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    3C80 MATERIAL Search Results

    3C80 MATERIAL Result Highlights (3)

    Part ECAD Model Manufacturer Description Download Buy
    UE62B46230S021 Amphenol Communications Solutions 1x4 OSFP cage with stainless steel material Visit Amphenol Communications Solutions
    UE62B46200S021 Amphenol Communications Solutions 1x4 OSFP cage with stainless steel material Visit Amphenol Communications Solutions
    RJCSE3C800102 Amphenol Communications Solutions Modular Jack - 8P8C, Right Angle, Surface Mount, Single Port, Shield With No EMI Tabs and Two Side PCB Tabs, No Board Pegs, No LEDs Visit Amphenol Communications Solutions

    3C80 MATERIAL Datasheets Context Search

    Catalog Datasheet MFG & Type Document Tags PDF

    3C80 ferrite

    Abstract: philips 3h1 ferrite material 3c80 material Philips Components, Soft Ferrites Data Handbook M PHILIPS toroidal core 3c90 3h1 ferrite material PHILIPS toroidal core 4a11 philips 3C85 ferrite material PHILIPS toroidal core 3c85 PHILIPS ferrite transformer cores
    Text: MAIN MAIN MENU MENU APPLICATIONS Philips Components Soft ferrites Applications APPLICATIONS INTERFERENCE SUPPRESSION Introduction Unwanted high frequency signals are blocked, wanted signals can pass. With the increasing use of electronic equipment it is of vital importance to suppress interfering


    Original     		MBW422 3C80 ferrite philips 3h1 ferrite material 3c80 material Philips Components, Soft Ferrites Data Handbook M PHILIPS toroidal core 3c90 3h1 ferrite material PHILIPS toroidal core 4a11 philips 3C85 ferrite material PHILIPS toroidal core 3c85 PHILIPS ferrite transformer cores PDF

    3C80

    Abstract: H8/3048F 3c80 material 68B9 SDA 555E 3C80 SPECIFICATIONS 1A80 207-010032 83 HC14 sd4841
    Text: H8/3048F / H8/3047F On-Board Programming Examples H8/3048F Example of On-Board Programming Using High-Speed Serial Communication H8/3437F Example of On-Board Programming Using I2C Bus H8/3048F Example of 1-to-N On-Board Programming H8/3048F Example of On-Board Programming Using Parallel Interface


    Original     		H8/3048F H8/3047F H8/3048F H8/3437F 60-kbyte 3C80 3c80 material 68B9 SDA 555E 3C80 SPECIFICATIONS 1A80 207-010032 83 HC14 sd4841 PDF

    Transformer and Inductor Design Handbook,

    Abstract: hall ic 01e 3C80 ferrite 3C80 transformer MC33262 3c80 material mbrs360 MC33072 flyback transformer high voltage copier 4n35 optocoupler
    Text: AND8024/D Off-Line Critical Conduction Switching Power Supply with Voltage and Current Limiting http://onsemi.com Prepared by: Larry Hayes, Jim Spangler ON Semiconductor Phoenix, AZ 85008 APPLICATION NOTE current through the primary of the coupled inductor


    Original     		AND8024/D r14525 Transformer and Inductor Design Handbook, hall ic 01e 3C80 ferrite 3C80 transformer MC33262 3c80 material mbrs360 MC33072 flyback transformer high voltage copier 4n35 optocoupler PDF

    860MH

    Abstract: msc in gsm SMCX-1 MC145574 MC68360 MC68MH360 MPC860 68MH360 DSA0039294 "routing tables"
    Text: Overview 1 QMC Memory Organization 2 QMC Commands 3 QMC Exceptions 4 Buffer Descriptors 5 QMC Initialization 6 Features Deleted in MC68MH360 7 Performance 8 Multi-Subchannel MSC Microcode 9 68360 Bit Numbering A Frequently-Asked Questions B Connecting ISDN Interfaces to QUICC32


    Original     		MC68MH360 QUICC32 860MH msc in gsm SMCX-1 MC145574 MC68360 MC68MH360 MPC860 68MH360 DSA0039294 "routing tables" PDF

    MC145572

    Abstract: MC145574 MC68360 MC68MH360 MPC860 Divider-by-256 "routing tables"
    Text: QMCSUPPLEMENT/AD 8/97 QMC Supplement to MC68360 and MPC860 User’s Manuals Motorola Inc. 1997. All rights reserved. This document contains information on a new product under development. Motorola reserves the right to change or discontinue this product without notice.


