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    MARKING 32 K2 Search Results

    MARKING 32 K2 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

    MARKING 32 K2 Datasheets Context Search

    Catalog Datasheet MFG & Type PDF Document Tags

    diode marking H2

    Abstract: Marking H2 transistor mark code t1 COLOR marking codes marking code capacitors marking code k1 marking .H2 fuse MARKING CODE f2 marking code e2 marking code L2
    Text: ACCU-GUARD FUSE MARKING CODES F1206A marking by special order only Code Current (A) C1 0.2 F1 0.25 G1 0.375 H1 0.50 K1 0.75 11 1.00 P1 1.25 L1 1.50 T1 1.75 21 2.00 V2 2.50 32 3.00 ⇒ Marking location : white side F0805B (all production is marked) Code


    Original     		PDF F1206A F0805B F1206B F0612D F0603C F0402E F0603E diode marking H2 Marking H2 transistor mark code t1 COLOR marking codes marking code capacitors marking code k1 marking .H2 fuse MARKING CODE f2 marking code e2 marking code L2

    A100S

    Abstract: MT48H32M32
    Text: 1Gb: x32 Mobile LPSDR SDRAM Features Mobile LPSDR SDRAM MT48H32M32LF/LG – 8 Meg x 32 x 4 Banks Features Options Marking • VDD/VDDQ: 1.8V/1.8V • Addressing – Standard addressing option – Reduced page size option1 • Configuration – 32 Meg x 32 8 Meg x 32 x 4


    Original     		PDF MT48H32M32LF/LG 09005aef8404b23d A100S MT48H32M32

    Untitled

    Abstract: No abstract text available
    Text: 1Gb: x32 Mobile LPSDR SDRAM Features Mobile LPSDR SDRAM MT48H32M32LF/LG – 8 Meg x 32 x 4 Banks Features Options Marking • VDD/VDDQ: 1.8V/1.8V • Addressing – Standard addressing option – Reduced page size option1 • Configuration – 32 Meg x 32 8 Meg x 32 x 4 banks


    Original     		PDF MT48H32M32LF/LG 09005aef8404b23d

    mt 47 v 32m16

    Abstract: 728bit 3120 32M16
    Text: 512Mb: 32 Meg x 16, 16 Meg x 32 Mobile SDRAM Features Mobile LPSDR SDRAM MT48H32M16LF – 8 Meg x 16 x 4 Banks MT48H16M32LF/LG – 4 Meg x 32 x 4 Banks Features Options Marking • VDD/VDDQ: 1.8V/1.8V • Addressing – Standard addressing option – Reduced page size option1


    Original     		PDF 512Mb: MT48H32M16LF MT48H16M32LF/LG 09005aef8459c827 mt 47 v 32m16 728bit 3120 32M16

    MT48H32M16LF

    Abstract: 32M16 MT48H16M32
    Text: 512Mb: 32 Meg x 16, 16 Meg x 32 Mobile SDRAM Features Mobile Low-Power SDR SDRAM MT48H32M16LF – 8 Meg x 16 x 4 banks MT48H16M32LF/LG – 4 Meg x 32 x 4 banks Features Options Marking • VDD/VDDQ: 1.8V/1.8V • Addressing – Standard addressing option – Reduced page-size option1


    Original     		PDF 512Mb: MT48H32M16LF MT48H16M32LF/LG 54-ball 90-ball IDD2/IDD71 09005aef82ea3742 MT48H32M16LF 32M16 MT48H16M32

    Untitled

    Abstract: No abstract text available
    Text: 512Mb: 32 Meg x 16, 16 Meg x 32 Mobile SDRAM Features Mobile Low-Power SDR SDRAM MT48H32M16LF – 8 Meg x 16 x 4 Banks MT48H16M32LF/LG – 4 Meg x 32 x 4 Banks Features Options Marking • VDD/VDDQ: 1.8V/1.8V • Addressing – Standard addressing option – Reduced page size option1


    Original     		PDF 512Mb: MT48H32M16LF MT48H16M32LF/LG 09005aef83ea581f

    Untitled

    Abstract: No abstract text available
    Text: 512Mb: 32 Meg x 16, 16 Meg x 32 Mobile SDRAM Features Mobile Low-Power SDR SDRAM MT48H32M16LF – 8 Meg x 16 x 4 banks MT48H16M32LF/LG – 4 Meg x 32 x 4 banks Features Options Marking • VDD/VDDQ: 1.8V/1.8V • Addressing – Standard addressing option – Reduced page-size option1


    Original     		PDF 512Mb: MT48H32M16LF MT48H16M32LF/LG 09005aef82ea3742

    MT48H32M16LF

    Abstract: 512MB SDR SDRAM CHIP
    Text: 512Mb: 32 Meg x 16, 16 Meg x 32 Mobile SDRAM Features Mobile Low-Power SDR SDRAM MT48H32M16LF – 8 Meg x 16 x 4 banks MT48H16M32LF/LG – 4 Meg x 32 x 4 banks Features Options Marking • VDD/VDDQ: 1.8V/1.8V • Addressing – Standard addressing option – Reduced page-size option1


