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Part ECAD Model Manufacturer Description Datasheet Download Buy Part
LTC5582HDD#PBF LTC5582HDD#PBF ECAD Model Analog Devices Inc 40MHz to 10GHz RMS Power Detector with 57dB Dynamic Range
LTC5582HDD#3ZZPBF LTC5582HDD#3ZZPBF ECAD Model Analog Devices Inc 40MHz to 10GHz RMS Power Detector with 57dB Dynamic Range
LTC5582IDD#3ZZPBF LTC5582IDD#3ZZPBF ECAD Model Analog Devices Inc 40MHz to 10GHz RMS Power Detector with 57dB Dynamic Range

RF LNA 10 GHz Datasheets Context Search

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1999 - C10GS

Abstract: No abstract text available
Text: Preliminary C6 22 nF C10 GS 22 pF 1 16 LNA 2 15 Bias Circuits 14 13 RF AMP 12 11 10 MIXER 8 50 µstrip 50 , ( GHz ) RF Frequency ( GHz ) 14.0 13.5 13.0 12.5 LNA + Mixer Gain versus VCC (2.45 GHz , 2.40 -11.00 2.40 2.45 2.50 RF Frequency ( GHz ) RF Frequency ( GHz ) 5.6 LNA + Mixer SSB Noise , 4.8 3.50 4.6 4.4 3.00 2.40 2.45 2.50 VCC RF Frequency ( GHz ) 19.8 19.6 19.4 LNA + , VCC RF Frequency ( GHz ) 9.0 LNA Noise Figure versus VCC (2.45 GHz ), Attenuator On -40C NF 25C


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PDF RF2444 RF2444 C10GS
2002 - Not Available

Abstract: No abstract text available
Text: DC Current Consumption · Input IP3: -23dBm or -8dBm LNA 11 NC RF AMP 10 MIX IN 9 GND3 , RF Rejection LO to IF Rejection LO Input VSWR -15 - 10 42 15 0 dBm dB dB LO input to LNA input LO , 2.45 2.50 RF Frequency ( GHz ) RF Frequency ( GHz ) LNA + Mixer Gain versus VCC (2.45 GHz , 9.00 2.40 -11.00 2.40 2.45 2.50 RF Frequency ( GHz ) RF Frequency ( GHz ) LNA + Mixer SSB , 3.50 4.6 4.4 2.7 3.0 3.3 3.6 3.00 2.40 2.45 VCC RF Frequency ( GHz ) LNA + Mixer SSB


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PDF RF2494 IEEE802 RF2494
RF2517

Abstract: RF2126 RF2444 RF2938 SSOP-16 SSOP-28 TQFP-48 R2014 synthesizer 2400Mhz 2400MHZ synthesizer
Text: RF Frequency ( GHz ) 2.45 2.50 RF Frequency ( GHz ) LNA + Mixer Gain versus VCC (2.45 GHz , 9.50 9.00 2.40 2.45 -11.00 2.40 2.50 2.45 RF Frequency ( GHz ) LNA + Mixer SSB Noise Figure versus VCC (2.45 GHz ), Attenuator Off LNA + Mixer SSB Noise Figure versus RF Frequency (3.3 V , Mixer SSB Noise Figure versus VCC (2.45 GHz ), Attenuator On LNA + Mixer SSB Noise Figure versus RF , RF Frequency ( GHz ) 8-65 RF2444 LNA Gain versus RF Frequency (3.3 V), Attenuator On LNA


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PDF RF2444 RF2444 RF2517 RF2126 RF2938 SSOP-16 SSOP-28 TQFP-48 R2014 synthesizer 2400Mhz 2400MHZ synthesizer
2001 - Not Available

