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Part Manufacturer Description Datasheet BUY
HSP50216KI Intersil Corporation TELECOM, CELLULAR, BASEBAND CIRCUIT, PBGA196, 12 x 12, BGA-196 visit Intersil
TCM320AC56IDWR Texas Instruments TELECOM, CELLULAR, BASEBAND CIRCUIT, PDSO20, PLASTIC, SO-20 visit Texas Instruments
TCM320AC57IDW Texas Instruments TELECOM, CELLULAR, BASEBAND CIRCUIT, PDSO20, PLASTIC, SO-20 visit Texas Instruments
TCM8030 Texas Instruments TELECOM, CELLULAR, BASEBAND CIRCUIT, PQFP80, TQFP-80 visit Texas Instruments
TLV320AC56CPT Texas Instruments TELECOM, CELLULAR, BASEBAND CIRCUIT, PQFP48, PLASTIC, QFP-48 visit Texas Instruments
TLV320AC57CN Texas Instruments TELECOM, CELLULAR, BASEBAND CIRCUIT, PDIP20, PLASTIC, DIP-20 visit Texas Instruments

WiMAX baseband

Catalog Datasheet MFG & Type PDF Document Tags

WiMAX baseband

Abstract: qpsk demodulation VHDL CODE Agilent EEsof EDA W1911 WiMAX Baseband Verification Library W1913 WiMAX Baseband Exploration , ?" The W1911EP/ET and W1913ET WiMAX baseband PHY libraries save time, reduce engineering effort and accelerate the maturity of baseband physical layer (PHY) designs for nextgeneration WiMAX systems. They , WiMAXTM). The W1911EP/ET WiMAX baseband verification library provides measurement-hardened "golden , 802.16e-2005 (SystemVue 2009.05). W1911EP/ET WiMAX Baseband Verification Library Why should I buy the
Agilent Technologies
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WiMAX baseband qpsk demodulation VHDL CODE qpsk demapper VHDL CODE qpsk modulation VHDL CODE 16 bit qpsk VHDL CODE N7615B 5990-4422EN

WiMAX baseband

Abstract: MB86K23 block diagram of the Fujitsu Mobile WiMAX SoC. Description The Fujitsu MB86K23 WiMAX baseband SoC is , performance. The MB86K23 is a successor to the first generation mobile WiMAX baseband IC that was certified by the WiMAX Forum. A total WiMAX solution is available by combining related chips and supporting , MB86K23 The Fujitsu IEEE 802.16e-2005 Mobile WiMAX SoC USB 2.0 MAC Processor SDIO/SPI , Management IC Applications The Fujitsu MB86K23 Mobile WiMAX SoC is optimized for a wide range of full
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MB39C316 802.16e wimax chip MB86K52 EPS-FS-21349-02/2009

MB86K22

Abstract: MB86K52 introduces Fujitsu's 2nd generation Mobile WiMAX chipset, including its baseband system in package (SiP , . Fujitsu's new Mobile WiMAX baseband LSI implements leading-edge power-gating technology together with , source code are available. MB86K22, a Mobile WiMAX Baseband SiP Fujitsu's 2nd generation Mobile WiMAX , Fujitsu 2nd Generation Mobile WiMAX Chipset for Embedded Modules SDRAM SDIO/SPI Interface , . WiMAX, which stands for Worldwide Interoperability for Microwave Access, is a promising technology
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Design and Application of Mobile Embedded Systems mobile hardware integration rf traNsmitter receiver 35mhz HARQ *MIMO 35mhz transmitter circuit Mobile WiMAX BWA-FS-21323-6/2008

