Selector Guide

V I S H AY I N T E R T E C H N O L O G Y, I N C .
OPTOELECTRONICS
Emitters, Detectors, Sensors
Infrared Emitters, Photo
Detectors, and Optical Sensors
Infrared Emitters
PIN Photo Diodes
Phototransistors
Reflective Sensors – Analog
Tr a n s m i s s i v e S e n s o r s – A n a l o g
Ambient Light Sensors
Fully Integrated Proximity and Ambient Light Sensors
RESOURCES
•
•
•
•
•
Optical sensors product portfolio http://www.vishay.com/optical-sensors/
Infrared emitters product portfolio http://www.vishay.com/ir-emitting-diodes/
Photo detectors product portfolio http://www.vishay.com/photo-detectors/
Optoelecronics complete product portfolio http://www.vishay.com/optoelectronics/
Technical support:
–– [email protected]
–– [email protected]
–– [email protected]
• Sales contacts: http://www.vishay.com/doc?99914
A WORLD OF
SOLUTIONS
SELECTOR GUIDE
1/12
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V I S H AY I N T E R T E C H N O L O G Y, I N C .
OPTOELECTRONICS
Emitters, Detectors, Sensors
Infrared Emitters
Vishay offers emitters in more wavelengths than any other supplier: 830 nm, 850 nm, 870 nm, 890 nm, 940 nm, and 950 nm. Providing
fast rise and fall response times, Vishay also has the broadest selection of double hetero infrared emitters. They are the highest-power
infrared emitters with the lowest forward voltages on the market and ideal for high-current applications. The latest surface emitter
technology based devices, which provide highest radiant intensities, round up our extensive IR emitter portfolio.
Package
Peak
Wavelength
(nm)
Angle of Half
Intensity
(+/-°)
Radiant
Intensity,
Ie (mW/sr) (1)
Rise and
Fall Time,
tr/tf (ns)
Remark
TSAL6100
940
10
170
15
No stand-off
TSAL6200
940
17
72
15
No stand-off
TSAL6400
940
25
50
15
No stand-off
TSFF5210
870
10
180
15
Stand-off
TSFF5410
870
22
70
15
Stand-off
TSFF5510
870
38
32
15
Stand-off
TSFF6210
870
10
180
15
No stand-off
TSFF6410
870
22
70
15
No stand-off
TSHA5203
875
12
65
600
Stand-off
TSHA5500
875
24
30
600
Stand-off
TSHA6203
875
12
65
600
No stand-off
TSHA6500
875
24
30
600
No stand-off
TSHF5210
890
10
180
30
Stand-off
TSHF5410
890
22
70
30
Stand-off
TSHF6210
890
10
180
30
No stand-off
TSHF6410
890
22
70
30
No stand-off
TSHG5210
850
10
230
20
Stand-off
TSHG5410
850
18
90
20
Stand-off
TSHG5510
830
38
32
15
Stand-off
TSHG6200
850
10
180
20
No stand-off
TSHG6210
850
10
230
20
No stand-off
TSHG6400
850
22
70
20
No stand-off
TSHG6410
850
18
90
20
No stand-off
TSHG8200
830
10
180
20
No stand-off
Part Number
Through-Hole Packages
5mm
3 mm
1.8 mm
SELECTOR GUIDE
TSHG8400
830
22
70
20
No stand-off
TSUS5202
950
15
30
800
Stand-off
TSUS5402
950
22
20
800
Stand-off
TSUS6402
950
22
30
800
VSLY5850
850
3
600
10
VSLY5940
940
3
600
10
Stand-off
TSAL4400
940
25
30
800
No stand-off
TSHA4400
875
20
20
600
No stand-off
TSUS4300
950
16
18
800
No stand-off
TSUS4400
950
18
15
800
No stand-off
VSLB3940
940
22
65
15
No stand-off
VSLB3948
940
22
65
15
No stand-off
CQY36N
950
55
1.50
800
No stand-off
CQY37N
950
12
5
800
No stand-off
5.0
5 mm
8.6
Stand-off
2/12
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3 mm
6.1
3.0
3.3
2.4
2.9
1.8 mm
VMN-SG2123 -1510
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V I S H AY I N T E R T E C H N O L O G Y, I N C .