Abstract: No abstract text available
Text: RF Frequency ( GHz ) LNA + Mixer Gain versus VCC (2.45 GHz ), Attenuator On LNA + Mixer IIP3 , 2.45 -11.00 2.40 2.50 2.45 RF Frequency ( GHz ) LNA + Mixer SSB Noise Figure versus VCC (2.45 GHz ), Attenuator Off LNA + Mixer SSB Noise Figure versus RF Frequency (3.3 V), Attenuator Off , Mixer SSB Noise Figure versus VCC (2.45 GHz ), Attenuator On LNA + Mixer SSB Noise Figure versus RF , 2.45 2.50 RF Frequency ( GHz ) 8-65 RF2444 Preliminary LNA Gain versus RF Frequency


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PDF RF2444 RF2444
2002 - Not Available

Abstract: No abstract text available
Text: 4.7µ F P3 1 2 3 VCC3 GND OE C6 22 nF C10 GS 22 pF 1 16 LNA 2 15 Bias Circuits 14 13 RF AMP 12 11 10 , 2.45 2.50 RF Frequency ( GHz ) RF Frequency ( GHz ) LNA + Mixer Gain versus VCC (2.45 GHz , 2.40 2.45 2.50 RF Frequency ( GHz ) RF Frequency ( GHz ) LNA + Mixer SSB Noise Figure versus , 2.7 3.0 3.3 3.6 3.00 2.40 2.45 VCC RF Frequency ( GHz ) LNA + Mixer SSB Noise Figure , Frequency ( GHz ) Rev A3 010717 8-37 RF2444 LNA Gain versus RF Frequency (3.3 V), Attenuator On


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PDF RF2444 RF2444
2009 - 740F-080930

Abstract: michael hiebel fundamentals of vector analysis j22332 Digital Oscilloscope Preamplifier BFP620 applications note BFP740F LQP10A MTA-100 Miteq SMC-02 AN17-1
Text: Noise RF Transistor in 2.4 ­ 2.5 GHz LNA Application with 17 dB Gain, 0.7 dB Noise Figure & < 1 , BFP740F 2.4 ­ 2.5 GHz LNA with < 1µSec Turn-On / Turn-Off Time 1 BFP740F SiGe:C Ultra Low Noise RF Transistor in 2.4 ­ 2.5 GHz LNA Application with 17 dB Gain, 0.7 dB Noise Figure & < 1 microsecond Turn-On , Note No. 171 BFP740F 2.4 ­ 2.5 GHz LNA with < 1µSec Turn-On / Turn-Off Time 10 Amplifier , or other persons may be endangered. Application Note No. 171 BFP740F 2.4 ­ 2.5 GHz LNA with


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PDF BFP740F 11b/g BFP620 AN171) 740F-080930 michael hiebel fundamentals of vector analysis j22332 Digital Oscilloscope Preamplifier BFP620 applications note LQP10A MTA-100 Miteq SMC-02 AN17-1
2008 - free transistor

Abstract: BFR740L3RH uln 2008 uln 2008 datasheet Digital Oscilloscope Preamplifier ULN 2009 ultra Low Noise ULN types 825000 LQP10A MTA-100
Text: RF Transistor in 5 ­ 6 GHz LNA Application with 14 dB Gain, 1.3 dB Noise Figure & < 100 nanosecond , BFR740L3RH 5 ­ 6 GHz LNA with <100 nSec Turn-On / Turn-Off Time 1 BFR740L3RH SiGe:C Ultra Low Noise RF , . Input / Output Matching Circuits of LNA reduce gain in 2.4 ­ 2.5 GHz band. 10 MHz ­ 12 GHz Sweep , Note No. 170 BFR740L3RH 5 ­ 6 GHz LNA with <100 nSec Turn-On / Turn-Off Time Reverse Isolation 10 , . 170 BFR740L3RH 5 ­ 6 GHz LNA with <100 nSec Turn-On / Turn-Off Time Application Note No. 170


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PDF BFR740L3RH free transistor uln 2008 uln 2008 datasheet Digital Oscilloscope Preamplifier ULN 2009 ultra Low Noise ULN types 825000 LQP10A MTA-100
2000 - RF2517

