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GP1L03 [SHARP]

Wide Gap Type Photointerrupter; 宽禁带型光斩波器
GP1L03
型号: GP1L03
厂家: SHARP ELECTRIONIC COMPONENTS    SHARP ELECTRIONIC COMPONENTS
描述:

Wide Gap Type Photointerrupter
宽禁带型光斩波器

斩波器
文件: 总4页 (文件大小:63K)
中文:  中文翻译
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GP1L03  
Wide Gap Type  
Photointerrupter  
GP1L03  
( )  
Unit : mm  
Features  
Outline Dimensions  
1. Wide gap between emitter and detector  
Internal connection  
diagram  
(
)
10mm  
2. Deep gap 12.2mm  
3. High current transfer ratio  
25.4±  
2 - C2.0  
(
)
0.2  
1
2
4
3
(
)
CTR: MIN. 100% at I F= 1mA  
2- φ 3.2± 0.2  
1
2
Anode  
Cathode  
3
4
Collector  
Emitter  
32.0 ±  
0.3  
18.6 ±  
0.25  
6.0±  
0.2  
Applications  
10.0  
2.0  
1. Analyzers, measuring instruments  
2. Automatic vending machines, amusement  
equipment  
Slit width  
Both sides of detector  
(
)
and enitter  
3. Optoelectronic switches, optoelectronic  
counters  
4 - 0.45 +-  
0.3  
0.1  
(
)
15.24  
(
)
2.54  
2
1
3
4
*Unspecified tolerances shall be as follows;  
( )  
Dimensions d Tolerance  
d<=6.0  
6.0< d<=16.0  
± 0.1  
± 0.2  
( )  
*
: Reference dimensions  
(
)
Absolute Maximum Ratings  
Ta= 25˚C  
Parameter  
Symbol  
IF  
Rating  
Unit  
mA  
A
Forward current  
*1Peak forward current  
50  
IFM  
1
Input  
Reverse voltage  
VR  
6
V
Power dissipation  
P
75  
mW  
V
Collector-emitter voltage  
V CEO  
V ECO  
IC  
35  
Emitter-collector voltage  
6
40  
V
Output  
Collector current  
mA  
mW  
˚C  
Collector power dissipation  
Operating temperature  
Storage temperature  
PC  
75  
T opr  
T stg  
T sol  
- 25 to + 85  
- 40 to + 100  
260  
˚C  
*2Soldering temperature  
˚C  
*1 Pulse width<=100µ s, Duty ratio= 0.01  
*2 For 5 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.”  
GP1L03  
(
)
Ta = 25˚C  
Electro-optical Characteristics  
Parameter  
Symbol  
VF  
Conditions  
MIN.  
TYP.  
MAX.  
1.4  
Unit  
V
Forward voltage  
IF = 20mA  
-
-
1.2  
3.0  
-
Input  
Peak forward voltage  
Reverse current  
VFM IFM = 0.5A  
IR VR = 3V  
ICEO VCE = 10V  
4.0  
V
-
10  
10 - 6  
µ A  
A
Output  
Collector dark current  
Collector Current  
-
-
Ic  
VCE  
IF = 1mA, VCE = 2V  
1
-
-
20  
mA  
V
Transfer  
charac-  
teristics  
Collector-emitter saturation voltage  
(
)
IF = 2mA, I C = 0.5mA  
-
1.0  
sat  
Rise time  
Response time  
tr  
tf  
-
80  
70  
400  
350  
µ s  
µ s  
IC = 10mA, VCE = 2V, R L = 100  
Fall time  
-
Fig. 1 Forward Current vs. Ambient  
Fig. 2 Collector Power Dissipation vs.  
Temperature  
Ambient Temperature  
