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    MARK 3B Search Results

    MARK 3B Result Highlights (5)

    Part ECAD Model Manufacturer Description Download Buy
    MG8097/B Rochester Electronics LLC 8097 - Math Coprocessor - Dual marked (8506301ZA) Visit Rochester Electronics LLC Buy
    5490/BCA Rochester Electronics LLC 5490 - Decade Counter - Dual marked (M38510/01307BCA) Visit Rochester Electronics LLC Buy
    5405/BCA Rochester Electronics LLC 5405 - Gate - Dual marked (M38510/00108BCA) Visit Rochester Electronics LLC Buy
    54AC20/SDA-R Rochester Electronics LLC 54AC20/SDA-R - Dual marked (M38510R75003SDA) Visit Rochester Electronics LLC Buy
    UHD503R/883 Rochester Electronics LLC UHD503R/883 - Dual marked (5962-8855101CA) Visit Rochester Electronics LLC Buy

    MARK 3B Datasheets Context Search

    Catalog Datasheet MFG & Type Document Tags PDF

    RH5VL Series

    Abstract: ricoh markings RH5VT MARK sot236 mark code 3b RH5VL22A RN5RF50BA RN5RF28BA R1120N sot-23-5 ricoh RN5RT45AA MARK
    Text: POWER MANAGEMENT ICs MARK INFORMATIONS EP-023-9803 MARK INFORMATIONS OUTLINE As Ricoh Power Management ICs use small packages, it is impossible to mark complete part numbers on every package. The meaning of the markings are explained as follows. Basically, the markings are consisted of the part


    Original     		EP-023-9803 OT-89 OT-23-5 OT-23-6 RN5VM111C RN5VM112D RN5VM112C RH5VL Series ricoh markings RH5VT MARK sot236 mark code 3b RH5VL22A RN5RF50BA RN5RF28BA R1120N sot-23-5 ricoh RN5RT45AA MARK PDF

    7 bit hamming code

    Abstract: hamming encoding hamming encoder AN1221 HC05 HC08 HC08 c code example AN-1221 HC08 code example IASM08
    Text: Freescale Semiconductor, Inc. MOTOROLA SEMICONDUCTOR APPLICATION NOTE Order this document by AN1221/D AN1221 Hamming Error Control Coding Techniques with the HC08 MCU by Mark McQuilken & Mark Glenewinkel CSIC Applications Freescale Semiconductor, Inc. INTRODUCTION


    Original     		AN1221/D AN1221 7 bit hamming code hamming encoding hamming encoder AN1221 HC05 HC08 HC08 c code example AN-1221 HC08 code example IASM08 PDF

    marking 3B

    Abstract: PG03DBVSC
    Text: SEMICONDUCTOR PG03DBVSC MARKING SPECIFICATION VSC PACKAGE 1. Marking method Laser Marking 2. Marking 3B No. 2005. 6. 1 Item Marking Description Device Mark 3B PG03DBVSC Revision No : 0 1/1


    Original     		PG03DBVSC marking 3B PG03DBVSC PDF

    marking 3B

    Abstract: No abstract text available
    Text: SEMICONDUCTOR PG03FBESC MARKING SPECIFICATION ESC PACKAGE 1. Marking method Laser Marking 2. Marking 3B 1 No. 2005. 7. 26 Item Marking Description Device Mark 3B PG03FBESC Revision No : 0 1/1


    Original     		PG03FBESC marking 3B PDF

    7 bit hamming code

    Abstract: AN1221 HC05 HC08 hamming encoding
    Text: MOTOROLA SEMICONDUCTOR APPLICATION NOTE Order this document by AN1221/D AN1221 Hamming Error Control Coding Techniques with the HC08 MCU by Mark McQuilken & Mark Glenewinkel CSIC Applications INTRODUCTION This application note is intended to demonstrate the use of error control coding ECC in a digital transmission system. The HC08 MCU will be used to illustrate the code development of this process. A message


    Original     		AN1221/D AN1221 7 bit hamming code AN1221 HC05 HC08 hamming encoding PDF

