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    FR4 SUBSTRATE EPOXY DIELECTRIC CONSTANT 4.5 Search Results

    FR4 SUBSTRATE EPOXY DIELECTRIC CONSTANT 4.5 Result Highlights (5)

    Part ECAD Model Manufacturer Description Download Buy
    F2923EVBI Renesas Electronics Corporation Evaluation Board for F2923 SP2T with Constant Impedance, K|z| Visit Renesas Electronics Corporation
    F2923NCGI Renesas Electronics Corporation Constant Impedance K|z| SP2T RF Switch Visit Renesas Electronics Corporation
    F2923NCGI8 Renesas Electronics Corporation Constant Impedance K|z| SP2T RF Switch Visit Renesas Electronics Corporation
    72V8985JG Renesas Electronics Corporation 256 x 256 TSI, 8 I/O at 2Mbps, Variable/Constant Delay, 3.3V Visit Renesas Electronics Corporation
    72V70180PF Renesas Electronics Corporation 128 x 128 TSI, 4 I/O at 2Mbps, Variable/Constant Delay, 3.3V Visit Renesas Electronics Corporation

    FR4 SUBSTRATE EPOXY DIELECTRIC CONSTANT 4.5 Datasheets Context Search

    Catalog Datasheet MFG & Type PDF Document Tags

    FR4 epoxy dielectric constant 4.4

    Abstract: FR4 substrate with dielectric constant 4.4 PCB Rogers RO4003 substrate FR4 substrate epoxy dielectric constant 4.4 FR4 substrate epoxy dielectric constant 4.6 ro4003 FR4 dielectric constant 4.3 FR4 4.9 dielectric constant FR4 dielectric constant 4.6 RO3003
    Text: HF Transmission Introduction This document deals with HF Transmission issues in high-speed and broadband applications using Atmel ADCs and DACs. It stresses the hardware choices to be made to reach an optimum tradeoff between high-speed, broadband performances and system


    Original     		PDF 352A-BDC-10/03 FR4 epoxy dielectric constant 4.4 FR4 substrate with dielectric constant 4.4 PCB Rogers RO4003 substrate FR4 substrate epoxy dielectric constant 4.4 FR4 substrate epoxy dielectric constant 4.6 ro4003 FR4 dielectric constant 4.3 FR4 4.9 dielectric constant FR4 dielectric constant 4.6 RO3003

    loss tangent of FR4

    Abstract: FR4 dielectric constant 4.9 FR4 4.9 dielectric constant FR4 substrate epoxy dielectric constant 4.5 velocity of propagation of FR4 hyperlynx FR4 microstrip stub loss tangent of teflon AN-905 AN-971
    Text: National Semiconductor Application Note 1035 Syed B. Huq August 1996 INTRODUCTION Technology advances has generated devices operating at clock speeds exceeding 100 MHz. With higher clock rates and pico seconds edge rate devices, PCB interconnects act as transmission lines and should be treated as such. Reflections due to mismatched impedance, cross-talk, die-electric


    Original     		PDF an012619 loss tangent of FR4 FR4 dielectric constant 4.9 FR4 4.9 dielectric constant FR4 substrate epoxy dielectric constant 4.5 velocity of propagation of FR4 hyperlynx FR4 microstrip stub loss tangent of teflon AN-905 AN-971

    fbga Substrate design guidelines

    Abstract: FR4 substrate epoxy dielectric constant 4.4 FR4 substrate with dielectric constant 4.4 relative permittivity of fr4 FR4 epoxy dielectric constant 4.2 FR4 4.9 dielectric constant FR4 epoxy dielectric constant 4.4 FR4 dielectric constant 4.9 FR4 dielectric constant and loss tangent at 2.4 G EP2S15
    Text: Section VI. PCB Layout Guidelines This section provides information for board layout designers to successfully layout their boards for Stratix II devices. These chapters contain the required PCB layout guidelines and package specifications. This section contains the following chapters:


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    Inductor 0.5 nH X-BAND

    Abstract: 8481A HT2 material smd diode F6 limiter schematics smd diode ED HSMP-3823 6 GHz SMD PIN diode avago SMD Diode F3 FR4 epoxy dielectric constant 4.4 copper half oz
    Text: Low Cost Surface Mount Power Limiters Application Note 1050 Abstract Many receivers are often at risk of having their front ends burned out by high power RF and microwave stray signals. This paper presents practical design techniques for low cost power limiters operating at frequencies below 2


    Original     		PDF 5091-4931E Inductor 0.5 nH X-BAND 8481A HT2 material smd diode F6 limiter schematics smd diode ED HSMP-3823 6 GHz SMD PIN diode avago SMD Diode F3 FR4 epoxy dielectric constant 4.4 copper half oz

    FR4 epoxy dielectric constant 4.2

    Abstract: FR4 epoxy dielectric constant 4.4 permittivity FR 4 PCB JTAG series termination resistors FR4 substrate with dielectric constant 4.4 FR4 substrate epoxy dielectric constant 4.4 permittivity FR 4 permittivity FR 4 Printed circuit board FR4 dielectric constant and loss tangent at 2.4 G FR4 epoxy dielectric constant 4.4 copper half oz
    Text: 11. High-Speed Board Layout Guidelines SII52012-1.4 Introduction Printed circuit board PCB layout becomes more complex as device pin density and system frequency increase. A successful high-speed board must effectively integrate devices and other elements while avoiding


    Original     		PDF SII52012-1 FR4 epoxy dielectric constant 4.2 FR4 epoxy dielectric constant 4.4 permittivity FR 4 PCB JTAG series termination resistors FR4 substrate with dielectric constant 4.4 FR4 substrate epoxy dielectric constant 4.4 permittivity FR 4 permittivity FR 4 Printed circuit board FR4 dielectric constant and loss tangent at 2.4 G FR4 epoxy dielectric constant 4.4 copper half oz

    5082-3071

    Abstract: 8481A waveguide circulator pin diode limiter 3 ghz 1 watt smd diode F6 HSMP-3820 HSMP-3823 HSMP-3824 HSMP-382X HSMP4820
    Text: Low Cost Surface Mount Power Limiters Application Note 1050 Abstract Many receivers are often at risk of having their front ends burned out by high power RF and microwave stray signals. This paper presents practical design techniques for low cost power limiters operating at


    Original     		PDF

    FR4 dielectric constant and loss tangent at 2.4 G

    Abstract: loss tangent of FR4 JTAG series termination resistors FR4 substrate with dielectric constant 4 FR4 substrate epoxy dielectric constant 4.4 FR4 epoxy dielectric permittivity FR 4 PCB permittivity FR 4 FR4 epoxy dielectric constant 3.2 Dielectric constant FR4
    Text: High-Speed Board Layout Guidelines September 2003, ver. 1.1 Introduction Application Note 224 As both device pin density and system frequency increase, printed circuit board PCB layout becomes more complex. A successful high-speed board must effectively integrate the devices and other elements while


    Original     		PDF

    FR4 dielectric constant and loss tangent at 2.4 G

    Abstract: FR4 substrate epoxy dielectric constant 4.4 FR4 epoxy dielectric constant 3.2 FR4 substrate with dielectric constant 4.4 JTAG series termination resistors FR4 epoxy dielectric constant 4.4 FR4 epoxy dielectric constant 4.4 copper half oz FR4 epoxy dielectric constant 4.2
    Text: High-Speed Board Layout Guidelines November 2002, ver. 1.0 Introduction Application Note 224 As both device pin density and system frequency increase, printed circuit board PCB layout becomes more complex. A successful high-speed board must effectively integrate the devices and other elements while


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    FR4 epoxy dielectric constant 3.2

    Abstract: FR4 epoxy dielectric constant 4.2 relative permittivity copper FR4 substrate epoxy dielectric constant 4.4 permittivity FR 4 FR4 dielectric constant and loss tangent at 2.4 G
    Text: High-Speed Board Layout Guidelines August 2009, ver. 1.2 Introduction Application Note 224 As both device pin density and system frequency increase, printed circuit board PCB layout becomes more complex. A successful high-speed board must effectively integrate the devices and other elements while