OPTOELECTRONICS
Emitters, Detectors, Sensors
Infrared Emitters (continued)
Package
Part Number
Peak
Wavelength
(nm)
Angle of Half
Intensity
(+/-°)
Radiant
Intensity,
Ie (mW/sr) (1)
Rise and
Fall Time,
tr/tf (ns)
Remark
3.6
2.2
Through-Hole Packages
3.4
Side View
Micro
TSSS2600
950
25H, 65V
2.6
800
No stand-off
Side View
Lens
TSKS5400S
950
30
4.5
800
No stand-off
TSTA7100
875
5
50
600
No stand-off
TSTA7300
875
12
20
600
No stand-off
Side View Micro
5.0
2.65
TO-18
TSTA7500
875
30
6
600
No stand-off
TSTS7100
950
5
18
800
No stand-off
TSTS7300
950
12
6
800
No stand-off
TSTS7500
950
30
1.6
800
No stand-off
5.0
Side View Lens
TO-18
(1) If = 100 mA
4.69
5.2 - 6.5
Stand-Off
14329
10°
20°
30°
40°
1.0
0.9
50°
0.8
60°
70°
0.7
80°
0.6
0.4
SELECTOR GUIDE
0.2
0
ϕ - Angular Displacement
I e rel - Relative Radiant Intensity
0°
To control the height of the emitter when inserted into the PCB for soldering,
some leaded emitters and photo detectors feature a standoff option (shown
at left). The stand off is the tab on the leads. It is sometimes called a stopper.
Angle of Half Intensity, j0.5 or
q
In a radiation diagram, the angle within which the radiant intensity is greater
than or equal to half of the maximum intensity. In Vishay datasheets, the
symbol j0.5 is most commonly used for the angle of half intensity. For visible
LEDs this is sometime called the viewing angle. There is still light, be it
infrared or visible, outside of this angle.
3/12
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V I S H AY I N T E R T E C H N O L O G Y, I N C .
OPTOELECTRONICS
Emitters, Detectors, Sensors
Infrared Emitters (continued)
Package
Peak
Wavelength
(nm)
Angle of
Half
Intensity
(+/-°)
Radiant
Intensity,
Ie (mW/
sr)(1)
Rise and
Fall
Time,
tr/tf (ns)
VSMB3940X01
940
60
13
15
VSMY3940X01
940
60
15
10
VSMF3710
890
60
10
30
VSMF4710
870
60
10
15
VSMF4720
870
60
16
15
Part Number
(2)
Remark
Surface-Mount Packages
PLCC-2
1.8 mm
1.8 mm Side
View
0805
Little Star®
VSMF9700
800
60
8
50
VSMF970011X01
890
60
9
50
VSMG2700
830
60
10
20
VSMG2720
830
60
14
20
VSMG3700
850
60
10
20
VSML3710
940
60
6
800
VSMS3700
950
60
4.5
800
VSMY3850
850
60
17
10
VSMY385010
850
60
9
10
VSMY2850RG, -G
850
10
100
10
VSMG2000X01, -2020X01
850
12
40
20
VSMG285011RG, -G
850
12
40
20
VSMY2853RG, -G
850
28
35
10
VSMF2890RGX01, -GX01
890
12
40
30
VSMF2893RGX01, -GX01
890
25
20
30
VSMB294008RG, -G
940
7
60
15
VSMY2940RG, -G
940
10
120
10
VSMB2000X01, -2020X01
940
12
40
15
VSMB2943RGX01, - GX01
940
25
20
15
VSMB2948RG, -G
940
25
20
15
VSMY2943RG, -G
940
28
35
10
VSMY294310RG, -G
940
25
25
10
2.8
1.65
3.0
PLCC-2
2.77
IF = 70 mA
2.2
5.8
1.8 mm Gullwing
2.77
2.2
5.8
1.8 mm Reverse
Gullwing
2.3
2.55
2.3
IF = 70 mA
1.8 mm Side View
VSMY2853SL
850
28
35
10
VSMF2893SLX01
890
25
20
30
VSMB2943SLX01
940
25
20
15
Max pulse current: 1A
VSMB2948SL
940
25
20
15
Max pulse current: 500mA
VSMY294310SL
940
25
32
10
IF = 70 mA
VSMY2943SL
940
28
35
10
2.0
VSMY1940X01
940
60
10
10
VSMB1940X01
940
60
6
15
VSMY1850
850
60
12
10
VSMY7850X01
850
60
170
18
IF = 1.0 A
VSMY7852X01
850
60
42
10
IF = 250 mA
1.25
0.85
0805
7.0
1.5
6.0
Little Star
(1) If = 100 mA unless otherwise stated (2) Products ending in “X01” are AEC Q101 qualified
SELECTOR GUIDE
4/12
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V I S H AY I N T E R T E C H N O L O G Y, I N C .
