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LM49155TLX/NOPB Texas Instruments Uplink Noise Suppression & Downlink SNR Enhancement Analog Audio Subsystem 36-DSBGA visit Texas Instruments
LM49155TL/NOPB Texas Instruments Uplink Noise Suppression & Downlink SNR Enhancement Analog Audio Subsystem 36-DSBGA visit Texas Instruments
LMV1099TLX/NOPB Texas Instruments Uplink Far Field Noise Suppression; Downlink SNR Enhancing Mic Amp w/ Earpiece Driver 25-DSBGA -40 to 85 visit Texas Instruments
LMV1099TL/NOPB Texas Instruments Uplink Far Field Noise Suppression; Downlink SNR Enhancing Mic Amp w/ Earpiece Driver 25-DSBGA -40 to 85 visit Texas Instruments
LM3209TLX/NOPB Texas Instruments LM3209 Seamless-Transition Buck-Boost Converter for LTE and HSUPA 12-DSBGA visit Texas Instruments
LM3209TLE/NOPB Texas Instruments LM3209 Seamless-Transition Buck-Boost Converter for LTE and HSUPA 12-DSBGA visit Texas Instruments Buy

LTE uplink

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Turbo decoder Xilinx

Abstract: CRC lte LTE UL Channel Decoder v2.0 XMP024 June 24, 2009 Product Brief Introduction The Xilinx® LTE UL Channel Decoder core provides designers with an LTE Uplink Channel Decoding block for the 3GPP , . Overview The LTE UL Channel Decoder core provides a channel decoding solution for the 3GPP 36.212 specification. Figure 1 illustrates the main blocks in the LTE uplink decoding chain for the UL-SCH channel type that is supported by the core. Figure 2 illustrates the main blocks in the LTE uplink decoding
Xilinx
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Turbo decoder Xilinx CRC lte xilinx lte TURBO decoder LTE uplink TB lte redundancy version
Abstract: ISM 433 435 85 B LTE (Downlink) 791 821 85 C LTE (Uplink) 832 862 86 D RFID 865 868 89 E GSM 900 (Uplink) 880 915 93 F GSM 900 (Downlink) 925 960 96 G GSM 1800, LTE (Uplink) 1710 1785 91 H GSM 1800, LTE (Downlink) 1805 1880 86 I DECT 1880 1900 85 J UMTS (Uplink) 1920 1980 , , ZigBee 2400 2500 70 N Bluetooth 2402 2480 72 O LTE (Uplink) 2500 2570 INGUN
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2112/S-7/HF S-10/ 2112/D/H/S-7 2011/HF 2012/HF 2013/HF
Abstract: LTE uplink waveform files and Aeroflex IQCreator waveform generation tool (Supplied separately), e.g , Studio2 The standard LTE uplink waveform files for Rx reference sensitivity level test as defined in , PXI LTE Downlink (FDD and TDD) Measurement Suite V1.0 The LTE downlink measurement suite is a , LTE FDD and TDD transmitter and receiver characteristics of the base station including small cell, in , application â'¢ Advanced LTE-A feature, e.g. Carrier Aggregation â'¢ Global TDD and FDD LTE bands â Aeroflex
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PWR-4RMS

Abstract: 4rms Specifications(Continued), -35 dBm to +20 dBm, 50 to 4000 MHz Parameter @ -30dBm QPSK in LTE Downlink setup 3 @ 0dBm @ +10dBm @ -30dBm QPSK in LTE Uplink setup 3 @ 0dBm @ +10dBm MSK in GSM setup (Gausian filter @270 , MEASUREMENT MODULATED @ 25 25°C, +10dBm MODULATED SIGNALS SIGNALS@ °C, +10 dBm 4QAM MSK 256QAM LTE(Uplink , °C, 0dBm MODULATED SIGNALS@ 25°C, 0 dBm 4QAM MSK 256QAM LTE(Uplink) DQPSK LTE(Downlink) 0.20 , °C, -30 dBm 0.20 , 4QAM 256QAM DQPSK MSK LTE(Uplink) LTE(Downlink) UNCERTAINTY (dB) UNCERTAINTY (dB
Mini-Circuits
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PWR-4RMS 4rms delphi sensor JL1504 NF-SM50
Abstract: in LTE Downlink setup 3 QPSK in LTE Uplink setup 3 MSK in GSM setup (Gausian ilter @270,833 , ) UNCERTAINTY (dB) UNCERTAINTY (dB) 0.20 256QAM LTE(Uplink) MEASUREMENT UNCERTAINTY FOR DIG , 0.00 4QAM MSK 256QAM LTE(Uplink) DQPSK LTE(Downlink) 0.10 0.00 -0.10 -0.10 , ) UNCERTAINTY (dB) MSK LTE(Uplink) LTE(Downlink) 0.10 0.00 -0.10 -0.20 0 500 1000 1500 , dB dB dB dB dB dB Note 3: Advanced LTE (2010-06) Freq. domain QPSK with 25 Resource Mini-Circuits
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Abstract: rejection for LTE uplink systems under all operating conditions. The 885069 uses common module packaging , (BAW) filter designed to meet the strict LTE rejection requirements for use in B40. Pin No TriQuint Semiconductor
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885069-EVB
Abstract: , , PA_EN=2.85V Compliance LTE Uplink; using a 10MHz, LTE UL SC-OFMA waveform, unless other-wise , Detector Integrated Input/Output Matched to 50 Output Match LTE DL POUT=18dBm  Interstage Match  32dB Typical Gain Across Frequency Band LTE UL POUT=27dBm Input Match ï ,  2 VMODE  1 RFIN  Bias LTE UL for Handset and Data Cards ï , (HBT) process, and has been designed for use as the final RF amplifier in LTE Up Link (UL) mobile and RF Micro Devices
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RF5612 RF56123 RF5612-410 RF5612SB RF5612SR RF5612TR7