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    900mhz-1800mhz rf frequency amplifier circuit

    Abstract: PNP UHF transistor HFA3046 uhf transistor amplifier complementary npn-pnp PNP transistor 263 NPN transistor mhz s-parameter silicon bipolar transistor rf power amplifier UHF pnp transistor HFA3096
    Text: Harris Semiconductor No. AN9315.1 Harris Linear November 1996 RF Amplifier Design Using HFA3046, HFA3096, HFA3127, HFA3128 Transistor Arrays Author: Sang-Gug Lee Introduction HFA3046 This application note is focused on exploiting the RF design capabilities of HFA3046/3096/3127/3128 transistor arrays.


    Original     		PDF AN9315 HFA3046, HFA3096, HFA3127, HFA3128 HFA3046 HFA3046/3096/3127/3128 800MHz 2500MHz) 10MHz 900mhz-1800mhz rf frequency amplifier circuit PNP UHF transistor HFA3046 uhf transistor amplifier complementary npn-pnp PNP transistor 263 NPN transistor mhz s-parameter silicon bipolar transistor rf power amplifier UHF pnp transistor HFA3096

    FR4 epoxy dielectric constant 4.4

    Abstract: Beta Transformer Technology RO4003 HP8665 HP lvds connector 40 pin to 30 pin to 7 pin isolated four voltages out power supply schematic CQFP68 HP16500C MC100EL16 TS8388BF
    Text: DESCRIPTION The TSEV8388BFS Evaluation Board EB is a prototype board which has been designed in order to facilitate the evaluation and the characterization of the TS8388BF device (in CQFP68) up to its 1.5 GHz full power bandwidth at up to 1 Gsps in the military temperature range.


    Original     		PDF TSEV8388BFS TS8388BF CQFP68) TSEV8388BFS FR4 epoxy dielectric constant 4.4 Beta Transformer Technology RO4003 HP8665 HP lvds connector 40 pin to 30 pin to 7 pin isolated four voltages out power supply schematic CQFP68 HP16500C MC100EL16

    CITS25

    Abstract: FR4 epoxy dielectric constant 4.2 Gore eye opener FR4 microstrip stub DXSN2112 mictor connector layout guideline ORLI10G ORSO42G5 ORSO82G5 ORT42G5
    Text: High-Speed PCB Design Considerations February 2004 Technical Note TN1033 Introduction The backplane is the physical interconnection where typically all electrical modules of a system converge. Complex systems rely on the wires, traces, and connectors of the backplane to handle large amounts of data at high speeds.


    Original     		PDF TN1033 ORT8850H/L ORLI10G ORT82G5, Si6000b ORT82G5 TN1027 ORT42G5 ORSO82G5 CITS25 FR4 epoxy dielectric constant 4.2 Gore eye opener FR4 microstrip stub DXSN2112 mictor connector layout guideline ORSO42G5

    Nelco 4000-13

    Abstract: MEGTRON 6 370HR isola 370HR Nelco 4000-13 si Isola FR406 Rogers 4350B stackup 4000-13EP FR4 Prepreg
    Text: PCB Stackup Design Considerations for Altera FPGAs AN-613-1.0 Application Note This application note presents an overview of the PCB stackup construction and material selection criteria. It discusses the important material parameters that influence the electrical


    Original     		PDF AN-613-1 Mil-Std-275E) Nelco 4000-13 MEGTRON 6 370HR isola 370HR Nelco 4000-13 si Isola FR406 Rogers 4350B stackup 4000-13EP FR4 Prepreg

    rf transistors amplifier design and matching network

    Abstract: silicon bipolar transistor low noise amplifier bipolar transistor ghz s-parameter intersil AN1503 PNP transistor 263 AN1503 ISL73096RH ISL73127RH ISL73128RH 6 "transistor arrays" ic
    Text: Application Note 1503 RF Amplifier Design Using ISL73096RH, ISL73127RH, ISL73128RH Transistor Arrays Introduction ISL73096RH This application note is focused on exploiting the RF design capabilities of ISL73096RH/ISL73127RH/ ISL73128RH transistor arrays. Detailed design


