Part Number Hot Search : 
IC18F ISL9305 PC827 DCTRM HLP5050 6975R10L HAH1330 HA1630D
Product Description
Full Text Search

CNY29 - PHOTOTRANSISTOR OPTICAL INTERRUPTER SWITCH

CNY29_1801669.PDF Datasheet
 
Part No. CNY29
Description PHOTOTRANSISTOR OPTICAL INTERRUPTER SWITCH
File Size 102.70K  /  5 Page  

Maker

Fairchild Semiconductor

JITONG TECHNOLOGY
(CHINA HK & SZ)
Datasheet.hk's Sponsor
Part: CNY17-1
Maker: FSC
Pack: DIP6
Stock: 10202
Unit price for :
    50: $0.27
  100: $0.26
1000: $0.24

Email: oulindz@gmail.com

Contact us
Homepage http://www.fairchildsemi.com/
Download [ ]
[ CNY29 Datasheet PDF Downlaod from Datasheet.HK ]
[CNY29 Datasheet PDF Downlaod from Maxim4U.com ] :-)

[ View it Online ]   [ Search more for CNY29 ]

[ Price & Availability of CNY29 by FindChips.com ]
 Full text search : PHOTOTRANSISTOR OPTICAL INTERRUPTER SWITCH

 Related Part Number
PART Description Maker
KT841W11 KT831W11 KT832W11 KT842W11 KT847L55 OPTEK SLOTTED OPTICAL SWITCHES PHOTOTRANSISTOR OUTPUT
 Optek Technology
QVE00033_05 QVE00033 QVE0003305 Phototransistor Optical Surface Mount Interrupter Switch
 FAIRCHILD[Fairchild Semiconductor]
TCST1230 From old datasheet system
Transmissive Optical Sensor with Phototransistor Output
 Vishay Siliconix
KT870 KT880 (KT860 - KT890) Slotted Optical Switches Phototransistor Output
 Optek Technology
TCST1030L TCST1030 Transmissive Optical Sensor with Phototransistor Output
From old datasheet system
 Vishay
TCNT1000 Subminiature Reflective Optical Sensor with Phototransistor Output
From old datasheet system
 Vishay Telefunken
VISAY[Vishay Siliconix]
TCPT1200X01 From old datasheet system
Subminiature Transmissive Optical Sensor with Phototransistor Output
 Vishay Telefunken
VISAY[Vishay Siliconix]
TCPT1200X01 TCPT-X01 Subminiature Transmissive Optical Sensor with Phototransistor Output
From old datasheet system
 Vishay
TCUT1300X01 TCUT1300X0111 Subminiature Dual Channel Transmissive Optical Sensor with Phototransistor Outputs
 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
 
 Related keyword From Full Text Search System
CNY29 description CNY29 资料 CNY29 integrated gigabit CNY29 Processors CNY29 video
CNY29 size CNY29 bus CNY29 quad op amp CNY29 oscillator CNY29 integrated
 

 

Price & Availability of CNY29

All Rights Reserved © IC-ON-LINE 2003 - 2022  
[Add Bookmark] [Contact Us] [Link exchange] [Privacy policy]
Mirror Sites :  [www.datasheet.hk]   [www.maxim4u.com]  [www.ic-on-line.cn] [www.ic-on-line.com] [www.ic-on-line.net] [www.alldatasheet.com.cn] [www.gdcy.com]  [www.gdcy.net]
 . . . . .
  We use cookies to deliver the best possible web experience and assist with our advertising efforts. By continuing to use this site, you consent to the use of cookies. For more information on cookies, please take a look at our Privacy Policy. X
0.27063322067261