Abstract: No abstract text available
Text: ) 2.45 2.50 RF Frequency ( GHz ) LNA + Mixer Gain versus VCC (2.45 GHz ), Attenuator On 14.0 , 9.50 9.00 -11.00 2.40 2.45 2.50 2.40 2.45 RF Frequency ( GHz ) LNA + Mixer SSB Noise Figure versus VCC (2.45 GHz ), Attenuator Off 5.6 LNA + Mixer SSB Noise Figure versus RF , 2.50 RF Frequency ( GHz ) 8-63 RF2444 Preliminary LNA + Mixer Gain versus IF Frequency , 2.40 2.45 2.50 2.40 RF Frequency ( GHz ) 2.32 2.30 LNA Noise Figure versus VCC (2.45


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PDF RF2444 RF2444 RF2517
2008 - uln 2008

Abstract: 825000 BFP740F Digital Oscilloscope Preamplifier michael hiebel fundamentals of vector analysis uln 2008 datasheet LQP10A MTA-100 spice ULN ultra Low Noise ULN types
Text: Noise RF Transistor in 5 ­ 6 GHz LNA Application with 16 dB Gain, 1.3 dB Noise Figure & 1 microsecond , Application Note No. 168 BFP740F 5 ­ 6 GHz LNA with 1µSec Turn-On / Turn-Off Time 1 BFP740F SiGe:C Ultra Low Noise RF Transistor in 5 ­ 6 GHz LNA Application with 16 dB Gain, 1.3 dB Noise Figure & 1 , GHz LNA with 1µSec Turn-On / Turn-Off Time Input Return Loss, Log Mag 10 MHz ­ 12 GHz Sweep , or other persons may be endangered. Application Note No. 168 BFP740F 5 ­ 6 GHz LNA with 1µSec


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PDF BFP740F uln 2008 825000 Digital Oscilloscope Preamplifier michael hiebel fundamentals of vector analysis uln 2008 datasheet LQP10A MTA-100 spice ULN ultra Low Noise ULN types
2009 - transistor C4

Abstract: BFR740L3RH Digital Oscilloscope Preamplifier BFP620 spice BFP620 applications note Miteq SMC-02 LQP10A MTA-100 transistor cross ref Isolation amplifier
Text: Noise RF Transistor in 2.4 ­ 2.5 GHz LNA Application with 18 dB Gain, 0.7 dB Noise Figure & < 1 , RF Transistor in 2.4 ­ 2.5 GHz LNA Application with 18 dB Gain, 0.7 dB Noise Figure & < 1 µSec , . Application Note 6 / 26 Rev. 1.0 , 2009-01-29 Application Note No. 173 BFR740L3RH 2.4 ­ 2.5 GHz LNA , Rev. 1.0 , 2009-01-29 Application Note No. 173 BFR740L3RH 2.4 ­ 2.5 GHz LNA with < 1µSec Turn-On , Rev. 1.0 , 2009-01-29 Application Note No. 173 BFR740L3RH 2.4 ­ 2.5 GHz LNA with < 1µSec Turn-On


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PDF BFR740L3RH 11b/g BFP620 AN173) transistor C4 Digital Oscilloscope Preamplifier BFP620 spice BFP620 applications note Miteq SMC-02 LQP10A MTA-100 transistor cross ref Isolation amplifier
2009 - RF remotecontrol schematic diagram

Abstract: TRANSISTOR 434 1 to 3 GHz bandpass filter wide band FSEM30 RF Transistor reference bpf 434 mhz 2 to 3 GHz bandpass filter wide band Miteq SMC-02 BFP460 circuit diagram of rf 434
Text: Note No. 154 ESD-Hardened BFP460 RF Transistor in a Low Cost 434 MHz LNA + Bandpass 1 ESD-Hardened BFP460 RF Transistor in a Low Cost 434 MHz LNA + Bandpass Filter Application Applications LNA , , broadband LNA + 434 MHz Bandpass Filter circuit. The LNA is unconditionally stable from 5 MHz to 8 GHz , and , . The LNA block is usable from under 200 MHz to over 1 GHz inclusive. Target Specification, 434 MHz , BFP460 RF Transistor in a Low Cost 434 MHz LNA + Bandpass Noise Figure, Plot, 225 to 945 MHz, LNA alone


