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化工仪器网>产品展厅>测量/计量仪器>其它测量/计量仪器>无线电计量仪器> 5G多用户大规模MIMO测试平台

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5G多用户大规模MIMO测试平台

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北京新能聚源科技有限公司坐落于享有“京师之枕”美称的昌平区,紧邻北京邮电大学、北京航空航天大学、北京信息科技大学、中国石油大学等著名学府。是一家专业研发及销售测试仪器、科学探究、通用技术等科研设备的创新型企业。

公司以“同创分享,共赢未来”为经营理念,采用现代企业管理模式,倡导以质量求生存,以信誉求数量的可持续发展观。
      公司积极投入研发与国内外过渠道建设,产品根据客户的要求和发展趋势进行个性化设计,不断加强资金的投入,高水平人才的引进,以及团队的建设。我们秉承互信、互补、互相提高,双赢的战略宗旨。
      新能聚源自成立起紧紧围绕科研及教育大客户,不断满足航空装备、电力新能源、石油化工、钢铁冶金、煤炭矿山等行业的科技测量应用需求。根据不同行业客户的需求,为其提供解决方案设计,产品选型配置、应用软件开发、现场安装调试、技术培训,直至全生命周期管理。
      未来,新能聚源将继续以无线通讯技术和测试测量技术为基础,立足于无线通讯设备系统集成、定制化旅游酒店实训服务、定制化科研项目系统集成三大业务板块,通过供应链的完善、人才资源的整合、科技创新的推动,积极构建行业内及跨行业的技术应用创新合作和业务生态链联盟,将公司打造成为具有强大竞争力的系统集成服务商。


公司经营品牌:

中国台湾GWinstek(固纬)电子测量仪器
中国台湾MOTECH(茂迪)电子测量仪器
日本HIOKI(日置)测量仪器
中国台湾EXTECH(华仪)电子测量仪器
中国台湾Chroma(致茂)电子测量仪器
美国Tektronix(泰克)电子测量仪器
美国Fluke(福禄克)电子测量仪器
美国Agilent(安捷伦)基础测量仪器
日本ANRITSU(安立)射频微波、光通信测量仪器
Rohde&schwatz(罗德与施瓦茨)射频通信测试仪器
中国台湾Prodigit(博计)电子负载
中国台湾ITECH(艾德克斯)电子测量仪器
美国RAYTEK(雷泰)红外测温仪
RIGOL(普源)数字示波器


教育装备实验器材,专业实验室建设,新能源测试系统,大功率电源,高精度恒流源,电工电子实验设备,信息工程实验设备

产地类别 进口 价格区间 50万-100万
  • Ready to use 5G multi user Massive MIMO testbed
  • Powerful: Process in real-time up to 250 MHz bandwidth with up to 1000 antennas
  • Includes TDD and reciprocity calibration (basic FDD support)
  • Precise timing synchronization and phase alignment
  • MU-MIMO detection and pre-coding (lowest turnaround time)
  • Switch between remote and co-located radioheads
  • Prototype 5G waveforms and validate propagation in real environment
  • Validate interoperability scenarios
  • Develop and validate analytic channel models
  • Interface with external millimeter wave front-end

    Overview  5G multi user Massive MIMO testbed

    throughput

    Unrestricted data throughput channel aggregation, required for Massive MIMO baseband processing. Avoid standard backplane bandwidth restriction and undeterministic communication protocol.

    distributed fpga clusters

    Scalable baseband processing through a modular approach and user-defined mesh topology. Benefits from the most advanced industry ecom standards (MTCA + ATCA + FMC).

    Modular RF & BW Growth

    Through the use of standard FMC radio head modules, the testbed is fully upgradable to next generation radio modules including wider bandwidth and tuning range. Radio modules can be replaced with IQ sampler (ADC/DAC) modules to support OTA real-time baseband bandwidth of up to 250 MHz (see TitanMIMO-X Series).

     

    Powerful: Process in real-time up to 250 MHz bandwidth with up to 1000 antennas

    Remote Radio Head (RRH)

  • 5G multi user Massive MIMO testbed

  • The RRH includes Nutaq’s second generation radio FMC modules, the Radio640x. The core technology of these radios is the AD9361 agile RF transceiver ICs, which provide the synchronization capabilities to implement large antenna system arrays that are accuray phased aligned (common LOs).

