Photo Detectors - CdS Cells

Results: 7
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Showing
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Mfr Part #
Quantity Available
Price
Series
Package
Product Status
Wavelength
Voltage - Max
Rise Time (Typ)
Fall Time (Typ)
Cell Resistance (Min) @ Dark
Cell Resistance @ Illuminance
Operating Temperature
Mounting Type
Package / Case
Supplier Device Package
2,156
In Stock
1 : £2.51000
Bulk
-
Bulk
Active
550nm
100Vpk
-
-
20 MOhms @ 10 s
20 ~ 100kOhms @ 10 lux
-60°C ~ 75°C
Through Hole
Radial
TO-18
NSL-06S53, NSL-x1x0
NSL-4140
CDS PHOTORESISTOR 250OHM TO-18
Advanced Photonix
894
In Stock
1 : £2.99000
Bulk
-
Bulk
Active
550nm
100Vpk
-
-
800 kOhms @ 5 s
8.4 ~ 19.6kOhms @ 10 lux
-60°C ~ 75°C
Through Hole
Radial
TO-18
NSL-x9x0
NSL-7910
CDS PHOTORESISTOR
Advanced Photonix
8,182
In Stock
1 : £4.14000
Bulk
-
Bulk
Active
615nm
250Vpk
-
-
1.5 MOhms @ 5 s
0.25 ~ 7.5kOhms @ 21 lux
-40°C ~ 75°C
Through Hole
Radial
TO-8
NSL-x9x0
NSL-4960
CDS PHOTORESISTOR
Advanced Photonix
638
In Stock
1 : £4.42000
Bulk
-
Bulk
Active
515nm
320Vpk
-
-
1 MOhms @ 5 s
0.5 ~ 17kOhms @ 10 lux
-60°C ~ 75°C
Through Hole
Radial
TO-8
NSL-06S53, NSL-x1x0
NSL-5150
CDS PHOTORESISTOR
Advanced Photonix
6,749
In Stock
1 : £3.28000
Bulk
-
Bulk
Active
550nm
100Vpk
-
-
10 MOhms @ 10 s
10 ~ 20kOhms @ 21 lux
-60°C ~ 75°C
Through Hole
Radial
TO-18
NSL-19-018
NSL-19-018
CDS PHOTORESISTOR 550NM TO-18
Advanced Photonix
32
In Stock
1 : £1.14000
Bulk
-
Bulk
Active
550nm
100Vpk
-
-
1 MOhms @ 5 s
9 ~ 15kOhms @ 21 lux
-60°C ~ 75°C
Through Hole
Radial
-
PDV-P8105
PDV-P8105
CDS PHOTORESISTOR 50-94KOHM
Advanced Photonix
0
In Stock
Check Lead Time
1,200 : £0.25666
Tray
-
Tray
Active
520nm
150Vpk
60 ms
25 ms
2.5 MOhms @ 10 s
50 ~ 94kOhms @ 10 lux
-30°C ~ 75°C
Through Hole
Radial
-
Showing
of 7

Photo Detectors - CdS Cells


Cadmium sulfide (CdS) photodetectors, also known as photoresistors, light-dependent resistors (LDRs), or photo-conductive cells are high resistance semiconductors that operate as light-controlled variable resistors. The resistance of a photoresistor decreases with increasing incident light intensity. Photoresistors are selected by cell resistance, max voltage, and rise and fall times.