PART |
Description |
Maker |
PN268S-NC PN268 PN268-NC PN268Q PN268Q-NC PN268R P |
PHOTOTRANSISTOR | DARLINGTON | 850NM PEAK WAVELENGTH | 30M | LED-2B DARLINGTON PHOTOTRANSISTOR FOR OPTICAL CONTROL SYSTEMS
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PANASONIC[Panasonic Semiconductor] Panasonic Corporation
|
H21A H21A3 H21A2 H21A1 |
PHOTOTRANSISTOR OPTICAL INTERRUPTER SWITCH
|
Fairchild Semiconductor Corporation FAIRCHILD[Fairchild Semiconductor]
|
TCST103006 |
Transmissive Optical Sensor with Phototransistor Output
|
Vishay Siliconix
|
KT837L15 KT837L55 KT837W11 KT837W15 KT837W51 KT830 |
SLOTTED OPTICAL SWITCHES PHOTOTRANSISTOR OUTPUT
|
http:// OPTEK[OPTEK Technologies]
|
KT86X KT890 KT892 KT89X |
(KT860 - KT890) Slotted Optical Switches Phototransistor Output
|
Optek Technology
|
KT870 KT880 |
(KT860 - KT890) Slotted Optical Switches Phototransistor Output
|
Optek Technology
|
TCST5123 |
Transmissive Optical Sensor with Phototransistor Output From old datasheet system
|
Vishay Telefunken Vishay Siliconix
|
TCNT1000 |
Subminiature Reflective Optical Sensor with Phototransistor Output From old datasheet system
|
Vishay Telefunken VISAY[Vishay Siliconix]
|
TCPT120007 |
Subminiature Transmissive Optical Sensor with Phototransistor Output, RoHS Compliant, Released for Lead (Pb)-free Solder Process
|
Vishay Siliconix
|
KT837L15 KT837W15 KT837L55 KT837L51 KT837W51 KT837 |
Slotted optical switch phototransistor output. IR transmissive polysulfone discrete shells. Electrical parameter C lead spacing .220 inches. Aperture in front of sensor .010 inches. Aperture in front of emitter .050 inches. Slotted optical switch phototransistor output. IR transmissive polysulfone discrete shells. Electrical parameter C lead spacing .220 inches. Aperture in front of sensor .050 inches. Aperture in front of emitter .050 inches. Slotted optical switch phototransistor output. IR transmissive polysulfone discrete shells. Electrical parameter C lead spacing .220 inches. Aperture in front of sensor .050 inches. Aperture in front of emitter .010 inches. Slotted optical switch phototransistor output. Opaque polysulfone discrete shells. Electrical parameter A lead spacing .320 inches. Aperture in front of sensor .010 inches. Aperture in front of emitter .010 inches. Slotted optical switch phototransistor output. Opaque polysulfone discrete shells. Electrical parameter C lead spacing .320 inches. Aperture in front of sensor .050 inches. Aperture in front of emitter .050 inches. Slotted optical switch phototransistor output. Opaque polysulfone discrete shells. Electrical parameter C lead spacing .320 inches. Aperture in front of sensor .010 inches. Aperture in front of emitter .050 inches. Slotted optical switch phototransistor output. Opaque polysulfone discrete shells. Electrical parameter A lead spacing .220 inches. Aperture in front of sensor .010 inches. Aperture in front of emitter .010 inches. Slotted optical switch phototransistor output. Opaque polysulfone discrete shells. Electrical parameter A lead spacing .320 inches. Aperture in front of sensor .010 inches. Aperture in front of emitter .050 inches. Slotted optical switch phototransistor output. Opaque polysulfone discrete shells. Electrical parameter A lead spacing .220 inches. Aperture in front of sensor .050 inches. Aperture in front of emitter .010 inches. Slotted optical switch phototransistor output. Opaque polysulfone discrete shells. Electrical parameter A lead spacing .320 inches. Aperture in front of sensor .050 inches. Aperture in front of emitter .010 inches. Slotted optical switch phototransistor output. Opaque polysulfone discrete shells. Electrical parameter A lead spacing .320 inches. Aperture in front of sensor .050 inches. Aperture in front of emitter .050 inches. Slotted optical switch phototransistor output. Opaque polysulfone discrete shells. Electrical parameter B lead spacing .320 inches. Aperture in front of sensor .010 inches. Aperture in front of emitter .050 inches. Slotted optical switch phototransistor output. Opaque polysulfone discrete shells. Electrical parameter B lead spacing .320 inches. Aperture in front of sensor .050 inches. Aperture in front of emitter .010 inches. Slotted optical switch phototransistor output. Opaque polysulfone discrete shells. Electrical parameter B lead spacing .320 inches. Aperture in front of sensor .050 inches. Aperture in front of emitter .050 inches. Slotted optical switch phototransistor output. Opaque polysulfone discrete shells. Electrical parameter A lead spacing .220 inches. Aperture in front of sensor .050 inches. Aperture in front of emitter .050 inches. Slotted optical switch phototransistor output. Opaque polysulfone discrete shells. Electrical parameter B lead spacing .220 inches. Aperture in front of sensor .050 inches. Aperture