    The RRHs are based on radio carriers (Nutaq’s Perseus 611x) that support 8x RF transceivers while providing a large FPGA for pre/post-processing and 7x user-defined 20 Gbps P2P cable interfaces for channel aggregation or mesh-processing between multiple RRHs, or to a Nutaq’s Octal Virtex-6 Baseband Core module (Kermode XV6).

    This powerful baseband processor unit (Kermode XV6) offers tremendous FPGA processing capabilities (8x Virtex-6) and up to 32x user-defined 20 Gbps P2P cable interfaces for channel aggregation and mesh processing by stacking cards together to scale processing or channel count to very large numbers.

    5G Massive MIMO Testbed elements RRH 250MHz

    uSync Clock Module

    uSync Clock Module

    uSync LO Module

    uSync LO Module

    Precise timing synchronization and phase alignment

    Radio Remote Heads (RRH)

    Each Nutaq RRH includes two Radio640 FMC double-stack modules, each providing four TRX, thus a total of eight TRX per RRH.

    Each Radio640 has onboad CLK & LO(s) but also can accept an external CLK/REF input as well as one or two external LO(s) input used for TDD or FDD topologies respectively.

    In order to synchronise all radios, Nutaq provides uSync CLKs & LOs 19″ rackmount modules to accomplish these tasks. The uSync systems are specifically designed to ensure phase coherency between all CLKs as well as all LOs, and are stackable to scale for clocking very large systems.

     

    A Common Time Base

    On top of synchronising radio heads for beamforming applications, the uSync CLK module allows CLK disciplining to an external reference or embedded GPS.

    The user selected reference can then be distributed on all RRH and Octal V6 Baseband Processor Cores to ensure precise time-based communication between all FPGAs within the system, through the use of VITA49 communication protocols.Through the uTCA/ATCA backplane, the PPS and 10 MHz time signals are distributed to ensure a deterministic communication system.

    The first complete scalable and flexible Massive MIMO Reference Design

    As part of the 5G Massive MIMO Testbed, a reference design is provided which enables developers to rapidly implement Massive MIMO applications without dealing with TRX calibration, data communications issues, data synchronization and using the right sets of APIs etc.

    The provided reference design supports the data transfer, aggregation and control of all radio channels, automatic calibration, from the radio nodes (RF Modules) through to the central baseband processing engine, and back to the radio nodes

    The Nutaq Massive MIMO Reference Design includes:

  • MU-MIMO detection and pre-coding
  • Low channel estimation to pre-coding matrix turnaround time
  • Scalable timing synchronization for distributed MIMO
  • Reciprocity calibration
  • 5G air interfaces
  • Standard RRU interfaces
  • Interface with external millimeter wave front-end

    5G Massive MIMO Testbed Elements (TitanMIMO-X Elements)

    RRH-4TRX (Radio Remote Head): 4 TRX capable, 250 MHz OTA BW  

    RRH includes Nutaq’s multichannel high speed conversion FMC module (MO1000-8 and MI250).5G Massive MIMO Testbed elements RRH 250MHz

    The MI250 module provides 8x 250 MSPS, 14-bit ADCs while the MO1000-8 provides 8x 250 MSPS DACs, 16-bit with embedded NCO and interpolators for up to 1 GHz update rate.

    Each module supports onboard and external clocking modes, allowing a common phased-aligned clock source provided to each RRHs to perfectly match and align the sample clocks.

    Additionally, the RRHs are based on a dual FMC HPC carrier (Nutaq’s Perseus 611X) to support both the MI250 and MO1000-8 modules while providing a large FPGA for pre/post-processing and 7x user-defined 20 Gbps P2P cable interfaces for channel aggregation or mesh-processing between multiple RRH or to Nutaq’s octal Virtex-6 baseband core module (Kermode XV6).

    This powerful baseband processor unit offers tremendous FPGA processing capabilities (8x Virtex-6) and up to 32x user-defined 20 Gbps P2P cable interfaces for channel aggregation and mesh processing by stacking cards together to scale the processing or channel count to very large numbers.

