出型光耦合器OPIC
| 型号: | PC901V |
| 厂家: | 
SHARP ELECTRIONIC COMPONENTS |
| 描述: | Digital Output Type OPIC Photocoupler |
| 文件: | 总5页 (文件大小:65K) |
| 中文: | 中文翻译 | 下载: | 下载PDF数据表文档文件 |
PC901V
Digital Output Type OPIC
Photocoupler
PC901V
( )
Unit : mm
■ Features
■ Outline Dimensions
1. Normal-ON operation, open collector out-
put
Internal connection
diagram
Voltage regulator
(
)
2. Operating supply voltage V : 3 to 15V
CC
6
5
4
6
5
4
Anode
mark
3. TTL and LSTTL compatible output
PC901V
4. High isolation voltage between input and
Amp
( )
Viso : 5 000V rms
output
1
2
3
1
2
3
(
5. High sensitivity IFLH : MAX. 2.0mA at
0.9± 0.2
Ta= 25˚C
1.2± 0.3
)
6. Recognized by UL, file No. 64380
7.12± 0.5
7.62± 0.3
■ Applications
1. Isolation between logic circuits
2. Logic level shifters
3. Line receivers
θ
= 0 to 13 ˚
4. Replacements for relays and pulse trans-
formers
0.26± 0.1
0.5± 0.1
2.54± 0.25
θ
θ
5. Noise reduction
1
2
3
Anode
Cathode
NC
4
5
6
VO
GND
VCC
(
)
* “ 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.
(
)
■ Absolute Maximum Ratings
Ta= 25˚C
Parameter
Symbol
IF
Rating
Unit
mA
A
Forward current
*1Peak forward current
50
IFM
VR
1
Input
Reverse voltage
6
V
Power dissipation
Supply voltage
P
70
16
mW
V
VCC
V OH
IOL
High level output voltage
Output
16
V
Low level output current
50
mA
mW
mW
V rms
˚C
Power dissipation
Total power dissipation
*2Isolation voltage
PO
150
P tot
V iso
T opr
T stg
T sol
170
5 000
- 25 to + 85
Operating temperature
Storage temperature
*3Soldering temperature
- 40 to + 125
260
˚C
˚C
*1 Pulse width<= 100µs, Duty ratio : 0.001
*2 40 to 60% RH, AC for 1 minute
*3 For 10 seconds
“ 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.”
PC901V
(
)
Ta= 0 to + 70˚C unless otherwise specified
■ Electro-optical Characteristics
Parameter
Symbol
VF
Conditions
MIN.
TYP.
1.1
1.0
-
MAX.
1.4
-
Unit
IF = 4mA
-
0.7
-
Forward voltage
V
IF = 0.3mA
Input
Reverse current
IR
Ta= 25˚C, VR = 4V
Ta= 25˚C, V= 0, f= 1kHz
10
µ A
pF
Terminal capacitance
Ct
-
30
-
250
15
Operating supply voltage
Low level output voltage
VCC
V OL
IOH
ICCL
ICCH
3
-
V
I
OL = 16mA, V CC = 5V, I F = 4mA
0.2
-
0.4
100
5.0
5.5
V
Output
High level output current
Low level supply current
High level supply current
VO = VCC = 15V, I F = 0
VCC = 5V, I F = 0
-
µ A
mA
mA
-
2.5
2.7
VCC = 5V, I F = 4mA
-
“ L→H” threshold input
current
Ta = 25˚C, V CC = 5V, R L = 280 Ω
-
-
0.4
0.3
0.5
1.1
-
0.8
-
0.7
1011
2.0
4.0
-
-
0.9
*4
I FLH
mA
V
CC = 5V, R L = 280Ω
Ta = 25˚C, V CC = 5V, R L = 280 Ω
VCC = 5V, R L = 280Ω
VCC = 5V, R L = 280Ω
“ H→L” threshold input
current
*5
*6
I FHL
mA
I FHL /I FLH
RISO
t PLH
t PHL
tr
Hysteresis
-
Isolation resistance
“ L→H ” propagation delay time
“ H→L ” propagation delay time
Rise time
Ta = 25˚C, DC500V, 40 to 60% RH
5 x 1010
-
3
Ω
Transfer
charac-
teristics
-
-
-
-
1
Ta= 25˚C
2
6
VCC = 5V, I F = 4mA
RL = 280Ω
µ s
0.1
0.05
0.5
0.5
Fall time
tf
(
)
(
)
*8Instantaneous common mode rejec-
VCM = 600V peak , VO MIN. = 2V
CMH
CML
-
-
- 2000
2000
-
-
V/ µ s
V/ µ s
(
)
tion voltage
High level output
IF = 4mA, R L = 280 Ω, Ta = 25˚C
VCM = 600V peak , VO MAX. = 0.8V
IF = 0, R L = 280 Ω, Ta = 25˚C
(
)
(
)
*8Instantaneous common mode rejec-
(
)
tion voltage
Low level output
*4 I FLH represents forward current when output goes from low to high.