    7 bit hamming code

    Abstract: AN1221 HC05 HC08 AN-1221 ARCO A70 Motorola application Note 1221 IASM08
    Text: Order this document by AN1221/D Freescale Semiconductor AN1221 Hamming Error Control Coding Techniques with the HC08 MCU by Mark McQuilken & Mark Glenewinkel CSIC Applications Freescale Semiconductor, Inc. INTRODUCTION This application note is intended to demonstrate the use of error control coding ECC in a digital transmission system. The HC08 MCU will be used to illustrate the code development of this process. A message


    Original     		AN1221/D AN1221 7 bit hamming code AN1221 HC05 HC08 AN-1221 ARCO A70 Motorola application Note 1221 IASM08 PDF

    SOT-89 marking 3b

    Abstract: 3b transistor KIA431AF marking 3b SOT89 3B SOT-89 marking 3b sot-89 marking 3B transistor kia431a sot-89
    Text: SEMICONDUCTOR KIA431AF MARKING SPECIFICATION SOT-89 PACKAGE 1. Marking method Laser Marking 2. Marking No. Item Marking Description Device Mark 3B KIA431AF * Grade - - Lot No. 816 1 2 8 Year 0 ~ 9 : 1900~1999 16 Week 16 : 16th Week Note * Grade: Transistor only


    Original     		KIA431AF OT-89 SOT-89 marking 3b 3b transistor KIA431AF marking 3b SOT89 3B SOT-89 marking 3b sot-89 marking 3B transistor kia431a sot-89 PDF

    Untitled

    Abstract: No abstract text available
    Text: FILTERS TECHNOLOGY OF TOMORROW THREE TERMINAL STRUCTURE 1 2 3 3a 3b 3c 4 5 6 Insulator Inner electrode Ag Outer terminations Ag - Pd electrode Ni Plating Solder plating GND terminations Glass coating Polarity mark f CAPACITOR / INDUCTOR KC W NE Bottom KC


    Original     		D-25578 PDF

    three terminal capacitor

    Abstract: kc 140 FMA19N60E,FMP16N50E,16N5
    Text: FILTERS TECHNOLOGY OF TOMORROW THREE TERMINAL STRUCTURE 1 2 3 3a 3b 3c 4 5 6 Insulator Inner electrode Outer terminations Ag Electrode Ni Plating Solder plating GND terminations Glass coating Polarity mark f CAPACITOR / INDUCTOR KC W NE Bottom TYPE DESIGNATION HOW TO ORDER


    Original     		PDF

    1j capacitor

    Abstract: td331
    Text: HF / FILTERS KC2A KC 1J & KC 2AF three terminal FILTER STRUCTURE 1 Insulator 2 Inner electrode Ag 3 Outer terminations 3a Ag - Pd electrode 3b Ni Plating 3c Solder plating 4 GND terminations 5 Glass coating 6 Polarity mark f CAPACITOR / INDUCTOR KC Bottom


    Original     		D-25578 1j capacitor td331 PDF

    AN1761

    Abstract: HC05 MC68HC705C8A X76F041 100XXXXX mc68*H*705
    Text: Freescale Semiconductor, Inc. Order this document by AN1761/D Motorola Semiconductor Application Note Freescale Semiconductor, Inc. AN1761 Interfacing the MC68HC705C8A to the X76F041 PASS SecureFlash By Mark Glenewinkel Field Applications Engineering


    Original     		AN1761/D AN1761 MC68HC705C8A X76F041 AN1761 HC05 MC68HC705C8A 100XXXXX mc68*H*705 PDF

    8N50

    Abstract: No abstract text available
    Text: FILTERS TECHNOLOGY OF TOMORROW THREE TERMINAL STRUCTURE 1 2 3 3a 3b 3c 4 5 6 Insulator Inner electrode Ag Outer terminations Ag - Pd electrode Ni Plating Solder plating GND terminations Glass coating Polarity mark f CAPACITOR / INDUCTOR KC Bottom TYPE DESIGNATION (HOW TO ORDER)