OPTOELECTRONICS
Emitters, Detectors, Sensors
Inner Lens PCB
Package
Part Number
(2)
Peak
Wavelength
(nm)
Angle of
Half
Intensity
(+/-°)
Radiant
Intensity,
Ie (mW/
sr)(1)
Rise and
Fall
Time,
tr/tf (ns)
Remark
1.1 mm
Inner Lens PCB
SMD SV ultra
wide view
SMD SV
3.2 mm
1.6 mm
Surface-Mount Packages
Inner Lens PCB
VSMY12850
850
40
16
10
IF = 70 mA
VSMY12940
940
40
16
10
IF = 70 mA
VSMB10940
940
75
1
15
IF = 20 mA
VSMB10940X01
940
75
1
15
IF = 20 mA
VSMB11940X01
940
75
1
15
IF = 20 mA
VSMG10850
850
75
1
15
IF = 20 mA
VSMB14940
940
9
35
15
IF = 70 mA
VSMY14940
940
9
35
15
IF = 70 mA
VSMB14942
940
16
26
15
side view
VSMY98545
850
45
350
15
IF = 1.0 A
VSMY98545DS
850
45
600
30
IF = 1.0 A
3.3
1.2
2.51
SMD SV
Ultra Wide View
3.0
1.0
2.0
SMD SV
2.24
High-power QFN
3.85
3.85
High-Power-QFN
(1) If = 100 mA unless otherwise stated (2) Products ending in “X01” are AEC Q101 qualified
SELECTOR GUIDE
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V I S H AY I N T E R T E C H N O L O G Y, I N C .
OPTOELECTRONICS
Emitters, Detectors, Sensors
PIN Photo Diodes
3 mm
Vishay has the broadest portfolio of PIN photodiodes on the market. With lower capacitance, they
provide high-speed response, low noise and low dark current along with excellent sensitivity. They
are ideal for high-speed data transfer, light barriers, alarm systems, and linear light measurement.
