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    RF TRANSISTORS AMPLIFIER DESIGN AND MATCHING NETWORK Search Results

    RF TRANSISTORS AMPLIFIER DESIGN AND MATCHING NETWORK Result Highlights (5)

    Part ECAD Model Manufacturer Description Download Buy
    TC75S102F Toshiba Electronic Devices & Storage Corporation Operational Amplifier, 1.5V to 5.5V, I/O Rail to Rail, IDD=0.27μA, SOT-25 Visit Toshiba Electronic Devices & Storage Corporation
    TTC5886A Toshiba Electronic Devices & Storage Corporation NPN Bipolar Transistor / hFE=400~1000 / VCE(sat)=0.22V / tf=120ns Visit Toshiba Electronic Devices & Storage Corporation
    TTA2097 Toshiba Electronic Devices & Storage Corporation PNP Bipolar Transistor / hFE=200~500 / VCE(sat)=-0.27V / tf=60ns Visit Toshiba Electronic Devices & Storage Corporation
    XPQR8308QB Toshiba Electronic Devices & Storage Corporation N-ch MOSFET, 80 V, 350 A, 0.00083 Ω@10V, L-TOGL Visit Toshiba Electronic Devices & Storage Corporation
    XPQ1R00AQB Toshiba Electronic Devices & Storage Corporation N-ch MOSFET, 100 V, 300 A, 0.00103 Ω@10V, L-TOGL Visit Toshiba Electronic Devices & Storage Corporation

    RF TRANSISTORS AMPLIFIER DESIGN AND MATCHING NETWORK Datasheets Context Search

    Catalog Datasheet MFG & Type Document Tags PDF

    transistor j326

    Abstract: AN1530 TRANSISTOR D 1978 MRF898 uhf amplifier design Transistor Inside the RF Power Transistor broad-band Microwave Class-C Transistor Amplifiers Nippon capacitors
    Text: MOTOROLA Freescale Semiconductor, Inc. Order this document by AN1530/D SEMICONDUCTOR APPLICATION NOTE AN1530 Motorola Advanced Amplifier Concept Package Prepared by: Alan Wood Motorola Semiconductor Products Sector Freescale Semiconductor, Inc. ABSTRACT


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    AN1530/D AN1530 transistor j326 AN1530 TRANSISTOR D 1978 MRF898 uhf amplifier design Transistor Inside the RF Power Transistor broad-band Microwave Class-C Transistor Amplifiers Nippon capacitors PDF

    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.


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    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 PDF

    NTC 220-11

    Abstract: PHILIPS TRANSMITTING BIPOLAR Philips Semiconductors Small-signal Transistors Selection guide
    Text: Philips Semiconductors RF transmitting transistor and power amplifier fundamentals 1 Transmitting transistor design transistors are suitable, see panel, and Philips Semiconductors’ portfolio includes both types. Their relative merits are summarized later in this section. First,


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    transisto25-735. NTC 220-11 PHILIPS TRANSMITTING BIPOLAR Philips Semiconductors Small-signal Transistors Selection guide PDF

    Philips Application Note ECO6907

    Abstract: AN98032 BD135 CURVES ECO7703 BD136 SMD TRANSISTOR COE82101 bd136 equivalent mosfet HF amplifier AN98030 HF power amplifier blf177
    Text: Philips Semiconductors RF transmitting transistor and power amplifier fundamentals 3 Power amplifier design POWER AMPLIFIER DESIGN NOTE TO SECTION 3 3.1 Classes of operation and biasing 3.1.1 For clarity in equations, identifiers such as R1, +jB2, −jX3 in drawings are written as


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    Untitled

    Abstract: No abstract text available
    Text: RF Amplifier Design Using HFA3046, HFA3096, HFA3127, HFA3128 Transistor Arrays Application Note November 1996 Introduction [ /Title AN93 15.1 /Subject (RF Amplifier Design Using HFA30 46, HFA30 96, HFA31 27, HFA31 28 Transistor Arrays ) /Autho r () /Keywords


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    HFA3046, HFA3096, HFA3127, HFA3128 AN9315 HFA30 HFA31 HFA3046/3096/3127/3128 PDF

    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.


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    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 PDF

    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


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    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 PDF

    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.


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    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 PDF

    shunt reactor

    Abstract: 2n6083 an721 AN721 AN7212 AN7218 Design of H. F. Wideband Power Transformers 2N5642 2N6083 AN267 AN282A
    Text: Freescale Semiconductor Application Note AN721 Rev. 1, 10/2005 NOTE: The theory in this application note is still applicable, but some of the products referenced may be discontinued. Impedance Matching Networks Applied to RF Power Transistors By: B. Becciolini


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    AN721 shunt reactor 2n6083 an721 AN721 AN7212 AN7218 Design of H. F. Wideband Power Transformers 2N5642 2N6083 AN267 AN282A PDF

