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

    MATCHING WITH SMITH CHART Search Results

    MATCHING WITH SMITH CHART Result Highlights (5)

    Part ECAD Model Manufacturer Description Download Buy
    TMPM4GQF15FG Toshiba Electronic Devices & Storage Corporation Arm Cortex-M4 processor with FPU Core Based Microcontroller/32bit/P-LQFP144-2020-0.50-002 Visit Toshiba Electronic Devices & Storage Corporation
    TMPM4GRF20FG Toshiba Electronic Devices & Storage Corporation Arm Cortex-M4 processor with FPU Core Based Microcontroller/32bit/P-LQFP176-2020-0.40-002 Visit Toshiba Electronic Devices & Storage Corporation
    TMPM4KMFWAFG Toshiba Electronic Devices & Storage Corporation Arm Cortex-M4 processor with FPU Core Based Microcontroller/32bit/P-LQFP80-1212-0.50-003 Visit Toshiba Electronic Devices & Storage Corporation
    TMPM4MMFWAFG Toshiba Electronic Devices & Storage Corporation Arm Cortex-M4 processor with FPU Core Based Microcontroller/32bit/P-LQFP80-1212-0.50-003 Visit Toshiba Electronic Devices & Storage Corporation
    TMPM4NQF10FG Toshiba Electronic Devices & Storage Corporation Arm Cortex-M4 processor with FPU Core Based Microcontroller/32bit/P-LQFP144-2020-0.50-002 Visit Toshiba Electronic Devices & Storage Corporation

    MATCHING WITH SMITH CHART Datasheets Context Search

    Catalog Datasheet MFG & Type PDF Document Tags

    APP742

    Abstract: smith chart smith MAX2320 MAX2338 MAX2358 MAX2387 MAX2388 MAX2472 matching with smith chart
    Text: Maxim > App Notes > WIRELESS, RF, AND CABLE Keywords: smith chart, RF, impedance matching, transmission line Jul 22, 2002 APPLICATION NOTE 742 Impedance Matching and the Smith Chart: The Fundamentals Abstract: Tutorial on RF impedance matching using the Smith Chart. Examples are shown plotting reflection


    Original     		PDF MAX2472 900MHz MAX2387: MAX2388: MAX2472: MAX2473: MAX2640: MAX2641: MAX2642: MAX2644: APP742 smith chart smith MAX2320 MAX2338 MAX2358 MAX2387 MAX2388 matching with smith chart

    smith chart

    Abstract: max2640 smith smith MAX2320 MAX2338 MAX2387 MAX2388 MAX2640 MAX2641 MAX2642
    Text: WIRELESS, RF, AND CABLE Application Note 742: Mar 23, 2001 Impedance Matching and the Smith Chart: The Fundamentals Tutorial on RF impedance matching using the Smith Chart. Examples are shown plotting reflection coefficients, impedances and admittances. A sample matching network is designed at 60 MHz using graphical methods.


    Original     		PDF MAX2320: MAX2338: MAX2387: MAX2388: MAX2640: MAX2641: MAX2642: MAX2644: MAX2645: MAX2648: smith chart max2640 smith smith MAX2320 MAX2338 MAX2387 MAX2388 MAX2640 MAX2641 MAX2642

    MAX2320

    Abstract: MAX2338 MAX2358 MAX2472 SIEMENS saw filter Maxim Integrated MAX2640 28 27 app abstract
    Text: Maxim > App Notes > Wireless, RF, and Cable Keywords: smith chart, RF, impedance matching, transmission line Jul 22, 2002 APPLICATION NOTE 742 Impedance Matching and the Smith Chart: The Fundamentals Abstract: Tutorial on RF impedance matching using the Smith chart. Examples are shown plotting reflection