6.1
3.0
Angle
of Half
Sensitivity
(+/-°)
Photo
Area
(mm)
Rise/Fall
Time,
tr/tf (ns)(2)
TEFD4300
950
350 to 1120
17
20
0.23
100
TEFD4300F
950
770 to 1070
17
20
0.23
100
l0.5
Part
Number
(nm)
Sensitivity
Ira (µA)(1)
Bandwidth
Package
Peak Wave
length (nm)
5.0
5 mm
8.6
Remark
Through-Hole Packages
3 mm
5 mm
Side View
Side View
High
Performance
380 to 1140
Side View
3.0
BPV10
920
70
20
0.78
2,5
Stand-off
BPV10NF
940
790 to 1050
60
20
0.78
2,5(3)
Stand-off
BPW41N
950
870 to 1050
45
65
7.5
100
5 x 4 x 6.8
BPW46 (L)
900
50
65
7.5
100
5 x 3 x 6.4
BPW82
950
790 to 1050
45
65
7.5
100
5 x 4 x 6.8
BPW83
950
790 to 1050
45
65
7.5
100
5 x 3 x 6.4
BPV22F
950
870 to 1050
80
60
7.5
100
(7)
430 to 1100
(7)
(3)
BPV22NF
940
790 to 1050
85
60
7.5
100
BPV23F
950
870 to 1050
63
60
4.4
70
BPV23NF
940
790 to 1050
65
60
4.4
70
TO-5
BPW20RF
920
400 to 1100(7)
42
50
7.5
3600(6)
TO-18
BPW24R
900
430 to 1100
60
12
0.78
7
Top View
Leaded
BP104
950
45
65
7.5
100
BPW34
900
55
65
7.5
100
(7)
870 to 1050
430 to 1100
(7)
5.0
6.4
Side View,
High Performance
4.5
3.2
6.0
TO-5
8.13
3.1
(4)(5)
TO-18
4.69
Notes: (1) Sensitivity: VR = 5 V, Ee = 1 mW/cm2, l = 950 nm; (2) Speed: RL = 1 kΩ, l = 820 nm, VR = 10 V,
(3) VR = 50 V, RL = 50 Ω, l = 820 nm; (4) RL = 50 Ω; (5) VR = 20 V; (6) VR = 0V (7) Bandwidth l0.1 (nm)
5.2 - 6.5
Top View,
Through
Hole
4.3
2.0
Rise and Fall Time: Switching times of photo detectors are strongly dependent on the
measurement conditions. Shown in the diagrams are two major conditions: the reverse bias and
the value of the load resistor used in the circuit. The switching time of a photo diode varies by
two orders of magnitude when the load resistor value changes from 50 Ω to 10 kΩ. The lower
the value of the load resistor, the faster the diode becomes. Also, the higher the reverse bias, the
faster the switching times.
4.65
12
RL = 100 kΩ
Reverse Bias (V)
10
10 kΩ
8
1 kΩ
6
4
50 Ω
2
0
104
94 8616
SELECTOR GUIDE
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105
106
107
108
- 3 dB - Bandwidth (Hz)
VMN-SG2123 -1510
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V I S H AY I N T E R T E C H N O L O G Y, I N C .
OPTOELECTRONICS
Emitters, Detectors, Sensors
Sensitivity
Ira (µA)(1)
Angle of Half
Sensitivity
(+/-°)
Photo Area
(mm2)
Rise/Fall
Time,
tr/tf (ns)(2)
l0.5
(nm)
Part
Number(5)
Bandwidth
Package
Peak Wave
length (nm)
PIN Photo Diodes (continued)
Remark
60
65
7.5
40(4)
AEC-Q101
Surface-Mount Packages
Top View
1206
QFN
0805
TEMD5080X01
940
350 to 1100(4)
TEMD5020X01
940
430 to 1100
TEMD5120X01
940
790 to 1050
TEMD5010X01
940
430 to 1100(4)
55
65
7.5
100
AEC-Q101
TEMD5110X01
940
790 to 1050
55
65
7.5
100
AEC-Q101
VBP104S
940
430 to 1100(4)
35
65
4.4
100
Gullwing
430 to 1100
(4)
35
65
4.4
100
AEC-Q101
35
65
4.4
100
AEC-Q101
VBP104SR
940
35
65
4.4
100
Reverse gullwing
VBP104FAS
950
780 to 1050
35
65
4.4
100
Gullwing
VBP104FASR
950
780 to 1050
35
65
4.4
100
Reverse gullwing
VBPW34S
940
430 to 1100(4)
55
65
7.5
100
