Please enter a valid full or partial manufacturer part number with a minimum of 3 letters or numbers

    LICC AVX Search Results

    LICC AVX Datasheets Context Search

    Catalog Datasheet MFG & Type PDF Document Tags

    Untitled

    Abstract: No abstract text available
    Text: Table of Contents Low Inductance Capacitors Introduction . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . .2-3 Low Inductance Chip Capacitors 0612/0508/0306 LICC . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . .4-5


    Original     		PDF

    LICA3T333M1FC4AA

    Abstract: ld18 LD17 LICA3T104P1FC1AA LICA3T134M1FC1AA LICA3T153P3FC4AA LICA3T193M3FC4AA LGA land pattern AVX LD X5R capacitor ceramic AVX
    Text: Low Inductance Capacitors SnPb LICC 0612/0508/0306 X7R & X5R Dielectric The total inductance of a chip capacitor is determined both by its length to width ratio and by the mutual inductance coupling between its electrodes. Thus a 1210 chip size has a lower inductance than a 1206 chip. This design improvement is the basis of AVX’s Low Inductance Chip Capacitors (LICC), where the electrodes are terminated on the long side of the chip instead of the short side. The 1206


    Original     		PDF both10 LICA3T333M1FC4AA ld18 LD17 LICA3T104P1FC1AA LICA3T134M1FC1AA LICA3T153P3FC4AA LICA3T193M3FC4AA LGA land pattern AVX LD X5R capacitor ceramic AVX

    ld18

    Abstract: LD16
    Text: Low Inductance Capacitors SnPb LICC 0612/0508/0306 X7R & X5R Dielectric The total inductance of a chip capacitor is determined both by its length to width ratio and by the mutual inductance coupling between its electrodes. Thus a 1210 chip size has a lower inductance than a 1206 chip. This design improvement is the basis of AVX’s Low Inductance Chip Capacitors (LICC), where the electrodes are terminated on the long side of the chip instead of the short side. The 1206


    Original     		PDF

    LICC

    Abstract: Licc avx 0612 MLCC AVX
    Text: Low Inductance Capacitors RoHS 0612/0508/0306 LICC (Low Inductance Chip Capacitors) GENERAL DESCRIPTION The key physical characteristic determining equivalent series inductance (ESL) of a capacitor is the size of the current loop it creates. The smaller the current loop, the


    Original     		PDF

    Untitled

    Abstract: No abstract text available
    Text: Low Inductance Capacitors 0612/0508/0306 LICC Low Inductance Chip Capacitors GENERAL DESCRIPTION The total inductance of a chip capacitor is determined both by its length to width ratio and by the mutual inductance coupling between its electrodes. Thus a 1210 chip size has a lower inductance than a 1206 chip.


    Original     		PDF

    elco capacitor uf

    Abstract: chip capacitance AVX MLCC AVX LICC LICC kyocera
    Text: 0612/0508/0306 LICC Low Inductance Chip Capacitors GENERAL DESCRIPTION The total inductance of chip capacitor is determined both by its length to width ratio and by the mutual inductance coupling between its electrodes. Thus a 1210 chip size has a lower inductance than a 1206 chip.


    Original     		PDF S-LICC00M0701-N elco capacitor uf chip capacitance AVX MLCC AVX LICC LICC kyocera

    0M0701-N

    Abstract: LICC
    Text: 0612/0508/0306 LICC Low Inductance Chip Capacitors GENERAL DESCRIPTION The total inductance of chip capacitor is determined both by its length to width ratio and by the mutual inductance coupling between its electrodes. Thus a 1210 chip size has a lower inductance than a 1206 chip.


    Original     		PDF H20-080 0M0701-N LICC

    LICC

    Abstract: No abstract text available
    Text: 0612/0508/0306 LICC Low Inductance Chip Capacitors GENERAL DESCRIPTION The total inductance of chip capacitor is determined both by its length to width ratio and by the mutual inductance coupling between its electrodes. Thus a 1210 chip size has a lower inductance than a 1206 chip.


    Original     		PDF PC12/0508/0306 889mm LICC

    LICC

    Abstract: Licc avx 0612 0306 capacitor
    Text: Low Inductance Capacitors 0612/0508/0306 LICC Low Inductance Chip Capacitors The total inductance of a chip capacitor is determined both by its length to width ratio and by the mutual inductance coupling between its electrodes. Thus a 1210 chip size has a lower inductance than a 1206 chip. This design improvement is the


    Original     		PDF

    Licc avx 0612

    Abstract: No abstract text available
    Text: Low Inductance Capacitors 0612/0508/0306 LICC Low Inductance Chip Capacitors The total inductance of a chip capacitor is determined both by its length to width ratio and by the mutual inductance coupling between its electrodes. Thus a 1210 chip size has a lower inductance than a 1206 chip. This design improvement is the


    Original     		PDF

    LICC

    Abstract: No abstract text available
    Text: Low Inductance Capacitors 0612/0508/0306 LICC Low Inductance Chip Capacitors GENERAL DESCRIPTION The total inductance of a chip capacitor is determined both by its length to width ratio and by the mutual inductance coupling between its electrodes. Thus a 1210 chip size has a lower inductance than a 1206 chip.