    Original     		PDF MAX2472 900MHz MAX2388: MAX2472: MAX2473: MAX2640: MAX2641: MAX2642: MAX2644: MAX2645: MAX2320 MAX2338 MAX2358 SIEMENS saw filter Maxim Integrated MAX2640 28 27 app abstract

    matching with smith chart

    Abstract: AN-1852 chart AN1852 APP1852 MAX2320 MAX2720 MAX2721 lna 30MHz to 2214
    Text: Maxim > App Notes > WIRELESS, RF, AND CABLE Keywords: lna, rf, rfic, amplifier, stability, power gain, transmission lines, rfics, theory, smith chart, rf ics, radio frequency, amplifiers, low noise amplifier, amps Jan 09, 2003 APPLICATION NOTE 1852 Low-Noise Amplifier Stability Concept to Practical Considerations,


    Original     		PDF com/an1852 MAX2320: MAX2720: MAX2721: AN1852, APP1852, Appnote1852, matching with smith chart AN-1852 chart AN1852 APP1852 MAX2320 MAX2720 MAX2721 lna 30MHz to 2214

    circle surround 2 IC

    Abstract: Using Linvill Techniques LS12 MAX2320 MAX2720 MAX2721 SS11 app abstract
    Text: Maxim > App Notes > WIRELESS, RF, AND CABLE Keywords: lna, rf, rfic, amplifier, stability, power gain, transmission lines, rfics, theory, smith chart, rf ics, radio frequency, amplifiers, low noise amplifier, amps Jan 09, 2003 APPLICATION NOTE 1851 Low-Noise Amplifier Stability Concept to Practical Considerations,


    Original     		PDF com/an1851 MAX2320: MAX2720: MAX2721: AN1851, APP1851, Appnote1851, circle surround 2 IC Using Linvill Techniques LS12 MAX2320 MAX2720 MAX2721 SS11 app abstract

    APP1851

    Abstract: LS12 MAX2320 SS11 s11s
    Text: Maxim > App Notes > Wireless and RF Keywords: lna, rf, rfic, amplifier, stability, power gain, transmission lines, rfics, theory, smith chart, rf ics, radio frequency, amplifiers, low noise amplifier, amps Jan 09, 2003 APPLICATION NOTE 1851 Low-Noise Amplifier Stability Concept to Practical Considerations,


    Original     		PDF MAX2320: com/an1851 AN1851, APP1851, Appnote1851, APP1851 LS12 MAX2320 SS11 s11s

    An Introduction to Broadband Impedance Transformation for RF Power Amplifiers

    Abstract: transistor substitution chart michael hiebel fundamentals of vector analysis broadband impedance transformation smith AN-721 MOTOROLA small signal transistors
    Text: From January 2009 High Frequency Electronics Copyright 2009 Summit Technical Media, LLC High Frequency Design BROADBAND MATCHING An Introduction to Broadband Impedance Transformation for RF Power Amplifiers By Anthony J. Bichler RF Micro Devices, Inc. T


    Original     		PDF AN-721, An Introduction to Broadband Impedance Transformation for RF Power Amplifiers transistor substitution chart michael hiebel fundamentals of vector analysis broadband impedance transformation smith AN-721 MOTOROLA small signal transistors

    slot antenna

    Abstract: matching with smith chart antenna matching calculation Antenna 50 ohms antenna test with network analyzer ferrite antenna transceiver 868 antenna 868 TR1000 TR1001
    Text: ASH Transceiver Antenna Impedance Matching In many low power radio applications, a small physical form factor is required i.e., a RKE transmitter . In such applications a full sized quarter wavelength antenna becomes impractical; the antenna must be shorter. Short antennas usually present a capacitive load,


    Original     		PDF

    ADL5523

    Abstract: ADL5521-EVALZ ADL5521 900MHZ
    Text: 400 MHz – 4000 MHz Low Noise Amplifier ADL5521 Preliminary Technical Data FEATURES Operation from 400 MHz to 4000 MHz Noise figure of 0.8 dB at 900 MHz Including external input match Gain of 20.0 dB at 900 MHz OIP3 of 37.7 dBm at 900 MHz P1dB of 22.0 dBm at 900 MHz


    Original     		PDF ADL5521 ADL5523 ADL5521 061507-B ADL5521ACPZ-R71 ADL5521ACPZ-WP1 ADL5521-EVALZ J-STD-020 ADL5523 ADL5521-EVALZ 900MHZ