    Original     		PDF ISL73096RH, ISL73127RH, ISL73128RH ISL73096RH ISL73096RH/ISL73127RH/ 800MHz 2500MHz) 10MHz 600MHz rf transistors amplifier design and matching network silicon bipolar transistor low noise amplifier bipolar transistor ghz s-parameter intersil AN1503 PNP transistor 263 AN1503 ISL73096RH ISL73127RH 6 "transistor arrays" ic

    900mhz-1800mhz rf frequency amplifier circuit

    Abstract: uhf amplifier design Transistor PNP Transistor Arrays Intersil PNP transistor 263 HFA3046 HFA3096 HFA3127 HFA3128 SOI series shunt
    Text: RF Amplifier Design Using HFA3046, HFA3096, HFA3127, HFA3128 Transistor Arrays TM Application Note November 1996 Introduction AN9315.1 HFA3046 This application note is focused on exploiting the RF design capabilities of HFA3046/3096/3127/3128 transistor arrays.


    Original     		PDF HFA3046, HFA3096, HFA3127, HFA3128 AN9315 HFA3046 HFA3046/3096/3127/3128 800MHz 2500MHz) 10MHz 900mhz-1800mhz rf frequency amplifier circuit uhf amplifier design Transistor PNP Transistor Arrays Intersil PNP transistor 263 HFA3046 HFA3096 HFA3127 SOI series shunt

    Q545

    Abstract: SOI series shunt rf transistors amplifier design and matching network HFA3046 HFA3096 HFA3127 HFA3128 high gain PNP RF TRANSISTOR TRANSISTOR noise figure measurements amplifier TRANSISTOR 12 GHZ
    Text: RF Amplifier Design Using HFA3046, HFA3096, HFA3127, HFA3128 Transistor Arrays Application Note November 1996 Introduction AN9315.1 HFA3046 This application note is focused on exploiting the RF design capabilities of HFA3046/3096/3127/3128 transistor arrays.


    Original     		PDF HFA3046, HFA3096, HFA3127, HFA3128 AN9315 HFA3046 HFA3046/3096/3127/3128 800MHz 2500MHz) 10MHz Q545 SOI series shunt rf transistors amplifier design and matching network HFA3046 HFA3096 HFA3127 high gain PNP RF TRANSISTOR TRANSISTOR noise figure measurements amplifier TRANSISTOR 12 GHZ

    FR4 epoxy dielectric constant 4.4

    Abstract: HP16500C MC100EL16 RO4003 TS8308500 TSEV8308500G HP8665 HP8663 BGA72
    Text: DESCRIPTION The TSEV8308500G Evaluation Board EB is a prototype board which has been designed in order to facilitate the evaluation and the characterization of the TS8308500 device (in CBGA72) up to its 1.3 GHz full power bandwidth at up to 500 Msps in the extended temperature range.


    Original     		PDF TSEV8308500G TS8308500 CBGA72) TSEV8308500G FR4 epoxy dielectric constant 4.4 HP16500C MC100EL16 RO4003 HP8665 HP8663 BGA72

    FR4 epoxy dielectric constant 4.4

    Abstract: FR4 epoxy dielectric constant 4.2 FR4 substrate epoxy dielectric constant 4.6 DIODE K9 FR4 dielectric constant 4.6 ro4003 datasheet MC100EL16 RO4003 TS8388BG TSEV8388BG
    Text: DESCRIPTION The TSEV8388BG Evaluation Board EB is a prototype board which has been designed in order to facilitate the evaluation and the characterization of the TS8388BG device (in CBGA72) up to its 1.8 GHz full power bandwidth at up to 1 Gsps in the extended temperature range.