*5 I FHL represents forward current when output goes from high to low.
*6 Hysterisis stands for I FHL /I FLH
*7 Test circuit for response time is shown below.
*8 Test circuit for CMH,CML shown below.
Test Circuit for Response Time
tr = tf = 0.01µ s
O = 50Ω
Voltage regulator
5V
Z
50%
V
IN
280Ω
VO
tPLH
1.5V
tPHL
VOH
90%
V
IN
VO
10%
VOL
0.1µF
47Ω
Amp.
tf
tr
Test Circuit for CM H, CM L
600V
VCM
Switch for Infrared LED at A
Voltage regulator
5V
IF
280Ω
VO
(
)
F = 0
I
Switch for
Infrared LED
( )
VO MAX. = 0.8V
A
VOL
GND
B
0.1µ F
Amp.
(
)
Switch for Infrared LED at B IF=4mA
-
+
( )
VO MIN. = 2.0V
GND
VCM
PC901V
Fig. 1 Forward Current vs. Ambient
Fig. 2 Power Dissipation vs. Ambient
Temperature
60
Temperature
200
Ptot
170
50
40
30
20
PO
150
100
50
0
10
0
- 25
0
25
)
Ambient temperature T ˚C
50
75 85 100
- 25
0
25
50
75 85 100
(
)
(
Ambient temperature T a ˚C
a
Fig. 3 Forward Current vs. Forward Voltage
Fig. 4 Relative Threshold Input Current vs.
Supply Voltage
500
1.4
T a = 25˚C
IFLH = 1 at V CC = 5V
T a= 75˚C
50˚C
200
1.2
25˚C
0˚C
IFLH
100
50
1.0
- 25˚C
IFHL
0.8
20
10
5
0.6
0.4
0.2
2
1
0
0.5
1.0
1.5
2.0
2.5
)
3.0
0
5
10
15
)
20
(
(
Forward voltage VF
V
Supply voltage VCC
V
Fig. 5 Relative Threshold Input Current vs.
Fig. 6 Low Level Output Voltage vs.
Ambient Temperature
Low Level Output Current
1.0
1.6
V
CC = 5V
VCC = 5V
1.4
1.2
1.0
0.8
0.6
0.4
I
F = 0
a = 25˚C
0.5
T
I FLH
0.2
0.1
I FHL
0.05
0.02
0.01
0.2
0
IFLH = 1 at T a = 25˚C
1
2
5
10
20
50
100
- 25
0
25
50
75
100
(
)
(
OL
)
mA
Ambient temperature T ˚C
Low level output current I
a
PC901V
Fig. 7 Low Level Output Voltage vs.
Fig. 8 High Level Output Current vs.
Ambient Temperature
0.5
Forward Current
10
V
CC = 5V
VCC = 5V
IOL = 30mA
T a = 25˚C
5
0.4
2
1
0.3
16mA
0.2
0.5
5mA
75
0.1
0
0.2
0.1
0
10
20
30
40
50
60
- 25
0
25
50
100
100
60
(
)
Forward current I F mA
(
)
Ambient temperature T a ˚C
Fig. 9 High Level Output Current vs.
Ambient Temperature
Fig.10 Supply Current vs. Supply Voltage
9
VCC = VO = 15V
F = 4mA
2
8
ICCH
I
ICCL
ICCH
ICCL
7
6
5
4
3
2
1
0.5
0.2
ICCH
ICCL
T a
- 25˚C
25˚C
=
0.1
{
{
{
1
0
0.05
85˚C
- 25
0
25
50
75
0
2
4
6
8
10 12 14 16 18
( )
Supply voltage VCC V
(
)
Ambient temperature Ta ˚C
Fig.11 Propagation Delay Time vs.
Forward Current
Fig.12 Rise Time, Fall Time vs.
Load Resistance
0.6
6
VCC = 5V
L = 280 Ω
a = 25˚C
VCC = 5V
R
T
t PHL
I
F = 4mA
a = 25˚C
0.5
0.4
0.3
0.2
5
4
3
2
T
tr
0.1
0
1
0
tf
t PLH
0.2
0.5
1
2
5
10
20
0
10
20
30
40
50
(
)
Load resistance R L k Ω
(
)
Forward current I F mA
PC901V
■ Precautions for Use
( )
1 It is recommended that a by-pass capacitor of more than 0.01µ F is added between VCC and
GND near the device in order to stabilize power supply line.
( )
2 Handle this product the same as with other integrated circuits against static electricity.
( )
3 As for other general cautions, please refer to the chapter “Precautions for Use ”
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