    Original     		PDF 512Mb: MT48H32M16LF MT48H16M32LF/LG 54-ball 90-ball IDD2/IDD71 09005aef82ea3742 MT48H32M16LF 512MB SDR SDRAM CHIP

    Untitled

    Abstract: No abstract text available
    Text: 256Mb: 16 Meg x 16, 8 Meg x 32 Mobile SDRAM Features Mobile Low-Power SDR SDRAM MT48H16M16LF – 4 Meg x 16 x 4 banks MT48H8M32LF – 2 Meg x 32 x 4 banks Features Options Marking • VDD/VDDQ: 1.8V/1.8V • Addressing – Standard addressing option • Configuration


    Original     		PDF 256Mb: MT48H16M16LF MT48H8M32LF 09005aef834c13d2

    MT48H4M32

    Abstract: MT48H4M32LF 8M16 MT48H8M16LF 4M32 Compound
    Text: 128Mb: 8 Meg x 16, 4 Meg x 32 Mobile SDRAM Features Mobile Low-Power SDR SDRAM MT48H8M16LF – 2 Meg x 16 x 4 banks MT48H4M32LF – 1 Meg x 32 x 4 banks Features Options Marking • VDD/VDDQ: 1.8V/1.8V • Addressing – Standard addressing option • Configuration


    Original     		PDF 128Mb: MT48H8M16LF MT48H4M32LF 54-ball 90-ball 09005aef832ff1ea MT48H4M32 MT48H4M32LF 8M16 MT48H8M16LF 4M32 Compound

    256Mb

    Abstract: MT48H16M16LF MT48H8M32LF 48H16M16
    Text: 256Mb: 16 Meg x 16, 8 Meg x 32 Mobile SDRAM Features Mobile Low-Power SDR SDRAM MT48H16M16LF – 4 Meg x 16 x 4 banks MT48H8M32LF – 2 Meg x 32 x 4 banks Features Options Marking • VDD/VDDQ: 1.8V/1.8V • Addressing – Standard addressing option • Configuration


    Original     		PDF 256Mb: MT48H16M16LF MT48H8M32LF 54-ball 90-ball 09005aef834c13d2 256Mb MT48H16M16LF MT48H8M32LF 48H16M16

    MT48H16M16LF

    Abstract: MT48H8M32LF
    Text: 256Mb: 16 Meg x 16, 8 Meg x 32 Mobile SDRAM Features Mobile Low-Power SDR SDRAM MT48H16M16LF – 4 Meg x 16 x 4 banks MT48H8M32LF – 2 Meg x 32 x 4 banks Features Options Marking • VDD/VDDQ: 1.8V/1.8V • Addressing – Standard addressing option • Configuration


    Original     		PDF 256Mb: MT48H16M16LF MT48H8M32LF 54-ball 90-ball 09005aef834c13d2 MT48H16M16LF MT48H8M32LF

    E5 MARKING

    Abstract: No abstract text available
    Text: 256Mb: 16 Meg x 16, 8 Meg x 32 Mobile SDRAM Features Mobile Low-Power SDR SDRAM MT48H16M16LF – 4 Meg x 16 x 4 banks MT48H8M32LF – 2 Meg x 32 x 4 banks Features Options Marking • VDD/VDDQ: 1.8V/1.8V • Addressing – Standard addressing option • Configuration


    Original     		PDF 256Mb: MT48H16M16LF MT48H8M32LF 09005aef834c13d2 E5 MARKING

    8M16

    Abstract: MT48H4M32
    Text: 128Mb: 8 Meg x 16, 4 Meg x 32 Mobile SDRAM Features Mobile Low-Power SDR SDRAM MT48H8M16LF – 2 Meg x 16 x 4 banks MT48H4M32LF – 1 Meg x 32 x 4 banks Features Options Marking • VDD/VDDQ: 1.8V/1.8V • Addressing – Standard addressing option • Configuration


    Original     		PDF 128Mb: MT48H8M16LF MT48H4M32LF 09005aef832ff1ea 8M16 MT48H4M32

    Untitled

    Abstract: No abstract text available
    Text: Preliminary‡ 512Mb: x16, x32 Automotive Mobile LPSDR SDRAM Features Automotive Mobile LPSDR SDRAM MT48H32M16LF – 8 Meg x 16 x 4 Banks MT48H16M32LF/LG – 4 Meg x 32 x 4 Banks Features Options Marking • VDD/VDDQ: 1.8V/1.8V • Addressing – Standard addressing option


    Original     		PDF 512Mb: MT48H32M16LF MT48H16M32LF/LG 09005aef8459c827) 09005aef8511d87c

    Untitled

    Abstract: No abstract text available
    Text: Freescale Semiconductor, Inc. Data Sheet: Advance Information K22P100M100SF9 Rev 3, 5/2014 Kinetis K22F 128KB Flash 100 MHz Cortex-M4 Based Microcontroller with FPU Ideal for low-power applications that require processing efficiency. Shares the comprehensive enablement and scalability