GDM7205 Product Brief

Abstract: WiMAX WiMAX applications, including portable, nomadic and fixed. GDM7205 includes a mobile WiMAX baseband, RF , Information Technology Solutions GDM7205 Product Brief Mobile WiMAX IEEE 802.16e Wave , consumption Small form factor Optimizes mobile WiMAX implementation in mobile devices Minimizes external RF , RISC CPU and 120MHz P2D DSP with 128 KB on-chip DRAM 1.1V supply voltage 2.3-2.69GHz WiMAX band with , Various Datacards GDM7205 GDM7205 is the world's first mobile WiMAX IEEE 802.16e Wave 2
GCT Semiconductor
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GDM7205 Product Brief WiMAX RF Transceiver mimo 160MH ARM926E 120MH

GDM7213 Product Brief

Abstract: WiMAX front-end components. It also includes a mobile WiMAX baseband with high performance dual-processors, and an , transceiver for 3.5 ~ 3.6 GHz WiMAX band Complies with IEEE 802.16e Maximum throughput: >30 Mbps/ DL, 6 Mbps , WiMAX implementation in mobile devices Minimizes external RF front-end components Satisfies high demands of multimedia processing A p p l i c a ti o n s Mobile WiMAX devices- smartphones Hotspots USB Dongles PC Cards CPEs GDM7213 GCT's GDM7213 is the industry's first mobile WiMAX 3.5 GHz
GCT Semiconductor
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GDM7213 Product Brief WiMAX RF Transceiver cpe wimax WiMAX RF Transceiver mimo WiMAX RF CMOS Transceiver
Abstract: includes a mobile WiMAX baseband, RF transceiver, high performance dual-processors, and an impressive , Information Technology Solutions GDM7205 Product Brief Mobile WiMAX IEEE 802.16e Wave , '· Ultra low power consumption ï'· 2.3-2.69GHz WiMAX band with auto- on-chip DRAM calibration and dynamically adjustable ï'· Small form factor channel bandwidth ï'· Optimizes mobile WiMAX , ï'· Modules ï'· CPE types ï'· Netbooks/ PC/Tablets GDM7205 is the worldâ'™s first mobile WiMAX GCT Semiconductor
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Abstract: external RF front-end components. It also includes a mobile WiMAX baseband with high performance , RF transceiver ï'· Small form factor for 3.5 ~ 3.6 GHz WiMAX band ï'· Optimizes mobile WiMAX , p l i c a ti o n s and collaborative MIMO UL ï'· Mobile WiMAX devicesâ'" smartphones , + 1 408 434 6040 GCTâ'™s GDM7213 is the industryâ'™s first mobile WiMAX 3.5 GHz Wave 2 , for driving broader WiMAX deployment. Compliant with WiMAX Forum® standards, GDM7213 is ideally GCT Semiconductor
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GDM7205K

Abstract: GDM7205 . GDM7205K includes a mobile WiMAX baseband, RF transceiver, high performance dualprocessors, and an , ® Product Brief GDM7205K Mobile WiMAX IEEE 802.16e Wave 2-compliant monolithic single-chip , 2.300-2.690GHz WiMAX band with autocalibration and dynamically adjustable channel bandwidth Small form factor Optimizes mobile WiMAX implementation in mobile devices Complies with IEEE 802.16e mobile WiMAX and WiMAX Forum® Wave2 certification Minimizes external RF front-end components Maximum throughput
GCT Semiconductor
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ARM926EJ mimo P2D jtag wave2 wimax "Rf Front-End" GCT Semiconductor 690GH 10/100M

RGMII to SGMII PHY

Abstract: p2020 Telecom LTE and WiMAX Baseband Features for the market: Serial RapidIO x1/x4 (up to 3.125 GHz , /CPRI LTE and WiMAX Baseband requirements using packet concatenation The P2020 and P2010 , baseband processing Applications: · AdvancedMCTM card · Controller on AdvancedTCA® carrier card · Channel and control card for 3G NodeB, 2G/2.5G BTS IP upgrades, WCDMA, 4G LTE and WiMAX · General , automatic repeat request (ARQ) and Evolution (LTE) and WiMAX channel card hybrid automatic repeat
Freescale Semiconductor
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RGMII to SGMII PHY SGMII USB bridge Rgmii RJ45 PINOUT SGMII RGMII bridge p1020 freescale p2020 processor P1011 RJ-45 RS-232