    41ga

    Abstract: No abstract text available
    Text: 400 MHz – 4000 MHz Low Noise Amplifier ADL5521 Preliminary Technical Data FEATURES Operation from 400 MHz to 4000 MHz Noise figure of 0.8 dB at 900 MHz Gain of 20.0 dB at 900 MHz OIP3 of 37.7 dBm at 900 MHz P1dB of 22.0 dBm at 900 MHz Integrated bias control circuit


    Original     		PDF ADL5523 ADL5521 ADL5521 ADL5521ACPZ-R71 ADL5521ACPZ-WP1 ADL5521-EVALZ J-STD-020 J-STD-20 41ga

    SIEMENS saw filter

    Abstract: SAW 433MHZ PCB EPCOS B3743 TDA5200 epcos saw epcos filter EPCOS SAW Filters 433mhz SAW 433MHZ
    Text: Application Note SAW-Components Matching of EPCOS front-end SAW filters to integrated RKE receivers App. Note #18 Abstract: Surface Acoustic Wave filters are crucial to improve the performance of Remote Keyless Entry RKE applications. The design of the front-end of RKE receivers is


    Original     		PDF D-81617 TDA520x SIEMENS saw filter SAW 433MHZ PCB EPCOS B3743 TDA5200 epcos saw epcos filter EPCOS SAW Filters 433mhz SAW 433MHZ

    sdd scd s parameter

    Abstract: s1716 Impedance Matching SKY65336 OPT11 2450 MHz low noise amplifier ADS circuit 2450 MHz low noise amplifier ADS schematic microwave transistor siemens including scattering SKY65336-11 S1714
    Text: APPLICATION NOTE Matching Differential Port Devices Introduction Impedance Matching Differential signaling is the primary choice for a low power RF interconnection because it provides superior immunity to noise by offering twice the signal swing for a given supply voltage. The out


    Original     		PDF 01156A sdd scd s parameter s1716 Impedance Matching SKY65336 OPT11 2450 MHz low noise amplifier ADS circuit 2450 MHz low noise amplifier ADS schematic microwave transistor siemens including scattering SKY65336-11 S1714

    y1 diode

    Abstract: ghz Diode 5082-2709 Y4 diode
    Text: Impedance Matching Techniques for Mixers and Detectors Application Note 963 Introduction The use of tables for designing impedance matching filters for real loads is well known [1]. Simple complex loads can often be matched by this technique by incorporating the imaginary portion of the load into


    Original     		PDF MTT-15, y1 diode ghz Diode 5082-2709 Y4 diode

    combiner THEORY

    Abstract: latitude 5962 sa620 datasheet stub tuner matching HP 346B SA621 PHILIPS tuner schematic Dielectric Resonator Oscillator DRO filter 900MHz noise figure IC Ensemble
    Text: INTEGRATED CIRCUITS AN2000 Techniques for optimizing UHF front-end integrated circuits Randall Yogi Philips Semiconductors 1997 Nov 19 Philips Semiconductors Application note Techniques for optimizing UHF front-end integrated circuits AN2000 Author: Randall Yogi


    Original     		PDF AN2000 SA621/SA611 SA621 SA611 800-1000MHz SA621 combiner THEORY latitude 5962 sa620 datasheet stub tuner matching HP 346B PHILIPS tuner schematic Dielectric Resonator Oscillator DRO filter 900MHz noise figure IC Ensemble

    5082-2709

    Abstract: Microwave detector diodes
    Text: Impedance Matching Techniques for Mixers and Detectors Application Note 963 Introduction The use of tables for designing impedance matching filters for real loads is well known [1]. Simple complex loads can often be matched by this technique by incorporating the imaginary portion of the load into


    Original     		PDF MTT-15, 5082-2709 Microwave detector diodes

    copper permittivity

    Abstract: FR4 dielectric constant 2.45GHz SWRA236 permittivity FR 4 transformer calculator p600r CC2500 RF pcb antenna CC2500EM CC2500 dr cc2500 balun 50 ohm
    Text: Application Note AN068 Adapting TI LPRF Reference Designs for Layer Stacking By Rea Schmid Keywords • • • • • • • • 1 • • • • • • • Board Stacking for RF Design VSWR changes with Stacking Bandwidth and Layer Stacking PCB for CC25xx Devices