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PDF BFP460 RF remotecontrol schematic diagram TRANSISTOR 434 1 to 3 GHz bandpass filter wide band FSEM30 RF Transistor reference bpf 434 mhz 2 to 3 GHz bandpass filter wide band Miteq SMC-02 circuit diagram of rf 434
2001 - BFP620 applications note

Abstract: 28428 bfp640 BFP640 noise figure transistor l2 ansoft 3RD Rail Engineering RF LNA 10 GHz
Text: Eval / 2.4 GHz LNA Scanned Image of PCB: Infineon Technologies, Inc. Business Operation RF , / 2.4 GHz LNA Forward Gain, Narrow Span CH1 S 21 log MAG 1 dB/ REF 15 dB 10 Sep , / 2.4 GHz LNA Forward Gain, Wide Span CH1 S 21 log MAG 10 dB/ REF 0 dB 10 Sep 2001 , Eval / 2.4 GHz LNA Reverse Isolation, Wide Span CH1 * PRm Cor Del S 12 log MAG 10 dB , LWR # 00522 LNA P Silicon Discretes - BFP640 Preliminary Eval / 2.4 GHz LNA September 7, 2001


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PDF BFP640 BFP620, BFP620. OT-343 BFP620 applications note 28428 BFP640 noise figure transistor l2 ansoft 3RD Rail Engineering RF LNA 10 GHz
1997 - rf transceiver 2.4 ghz

Abstract: SA2420 SA2420DH TSSOP24 LNA Mixer VCO 2.4 GHz 2.45Ghz 10dbm oscillator 2sa2420 2.45Ghz oscillator circuit
Text: 1.5pF VCC C12 100nF RF I/O LNA OUT Low voltage RF transceiver - 2.45 GHz XXX: 10 MILS , GND ATTEN SW GND LNA OUT V CC SA2420 2.45 GHz LOW VOLTAGE RF TRANSCEIVER 12 11 , RF transceiver - 2.45 GHz DESCRIPTION SA2420 PIN CONFIGURATION The SA2420 transceiver is , LNA OUT GND 24 23 22 ATTEN SW 21 GND RF IN/ OUT GND Tx/Rx SW GND , Low) LO mode = Hi, LNA gain = Hi 0 10 µA VLNA-IN LNA input voltage Receive mode


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PDF SA2420 45GHz SA2420 45GHz rf transceiver 2.4 ghz SA2420DH TSSOP24 LNA Mixer VCO 2.4 GHz 2.45Ghz 10dbm oscillator 2sa2420 2.45Ghz oscillator circuit
rf transceiver 2.4 ghz

Abstract: 2.45GHZ balun "RF Transceiver" 2.2 ghz bandpass filter chip 5Ghz lna transistor datasheet TSSOP24 SA2420 SA2420DH 2.45Ghz oscillator circuit
Text: IF IN Tx IF IN RF I/O GND ATTEN SW GND LNA OUT V CC SA2420 2.45 GHz LOW , RF transceiver - 2.45 GHz DESCRIPTION SA2420 PIN CONFIGURATION The SA2420 transceiver is , ) BLOCK DIAGRAM VCC LNA OUT GND 24 23 22 ATTEN SW 21 GND RF IN/ OUT GND , voltage RF transceiver - 2.45 GHz SA2420 ABSOLUTE MAXIMUM RATINGS SYMBOL PARAMETER -0.3 to , Low) LO mode = Hi, LNA gain = Hi 0 10 µA VLNA-IN LNA input voltage Receive mode