    Original     		MC68360 MPC860 64-channel MC145572 MC145574 MC68MH360 Divider-by-256 "routing tables" PDF

    MPC860 QMC

    Abstract: msc in gsm MC145574 MC68360 MC68MH360 MPC860 3C80 SPECIFICATIONS "routing tables" 68MH360
    Text: Freescale Semiconductor, Inc. Freescale Semiconductor, Inc. Overview 1 QMC Memory Organization 2 QMC Commands 3 QMC Exceptions 4 Buffer Descriptors 5 QMC Initialization 6 Features Deleted in MC68MH360 7 Performance 8 Multi-Subchannel MSC Microcode 9 68360 Bit Numbering


    Original     		MC68MH360 QUICC32 MPC860 QMC msc in gsm MC145574 MC68360 MC68MH360 MPC860 3C80 SPECIFICATIONS "routing tables" 68MH360 PDF

    qmc manual

    Abstract: msc in gsm MC145574 MC68360 MC68MH360 MPC860 ss7 gsm mc681 "routing tables"
    Text: Freescale Semiconductor, Inc. Freescale Semiconductor, Inc. Overview 1 QMC Memory Organization 2 QMC Commands 3 QMC Exceptions 4 Buffer Descriptors 5 QMC Initialization 6 Features Deleted in MC68MH360 7 Performance 8 Multi-Subchannel MSC Microcode 9 68360 Bit Numbering


    Original     		MC68MH360 QUICC32 qmc manual msc in gsm MC145574 MC68360 MC68MH360 MPC860 ss7 gsm mc681 "routing tables" PDF

    PHILIPS toroidal core 3c85

    Abstract: LT1074HV TDK Ferrite Core PC40 3C80 ferrite tapped inductor boost converter LT1074 design manual 3C80 philips LT1074 24v LT1074 COILTRONICS 50-2-52
    Text: Application Note 44 September 1991 LT1074/LT1076 Design Manual Carl Nelson INTRODUCTION The use of switching regulators increased dramatically in the 1980’s and this trend remains strong going into the 90s. The reasons for this are simple; heat and efficiency.


    Original     		LT1074/LT1076 AN44-48 PHILIPS toroidal core 3c85 LT1074HV TDK Ferrite Core PC40 3C80 ferrite tapped inductor boost converter LT1074 design manual 3C80 philips LT1074 24v LT1074 COILTRONICS 50-2-52 PDF

    3C80 ferrite

    Abstract: LT1074 PHILIPS toroidal core 3c85 sawtooth wave generator using ic 555 PHILIPS toroidal core 3C81 13 tap inductor 3C80 transformer LT1074HVMK lt1076 PE-92102
    Text: Application Note 44 September 1991 LT1074/LT1076 Design Manual Carl Nelson INTRODUCTION The use of switching regulators increased dramatically in the 1980’s and this trend remains strong going into the 90s. The reasons for this are simple; heat and efficiency.


    Original     		LT1074/LT1076 re-2-792-1619 S-191 3C80 ferrite LT1074 PHILIPS toroidal core 3c85 sawtooth wave generator using ic 555 PHILIPS toroidal core 3C81 13 tap inductor 3C80 transformer LT1074HVMK lt1076 PE-92102 PDF

    generator aeg 3508

    Abstract: DM6437ZWT DM6437 CMOS SPRS345 dm6437 EVM evaluation board pci express sch TMS320DM6437 Evaluation Module
    Text: TMS320DM6437 Digital Media Processor www.ti.com SPRS345 – NOVEMBER 14 2006 1 TMS320DM6437 Digital Media Processor • • • • High-Performance Digital Media Processor DM6437 – 2.5-, 2.-, 1.67-ns Instruction Cycle Time – 400-, 500-, 600-MHz C64x+ Clock Rate


    Original     		TMS320DM6437 SPRS345 DM6437) 67-ns 600-MHz 32-Bit C64x/Debug TMS320C64x 32-/40-Bit) generator aeg 3508 DM6437ZWT DM6437 CMOS SPRS345 dm6437 EVM evaluation board pci express sch TMS320DM6437 Evaluation Module PDF

    NAND FLASH BGA

    Abstract: AC97 AIC12 DDR2-400 SM320C6424-EP GP703
    Text: SM320C6424-EP FIXED-POINT DIGITAL SIGNAL PROCESSOR www.ti.com SPRS580 – JUNE 2009 1 Introduction 1.1 Features • • • High-Performance Digital Signal Processor C6424 – 2.5-, 2-, 1.67-, 1.43-ns Instruction Cycle Time – 400-, 500-, 600-, 700-MHz C64x+ Clock


    Original     		SM320C6424-EP SPRS580 C6424) 43-ns 700-MHz 32-Bit SM320C64x 32-/40-Bit) 32-Bit, 16-Bit, NAND FLASH BGA AC97 AIC12 DDR2-400 SM320C6424-EP GP703 PDF

