Details, datasheet, quote on part number: 97-22UBC/C470/S2
CategoryOptoelectronics => Display => LEDs => LED Lamps
CompanyEverlight Electronics Co., Ltd.
DatasheetDownload 97-22UBC/C470/S2 datasheet
Some Part number from the same manufacture Everlight Electronics Co., Ltd.
Same catergory

CA25-12EWA : Material: GAASp/gap , Wavelength: 625nm. !0.25 INCH DIGIT HEIGHT !LOW CURRENT OPERATION. !EXCELLENT CHARACTER APPEARANCE. ! EASY The High Efficiency Red source color devices are made with Gallium Arsenide Phosphide on Gallium Phosphide Orange Light Emitting Diode. !I.C. COMPATIBLE. !CATEGORIZED FOR LUMINOUS INTENSITY. !MECHANICALLY RUGGED. ! STANDARD Notes: 1. All dimensions are in millimeters.

D2A050D00 : Reed Relay.

HEDT-9140I00 : Motion Control. High Temperature 140 Degrees C Three Channel Optical Incremental Encoder Modules.

L14Q1 : Plasit Silicon Phototransistor.

MTAN6311-AHRG : 1.2 Inches 5x7 Bi-color Dot Matrix Display. Peak Wavelength 635/567 Nm. Emitted Color Hi-eff Red/green..

OED-LDR2444 : Molded Lens, Side Firing, Four Leads.

OPB707A : Reflective Sensor. Reflective Sensor Reflective Assembly Photodarlington 890nm.

PN163-NC : VCEO(V) = 20 ;; LLX = H=15µW/cm2 ;; ICE(L)min.(mA) = 0.006(SIR) ;; ICEOmax.() = 0.2 ;; Q Typ.(deg) = 25 ;; Package = LSTLR102NC-002.

TB62731FU : LEDs/Segment Display Drivers. Step-up DC-DC Converter For Leds. TOSHIBA BiCD INTEGRATED CIRCUIT SILICON MONOLITHIC The new driver incorporates a Pulse Current Drive Mode that raises efficiency over 90% while driving up to six white LEDs in a serial connection. In Direct Current Drive Mode white LEDs can be driven with very low noise and efficiencies over 85%. The TB62731FU uses bi-cadmium (BiCD) process technology.

TSL220 : Light to Frequency. ti TSL220, Light-to-frequency Converter. High-Resolution Conversion of Light Intensity to Frequency Wide Dynamic Range. 118 dB Variable (and Single) Supply Range. 10 V High Linearity. Typically Within 2% of FSR = 100 pF) High Sensitivity. Can Detect Change 0.01% of FSR CMOS Compatible Output for Digital Processing Minimum External Components Microprocessor Compatible The TSL220 consists of a large-area.

W934GD : Material: Gap , Wavelength: 568nm. !OUTSTANDING MATERIAL EFFICIENCY. !RELIABLE AND RUGGED. !I.C. COMPATIBLE. The Green source color devices are made with Gallium Phosphide Green Light Emitting Diode. Notes: 1. All dimensions are in millimeters (inches). 2. Tolerance is 0.25(0.01") unless otherwise noted. 3. Lead spacing is measured where the lead emerge package. 4. s are subject to change.

XZBG55W-4 : Material (Color) = InGaN(Green);; Lens = Water Clear;; Peak Wave Length = 520;; Iv(ucd) If@10mA Min.= 50;; Iv(ucd) If@10mA Typ.= 115.

SFH 4655-Z : Infrared Emitters 850 nm, MIDLED HALF ANGLE +/-20DEG. s: Manufacturer: Osram Opto Semiconductor ; Product Category: Infrared Emitters ; RoHS:  Details ; Wavelength: 850 nm ; Beam Angle: 20 deg ; Radiant Intensity: 50 mW/sr ; Maximum Forward Current: 100 mA ; Maximum Operating Temperature: + 100 C ; Minimum Operating Temperature: - 40 C ; Package.

LN02202P : LED , Rectangle with Flat Top, 5.3mm x 1.8mm 2.2V 15mA Red (x 2) Through Hole; LED RED 2-ELEMENT ARRAY. s: Color: Red (x 2) ; Mounting Type: Through Hole ; Configuration: 2 Wide ; Voltage Rating: 2.2V ; Current: 15mA ; Lens Style/Size: Rectangle with Flat Top, 5.3mm x 1.8mm ; Packaging: Bulk ; Lens Type: Diffused, Tinted ; Lead Free Status: Request.

LTL-4251T-R2 : LEDs -; LED W/INT RES 3MM 12V YELLOWDIFF. s: Color: Yellow ; Lens Style/Size: Round with Domed Top, 3mm, T-1 ; Millicandela Rating: 12.6mcd ; Voltage - Forward (Vf) Typ: 15V ; Wavelength - Dominant: 588nm ; Wavelength - Peak: 585nm ; Current - Test: 12mA ; Viewing Angle: 40 ; Lens Type: Diffused, Tinted ; Luminous Flux @ Current - Test: - ; Package.

FOD8316V : Transistor Output Optocouplers 2.5A Out IGBT Drive Optcplr; DIN EN/IEC. Fairchild FOD83xx Optoplanar& 174; Gate Drive Optocouplers are advanced 2.5A output current gate drive optocouplers, capable of driving medium power IGBT/MOSFETs. These optocouplers employ Fairchild's patented coplanar packaging technology, Optoplanar& 174;, and optimized IC design.

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