Part Number Hot Search : 
LB197508 3DD130 SB834 00120 STBP112 D471K C2M00 IRF13
Product Description
Full Text Search

TCST103010 - Transmissive Optical Sensor with Phototransistor Output

TCST103010_3258645.PDF Datasheet
 
Part No. TCST103010
Description Transmissive Optical Sensor with Phototransistor Output
File Size 241.28K  /  11 Page  

Maker

Vishay Siliconix

JITONG TECHNOLOGY
(CHINA HK & SZ)
Datasheet.hk's Sponsor
Part: TCST1030
Maker: 原装
Pack:
Stock: Reserved
Unit price for :
    50: $7.50
  100: $7.12
1000: $6.75

Email: oulindz@gmail.com

Contact us
Homepage http://www.vishay.com
Download [ ]
[ TCST103010 Datasheet PDF Downlaod from Datasheet.HK ]
[TCST103010 Datasheet PDF Downlaod from Maxim4U.com ] :-)

[ View it Online ]   [ Search more for TCST103010 ]

[ Price & Availability of TCST103010 by FindChips.com ]
 Full text search : Transmissive Optical Sensor with Phototransistor Output
 Product Description search : Transmissive Optical Sensor with Phototransistor Output

 Related Part Number
PART Description Maker
TCSS2100 TCSS1100 Transmissive Optical Sensor
From old datasheet system
 http://
Vishay Telefunken
VISAY[Vishay Siliconix]
TCST1030L TCST1030 Transmissive Optical Sensor with Phototransistor Output
From old datasheet system
 Vishay
TCPT1200X01 From old datasheet system
Subminiature Transmissive Optical Sensor with Phototransistor Output
 Vishay Telefunken
VISAY[Vishay Siliconix]
HOA086X HOA087X HOA0860 HOA086X087X HOA0870-L51 HO Phototransistor output
Transmissive Sensor
3.18 mm SLOT WIDTH, 1 CHANNEL SLOTTED OPTICAL SWITCH TRANSISTOR OUTPUT
 Honeywell Accelerometers
Honeywell Solid State Electronics Center
Honeywell Accelerometer...
ADNS-2001 HDNS-2200 HLMP-ED80 ADNB-2013 ADNB-2012 Optical Mouse Sensor 光学鼠标传感
HDNS-2100 · Solid-State Optical Mouse lens
ADNS-2001 · Optical Mouse Sensor
HLMP-ED80 · AllnGaP II LED Lamps for Sensor-Based Applications
HDNS-2200 · Solid-State Optical Mouse LED Assembly Clip
 Avago Technologies, Ltd.
Agilent Technologies, Inc.
Agilent (Hewlett-Packard)
HP[Agilent(Hewlett-Packard)]
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
SFH900-2 SFH900 SFH900-1 SFH900-A 6 V, low-cost miniature reflex optical sensor
SFH900-A LOW-COST MINIATURE REFLEX OPTICAL SENSOR APPNOTE26 POSITION, LINEAR SENSOR-DIFFUSE, 1-1mm, 3.50mA, RECTANGULAR, SURFACE MOUNT
 SIEMENS[Siemens Semiconductor Group]
SIEMENS AG
HOA1870 HOA1870-033 HOA1870-031 HOA-1870 HOA-1870- TRANSMISSIVE SENSOR
 Honeywell Solid State Electronics Center
HOA1883-013 HOA1883 HOA1883-011 HOA1883-012 Transmissive Sensor
 HONEYWELL
HOA1877-003 HOA1877 HOA1877-001 HOA1877-002 Transmissive Sensor
 Honeywell Solid State Electronics Center
HOA1874 HOA1874-001 HOA1874-002 HOA1874-003 HOA187 Transmissive Sensor
 Honeywell Solid State Electronics Center
HOA1876 HOA1876-003 HOA1876-001 HOA1876-002 Transmissive Sensor
 Honeywell Solid State Electronics Center
 
 Related keyword From Full Text Search System
TCST103010 transformer TCST103010 Table TCST103010 Type TCST103010 relay TCST103010 hot
TCST103010 type TCST103010 microchip TCST103010 sfp configuration TCST103010 Transistors TCST103010 power
 

 

Price & Availability of TCST103010

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
1.0047109127045