Gullwing
VBPW34SR
940
430 to 1100
55
65
7.5
100
Reverse gullwing
VBPW34FAS
950
780 to 1050
55
65
7.5
100
Gullwing
VBPW34FASR
950
780 to 1050
55
65
7.5
100
Reverse gullwing
VEMD6010X01
900
430 to 1100
9.5
60
0.85
100
VEMD6110X01
950
750 to 1050
9.5
60
0.85
100
VEMD5010X01
940
430 to 1100
48
65
7.5
100
VEMD5110X01
940
790 to 1050
48
65
7.5
100
TEMD7000X01
900
350 to 1120(4)
3
60
0.23
100
TEMD7100X01
950
750 to 1050
3
60
0.23
100
VEMD2000X01
940
750 to 1050
12
15
0.23
100
Reverse gullwing
VEMD2020X01
940
750 to 1050
12
15
0.23
100
Gullwing
VEMD2500X01
VEMD2520X01
(4)
(4)
Top View,
Surface-Mount
1.25
2.0
0.85
0805
2.2
5.8
1.8 mm Gullwing
2.77
900
350 to 1120
12
15
0.23
100
Reverse gullwing
900
350 to 1120(4)
12
15
0.23
100
Gullwing
VEMD2503X01
900
350 to 1120(4)
10
30
0.23
100
Reverse gullwing
VEMD2523X01
900
350 to 1120(4)
10
30
0.23
100
Gullwing
VEMD2003X01
940
750 to 1050
10
30
0.23
100
Reverse gullwing
VEMD2023X01
900
750 to 1050
10
30
0.23
100
Gullwing
1.8 mm
Side View
VEMD2523SLX01
900
350 to 1120(4)
10
30
0.23
100
VEMD2023SLX01
940
750 to 1050
10
30
0.23
100
SMD SV
ultra wide
view
VEMD10940F
920
780 to 1050
3
75
0.23
100
side view
VEMD10940FX01
950
790 to 1070
3
75
0.23
1000
side view
VEMD11940FX01
950
780 to 1050
1.13
75
0.053
1000
side view
2.2
5.8
1.8 mm Reverse
Gullwing
2.3
2.55
2.3
1.8 mm Side View
2.0
Notes: (1) Sensitivity: VR = 5 V, Ee = 1 mW/cm2, l = 950 nm; (2) Speed: RL = 1 kΩ, l = 820 nm, VR = 10 V,
(3) RL = 50 Ω; (4) Bandwidth l0.1 (nm) (5) Products ending in “X01” are AEC-Q101 qualified
SELECTOR GUIDE
5.0
4.0
2.77
(4)
1.8 mm
1.1
7/12
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1.0
3.0
SMD SV
ultra wide
view
VMN-SG2123 -1510
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V I S H AY I N T E R T E C H N O L O G Y, I N C .
OPTOELECTRONICS
Emitters, Detectors, Sensors
Phototransistors
Vishay provides the industry’s widest selection of phototransistors. Offered in over 10 different
packages, Vishay’s phototransistors are exceptionally sensitive and simplify circuit design by
eliminating the need for a separate amplifier.
Part
Number
Package
Peak
Wavelength
(nm)
Bandwidth
l0.5
(nm)
Collector
Light
Current,
Ica (mA)(1)
Angle of
Half
Sensitvity
(+/-° )
Rise and
Fall
Time,
tr/tf (µs)(2)
Remark
3 mm
1.8 mm
BPV11
850
450 to 1080(3)
10
15
6
With base
pin
BPV11F
930
900 to 980
9
15
6
With base
pin
BPW96C
850
450 to 1080(3)
8
20
2
Stand-off
BPW85C
850
450 to 1080(3)
5
25
2
Stand-off
TEFT4300
925
875 to 1000
3.2
30
2
No stand-off
BPW16N
825
450 to 1040
0.14
40
4.8
BPW17N
825
450 to 1040(3)
1
12
4.8
(3)
Side View
Micro
TEST2600
920
850 to 980
2.5
30H, 60V
6
Side View
Lens
TEKT5400S
920
850 to 980
4
37
6
BPW76B
850
450 to 1080(3)
1.2
40
6
BPW77NB
850
450 to 1080
20
10
6
TO-18
(3)
5 mm
S (λ)rel - Relative Spectral Sensitivity
Bandwidth:
λ0.5 and λ0.1
The diagram to the left shows the relative spectral sensitivity of the
BPV11 phototransistor. The peak sensitivity is found at 850 nm.