RFMD LTE Band 40

Abstract: RFMD LTE Band 7 . Specification Typ. Max. Unit Condition T=25 °C, VCC =3.3V, , PA_EN=2.85V LTE Uplink; using a 10MHz, LTE UL SC-OFMA waveform, unless other-wise noted. 2500 27 2570 -33 2.5 425 200 3 MHz dBm dBc , Interstage Match Interstage Match 32dB Typical Gain Across Frequency Band LTE UL POUT=27dBm LTE , Input/Output Matched to 50 LTE UL for Handset and Data Cards Mobile WiMAX Data Cards Commercial and , , and has been designed for use as the final RF amplifier in LTE Up Link (UL) mobile and Data Cards and
RF Micro Devices
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RFMD LTE Band 40 RFMD LTE Band 7 RF5612SQ 100-P 2500-P DS120213

vhdl code for lte channel coding

Abstract: vhdl code CRC for lte 3GPP LTE uplink FDD channel coding, channel decoding and swept BER and BLER vs. SNR measurements , Agilent EEsof EDA · W1910 LTE Baseband Verification Library · W1912 LTE Baseband Exploration Library Baseband PHY Libraries for SystemVue Datasheet Turbocharge Your 3GPP LTE PHY Design Process How do you really know that your algorithm is interoperable with the latest version of 3GPP LTE? How do you track an evolving standard? The W1910EP/ET and W1912ET LTE baseband PHY libraries save
Agilent Technologies
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vhdl code for lte channel coding vhdl code CRC for lte qpsk modulation VHDL CODE MODULATOR ofdm 64-qam lte mimo 16 bit qpsk VHDL CODE 5990-4283EN

a/LTE duplexer band 20

Abstract: epcos ec 90 03 the end of this document. 5 March 03, 2014 5 MHz LTE uplink 50 ˚C, 3000 h SAW Components , SAW Components SAW duplexer LTE band XXVIII Block B Series/type: Ordering code: B8532 B39771B8532P810 Date: Version: March 03, 2014 2.1 © EPCOS AG 2014. Reproduction, publication and dissemination of this data sheet, enclosures hereto and the information contained therein without EPCOSâ , Sheet Application s Low-loss SAW duplexer for mobile telephone LTE Band XXVIII systems Low
EPCOS
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a/LTE duplexer band 20 epcos ec 90 03 B8531

B39781B7678A710

Abstract: PIN PIN ­40/+85 5 1001) 28 10 °C V V machine model, 1 pulse dBm } LTE uplink signal , SAW Components SAW Duplexer LTE Band 13 Series/type: Date: Version: B7678 B39781B7678A710 January 24, 2011 2.1 © EPCOS AG 2011. Reproduction, publication and dissemination of this data sheet, enclosures hereto and the information contained therein without EPCOS' prior express consent is prohibited , s B7678 782.0 / 752.0 MHz LTE Band 13 systems Low insertion attenuation Low amplitude ripple
EPCOS
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a/LTE duplexer band 20