    Original     		PDF TSEV8388BG TS8388BG CBGA72) FR4 epoxy dielectric constant 4.4 FR4 epoxy dielectric constant 4.2 FR4 substrate epoxy dielectric constant 4.6 DIODE K9 FR4 dielectric constant 4.6 ro4003 datasheet MC100EL16 RO4003

    FR4 substrate epoxy dielectric constant 4.4

    Abstract: FR4 epoxy dielectric constant 4.4 FR4 substrate epoxy dielectric constant 4.6 MC100EL16 RO4003 TS8308500 TS8308500GL TSX8308500GL meander line PCB
    Text: ADC 8-bit 500 Msps TSEV8308500 Evaluation Board . User Guide Table of Contents Section 1 Overview . 1-1


    Original     		PDF TSEV8308500 TSEV8308500 2165C FR4 substrate epoxy dielectric constant 4.4 FR4 epoxy dielectric constant 4.4 FR4 substrate epoxy dielectric constant 4.6 MC100EL16 RO4003 TS8308500 TS8308500GL TSX8308500GL meander line PCB

    ic 74244

    Abstract: 74244 BUFFER IC u28 hall MT48LC16M16A2-75 FR4 dielectric constant and loss tangent at 2.4 G function pin configuration ic 74244 ic 74244 datasheet 74244 ic AN2536 data sheet ic 74244
    Text: Freescale Semiconductor Application Note Document Number: AN2536 Rev. 2, 04/2006 High Speed Layout Design Guidelines MC9328MX1, MC9328MXL, and MC9328MXS 1 Contents Abstract Design of memory systems becomes more complex as the operation frequency increases in a low-power


    Original     		PDF AN2536 MC9328MX1, MC9328MXL, MC9328MXS PC100 ic 74244 74244 BUFFER IC u28 hall MT48LC16M16A2-75 FR4 dielectric constant and loss tangent at 2.4 G function pin configuration ic 74244 ic 74244 datasheet 74244 ic AN2536 data sheet ic 74244

    MT48LC16M16A2-75

    Abstract: u28 hall ic 74244 74244 ic MT28S4M16LC-10 function pin configuration ic 74244 74244 permittivity FR 4 MC9328MX1 182PF
    Text: Freescale Semiconductor, Inc. Application Note AN2536/D Rev. 0, 07/2003 MC9328MX1/MXL HighSpeed Layout Design Guidelines Freescale Semiconductor, Inc. Contents 1 Introduction . . . . . . . . . 1 2 Design consideration . . 1 2.1 Board material effect . . 1


    Original     		PDF AN2536/D MC9328MX1/MXL MC9328MX1 MT48LC16M16A2-75 u28 hall ic 74244 74244 ic MT28S4M16LC-10 function pin configuration ic 74244 74244 permittivity FR 4 182PF

    Nordmende

    Abstract: Funkamateur Kathrein Antennas ECC85 TBA810 AMPLIFIER TBA810 Kathrein LFPAK package 5 ferrite rod antenna SiC PIN diode Pspice model
    Text: Appendix RF Manual 7th edition November 2005 date of release: November 2005 document order number: 9397 750 15371 Contents 1. Thermal design considerations for SMD discretes . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . 4 1.1 Introduction . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . .4


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    MEGTRON 6

    Abstract: AN-672
    Text: Transceiver Link Design Guidelines for High-Gbps Data Rate Transmission 2013.02.15 AN-672 Subscribe Feedback As transceiver data rates increase and the unit interval time UI decrease, the end-to-end link design of a transceiver channel becomes increasingly critical to the overall performance of the link. Consider an Altera


    Original     		PDF AN-672 100-Gpbs CEI-25G-LR CEI-28G-VSR. CEI-28G-VSR MEGTRON 6 AN-672

    FR4 epoxy dielectric constant 4.4

    Abstract: FR4 epoxy dielectric constant 4.2 FR4 epoxy pcb double sided CQFP68 HP16500C MC100EL16 RO4003 TS8388BF TSEV8388BF TSEV8388BFS
    Text: DESCRIPTION The TSEV8388BF Evaluation Board EB is a prototype board which has been designed in order to facilitate the evaluation and the characterization of the TS8388BF device (in CQFP68) up to its 1.5 GHz full power bandwidth at up to 1 Gsps in the military temperature range.


    Original     		PDF TSEV8388BF TS8388BF CQFP68) TSEV8388BF FR4 epoxy dielectric constant 4.4 FR4 epoxy dielectric constant 4.2 FR4 epoxy pcb double sided CQFP68 HP16500C MC100EL16 RO4003 TSEV8388BFS