500 MILLION PARTS FROM 12000 MANUFACTURERS

DATASHEET SEARCH ENGINE

Search Stock

Shift+Click on the column header for multi-column sorting 
Part
Manufacturer
Supplier
Stock
Best Price
Price Each
Ordering
Part : MINIVAL LOW PROFILE 20A Supplier : MTA Manufacturer : TME Electronic Components Stock : 210 Best Price : $0.1773 Price Each : $0.3806
Part : MINIVAL LOW PROFILE 25A Supplier : MTA Manufacturer : TME Electronic Components Stock : 80 Best Price : $0.1773 Price Each : $0.3806
Part : MINIVAL LOW PROFILE 2A Supplier : MTA Manufacturer : TME Electronic Components Stock : 140 Best Price : $0.1771 Price Each : $0.3802
Part : 010336 - VGDILE250 Supplier : Eaton Electronics Manufacturer : Shortec Electronics Stock : 337 Best Price : - Price Each : -
Part : 046320 - RCDILE250 Supplier : Eaton Electronics Manufacturer : Shortec Electronics Stock : 263 Best Price : - Price Each : -
Part : 2200940 - UM-ALU 4-100,5 PROFILE 200 Supplier : Phoenix Contact Manufacturer : Shortec Electronics Stock : 538 Best Price : - Price Each : -
Shipping cost not included. Currency conversions are estimated. 

IL-E2 Datasheet

Part Manufacturer Description PDF Type
IL-E2-0512 Dalsa Image Sensor, CCD, 512x96 Pixels, 24pin Original
IL-E2-1024 Dalsa Image Sensor, CCD, 1024x96 Pixels, 24pin Original
IL-E2-2048 Dalsa Image Sensor, CCD, 2048x96 Pixels, 24pin Original

IL-E2

Catalog Datasheet MFG & Type PDF Document Tags

Dalsa tdi

Abstract: tdi ccd dalsa C A N DALSA IL-E2 TDI Image Sensors With speed, user-selectable sensitivity (up to 96 TDI stages), and a single output for ease of interface, the IL-E2 sensor is ideal for light-starved linescan , pixels per line Light-shielded pixels per line IL-E2 13mm x 13mm 512 / 1024 / 2048 6.8 / 13.4 / 26.7mm 6, 12, 24, 48, or 96 5 4 The IL-E2 TDI series image sensors use DALSA's proprietary , . The IL-E2 sensors can also act as full-frame imaging arrays although they are tested to TDI
DALSA Semiconductor
Original
Dalsa tdi tdi ccd dalsa DALSA TDI CCD 1N12S tdi ccd 512 tdi ccd

MM1206XF

Abstract: MM1206 ILE1 VCC=2.3V, VCE=1.5V 1 A 2 ILE2 VCC=2.7V, VCE=1.5V 1 A 2 ILE2'
-
Original
MM1206 MM1206XF MM1206AF
Abstract: 250 +200 100 -100 100 -100 10 10 10 100 100 50 1.1 2.6 2.34 290 130 -130 130 -130 Ile2 Ile2' -
OCR Scan

MM1206XF

Abstract: MM1206 VCC=2.3V, VCE=1.5V 1 µA Output leak voltage II ILE2 VCC=2.7V, VCE=1.5V 1 µA Output leak voltage II ILE2' VCC=2.0V, VCE=1.5V 1 µA Output leak voltage III ILE3
Mitsumi
Original
Abstract: 5 5 5 VT1 VT2 IS1 IS2 IS3 VCE1 VCE2 VCE3 ILE1 ILE2 ILE2' ILE3 Measurement Conditions VCC=3.0V VCC=H Mitsumi
Original

MM1206

Abstract: MM1206AF =2.3V, VCE=1.5V 1 µA Output leak voltage 2 ILE2 VCC=2.7V, VCE=1.5V 1 µA Output leak voltage 2 ILE2' VCC=2.0V, VCE=1.5V 1 µA Output leak voltage 3 ILE3 VCC=2.5V, VCE
Mitsumi
Original

F634

Abstract: 100PF 1 ILE1 VCC1.0V, VO10.5V 1 A 2 ILE2 VCC1.0V, VO21.5V 1 A
-
Original
MM1210 MM1210XF 100PF F634 VO21 C0033 ISINK30 1000PF

mitsumi variable capacitor

Abstract: 100PF =1.0V, VO1=0.5V 1 µA Output leak voltage 2 ILE2 VCC=1.0V, VO2=1.5V 1 µA Power supply
Mitsumi
Original
mitsumi variable capacitor 1000p-F diagram induction MITSUMI variable capacitors