Abstract: MHz LTE uplink 50 ˚C, 3000 h Extended upperlimit: 168@125˚C acc. to IEC 60068-2-2 Bb. acc. to , SAW Components SAW duplexer LTE band XXVIII Block B Series/type: Ordering code: B8532 B39771B8532P810 Date: Version: May 22, 2014 2.3 © EPCOS AG 2014. Reproduction, publication and dissemination of this data sheet, enclosures hereto and the information contained therein without EPCOSâ , Sheet Application s Low-loss SAW duplexer for mobile telephone LTE Band XXVIII systems Low
EPCOS
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Abstract: important notes at the end of this document. 5 March 05, 2013 LTE uplink 5 MHz 55 ˚C, 50000h , SAW Components SAW Duplexer LTE Band 20 Series/type: Ordering code: B8081 B39851B8081P810 Date: Version: March 05, 2013 2.0 © EPCOS AG 2013. Reproduction, publication and dissemination of this data sheet, enclosures hereto and the information contained therein without EPCOSâ'™ prior , Application Low-loss SAW duplexer for LTE Band 20 systems Very high isolation Usable passband 30 MHz EPCOS
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Abstract: LTE Uplink Baseband Sources and Receivers â'¢ FDD-LTE and TD-LTE â'¢ Uplink receivers with 1, 2 and , (3GPP) Long Term Evolution (LTE) systems. It enables system architects, algorithm developers and baseband hardware designers to investigate, implement and verify their Layer 1 3GPP LTE signal processing , data for 3GPP Releases 8/9 (LTE) and 10 (LTE-Advanced). The library is useful for simulation-based , to an existing modelset for LTE release 9.1, and is therefore a superset of the W1910 LTE library Agilent Technologies
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W1918 5990-8135EN

LTE duplexer 700 MHz

Abstract: band III saw duplexer } LTE uplink 5MHz T = 55°C, 5000 h extended upperlimit: 168h@125°C acc. to IEC 60068-2-2 Bb 168h Damp , SAW Components SAW Duplexer LTE Band 17 (lower 700MHz band, blocks B and C) Series/type: Ordering code: Date: Version: B8566 B39741B8566P810 February 06, 2013 2.0 © EPCOS AG 2013. Reproduction, publication and dissemination of this data sheet, enclosures hereto and the information contained therein , Application s SAW duplexer for mobile telephone LTE band 17 B8566 710.00 / 740.00 MHz (lower 700 MHz
EPCOS
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LTE duplexer 700 MHz band III saw duplexer 700MH
Abstract: SAW Components SAW Duplexer LTE Band XVII Series/type: Ordering code: B8624 B39741B8624P810 Date: Version: January 17, 2014 2.1 © EPCOS AG 2014. Reproduction, publication and , Data sheet Application s Low-loss SAW duplexer for mobile telephone LTE Band XVII systems Low , elsewhere 1) 2) 3) â'"40/+851) ˚C 52) V 1003) V 29 10 dBm dBm Machine Model } LTE uplink 5MHz 50˚C, 5000 h extended upperlimit: 96h@125˚C acc. to IEC 60068-2-2 Bb 168h Damp Heat EPCOS
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F611074-V8153-Z000

Abstract: B39781B7935P810 VESD Pin Pin ­40/+85 5 1001) 28 10 °C V V dBm dBm machine model, 1 pulses } LTE uplink 5 , SAW Components SAW Duplexer LTE Band 13 Series/type: Ordering code: Date: Version: B7935 B39781B7935P810 November 18, 2011 2.0 © EPCOS AG 2011. Reproduction, publication and dissemination of this data sheet, enclosures hereto and the information contained therein without EPCOS' prior express consent is , telephone B7935 782.0 / 751.0 MHz LTE Band 13 systems Low insertion attenuation Very High isolation
EPCOS
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F611074-V8153-Z000

B39851B7679A710

Abstract: epcos duplexer pulses HB model, 1 pulse M model, 1 pulse } LTE uplink signal 55 °C, 50000h According to , SAW Components SAW Duplexer LTE Band 20 Series/type: Ordering code: Date: Version: B7679 B39851B7679A710 December 14, 2010 2.0 © EPCOS AG 2010. Reproduction, publication and dissemination of this data sheet, enclosures hereto and the information contained therein without EPCOS' prior express consent is prohibited. SAW Components SAW Duplexer Data sheet Application Low-loss SAW duplexer for LTE Band 20
EPCOS
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epcos duplexer
Abstract: } 5 MHz LTE uplink 50 ˚C, 3000 h Extended upperlimit: 168@125˚C acc. to IEC 60068-2-2 Bb. acc , SAW Components SAW duplexer LTE band XXVIII Block A Series/type: Ordering code: B8531 B39771B8531P810 Date: Version: May 22, 2014 2.2 © EPCOS AG 2014. Reproduction, publication and dissemination of this data sheet, enclosures hereto and the information contained therein without EPCOSâ , Sheet Application s Low-loss SAW duplexer for mobile telephone LTE Band XXVIII systems Low TDK
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Abstract: 10 machine model, 10 pulses HBM,+/- 1 pulses CDM,+/- 3 pulses } 5 MHz LTE uplink 50 ˚C , SAW Components SAW duplexer LTE band XXVIII Block A Series/type: Ordering code: B8531 B39771B8531P810 Date: Version: March 03, 2014 2.1 © EPCOS AG 2014. Reproduction, publication and dissemination of this data sheet, enclosures hereto and the information contained therein without EPCOSâ , Sheet Application s Low-loss SAW duplexer for mobile telephone LTE Band XXVIII systems Low EPCOS
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