    Original     		PDF

    ld18

    Abstract: A0612
    Text: Low Inductance Capacitors SnPb LICC 0612/0508/0306 X7R & X5R Dielectric The total inductance of a chip capacitor is determined both by its length to width ratio and by the mutual inductance coupling between its electrodes. Thus a 1210 chip size has a lower inductance than a 1206 chip. This design improvement is


    Original     		PDF

    Licc avx 0612

    Abstract: No abstract text available
    Text: Low Inductance Capacitors RoHS LICC 0612/0508/0306 X7R & X5R Dielectric The total inductance of a chip capacitor is determined both by its length to width ratio and by the mutual inductance coupling between its electrodes. Thus a 1210 chip size has a lower inductance than a 1206 chip. This design improvement is


    Original     		PDF

    0306 capacitor

    Abstract: LICC ZD105 cap 0306 package
    Text: Low Inductance Capacitors 0612/0508/0306 LICC Low Inductance Chip Capacitors GENERAL DESCRIPTION The total inductance of a chip capacitor is determined both by its length to width ratio and by the mutual inductance coupling between its electrodes. Thus a 1210 chip size has a lower inductance than a 1206 chip. This


    Original     		PDF

    S-LICC10M1101-C

    Abstract: Licc avx 0612 2000 LICC kyocera
    Text: A KYOCERA GROUP COMPANY AVX Low Inductance Capacitors Table of Contents Low Inductance Capacitors Introduction . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . .2-3 Low Inductance Chip Capacitors


    Original     		PDF S-LICC10M1101-C S-LICC10M1101-C Licc avx 0612 2000 LICC kyocera

    IDC0508

    Abstract: Licc avx 0612 bl 0306
    Text: Low Inductance Chip Capacitors AVX's low inductance are designed for high speed IC packages and hybrid circuits. Their aspect ratio and size have been optimized to reduce inductance from the 2 nH range found in normal chip capacitors to less than 0.5 nH. Their low profile 20 mils is ideal for


    Original     		PDF 000pF IDC0508 Licc avx 0612 bl 0306

    Untitled

    Abstract: No abstract text available
    Text: Low Inductance Capacitors Introduction Multiple terminations of a capacitor will also help in reducing the parasitic inductance of the device. The IDC is such a device. By terminating one capacitor with 8 connections the ESL can be reduced even further. The measured inductance


    Original     		PDF

    mlcc AVX

    Abstract: HIGH VOLTAGE MLCC (SURFACE MOUNT)
    Text: Low Inductance Capacitors Introduction The signal integrity characteristics of a Power Delivery Network PDN are becoming critical aspects of board level and semiconductor package designs due to higher operating frequencies, larger power demands, and the ever shrinking


    Original     		PDF 300MHz mlcc AVX HIGH VOLTAGE MLCC (SURFACE MOUNT)

    Untitled

    Abstract: No abstract text available
    Text: Low Inductance Capacitors Introduction Multiple terminations of a capacitor will also help in reducing the parasitic inductance of the device. The IDC is such a device. By terminating one capacitor with 8 connections the ESL can be reduced even further. The measured inductance


    Original     		PDF

    HIGH VOLTAGE MLCC (SURFACE MOUNT)

    Abstract: No abstract text available
    Text: Low Inductance Capacitors Introduction The signal integrity characteristics of a Power Delivery Network PDN are becoming critical aspects of board level and semiconductor package designs due to higher operating frequencies, larger power demands, and the ever shrinking


    Original     		PDF 300MHz HIGH VOLTAGE MLCC (SURFACE MOUNT)

    LD18

    Abstract: Licc avx 0612
    Text: Low Inductance Capacitors Introduction Multiple terminations of a capacitor will also help in reducing the parasitic inductance of the device. The IDC is such a device. By terminating one capacitor with 8 connections the ESL can be reduced even further. The measured inductance


    Original     		PDF

    size 0204 capacitor

    Abstract: LICC low inductance chip capacitor HIGH VOLTAGE MLCC (SURFACE MOUNT)
    Text: Low Inductance Capacitors Introduction The signal integrity characteristics of a Power Delivery Network PDN are becoming critical aspects of board level and semiconductor package designs due to higher operating frequencies, larger power demands, and the ever shrinking


    Original     		PDF 300MHz size 0204 capacitor LICC low inductance chip capacitor HIGH VOLTAGE MLCC (SURFACE MOUNT)

    LD18

    Abstract: LD17
    Text: Low Inductance Capacitors Introduction The signal integrity characteristics of a Power Delivery Network PDN are becoming critical aspects of board level and semiconductor package designs due to higher operating frequencies, larger power demands, and the ever shrinking


    Original     		PDF 300MHz LD18 LD17

    LD18

    Abstract: Capacitor 16v LD17
    Text: Low Inductance Capacitors Introduction The signal integrity characteristics of a Power Delivery Network PDN are becoming critical aspects of board level and semiconductor package designs due to higher operating frequencies, larger power demands, and the ever shrinking


    Original     		PDF 300MHz LD18 Capacitor 16v LD17