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PDF SA2420 45GHz SA2420 45GHz rf transceiver 2.4 ghz 2.45GHZ balun "RF Transceiver" 2.2 ghz bandpass filter chip 5Ghz lna transistor datasheet TSSOP24 SA2420DH 2.45Ghz oscillator circuit
2001 - RF2494

Abstract: RF2189 SSOP-16
Text: -32.00 2.40 2.50 RF Frequency ( GHz ) 2.45 2.50 RF Frequency ( GHz ) LNA + Mixer Gain , 13.00 2.40 2.45 2.50 RF Frequency ( GHz ) 8-61 RF2494 Preliminary LNA + Mixer Gain , 2.40 2.45 -2.90 2.40 2.50 RF Frequency ( GHz ) LNA Noise Figure versus VCC (2.45 GHz , amplifier), a second RF amplifier and a doubly balanced mixer. The output of the LNA is made available as an output to permit the insertion of a bandpass filter between the LNA and the RF /Mixer section. The


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PDF RF2494 IEEE802 RF2494 RF2189 SSOP-16
350-400MHZ

Abstract: SA2420 SA2420DH TSSOP24 2SA2420 2.45Ghz 10dbm oscillator 2.45Ghz oscillator circuit
Text: (dBm) Low voltage RF transceiver - 2.45 GHz 0 VCC = 3V ­ 10 2.400 2.425 2.450 , SA2420 2.45 GHz LOW VOLTAGE RF TRANSCEIVER 12 11 10 9 8 7 Rx IF OUT 5 6 , Low voltage RF transceiver - 2.45 GHz XXX: 10 MILS WIDE, XXX MILS LONG ON 31 MILS THICK OF , RF transceiver - 2.45 GHz DESCRIPTION SA2420 PIN CONFIGURATION The SA2420 transceiver is , ) BLOCK DIAGRAM VCC LNA OUT GND 24 23 22 ATTEN SW 21 GND RF IN/ OUT GND


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PDF SA2420 45GHz SA2420 45GHz 350-400MHZ SA2420DH TSSOP24 2SA2420 2.45Ghz 10dbm oscillator 2.45Ghz oscillator circuit
2010 - ic isl 887

Abstract: 2SC5508 NE3514 SW SPDT NE3515S02 NE5510279A NESG2031M05 PG2179 NE3509M04 NE3517S03
Text: LNA VCO SW RF PLL PA out Tx U/C MOD LNA D/C , 6 LPF 90° Q W-CDMA Rx D/C DEMOD in LNA VCO SW RF , LNA VCO SW RF PLL PA out Tx U/C MOD LNA D/C , µPC8172TK 6L2MM Q(TX) B/B PHS Rx D/C in LNA VCO SW RF , 90° Q DECT Rx DEMOD in LNA VCO SW RF PLL PA


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PDF PA86x PG2158T5K PC3218T5Y NES1823M-45, NES1823M-180, NES1823M-240, NES1823S-45, NES1823S-90 R09CA0001JJ0100 PX10020JJ42V0PF ic isl 887 2SC5508 NE3514 SW SPDT NE3515S02 NE5510279A NESG2031M05 PG2179 NE3509M04 NE3517S03
2010 - BGB707L7

Abstract: lna 2,4 ghz schematic CEVA XS1200A symbian TOKO Coils AN195 BGB707L7ESD C166 LQW15 RF LNA 10 GHz
Text: port2 = - 10 dBm Measured with C2=1nF 2010-09-25 BGB707L7ESD BGB707L7ESD LNA for 2.3 GHz to , Application Note AN195, Rev. 1.0 10 / 19 2010-09-25 BGB707L7ESD BGB707L7ESD LNA for 2.3 GHz to 2.7 , Application Note AN195, Rev. 1.0 11 / 19 2010-09-25 BGB707L7ESD BGB707L7ESD LNA for 2.3 GHz to 2.7 , , Rev. 1.0 16 / 19 2010-09-25 BGB707L7ESD BGB707L7ESD LNA for 2.3 GHz to 2.7 GHz Evaluation , health of the user or other persons may be endangered. BGB707L7ESD BGB707L7ESD LNA for 2.3 GHz to