    Untitled

    Abstract: No abstract text available
    Text: SM320C6424-EP FIXED-POINT DIGITAL SIGNAL PROCESSOR www.ti.com SPRS580 – JUNE 2009 1 Introduction 1.1 Features • • • High-Performance Digital Signal Processor C6424 – 2.5-, 2-, 1.67-, 1.43-ns Instruction Cycle Time – 400-, 500-, 600-, 700-MHz C64x+ Clock


    Original     		SM320C6424-EP SPRS580 C6424) 43-ns 700-MHz 32-Bit SM320C64x+ 32-/40-Bit) 32-Bit, PDF

    Untitled

    Abstract: No abstract text available
    Text: TMS320C6424 Fixed-Point Digital Signal Processor www.ti.com SPRS347C – MARCH 2007 – REVISED JUNE 2008 1 TMS320C6424 Fixed-Point Digital Signal Processor 1.1 Features • • • High-Performance Digital Signal Processor C6424 – 2.5-, 2-, 1.67-, 1.43-ns Instruction Cycle


    Original     		TMS320C6424 SPRS347C C6424) 43-ns 700-MHz 32-Bit TMS320C64x 32-/40-Bit) 32-Bit, PDF

    Untitled

    Abstract: No abstract text available
    Text: SM320C6424-EP FIXED-POINT DIGITAL SIGNAL PROCESSOR www.ti.com SPRS580 – JUNE 2009 1 Introduction 1.1 Features • • • High-Performance Digital Signal Processor C6424 – 2.5-, 2-, 1.67-, 1.43-ns Instruction Cycle Time – 400-, 500-, 600-, 700-MHz C64x+ Clock


    Original     		SM320C6424-EP SPRS580 C6424) 43-ns 700-MHz 32-Bit SM320C64x 32-/40-Bit) 32-Bit, 16-Bit, PDF

    0X10FF

    Abstract: No abstract text available
    Text: SM320C6424-EP FIXED-POINT DIGITAL SIGNAL PROCESSOR www.ti.com SPRS580 – JUNE 2009 1 Introduction 1.1 Features • • • High-Performance Digital Signal Processor C6424 – 2.5-, 2-, 1.67-, 1.43-ns Instruction Cycle Time – 400-, 500-, 600-, 700-MHz C64x+ Clock


    Original     		SM320C6424-EP SPRS580 C6424) 43-ns 700-MHz 32-Bit SM320C64x 32-/40-Bit) 32-Bit, 16-Bit, 0X10FF PDF

    Untitled

    Abstract: No abstract text available
    Text: SM320C6424-EP FIXED-POINT DIGITAL SIGNAL PROCESSOR www.ti.com SPRS580 – JUNE 2009 1 Introduction 1.1 Features • • • High-Performance Digital Signal Processor C6424 – 2.5-, 2-, 1.67-, 1.43-ns Instruction Cycle Time – 400-, 500-, 600-, 700-MHz C64x+ Clock


    Original     		SM320C6424-EP SPRS580 C6424) 43-ns 700-MHz 32-Bit SM320C64x+ 32-/40-Bit) 32-Bit, PDF

    Untitled

    Abstract: No abstract text available
    Text: SM320C6424-EP FIXED-POINT DIGITAL SIGNAL PROCESSOR www.ti.com SPRS580 – JUNE 2009 1 Introduction 1.1 Features • • • High-Performance Digital Signal Processor C6424 – 2.5-, 2-, 1.67-, 1.43-ns Instruction Cycle Time – 400-, 500-, 600-, 700-MHz C64x+ Clock


    Original     		SM320C6424-EP SPRS580 C6424) 43-ns 700-MHz 32-Bit SM320C64x 32-/40-Bit) 32-Bit, 16-Bit, PDF

    Untitled

    Abstract: No abstract text available
    Text: SM320C6424-EP FIXED-POINT DIGITAL SIGNAL PROCESSOR www.ti.com SPRS580 – JUNE 2009 1 Introduction 1.1 Features • • • High-Performance Digital Signal Processor C6424 – 2.5-, 2-, 1.67-, 1.43-ns Instruction Cycle Time – 400-, 500-, 600-, 700-MHz C64x+ Clock


    Original     		SM320C6424-EP SPRS580 C6424) 43-ns 700-MHz 32-Bit SM320C64x 32-/40-Bit) 32-Bit, 16-Bit, PDF