SGMII USB bridge

Abstract: quality of service (QoS) for Gigabit Ethernet to assist in scheduling Layer 2 baseband processing LTE and WiMAX Baseband Serial RapidIO x1/x4 (up to 3.125 GHz) · MAC · Scheduler 500 Mbps Backplane , DSPs FPGA OBSAI/CPRI LTE and WiMAX Baseband The P2020 and P2010 communications processors are well-suited for Long-Term Evolution (LTE) and WiMAX channel card applications. There are two factors that , , 4G LTE and WiMAX · General purpose compute blade · Serial RapidIO messaging unit · Multiple
Freescale Semiconductor
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P2020PSE2KZA GGT8526E 31SQ1 HT-PBGA-B689 IPC-1752 5A002

ethernet phy sgmii

Abstract: freescale p2020 boot software . . . . . . . . . . . . . . . . . . . . . . 4 2.1 LTE and WiMax Baseband Application . . . . . . . , plane. The LTE and WiMax baseband and line card control plane applications are described in the following sections. 2.1 LTE and WiMax Baseband Application As an integrated dual-core device, the P2020 is well-suited for Long Term Evolution (LTE) and WiMax channel card applications. The P2020 , , channel and control card for NodeB/BTS/WCDMA/4G LTE/WiMax, general-purpose compute blade
Freescale Semiconductor
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P2020PB ethernet phy sgmii freescale p2020 boot software P2020E sgmii switch openpic 1588TM

IXP2350

Abstract: 3G HSDPA cell capacity planning such as HSDPA, HSUPA, and WiMAX. Figure 5: WiMAX Baseband/LIU Card Intel , networking standards: GSM, EDGE, CDMA2000, WCDMA, 802.11 and IEEE 802.16 (WiMAX) for example. Each of these , . The dynamic cellular/WiMAX Wireless Network. In this example base transceiver station (BTS , upgrades and changes to the network are manageable and affordable Figure 1: Converged 3G cellular/WiMAX , Broadband Access Digital Home BTS/ Node B WiMAX Basestation 1 IMS xGSN/PDSN AAA Server
Intel
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IXP2350 3G HSDPA cell capacity planning evolution of intel microprocessor baseband GSM BTS intel ixp2350 04/06/KC/LD/PDF 307450-002US

beamforming antenna 4g

Abstract: MB86K71 64 QAM as well. Each The Fujitsu mobile WiMAX baseband SoC (MB86K21) higher QAM version is , the Mobile WiMAX MB86K21 Baseband IC interoperability profiles, along with MIMO, and the , Beamforming Boosts the Range and Capacity of WiMAX Networks W H I T E P A P E R Beamforming Boosts the Range and Capacity of WiMAX Networks Introduction required to ensure the , noise, interference, multipath and of years, WiMAX is now widely viewed as a leading other
Fujitsu
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beamforming antenna 4g MB86K71 adaptive beamforming beamforming basestation antenna 4g beam steering BWA-WP-21326-7/2008

Pico BTS of 3g

Abstract: PICO base station datasheet an FPGA Coprocessor for WiMAX Baseband Processing Cyclone III FPGA Viterbi DSP LDPC Turbo , wireless applications such as remote radio heads, pico/femto base stations, WiMAX customer premises , , with the WiMAX pico base station discussed as a case study. Emerging Wireless Applications Market , wireless systems such as WiMAX have similarly evolved, achieving transmission speeds in excess of 70 Mbps , stations with BOM ranges in the thousands of dollars. Similarly, WiMAX CPE equipment is predicted to reach
Altera
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Pico BTS of 3g PICO base station datasheet PICO base station wimax base station ofdm implementation on fpga OFDM FPGA IS-95