The bandwidth of the detector can be defined by using a relative
spectral sensitivity value of 0.5 or 0.1. Vishay datasheets will show
one of these values. In the case of the BPV11, the bandwidth in
the datasheet is 450 nm to 1080 nm, λ0.1.
0.8
0.6
0.4
0.2
0
400
94 8348
SELECTOR GUIDE
600
800
6.1
3.0
3.3
2.4
2.9
1.8 mm
3.6
2.2
3.4
Side View Micro
5.0
Notes: (1) Collector light current: VCE = 5 V, Ee = 1 mW/cm2, l = 950 nm, typical (2) Speed: VS = 5 V, IC = 5 mA, RL = 100 Ω
(3) Bandwidth l0.1 (nm)
1.0
8.6
3 mm
Through-Hole Packages
5 mm
5.0
2.65
5.0
Side View Lens
TO-18
4.69
5.2 - 6.5
1000
λ - Wavelength (nm)
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V I S H AY I N T E R T E C H N O L O G Y, I N C .
OPTOELECTRONICS
Emitters, Detectors, Sensors
Phototransistors (continued)
Package
Part
Number(4)
Peak
Wavelength
(nm)
Bandwidth
l0.5
(nm)
Collector
Light
Current,
Ica (mA)(1)
Angle of
Half
Sensitvity
(+/-° )
Rise and
Fall
Time,
tr/tf (µs)(2)
2.8
Remark
1.65
3.0
Surface-Mount Packages
PLCC-2
VEMT3700
850
450 to 1080(3)
0.5
60
2
VEMT3700F
940
850 to 1050
0.5
60
2
VEMT4700
1.8 mm
1.8 mm
Side View
0805
PLCC-2
850
450 to 1080(3)
0.5
60
2.77
2
With base
pin
VEMT2000X01
860
790 to 970
6
15
2
Reverse
gullwing
VEMT2020X01
860
790 to 970
6
15
2
Gullwing
VEMT2500X01
850
470 to 1090(3)
6
15
2
Reverse
gullwing
VEMT2520X01
850
470 to 1090(3)
6
15
2
Gullwing
VEMT2503X01
860
(3)
470 to 1090
4
30
10
Reverse
gullwing
VEMT2523X01
860
470 to 1090(3)
4
30
10
Gullwing
VEMT2003X01
860
790 to 970
4
30
10
Reverse
gullwing
VEMT2023X01
860
790 to 970
4
30
10
Gullwing
VEMT2523SLX01
850
470 to 1090(3)
4
30
10
VEMT2023SLX01
860
790 to 970
4
30
10
TEMT7000X01
850
470 to 1090(3)
0.45
60
2
TEMT7100X01
870
750 to 1010
0.45
60
2
2.2
5.8
1.8 mm Gullwing
2.77
2.2
5.8
1.8 mm Reverse
Gullwing
2.3
2.55
2.3
1.8 mm Side View
1.25
2.0
Notes: (1) Collector light current: VCE = 5 V, Ee = 1 mW/cm2, l = 950 nm, typical (2) Speed: VS = 5 V, IC = 5 mA, RL = 100 Ω
(3) Bandwidth l0.1 (nm) (4) Products ending in “X01” are AEC-Q101 qualified
0.85
0805
SELECTOR GUIDE
9/12
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V I S H AY I N T E R T E C H N O L O G Y, I N C .