120  
60  
50  
40  
30  
20  
100  
80  
75  
60  
40  
10  
0
20  
0
- 25  
0
25  
50  
75 85 100  
)
- 25  
0
25  
50  
75 85 100  
)
(
(
Ambient temperature Ta ˚C  
Ambient temperature Ta ˚C  
Fig. 3 Peak Forward Current vs.  
Duty Ratio  
Fig. 4 Forward Current vs.  
Forward Voltage  
500  
Pulse width<=100µs  
Ta= 25˚C  
10000  
5000  
Ta= 75˚C  
200  
25˚C  
0˚C  
50˚C  
- 25˚C  
100  
2000  
1000  
500  
50  
20  
10  
5
200  
100  
50  
2
1
20  
10- 3  
10- 2  
10- 1  
1
0
0.5  
1.0  
1.5  
2.0  
2.5  
3.0  
2
5
2
5
2
5
(
)
V
Duty ratio  
Forward voltage VF  
GP1L03  
Fig. 5 Collector Current vs.  
Fig. 6 Collector Current vs.  
Forward Current  
Collector-emitter Voltage  
10  
10  
Ta= 25˚C  
VCE = 2V  
9
9
8
7
6
5
IF= 2.5mA  
T
a = 25˚C  
(
)
PC MAX.  
8
7
6
5
4
3
2
2.0mA  
1.5mA  
4
3
2
1.0mA  
0.5mA  
1
0
1
0
0
1
2
3
4
5
0
1
2
3
4
5
6
7
8
9
10 11 12  
(
)
( )  
Collector-emitter voltage VCE V  
Forward current IF mA  
Fig. 7 Collector Current vs.  
Fig. 8 Collector-emitter Saturation Voltage vs.  
Ambient Temperature  
Ambient Temperature  
3.0  
1.2  
IF = 1mA  
IF= 2mA  
V
CE = 2V  
IC= 0.5mA  
2.5  
2.0  
1.5  
1.0  
1.0  
0.8  
0.6  
0.4  
0.5  
0
0.2  
0
- 25  
0
25  
50  
75  
100  
)
125  
- 25  
0
25  
)
Ambient temperature Ta ˚C  
50  
75  
100  
(
(
Ambient temperature Ta ˚C  
Fig. 9 Response Time vs.  
Load Resistance  
Test Circuit for Response Time  
1000  
VCE= 2V  
500  
IC= 10mA  
a= 25˚C  
T
Input  
VCC  
RL  
Output  
200  
100  
50  
Input  
tf  
RD  
Output  
10 %  
90 %  
tr  
td  
ts  
20  
10  
5
td  
tr  
tf  
ts  
2
1
5
10 20  
50 100 200 500 1000  
(
)
Load resistance RL  
GP1L03  
Fig.10 Frequency Response  
Fig.11 Collector Dark Current vs.  
Ambient Temperature  
10- 4  
25  
20  
15  
VCE = 10V  
5
VCE = 2V  
C = 10mA  
I
10- 5  
T
a = 25˚C  
5
10- 6  
5
10  
5
10- 7  
5
10- 8  
0
5
- 5  
10- 9  
RL = 1k Ω  
100 Ω  
10 Ω  
5
- 10  
10- 10  
5
10- 11  
- 15  
- 20  
102  
103  
104  
105  
5
- 25  
0
25  
)
Ambient temperature T a ˚C  
50  
75  
100  
2
5
2
5
2
5
2
(
)
(
Frequency f Hz  
Fig.12 Relative Collector Current vs.  
Fig.13 Relative Collector Current vs.  
( )  
( )  
1
Shield Distance  
Shield Distance 2  
IF = 1mA  
IF= 1mA  
100  
100  
V
T
CE = 2V  
a= 25˚C  
V
T
CE= 2V  
a= 25˚C  
L
Shield  
-
Detector  
0
50  
50  
Shield  
+
Detector  
-
+
0
(
)
Detector center  
0
-
0
- 3 - 2 - 1  
3
-
2
-
1
0
1
2
3
4
5
0
1
2
3
4
5
(
)
(
)
Shield distance L mm  
Shield distance L mm  
Please refer to the chapter Precautions for Use ”.  

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