milbeaut

Abstract: MB87M3400 FPGA emulation platforms 2003: Fujitsu started the development of the WiMAX baseband SoC using , WiMAX Business Update Fujitsu Microelectronics America, Inc. Fujitsu Limited Agenda Introduction "Communications On-the-Go" Deployment of Fixed WiMAX SoC Customer Case Studies and Applications , Vision of Mobile WiMAX Summary and Q&A BWW Press Conference, 4/27/06 2 Emi Igarashi Keith Horn , Deployment WiMAX 3G Wi-Fi Powered Wi-Fi Powered WiMAX Wi-Fi Powered 3.5G Wi-Fi Powered Wi-Fi
Fujitsu
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milbeaut MB87M3400 fujitsu fr-v Portable Communication Device base Station Communications Network mitac CS100A ARM946

doorbell circuit diagram

Abstract: AN3550 Processing Elements In a WiMAX baseband communication system, an FPGA can be used with a StarCore®-based
Freescale Semiconductor
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AN3550 doorbell circuit diagram doorbell circuit application rapid io processor family reference manual DMA engine

mitac lcd inverter

Abstract: MB87M3400 : Fujitsu started the development of the WiMAX baseband SoC using FPGA emulation platforms to enable the , Controller Update WiMAX Update Summary and Q&As April 4, 2006 2 Emi Igarashi Keith Horn Akio , applications WiMAX SoC Update April 4, 2006 4 All Rights Reserved. © Fujitsu Microelectronics , Microelectronics America, Inc. 2006 WiMAX Update George Wu Director of Marketing Technology Solutions April 4, 2006 54 All Rights Reserved. © Fujitsu Microelectronics America, Inc. 2006 WiMAX
Fujitsu
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MB86276 mitac lcd inverter samsung induction cooker mb95100a induction cooker microcontroller IDB-1394b MB9040 MB95F146/156H MB91470

MB86h51

Abstract: Milbeaut Starting with fixed and gaining momentum in mobile One of the few WiMAX baseband SoC vendors capable of , Graphics Display Controllers IDB-1394 Controllers Biometric Sensor ICs Wireless Solutions WiMAX SoCs , and beyond Consumer-centric new businesses Automotive business Emerging market technologies: WiMAX , -1394 controllers, biometrics) Wireless solutions (WiMAX) Networking solutions (10GbE switch) 11/06/07 , Controllers IDB-1394 Controllers Biometric Sensor ICs Wireless Solutions WiMAX SoCs Networking Solutions
Fujitsu
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MB86H52 MB86h51 MB86H ODOMETER ARM1176JZ ARM926J-E MB86H51 MB39C308

verilog code for orthogonal cdma transmitter

Abstract: verilog code for dpd associated with a WiMAX baseband channel card design. The WiMAX OFDMA ranging reference design demonstrates how to overcome these challenges while achieving an optimized hardware implementation. WiMAX is an , WiMAX OFDMA Ranging Application Note 430 August 2006, version 1.0 Introduction This application note describes the Altera® worldwide interoperability for microwave access (WiMAX) orthogonal , DSP designs such as those found on a WiMAX basestation channel card, because of the dedicated
Altera
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verilog code for orthogonal cdma transmitter verilog code for dpd handover MATLAB fft algorithm verilog in ofdm verilog code for cdma transmitter CORDIC altera AN-430-1 800-EPLD

intel wimax

Abstract: 802.16e wimax chip performance with an integrated WiMAX chipset solution Intel® WiMAX Connection 2400 Baseband Chip Intel , mobility with the Intel® WiMAX Connection 2400 baseband chip and the Intel® 2300R series radio High integration in the Intel® WiMAX Connection 2400 baseband chip (left) and Intel® WiMAX Connection 2320R , PHY) baseband chip integrates with Intel radio silicon to provide a complete certifiable WiMAX , Internet access through Sprint's Xohm* WiMAX network. 3 Intel® WiMAX Connection 2400 Baseband Chip
Intel
Original
intel wimax 3191* intel 1207/DJ/MESH/PDF 319104-001US
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