    Original     		25VDC D-25578 8N50 PDF

    10DB

    Abstract: 8n50
    Text: FILTERS TECHNOLOGY OF TOMORROW THREE TERMINAL STRUCTURE 1 2 3 3a 3b 3c 4 5 6 Insulator Inner electrode Ag Outer terminations Ag - Pd electrode Ni Plating Solder plating GND terminations Glass coating Polarity mark f CAPACITOR / INDUCTOR KC Bottom TYPE DESIGNATION (HOW TO ORDER)


    Original     		25VDC D-25578 10DB 8n50 PDF

    AN1761

    Abstract: HC05 MC68HC705C8A X76F041
    Text: Freescale Semiconductor Order this document by AN1761/D Freescale Semiconductor, Inc. AN1761 Interfacing the MC68HC705C8A to the X76F041 PASS SecureFlash By Mark Glenewinkel Field Applications Engineering Consumer Systems Group Austin, Texas Introduction


    Original     		AN1761/D AN1761 MC68HC705C8A X76F041 AN1761 HC05 MC68HC705C8A PDF

    y 331 Transistor

    Abstract: No abstract text available
    Text: PN918 / MMBT918 MMBT918 PN918 C C B E TO-92 B SOT-23 E Mark: 3B NPN RF Transistor This device is designed for use as RF amplifiers, oscillators and multipliers with collector currents in the 1.0 mA to 30 mA range. Sourced from Process 43. Absolute Maximum Ratings*


    Original     		PN918 MMBT918 PN918 OT-23 y 331 Transistor PDF

    PN918

    Abstract: MMBT918 mark 3b RF TRANSISTOR SOT23 5 P431 PN918 transistor
    Text: MMBT918 PN918 C E C B TO-92 SOT-23 E B Mark: 3B NPN RF Transistor This device is designed for use as RF amplifiers, oscillators and multipliers with collector currents in the 1.0 mA to 30 mA range. Sourced from Process 43. Absolute Maximum Ratings* Symbol


    Original     		MMBT918 PN918 OT-23 PN918 MMBT918 mark 3b RF TRANSISTOR SOT23 5 P431 PN918 transistor PDF

    M68HC705KICS

    Abstract: Digital Weighing Scale schematic MC68HC705K1 MC68HC05 Applications Guide AN10 AN1228 M68HC05 MC145050 MC145051 MC68HC705C8
    Text: Freescale Semiconductor, Inc. Order this document by AN1228/D Rev. 2.0 Motorola Semiconductor Application Note Freescale Semiconductor, Inc. AN1228 Interfacing the M68HC05 MCU to the MC145051 A/D Converter By Mark Glenewinkel CSIC Applications Austin, Texas


    Original     		AN1228/D AN1228 M68HC05 MC145051 10-bit, 11-channel, M68HC705KICS Digital Weighing Scale schematic MC68HC705K1 MC68HC05 Applications Guide AN10 AN1228 MC145050 MC68HC705C8 PDF

    Untitled

    Abstract: No abstract text available
    Text: PN918 / MMBT918 MMBT918 PN918 C E C B TO-92 B SOT-23 E Mark: 3B NPN RF Transistor This device is designed for use as RF amplifiers, oscillators and multipliers with collector currents in the 1.0 mA to 30 mA range. Sourced from Process 43. Absolute Maximum Ratings*


    Original     		PN918 MMBT918 PN918 OT-23 PDF

    CBVK741B019

    Abstract: F63TNR MMBT918 PN2222N PN918 RF 107 transistor tc 144
    Text: PN918 / MMBT918 MMBT918 PN918 C E C B TO-92 B SOT-23 E Mark: 3B NPN RF Transistor This device is designed for use as RF amplifiers, oscillators and multipliers with collector currents in the 1.0 mA to 30 mA range. Sourced from Process 43. Absolute Maximum Ratings*