100PF

Abstract: MM1210 leak voltage 1 ILE1 VCC=1.0V, VO1=0.5V 1 µA Output leak voltage 2 ILE2 VCC
Mitsumi
Original
Abstract: VO1 VO2 ILE1 ILE2 VOPL VCEH ICEH VCEL VTHT VTHT IDIS ICHA VCC=1.3V, VO1=0.3V VCC=1.3V, V02=0.3V ISINK Mitsumi
Original
Abstract: -Û-6V http://www.national.com 4-30 I b5Q]ilE2 0 0 0 4 7 5 3 OSfl NC7LCX38 AC -
OCR Scan
LCX38 NC7LCX38M5 NC7LCX38M5X MA05B S01122

mitsumi variable capacitor

Abstract: 01UF voltage II ILE2 VCC=1.0V, VO2=1.5V 1 µA Power supply voltage operating limit VOPL
Mitsumi
Original
01UF

KAF-4202

Abstract: ICX655AL -0256 IA-DJ-01044 IA-DJ-02084 IA-DJ-05524 IL-C6-2048 IL-E2-0512 IL-E2-1024 IL-E2-2048 IL-F7-0512 IL-F7
Andon Electronics
Original
KAF-4202 ICX655AL CCD47-20 ICX655ALA KDS88 CCD-42-40 2460-1280X720 2460-1280X1024 2462-1280X720 2462-1280X1024 2463-1280X720 2463-1280X1024
Abstract: tSD]ilE2 aObìSll 4 Logic Diagrams (continued) MI* C-CUM- OATA 1â'" =o T-Hs^-eS ALS163B o- frBn >- -
OCR Scan
DM54ALS/DM74ALS160B ALS160B ALS162B ALS161B LSG1122 TL/F/6206-5

TRANSISTOR C 6090

Abstract: TRANSISTOR C 6090 EQUIVALENT for each butterfly 1370 IP% = I%+LE2% 1380 TR = REX[IP%]*UR - IMX[IP%]*UI 'Butterfly calculation , J% = 1 TO LE2% 3470 JM1% = J%-1 3480 FOR I% = JM1% TO NM1% STEP LE% 3490 IP% = I%+LE2% 3500 TR =
Analog Devices
Original
TRANSISTOR C 6090 TRANSISTOR C 6090 EQUIVALENT k 4110 C 6090 M 2 N 50 60 fft algorithm
Abstract: Bits 0­11 high, TA = +25°C DLE1 DLE2 ILE1 ILE2 GE VREF = 1.000V, current out, into virtual ground Maxim Integrated Products
Original
MAX555
Abstract: _Performance Specifications1 SYMBOL PARAMETER DC ACCUR/iCY DLE1 ILE1 DLE2 ILE2 EG IOS ILEAK T-5^-o9-/3 -
OCR Scan
TKDA30 TKDA30P
Abstract: Bits 0­11 high, TA = +25°C DLE1 DLE2 ILE1 ILE2 GE VREF = 1.000V, current out, into virtual ground Maxim Integrated Products
Original
21-0084C C64E-3 MAX555CCB-D MAX555CCB-TD

MAX555CQK

Abstract: MAX555 Differential Linearity Error Integral Linearity Error Absolute Gain Error DLE1 DLE2 ILE1 ILE2 VREF =
Maxim Integrated Products
Original
MAX555CQK 12-BIT MO047-XX

max5551

Abstract: fOUT = 50MHz, fCLK = 300MHz Bits 0­11 high, TA = +25°C DLE1 DLE2 ILE1 ILE2 EG VREF = 1.000V, current
Maxim Integrated Products
Original
max5551

108X62

Abstract: VCC=2.3V, VCE=1.5V 1 µA Output leak voltage II ILE2 VCC=2.7V, VCE=1.5V 1 µA Output leak voltage II ILE2' VCC=2.0V, VCE=1.5V 1 µA Output leak voltage III ILE3
-
OCR Scan
108X62 GP250MHB06S GP350MHB06S GP500LSS06S GP200MHS12 GP200MKS12 GP200MLS12

10a h-bridge driver

Abstract: basic ac motor reverse forward electrical diagram -0256 IA-DJ-01044 IA-DJ-02084 IA-DJ-05524 IL-C6-2048 IL-E2-0512 IL-E2-1024 IL-E2-2048 IL-F7-0512 IL-F7
National Semiconductor
Original
LMD18201 LMD18200 LMD18201T TA11B C1996 10a h-bridge driver basic ac motor reverse forward electrical diagram stepper motor driver full bridge 6A P6KE62A dc-Motor controller 500w half bridge pwm controller RRD-B30M96
Showing first 20 results.