    Original     		PDF AN068 CC25xx CC24xx, CC25xx copper permittivity FR4 dielectric constant 2.45GHz SWRA236 permittivity FR 4 transformer calculator p600r CC2500 RF pcb antenna CC2500EM CC2500 dr cc2500 balun 50 ohm

    5082-2709

    Abstract: diode detector x band ghz Diode diode 1314
    Text: Impedance Matching Techniques for Mixers and Detectors Application Note 963 Introduction The use of tables for designing impedance matching filters for real loads is well known [1]. Simple complex loads can often be matched by this technique by incorporating the


    Original     		PDF MTT-15, 5952-0496E 5082-2709 diode detector x band ghz Diode diode 1314

    Si446x

    Abstract: No abstract text available
    Text: AN643 Si446x/Si4362 RX LNA Matching 1. Introduction The purpose of this application note is to provide a description of the impedance matching of the RX differential low noise amplifier LNA on the Si446x/Si4362 family of RFICs. It is desired to simultaneously achieve two goals with the matching network:


    Original     		PDF AN643 Si446x/Si4362 Si446x

    Sawtek filters

    Abstract: Saw Filter wlan LC PI FILTER DESIGN sawtek saw filter SAW filters wlan filter Sawtek delay lines Delay Lines saw Sawtek filter
    Text: Sawtek Introduces Two New Filters for Wireless Local Area Networks Winter 1998 Mark Bracewell Sawtek has recently added two new filters to the wireless local area network WLAN filter family. They are part numbers 855392 and 855393. Both parts are designed around the


    Original     		PDF

    tag 8538

    Abstract: Sawtek 855401 855510 Sawtek filter 855401 Sawtek 854666 854370 Sawtek filters 855292 Sawtek 854370
    Text: Wideband CDMA Filters for Wireless Local Loop Applications Spring 1998 Danny King and George Almaalouf Since the advent of the telephone system, copper wire has provided the link in the local loop between the subscriber and the local exchange. Wireline communication systems transport human speech that has


    Original     		PDF

    si4432

    Abstract: Si443x AN427 mathcad Si433X SI4432-V2
    Text: AN427 EZRADIOPRO Si433X & Si443X RX LNA MATCHING 1. Introduction The purpose of this application note is to provide a description of the impedance matching of the RX differential low noise amplifier LNA on the Si433x and Si443x family of RFICs. We desire to simultaneously achieve two goals with the matching network:


    Original     		PDF AN427 Si433X Si443X Si433x si4432 AN427 mathcad SI4432-V2

    2n3478

    Abstract: RF Transistor s-parameter
    Text: Test & Measurement Application Note 95-1 H S-Parameter Techniques for Faster, More Accurate Network Design http://www.hp.com/go/tmappnotes H Contents 1. Foreword and Introduction 2. Two-Port Network Theory 3. Using S-Parameters 4. Network Calculations with Scattering Parameters


    Original     		PDF

    Untitled

    Abstract: No abstract text available
    Text: AMCA Series - Multilayer Chip Antenna Application Note AMCA31, AMCA52, AMCA62, AMCA72, AMCA81, & AMCA92 Series Abracon Drawing # 453782 Date of Issue: 10/16/13 Page 1 of (16) Revision #: Initial Release Source Control Drawing AMCA Series – Multilayer Chip Antenna


    Original     		PDF AMCA31, AMCA52, AMCA62, AMCA72, AMCA81, AMCA92

    Untitled

    Abstract: No abstract text available
    Text: The care and feeding of High Speed Dividers AN178 Circuit design and layout for high spaed dividers operating at frequencies up to 5GHz owe much more to analog RF design techniques than normal digital ones and the limitations on flexibility and component choice Inherent in UHF RF design


    OCR Scan     		PDF AN178