    Original     		PN918 MMBT918 PN918 OT-23 CBVK741B019 F63TNR MMBT918 PN2222N RF 107 transistor tc 144 PDF

    mmbt918

    Abstract: PN918 Intermediate frequency Semiconductor RF CBVK741B019 F63TNR PN2222N npn transistor wc 14inch
    Text: PN918 / MMBT918 MMBT918 PN918 C E C B TO-92 B SOT-23 E Mark: 3B NPN RF Transistor This device is designed for use as RF amplifiers, oscillators and multipliers with collector currents in the 1.0 mA to 30 mA range. Sourced from Process 43. Absolute Maximum Ratings*


    Original     		PN918 MMBT918 PN918 OT-23 mmbt918 Intermediate frequency Semiconductor RF CBVK741B019 F63TNR PN2222N npn transistor wc 14inch PDF

    Untitled

    Abstract: No abstract text available
    Text: PN918 / MMBT918 MMBT918 PN918 C E C B TO-92 B SOT-23 E Mark: 3B NPN RF Transistor This device is designed for use as RF amplifiers, oscillators and multipliers with collector currents in the 1.0 mA to 30 mA range. Sourced from Process 43. Absolute Maximum Ratings*


    Original     		PN918 MMBT918 PN918 OT-23 PDF

    MIL-S-8879

    Abstract: MIL-N-25027 BACB30 BACB30FM 1640-32UNJC-3B MIL-S-8879 A 1900-32UNJF-3B 2500-28UNJF-3B BPS-F-67 QQ-A-430
    Text: K-FAST SYSTEMS ENGINEERING COMMITTEE K-FAST IS A REGISTERED TRADE MARK OF KAYNAR, A MICRODOT COMPANY LICENSEES: DEUTSCH FASTENER CORPORATION VIO-SHAN / A DIVISION OF VSI CORP. D MIN MIN 08 .1640-32UNJC-3B 3 .1900-32UNJF-3B 4 .2500-28UNJF-3B 5 .3125-24UNJF-3B


    Original     		1640-32UNJC-3B 1900-32UNJF-3B 2500-28UNJF-3B 3125-24UNJF-3B 3750-24UNJF-3B 4375-20UNJF-3B 5000-20UNJF-3B KFN600- KFN600 MIL-S-8879 MIL-N-25027 BACB30 BACB30FM 1640-32UNJC-3B MIL-S-8879 A 1900-32UNJF-3B 2500-28UNJF-3B BPS-F-67 QQ-A-430 PDF

    PIC16F876A free projects

    Abstract: 74hc4051 filter 74HC138N 16F877A microcontroller multiplexer 74HC574 microcontroller circuit using 74hc4051 advantages of microcontroller 16f877a KELVIN-VARLEY DIVIDER Pic16f876a function generator 16f877a line follower program
    Text: Application Note 112 March 2007 Developments in Battery Stack Voltage Measurement A Simple Solution to a Not So Simple Problem Jim Williams and Mark Thoren Automobiles, aircraft, marine vehicles, uninterruptible power supplies and telecom hardware represent areas


    Original     		int16 an112f AN112-23 AN112-24 PIC16F876A free projects 74hc4051 filter 74HC138N 16F877A microcontroller multiplexer 74HC574 microcontroller circuit using 74hc4051 advantages of microcontroller 16f877a KELVIN-VARLEY DIVIDER Pic16f876a function generator 16f877a line follower program PDF

    MCP4018

    Abstract: DS01316 MCP4017 MCP4561 MCP40 AN1316 MCP6001 MCP4542 mcp4x mcp42
    Text: AN1316 Using Digital Potentiometers for Programmable Amplifier Gain Author: Mark Palmer Microchip Technology Inc. INTRODUCTION Usually a sensor requires its output signal to be amplified before being converted to a digital representation. Many times an operational amplifier op


    Original     		AN1316 mechanic18 DS01316A-page MCP4018 DS01316 MCP4017 MCP4561 MCP40 AN1316 MCP6001 MCP4542 mcp4x mcp42 PDF