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PDF AN195, BGB707L7ESD BGB707L7ESD AN195 BGB707L7 lna 2,4 ghz schematic CEVA XS1200A symbian TOKO Coils AN195 C166 LQW15 RF LNA 10 GHz
2008 - uln 2008

Abstract: BFP740 uln 2008 datasheet 825000 michael hiebel fundamentals of vector analysis Digital Oscilloscope Preamp Digital Oscilloscope Preamplifier BFP740 equivalent BFP740F LQP10A
Text: Noise RF Transistor in 5 ­ 6 GHz LNA Application with 15 dB Gain, 1.3 dB Noise Figure & ~ 100 , Turn-On / Turn-Off Time 1 BFP740 SiGe:C Ultra Low Noise RF Transistor in 5 ­ 6 GHz LNA Application , Rev. 1.0 , 2008-11-18 Application Note No. 169 BFP740 5 ­ 6 GHz LNA with 100 nSec Turn-On , Pin DC connector header Rev. 1.0 , 2008-11-18 Application Note No. 169 BFP740 5 ­ 6 GHz LNA , Application Note 8 / 24 Rev. 1.0 , 2008-11-18 Application Note No. 169 BFP740 5 ­ 6 GHz LNA with 100


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PDF BFP740 uln 2008 uln 2008 datasheet 825000 michael hiebel fundamentals of vector analysis Digital Oscilloscope Preamp Digital Oscilloscope Preamplifier BFP740 equivalent BFP740F LQP10A
2002 - RF2517

Abstract: 5GHz RF mixer high frequency mixer RF2126 RF2444 RF2938 SSOP-16 SSOP-28 TQFP-48
Text: -32.00 2.45 2.50 2.40 RF Frequency ( GHz ) 2.45 2.50 RF Frequency ( GHz ) LNA + Mixer , RF Frequency ( GHz ) LNA + Mixer SSB Noise Figure versus VCC (2.45 GHz ), Attenuator Off 5.6 , 2.45 2.50 RF Frequency ( GHz ) 8-13 RF2444 -3.70 LNA Gain versus RF Frequency (3.3 V , 2.50 2.40 RF Frequency ( GHz ) 8 2.32 2.30 LNA Noise Figure versus VCC (2.45 GHz , 8-14 -40C NF 8.00 Noise Figure (dB) 8.5 2.50 RF Frequency ( GHz ) LNA Noise Figure


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PDF RF2444 RF2444 RF2517 5GHz RF mixer high frequency mixer RF2126 RF2938 SSOP-16 SSOP-28 TQFP-48
1998 - SA2420

Abstract: SA2421 SA2421DH TSSOP24 LNA Mixer 2.4 GHz 2.45Ghz oscillator circuit
Text: ( GHz ) Vcc = 3V 2.475 2.500 SR01465 SR01463 Figure 10 . LNA Input IP3 and P­1dB VS , GND ATTEN SW GND LNA OUT 24 SA2421 2.45 GHz LOW VOLTAGE RF TRANSCEIVER 12 11 , Low voltage RF transceiver - 2.45 GHz XXX: 10 MILS WIDE, XXX MILS LONG ON 31 MILS THICK OF , voltage RF transceiver - 2.45 GHz DESCRIPTION SA2421 PIN CONFIGURATION The SA2421 transceiver , specification Low voltage RF transceiver - 2.45 GHz SA2421 ABSOLUTE MAXIMUM RATINGS SYMBOL


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PDF SA2421 45GHz SA2421 45GHz SA2420 SA2421DH TSSOP24 LNA Mixer 2.4 GHz 2.45Ghz oscillator circuit
2000 - SA2420