    Finally, user defined digital control lines are also available to facilitate user-provided RF front-end interface that may be coupled to the available baseband samplers (8x ADCs, 8x DACs). Considering baseband IQ complex components topology would be used, a maximum of 4x RF transceivers may be used per RRH for a 250 MHz BW (I:250MSPS + Q:250MSPS = 500 MSPS effective real component sample rate).

     

    RRH-8TRX (Radio Remote Head): 8 TRX capable, 125 MHz OTA BW 

    RRH includes Nutaq’s multichannel high speed conversion FMC module (MO1000-16 and MI125-16).TitanMIMO Elements RRH 250MHz

    The MI125-16 module provides 16x 125 MSPS, 14-bit ADCs while the MO1000-16 provides 16x 250 MSPS DACs, 16-bit with embedded NCO and interpolators for up to 1 GHz update rate.

    Each module supports onboard and external clocking mode, allowing a common phased-aligned clock source provided to each RRHs to perfectly match and align the sample clocks.

    Additionally, the RRHs are based on a dual FMC HPC carrier (Nutaq’s Perseus 611X) to support both the MI125-16 and MO1000-16 modules while providing a large FPGA for pre/post-processing and 7x user-defined 20 Gbps P2P cable interfaces for channel aggregation or mesh-processing between multiple RRH or to Nutaq’s octal Virtex-6 baseband core module (Kermode XV6).

    This powerful baseband processor unit offers tremendous FPGA processing capabilities (8x Virtex-6) and up to 32x user-defined 20 Gbps P2P cable interfaces for channel aggregation and mesh processing by stacking cards together to scale processing or channel count to very large numbers.

    Finally, user defined digital control lines are also available to facilitate user-provided RF front-end interface that may be coupled to the available baseband samplers (16x ADCs, 16x DACs). Considering baseband IQ complex components topology would be used, a maximum of 8x RF transceivers may be used per RRH for a 125 MHz BW (I:125MSPS + Q:125MSPS = 250 MSPS effective real component sample rate).

    Perseus 611X Connected Together Using MiniSAS Cables

    Switch between remote and co-located radioheads

    Nutaq’s RRHs and Octal V6 Baseband Core modules are interconnected using cabled link technology that supports multiple communication topologies and which are user-defined, adaptable and scalable to multiple baseband processing schemes.

    This provides the TitanMIMO testbed with almost infinite flexibility and reduces the risk associated with fixed solution that can’t be adapted and can’t scale.

    These 20 Gbps full-duplex link per cable are offered over Mini-SAS physical interfaces. Nutaq selected these interfaces due to their small form factor, high speed rate available, and low cost compared to existing SFP-type interfaces. Each of the Mini-SAS connection are directly interfaced to 4x Virtex-6 FPGA’s full-duplex high speed MGT (Multi-Gigabit Transceiver) interface.

    These physical interfaces can support multiple protocol layers. Provided with the TitanMIMO development software are high-speed and low-latency Aurora-4x protocol (20 Gbps) full duplex interfaces. Users may employ these physical interface to support other ecom standard such as the CPRI protocol to validate scenarios which are similar to final deployment scenarios.

    These Mini-SAS cable link can be offered in either copper or optical versions, enabling the RRH to be at a distance from the baseband processing if needed.

    To illustrate the enormous throughput capacity and flexibility of the TitanMIMO-6 series, for each RRH (consisting of 8x TRXs) only one of the seven available 20 Gbps links is required to support the entire data rate of the all eight TRXs in sustained real-time operation. This assumes no decimation/upconversion within the RRH’s FPGA, i.e. in bypass-mode. The remaining 6x links are therefore available for other interconnection topologies.

    Prototype 5G waveforms and validate propagation in real environment

    Implementing new waveforms with MBDK tools allows you to:

  • Save up to 70% of your waveform development time
  • Focus on your key expertise – algorithm exploration
  • Use tools you’re already familiar with: Matlab-Simulink & GNU Radio
  • Not start from scratch! QAM-64 MIMO-OFDM implementation in both Simulink and FPGA with source code provided
  • Illustration of time savings with Nutaq's software tool

    Model based design kit Nutaq



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