    Original     		PDF K22P100M100SF9 128KB MK22FN128VDC10 MK22FN128VLL10 MK22FN128VMP10 MK22FN128VLH10

    Untitled

    Abstract: No abstract text available
    Text: Freescale Semiconductor, Inc. Data Sheet: Technical Data K22P100M100SF9 Rev 4, 7/2014 Kinetis K22F 128KB Flash 100 MHz Cortex-M4 Based Microcontroller with FPU The K22 product family members are optimized for cost-sensitive applications requiring low-power USB connectivity and


    Original     		PDF K22P100M100SF9 128KB MK22FN128VDC10 MK22FN128VLL10 MK22FN128VMP10 MK22FN128VLH10

    Untitled

    Abstract: No abstract text available
    Text: Freescale Semiconductor, Inc. Data Sheet: Product Preview Document Number: K22P121M120SF8 Rev 4, 07/2014 Kinetis K22F 256 KB Flash 120 MHz Cortex-M4 Based Microcontroller with FPU The K22 product family members are optimized for cost-sensitive applications requiring low-power, USB connectivity, processing


    Original     		PDF K22P121M120SF8 MK22FN256VDC12 MK22FN256VLL12 MK22FN256VMP12 MK22FN256VLH12

    MK22FN256VLH12

    Abstract: MK22FN256VMP12
    Text: Freescale Semiconductor, Inc. Data Sheet: Technical Data Document Number: K22P121M120SF8 Rev 3, 07/2014 Kinetis K22F 256 KB Flash 120 MHz Cortex-M4 Based Microcontroller with FPU The K22 product family members are optimized for cost-sensitive applications requiring low-power, USB connectivity, processing


    Original     		PDF K22P121M120SF8 MK22FN256VDC12 MK22FN256VLL12 MK22FN256VMP12 MK22FN256VLH12 MK22FN256VLH12 MK22FN256VMP12

    Untitled

    Abstract: No abstract text available
    Text: Freescale Semiconductor, Inc. Data Sheet: Technical Data K22P121M100SF9 Rev 4, 7/2014 Kinetis K22F 128KB Flash 100 MHz Cortex-M4 Based Microcontroller with FPU The K22 product family members are optimized for cost-sensitive applications requiring low-power USB connectivity and


    Original     		PDF K22P121M100SF9 128KB MK22FN128VDC10 MK22FN128VLL10 MK22FN128VMP10 MK22FN128VLH10

    Untitled

    Abstract: No abstract text available
    Text: Freescale Semiconductor, Inc. Data Sheet: Advance Information Document Number K22P121M120SF7 Rev 3 5/2014 Kinetis K22F 512KB Flash 120 MHz Cortex-M4 Based Microcontroller with FPU Ideal for low-power applications that require processing efficiency. Shares the comprehensive enablement and scalability


    Original     		PDF K22P121M120SF7 512KB

    K22P121M120SF7

    Abstract: No abstract text available
    Text: Freescale Semiconductor, Inc. Data Sheet: Advance Information Document Number K22P121M120SF7 Rev 4 7/2014 Kinetis K22F 512KB Flash 120 MHz Cortex-M4 Based Microcontroller with FPU The K22 product family members are optimized for cost-sensitive applications requiring low-power USB connectivity and


    Original     		PDF K22P121M120SF7 512KB MK22FN512VDC12 MK22FN512VLL12 K22P121M120SF7

    BCW65C

    Abstract: FERRANTI ELECTRONICS transistors DEVICE MARKING BF197P BCV71 BCV72 BCW29 BCW30 BCW31 BCW32
    Text: SOT-23 TRANSISTORS & DIODES PRODUCT LISTANO DEVICE IDENTIFICATION TRANSISTORS TRANSISTORS Standard marking Reverse Joggle marking BCV71 BCV72 K7 K8 K6 K9 BCW 29 BCW 30 BCW31 BCW 32 BCW 33 BCW 60A BCW 60B BCW 60C BCW 60D B CW 61A BCW 61B BCW 61C B CW 61D B CW 65A


    OCR Scan     		PDF OT-23 BCV71 BFQ31 BCV72 BFQ31A BCW29 BFS20 BCW30 BCW31 BCW32 BCW65C FERRANTI ELECTRONICS transistors DEVICE MARKING BF197P

    284313

    Abstract: No abstract text available
    Text: 3.7 Datum_ 2.65 Anforderunqsstufe ¡date class \ X X X X X X ln T erni I T B B K2 □ b c d e TT O' 2.54 c sî 4 x 2.54 -10.16 90 ±0.1 I Q 1 T 's G Bestijckungsplon / contact layout bestückt / assemble 32 31 30 29 28 27 26 25 24 23 22 21 2019 18 17 16 15 14 13 12 11 10 9 8 7 6 5 4 3 2 1


    OCR Scan     		PDF Hi00068425 284313