    4116 ram

    Abstract: WD9918 D9928 lm1889 circuit diagram WD9929 rt 9928 WD9918/WD9928/WD9929
    Text: W E S T E R N D IG IT A L WD9918/WD9928/WD9929 Video Display Processors FEATURES • SINGLE-CHIP SOLUTION FOR INTERFACING COLOR TVS [EXCLUDING RANDOM-ACCESS MEMORY RAM AND RADIO FREQUENCY (RF) MODULATOR (WD9918 ONLY)] RAS CAS AD7 AD6 256 X 192 RESOLUTION ON TV SCREEN


    OCR Scan     		WD9918/9928/9929 WD9918/WD9928/WD9929 WD9918 40-PIN WD9928/WD9929 D9928 WD9928/9929 4116 ram D9928 lm1889 circuit diagram WD9929 rt 9928 PDF

    TMS9900

    Abstract: OZ 9930 pal 007c TMS9929 oloa 8888 oloa 8888 LUBRICANT TMS9918 TMS9929A 9928A TM990
    Text: T exas In s t r u m e n t s 9900 TMS9918A/TMS9928A/TMS9929A Video Display Processors “ MICROPROCESSOR SERIES ” IM PO RTANT NOTICES T exas In strum en ts reserves the rig h t to make changes at any tim e in order to im prove design and to supply th e best


    OCR Scan     		TMS9918A/TMS9928A/TMS9929A 928A/ 4116-XX MP010A TMS9900 OZ 9930 pal 007c TMS9929 oloa 8888 oloa 8888 LUBRICANT TMS9918 TMS9929A 9928A TM990 PDF

    TDD 1605

    Abstract: lt 6029 PLCC-44 cr16 0.8um tg-500 L3000N L3000S PLCC44 SEL24 STLC3040
    Text: STLC3040 S U BSC R IBER LINE INTERFACE CODEC FILTER, CO FISLIC PRELIM IN ARY DATA PLCC44 O RDERING NUM BER: STLC3040FN Figure 1 : Pin Connection Top view o > [ « [ <° \ Single chip CODEC and FILTER including all LOW-VOLTAGE SLIC functions. Advanced 12V BJT, 5V CMOS 0.8um technol­


    OCR Scan     		STLC3040 PLCC44 TDD 1605 lt 6029 PLCC-44 cr16 0.8um tg-500 L3000N L3000S SEL24 STLC3040 PDF

    PLCC-44 cr16

    Abstract: lt 6029 0.8um STLC3170 TDD 1605 tg-500 L3000N L3000S PLCC44 SEL24
    Text: SGS-THOMSON STLC3040 O T Ê IM D ilL IÎM ts O T Ig g SU BSC R IBER LINE INTERFACE CODEC FILTER, CO FISLIC PRELIM IN ARY DATA PLCC44 O RDERING NUM BER: S T L C 3 0 4 0 F N Figure 1 : Pin Connection Top view o > [« [ <° \ Single chip CODEC and FILTER including all


    OCR Scan     		STLC3040 PLCC44 PLCC-44 cr16 lt 6029 0.8um STLC3170 TDD 1605 tg-500 L3000N L3000S SEL24 PDF

    6d40 Wiring diagram

    Abstract: DP8302 IC TTL 7400 diagram and truth table DM9318 M5246 69C0 MM5214 DP8300 MM2101 stk 412 210
    Text: PACE Microprocessor System Design Manual National Semiconductor Publication Number 420305292-001A Order Number IPC-16A/928 March 1977 $5.00 PACE Processing And Control Element Microprocessor System Design Manual National Semiconductor Corporation 2900 Semiconductor Drive


    OCR Scan     		20305292-001A IPC-16A/928 J28592 ipc-16a/928 da-dd10m37 6d40 Wiring diagram DP8302 IC TTL 7400 diagram and truth table DM9318 M5246 69C0 MM5214 DP8300 MM2101 stk 412 210 PDF

    stk 412 -410 power amp

    Abstract: Truth Table 7485 2 bit comparator STK power amplifier 4301 STK 463 amplifier stk 5006 stk 411 5.1 Amp Block Diagram STK 435 power amplifier stk 496 630 stk 410 22 pin STK 4301
    Text: Æk A Vm J a Order Number IPC-16A/927 Publication Number 4200127X Preliminary NATIONAL The PACE Microprocessor A Logic Designer’s Guide to Program Equivalents of TTL Functions MARCH 1976 National Semiconductor Corporation 2900 Semiconductor Drive Santa Clara, California 95051


    OCR Scan     		IPC-16A/927 4200127X stk 412 -410 power amp Truth Table 7485 2 bit comparator STK power amplifier 4301 STK 463 amplifier stk 5006 stk 411 5.1 Amp Block Diagram STK 435 power amplifier stk 496 630 stk 410 22 pin STK 4301 PDF