in front of emitter .010 inches. Slotted optical switch phototransistor output. Opaque polysulfone discrete shells. Electrical parameter C lead spacing .220 inches. Aperture in front of sensor .010 inches. Aperture in front of emitter .050 inches. Slotted optical switch phototransistor output. IR transmissive polysulfone discrete shells. Electrical parameter A lead spacing .320 inches. Aperture in front of sensor .050 inches. Aperture in front of emitter .010 inches. Slotted optical switch phototransistor output. IR transmissive polysulfone discrete shells. Electrical parameter A lead spacing .320 inches. Aperture in front of sensor .010 inches. Aperture in front of emitter .050 inches. Slotted optical switch phototransistor output. IR transmissive polysulfone discrete shells. Electrical parameter A lead spacing .320 inches. Aperture in front of sensor .010 inches. Aperture in front of emitter .010 inches. Slotted optical switch phototransistor output. IR transmissive polysulfone discrete shells . Electrical parameter A lead spacing .320 inches. Aperture in front of sensor .050 inches. Aperture in front of emitter .050 inches. Slotted optical switch phototransistor output. IR transmissive polysulfone discrete shells. Electrical parameter B lead spacing .320 inches. Aperture in front of sensor .010 inches. Aperture in front of emitter .050 inches. Slotted optical switch phototransistor output. IR transmissive polysulfone discrete shells. Electrical parameter A lead spacing .320 inches. Aperture in front of sensor .050 inches. Aperture in front of emitter .050 inches. Slotted optical switch phototransistor output. IR transmissive polysulfone discrete shells. Electrical parameter B lead spacing .320 inches. Aperture in front of sensor .050 inches. Aperture in front of emitter .010 inches. Slotted optical switch phototransistor output. IR transmissive polysulfone discrete shells. Electrical parameter B lead spacing .320 inches. Aperture in front of sensor .050 inches. Aperture in front of emitter .050 inches. Slotted optical switch phototransistor output. IR transmissive polysulfone discrete shells. Electrical parameter C lead spacing .320 inches. Aperture in front of sensor .010 inches. Aperture in front of emitter .050 inches. Slotted optical switch phototransistor output. IR transmissive polysulfone discrete shells. Electrical parameter C lead spacing .320 inches. Aperture in front of sensor .050 inches. Aperture in front of emitter .010 inches. Slotted optical switch phototransistor output. IR transmissive polysulfone discrete shells. Electrical parameter C lead spacing .320 inches. Aperture in front of sensor .050 inches. Aperture in front of emitter .050 inches. Slotted optical switch phototransistor output. IR transmissive polysulfone discrete shells. Electrical parameter A lead spacing .220 inches. Aperture in front of sensor .010 inches. Aperture in front of emitter .010 inches. Slotted optical switch phototransistor output. IR transmissive polysulfone discrete shells. Electrical parameter A lead spacing .220 inches. Aperture in front of sensor .010 inches. Aperture in front of emitter .050 inches. Slotted optical switch phototransistor output. IR transmissive polysulfone discrete shells. Electrical parameter A lead spacing .220 inches. Aperture in front of sensor .050 inches. Aperture in front of emitter .010 inches. Slotted optical switch phototransistor output. IR transmissive polysulfone discrete shells. Electrical parameter A lead spacing .220 inches. Aperture in front of sensor .050 inches. Aperture in front of emitter .050 inches. Slotted optical switch phototransistor output. IR transmissive polysulfone discrete shells. Electrical parameter B lead spacing .220 inches. Aperture in front of sensor .010 inches. Aperture in front of emitter .050 inches. Slotted optical switch phototransistor output. IR transmissive polysulfone discrete shells. Electrical parameter B lead spacing .220 inches. Aperture in front of sensor .050 inches. Aperture in front of emitter .010 inches. Slotted optical switch phototransistor output. Opaque polysulfone discrete shells. Electrical parameter C lead spacing .220 inches. Aperture in front of sensor .050 inches. Aperture in front of emitter .010 inches. Slotted optical switch phototransistor output. Opaque polysulfone discrete shells. Electrical parameter C lead spacing .220 inches. Aperture in front of sensor .050 inches. Aperture in front of emitter .050 inches. Slotted optical switch phototransistor output. Opaque polysulfone discrete shells. Electrical parameter B lead spacing .220 inches. Aperture in front of sensor .010 inches. Aperture in front of emitter .050 inches.
|
Optek Technology
|
TCST525006 TCST5250 |
Transmissive Optical Sensor with Phototransistor Output
|
Vishay Siliconix
|