Abstract: SA2421 SA2421DH TSSOP24 Transceiver 20 GHz block Diagram
Text: Output match at RF (2.45 GHz )1 NFM ­ 10 SSB noise figure (2.45 GHz ) (50 ) P-1dB Output 1dB , INTEGRATED CIRCUITS SA2421 2.45 GHz low voltage RF transceiver Product specification , Product specification 2.45 GHz low voltage RF transceiver SA2421 DESCRIPTION PIN CONFIGURATION , systems for 2.4­2.5 GHz applications. The LNA has a 3.2 dB noise figure at 2.45 GHz with 14.3 dB gain and , transmit mode and 20 mA nominal receive mode · High system power gain: 24 dB ( LNA + Mixer) at 2.45 GHz


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PDF SA2421 SA2421 SA2420 SA2421DH TSSOP24 Transceiver 20 GHz block Diagram
MRFIC2401

Abstract: MRFIC2401R2 LNA Mixer 2.4 GHz Nippon capacitors
Text: RF OUT LNA GND STANDBY 16 15 14 13 12 11 10 9 1 2 3 4 5 6 7 8 MIXER VDD GND LO IN GND RF IN LNA GND GND LNA VDD SLEEP , Figure 9. Mixer 1.0 dB Compression and Gain versus LO Power RF = 2.45 GHz Pin = ­ 20 dBm VDD = 5.0 , , TA = 25_C, RF = 2.45 GHz , LO = 2.125 GHz @ ­5.0 dBm, STANDBY = 0 Vdc) Characteristic Min Typ , Input, LNA Output ­ 10 ­ dB Input Third Order Intercept ­ Downconverter (Less Image


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PDF MRFIC2401/D MRFIC2401 MRFIC2401 MRFIC2401/D* MRFIC2401R2 LNA Mixer 2.4 GHz Nippon capacitors
LNA 600 MHZ CIRCUIT

Abstract: MRFIC2401 Nippon capacitors
Text: 11 LNA OUT 7 10 8 C4 15 6 LO IN 2 3 L1 9 RF IN STANDBY 110 , (dB) 1.0 dB COMP ­4 8 GAIN 7 ­5 6 ­6 IF = 325 MHz RF = 2.45 GHz VDD = 5.0 Vdc , IF OUT GND RF IN MIXER GND MIXER VDD RF OUT LNA GND STANDBY 16 15 , GND RF IN LNA GND GND LNA VDD SLEEP Pin Connections and Functional Block Diagram , _C, RF = 2.45 GHz , LO = 2.125 GHz @ ­5.0 dBm, STANDBY = 0 Vdc) Characteristic Min Typ Max


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PDF MRFIC2401/D MRFIC2401 MRFIC2401 MRFIC2401/D* LNA 600 MHZ CIRCUIT Nippon capacitors
LNA Mixer VCO 2.4 GHz

Abstract: 2.1Ghz oscillator 2.45Ghz 10dbm oscillator PHILIPS CD 245 LNa - 2.45Ghz 2.45Ghz oscillator circuit
Text: specification Low voltage RF transceiver - 2.45 GHz SA2420 Figure 11. LNA Loss Mode Input !P3 and P , Philips Semiconductors Product specification Low voltage RF transceiver - 2.45 GHz SA2420 , specification Low voltage RF transceiver - 2.45 GHz SA2420 ABSOLUTE MAXIMUM RATINGS SYMBOL Vcc VlN Pd , 1.7 1.7 +4o MAX 45 28 10 UNITS mA mA ha V|_NA-IN ¡LNA-OUT VL0 2.1 GHz VLO 1.05 GHz V TX , specification Low voltage RF transceiver - 2.45 GHz SA2420 AC ELECTRICAL CHARACTERISTICS V cc =


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PDF SA2420 SA2420 45GHz 45GHz. LNA Mixer VCO 2.4 GHz 2.1Ghz oscillator 2.45Ghz 10dbm oscillator PHILIPS CD 245 LNa - 2.45Ghz 2.45Ghz oscillator circuit
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