OPTOELECTRONICS
Emitters, Detectors, Sensors
Reflective Sensors, Analog Output
Package
Peak Operating
Distance
(mm)
Typical
Output
Current
(mA)
LxW
(mm)
H
(mm)
Peak Operating
Range(2)
(mm)
TCND5000(3)
6.0 x 4.3
3.75
2 to 25
6.0
0.0015
TCRT1000/1010
7.0 x 4.0
2.5
0.2 to 4.0
1.0
0.5
TCRT5000(L)
10.2 x 5.8
7.0
0.2 to 15
2.5
1
CNY70
7.0 x 7.0
6.0
0 to 5.0
0
1
Part Number
(1)(3)
Notes: All optical sensors have phototransistor output except where noted
(2)
Relative collector current > 20 %
(3)
TCND5000 has a PIN photodiode output
(1)
TCND5000
TCRT1000
TCRT1010
TCRT5000(L)
CNY70
Transmissive Sensors, Analog Output
Package
Part Number
(1)(3)
Gap
(mm)
Aperture
(mm)
Typical
Output
Current
(mA)
On / Off Time
ton / toff
(µs)
Operating
Temp. Max.
LxW
(mm)
H
(mm)
5.5 x 4.0
4.0
3.0
0.3
0.6
20 / 30
+105 ºC
5.5 x 4.0
4.0
3.0
0.3
0.6
20 / 30
+105 ºC
5.5 x 4.0
4.0
3.0
0.3
1.6
9 / 16
+125 ºC
5.5 x 4.0
4.0
3.0
0.3
1.6
9 / 16
+125 ºC
TCPT1600X01
5.5 x 4.0
5.7
3.0
0.3
1.6
9 / 16
+105 ºC
TCUT1600X01(2)
5.5 x 4.0
5.7
3.0
0.3
1.6
9 / 16
+105 ºC
TCPT1300X01
TCUT1300X01
(2)
TCPT1350X01
TCUT1350X01
(2)
TCST1030
8.3 x 4.7
8.15
3.1
none
2.4
15 / 10
+85 ºC
TCST1103
11.9 x 6.3
10.8
3.1
1.0
4.0
10 / 8
+85 ºC
TCST1202
11.9 x 6.3
10.8
3.1
0.5
2.0
10 / 8
+85 ºC
TCST1230
9.2 x 4.8
5.4
2.8
0.5
2.0
15 / 10
+85 ºC
TCST1300
11.9 x 6.3
10.8
3.1
0.25
0.5
10 / 8
+85 ºC
TCST2103
24.5 x 6.3
10.8
3.1
1.0
4.0
10 / 8
+85 ºC
TCST2202
24.5 x 6.3
10.8
3.1
0.5
2.0
10 / 8
+85 ºC
TCST2300
24.5 x 6.3
10.8
3.1
0.25
0.5
10 / 8
+85 ºC
TCST5250
14.3 x 6.0
9.5
2.7
0.5
1.5
15 / 10
+85 ºC
Notes: (1) All optical sensors have phototransistor output
(2)
Dual channel
(3)
Products ending in “X01” are AEC-Q101 qualified
TCPT13x0X01
SELECTOR GUIDE
TCUT13x0X01
TCST1030
TCST1230
TCST1x0x
TCST2x0x
10/12
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TCPT1600X01
TCUT1600X01
VMN-SG2123 -1510
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V I S H AY I N T E R T E C H N O L O G Y, I N C .
OPTOELECTRONICS
Emitters, Detectors, Sensors
Ambient Light Sensors
Ambient light sensors are used to detect light or brightness in a manner similar to the human eye. They are most
commonly found in industrial lighting, consumer electronics, and automotive systems, where they allow settings to
be adjusted automatically in response to changing ambient light conditions. By turning on, turning off, or adjusting
features, ambient light sensors can conserve battery power or provide extra safety while eliminating the need for
manual adjustments.