    AN721

    Abstract: EE3990 118-136 mhz AN282A Design of H. F. Wideband Power Transformers 2N6083 broadband impedance transformation 2N5642 shunt reactor Motorola 2N6083
    Text: Order this document by AN721/D MOTOROLA SEMICONDUCTOR APPLICATION NOTE AN721 IMPEDANCE MATCHING NETWORKS APPLIED TO RF POWER TRANSISTORS Prepared by: B. Becciolini 1. INTRODUCTION LS Some graphic and numerical methods of impedance matching will be reviewed here. The examples given will refer


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    AN721/D AN721 AN721 EE3990 118-136 mhz AN282A Design of H. F. Wideband Power Transformers 2N6083 broadband impedance transformation 2N5642 shunt reactor Motorola 2N6083 PDF

    2N6083

    Abstract: AN721/D Diode jx4 2N5642 AN721 MTT-19 Motorola 2N6083 motorola an721 application 2n6083 an721 AN282A
    Text: Order this document by AN721/D MOTOROLA SEMICONDUCTOR APPLICATION NOTE AN721 IMPEDANCE MATCHING NETWORKS APPLIED TO RF POWER TRANSISTORS Prepared by: B. Becciolini 1. INTRODUCTION LS Some graphic and numerical methods of impedance matching will be reviewed here. The examples given will refer


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    AN721/D AN721 2N6083 AN721/D Diode jx4 2N5642 AN721 MTT-19 Motorola 2N6083 motorola an721 application 2n6083 an721 AN282A PDF

    Dual Long-Tailed Pair Transistor Array

    Abstract: gilbert cell differential pair pnp 8 transistor array pnp array AN9744 HFA3046 HFA3096 HFA3101 HFA3102 HFA3127
    Text: Harris Semiconductor No. AN9744 Harris Linear July 1997 RF Up/Down Conversion Is Simplified By Linear Arrays Author: Ronald Mancini Linear Arrays Have Advantages Over Discrete Transistors tional transistors cost little because they take little space on the same piece of silicon. This multistage circuit configurations can be employed with linear arrays at a small additional


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    AN9744 1-800-4-HARRIS Dual Long-Tailed Pair Transistor Array gilbert cell differential pair pnp 8 transistor array pnp array AN9744 HFA3046 HFA3096 HFA3101 HFA3102 HFA3127 PDF

    gilbert cell differential pair

    Abstract: HFA3101 pnp 8 transistor array 5.1 transistor amplifier circuit diagram AN9744 974-4 Transistor Array differential amplifier NPN PNP Transistor Arrays HFA3046 HFA3096
    Text: RF Up/Down Conversion Is Simplified By Linear Arrays Application Note June 2004 Linear Arrays Have Advantages Over Discrete Transistors R4 100Ω R1 2kΩ Q4 Q5 R2 15kΩ RF 240Ω R3 1kΩ C1 1nF RS 50Ω VS 5V - L1 1µH VO Q2 C2 1nF + C3 1nF RL 50Ω


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    HFA3101 gilbert cell differential pair HFA3101 pnp 8 transistor array 5.1 transistor amplifier circuit diagram AN9744 974-4 Transistor Array differential amplifier NPN PNP Transistor Arrays HFA3046 HFA3096 PDF

    HFA3101

    Abstract: sot36 transistor arrays 5v AN9744 Transistor Arrays NPN General Purpose Transistor gilbert cell differential pair
    Text: RF Up/Down Conversion Is Simplified By Linear Arrays Application Note July 1997 AN9744 Linear Arrays Have Advantages Over Discrete Transistors [ RF RS RL - VS RE FIGURE 1. DISCRETE TRANSISTOR AMPLIFIER The multistage transistor amplifier design shown in Figure 2


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    AN9744 HFA3101 sot36 transistor arrays 5v AN9744 Transistor Arrays NPN General Purpose Transistor gilbert cell differential pair PDF

    AN9744

    Abstract: gilbert cell differential pair GILBERT CELL HFA3101 an-9744 Silicon Bipolar Transistor Q6 sot36 9744 pnp 8 transistor array HFA3046
    Text: RF Up/Down Conversion Is Simplified By Linear Arrays Application Note July 1997 AN9744 Linear Arrays Have Advantages Over Discrete Transistors RF RS RL - VS RE FIGURE 1. DISCRETE TRANSISTOR AMPLIFIER The multistage transistor amplifier design shown in Figure 2


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    AN9744 HFA3101 AN9744 gilbert cell differential pair GILBERT CELL an-9744 Silicon Bipolar Transistor Q6 sot36 9744 pnp 8 transistor array HFA3046 PDF

    9744

    Abstract: 974-4 AN9744 gilbert cell 5.1 transistor amplifier circuit diagram HFA3127 PNP Transistor Arrays Intersil gilbert cell differential pair HFA3046 HFA3102
    Text: RF Up/Down Conversion Is Simplified By Linear Arrays TM Application Note July 1997 Linear Arrays Have Advantages Over Discrete Transistors Q5 C1 1nF 5V - L1 1µH VO Q2 C3 1nF RL 50Ω RE 5.1Ω - + VS + FIGURE 2. MULTISTAGE TRANSISTOR AMPLIFIER The advantages of linear arrays over discrete transistors are


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    motorola rf Power Transistor