Package
Part Number
(3)
Peak
Wavelength
(nm)
Bandwidth
l0.5
(nm)
Angle of
Half
Sensitvity
(+/-° )
Light
Current(1)
Incandescent
(µA)
Light
Current(2)
Fluorescent
(μA)
Remark
Stand-off
Photo Diodes
0805, SMD
TEMD6200FX01
540
430 to 610
60
0.04
0.03
1206, SMD
TEMD6010FX01
540
430 to 610
60
0.04
0.03
Top View SMD
TEMD5510FX01
540
430 to 610
65
1
0.7
TO-5, Leaded
BPW21R
565
420 to 675
50
0.9
0.75
Phototransistors
0805, SMD
TEMT6200FX01
550
450 to 610
60
12
7
1206, SMD
TEMT6000X01
570
430 to 800
60
50
21
5 mm, flat top
TEPT5700
570
430 to 800
50
75
31
Leaded
5 mm
TEPT5600
570
430 to 800
20
350
145
Leaded
3 mm
TEPT4400
570
430 to 800
30
200
83
Leaded
Notes: (1) Ev = 100 lux, VCE = 5 V, CIE illuminant A, typical
(3) Products ending in “X01” are AEC-Q101 qualified
Part number
(2) Ev = 100 lux, VCE = 5 V, e.g. Sylvania color abbrev. D830, typical
Mounting
Size
(mm)
Ambient
Light Range
(lx)
Operating
Voltage Range
(V)
I2C bus
voltage range
(V)
Ambient Light
Resolution
(lx)
Output
Code
SMD
2.0 x 2.0
x 0.85
0 to 7200
2.3 to 3.6
1.7 to 5.0
0.002
16-bit, I2C
I2C Output
VEML6030X01 (1)
Notes: (1) Pending release
F
Part numbers with an F contain an infrared filtering epoxy to
further improve the ambient light sensing performance
VEML6030X01
SELECTOR GUIDE
TEMD5510FX01
TEMT6200FX01
TEMD6200FX01
X01
Part numbers with an X01 are qualified to the AEC Q101 standard
and support operating temperatures from -40 °C to +100 °C
TEMD6010FX01
TEMT6000X01
TEPT5600
TEPT4400
11/12
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TEPT5700
BPW21R
VMN-SG2123 -1510
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V I S H AY I N T E R T E C H N O L O G Y, I N C .
OPTOELECTRONICS
Emitters, Detectors, Sensors
Fully Integrated Proximity and Ambient Light Sensors
To simplify the design process, Vishay has integrated the infrared emitter, proximity photodiode, ambient light sensor and
signal processing IC in one package. Window design and sensor placement are no longer geometric puzzles and the
need for mechanical cross-talk barriers is eliminated. Each sensor is a leadless surface-mount package with standard
I2C communication and features an interrupt function. Interrupts reduce power consumption by eliminating polling
traffic between the sensor and microcontroller.
FEATURES AND BENEFITS
• Low profile; height less than 0.83 mm
• 16-bit dynamic range
• Programmable emitter drive current
VC
–– 10 mA to 200 mA (in 10 mA steps)
02
NL4
0X0
1
• Detection range up to 200 mm
• Light sensing from 0.25 lux to 16 klux
• I2C Interface
APPLICATIONS
• Mobile devices (smart phones, touch phones, PDA, GPS)
VC
NL
0
402
• Consumer (white goods, cameras, game systems)
0 10
Proximity
Sensor
Ambient Light
Sensor
• Computing devices (notebooks, tablet PCs)
VC
4
NL
• Automotive and industrial device
(presence detection and displays)
Infrared
Emitter
V
PACKAGE
Part
Number
IINTEGRATED COMPONENTS
L
CN
302
Ambient
Light Sensor
Operating
temp
range (˚C)
.
.
-40 to 105
.
.
x
-25 to 85
x
L x W
(mm)
H
(mm)
Infrared
Emitter
Proximity
Detector
VCNL4020X01
4.90 x 2.40
0.83
.
VCNL3020
4.90 x 2.40
0.83
.
AEC-Q101
VCNL4010
3.95 x 3.95
0.75
.
.
.
-25 to 85
x
VCNL4020
4.90 x 2.40
0.83
.
.
.
-25 to 85
x
SELECTOR GUIDE
12/12
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