    Abstract: transistor equivalent table chart 2N6256 AN282A 2N3948 transistor equivalent table AN548A 2N5849 motorola RF Transistor Selection 2N5849
    Text: Order this document by AN282A/D MOTOROLA SEMICONDUCTOR APPLICATION NOTE AN282A SYSTEMIZING RF POWER AMPLIFIER DESIGN Prepared by: Roy Hejhall INTRODUCTION Two of the most popular RF small signal design techniques are: 1. the use of two port parameters, and


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    AN282A/D AN282A mid-1960 motorola rf Power Transistor transistor equivalent table chart 2N6256 AN282A 2N3948 transistor equivalent table AN548A 2N5849 motorola RF Transistor Selection 2N5849 PDF

    MFRC52x

    Abstract: AN166510 - Amplifier antenna matching calculation RFSim99 antenna matching 13,56 mhz calculation AN10893 13.56MHZ RFID nxp nxp proximity antenna design antenna matching calculation NXP antenna design guide 13.56 power amplifier nxp
    Text: AN10893 RF Amplifier for NXP contactless MFRC52x Rev. 1.0 — 4 November 2009 182010 Application note PUBLIC Document information Info Content Keywords RFID, Antenna Design, RF Amplifier, Antenna Matching, contactless reader Abstract This application notes provides guidance on antenna and RF amplifier


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    AN10893 MFRC52x MFRC52x. AN10893 MFRC52x AN166510 - Amplifier antenna matching calculation RFSim99 antenna matching 13,56 mhz calculation 13.56MHZ RFID nxp nxp proximity antenna design antenna matching calculation NXP antenna design guide 13.56 power amplifier nxp PDF

    RFSim99

    Abstract: nfc antenna design guide nfc antenna nfc pcb antenna AN166510 nfc antenna design AN166510 - Amplifier antenna matching calculation AN142522 nxp nfc nfc antenna matching
    Text: AN142522 RF Amplifier for NXP Contactless NFC Reader IC's Rev. 2.2 — 25 November 2008 Application note Document information Info Content Keywords RFID, Antenna Design, RF Amplifier, Antenna Matching, contactless reader, NFC Abstract This application notes provides guidance on antenna and RF amplifier


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    AN142522 MFRC52x. RFSim99 nfc antenna design guide nfc antenna nfc pcb antenna AN166510 nfc antenna design AN166510 - Amplifier antenna matching calculation AN142522 nxp nfc nfc antenna matching PDF

    Rethinking The Role Of pHEMT Cascode Amplifiers In RF Design

    Abstract: No abstract text available
    Text: Guest Column | February 10, 2014 Rethinking The Role Of pHEMT Cascode Amplifiers In RF Design By Alan Ake, Skyworks Solutions, Inc. I consider myself fortunate that, as a fresh-out-of-school EE, I was able to start my electrical engineering career designing radio frequency RF front ends for what are now antiquated one-way


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    1990s, Rethinking The Role Of pHEMT Cascode Amplifiers In RF Design PDF

    article.

    Abstract: UHF Amplifier Design Using Coaxial Transformers simulation files NONLINEAR MODEL LDMOS
    Text: From May 2003 High Frequency Electronics Copyright 2003 Summit Technical Media, LLC High Frequency Design BROADBAND DESIGN Broadband VHF/UHF Amplifier Design Using Coaxial Transformers By C. G. Gentzler and S.K. Leong Polyfet RF Devices T he desire of the


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    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


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    amplifier siemens sot-363

    Abstract: dc to 3 ghz lna application circuits SOT343 C5 BGA425 SIEGET-25 T505 BGA420 dc to 3 ghz lna amplifier application circuits C4 to BGA bga 100 PACKAGE footprint
    Text: Discrete semiconductors Silicon MMICs with stable 50 ⍀ matching right up to 3 GHz One and two-stage silicon MMICs based on SIEGET -25 technology are now available with completely stable 50 ⍀ impedance matching over the entire frequency range up to 3 GHz. Excellent noise and gain


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    SIEGET-25 amplifier siemens sot-363 dc to 3 ghz lna application circuits SOT343 C5 BGA425 T505 BGA420 dc to 3 ghz lna amplifier application circuits C4 to BGA bga 100 PACKAGE footprint PDF

    BROADBAND TRANSFORMERS AND POWER

    Abstract: erie redcap capacitors MRF317 LINEAR RF AMPLIFIER C band FET transistor s-parameters AN878 MRF317 linear amplifier MRF317 LINEAR RF BOARD erie redcap "common drain" amplifier impedance matching Arco 403
    Text: Order this document by AN878/D MOTOROLA SEMICONDUCTOR APPLICATION NOTE AN878 VHF MOS POWER APPLICATIONS Prepared by: Roy Hejhall Sr. Staff Engineer INTRODUCTION The assumption is made that the reader is familiar with the types, construction, and electrical characteristics of


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    AN878/D AN878 BROADBAND TRANSFORMERS AND POWER erie redcap capacitors MRF317 LINEAR RF AMPLIFIER C band FET transistor s-parameters AN878 MRF317 linear amplifier MRF317 LINEAR RF BOARD erie redcap "common drain" amplifier impedance matching Arco 403 PDF