ADMV4821
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ADMV4821

24 至 29.5 GHz TX/RX 双极化波束形成器

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Info : 推荐新设计使用 tooltip
Info : 推荐新设计使用 tooltip
特性
  • RF 频率范围:24 GHz 至 29.5 GHz,将 n257、n258 和 n261 频段集成在一个空间内
  • 16 个可选的 TX 通道
  • 16 个可选的 RX 通道
  • 水平和垂直极化
  • 匹配的 50Ω 单端 RF 输入和输出
  • 通过高分辨率矢量调制器实现相位控制
  • 通过高分辨率 DGA 实现幅度控制
  • 温度补偿
  • 通过存储器存储 TX 和 RX 波束位置
  • 工作温度高达 95°C
  • 符合 3GPP 规范
更多细节
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The ADMV4821 is a silicon germanium (SiGe), 24 GHz millimeterwave (mmW) to 29.5 GHz mmW 5G beamformer. The RF IC is highly integrated and contains 16 independent channels with both transmit and receive functionality. The ADMV4821 supports eight horizontal and eight vertical polarized antennas via the independent RFV and RFH inputs/outputs common pins.

In transmit mode, both the RFV and RFH input signals are split via two independent 1:8 power splitters and pass through the eight, independent, corresponding transmit channels. In this mode, each channel includes a vector modulator (VM) to control the phase and two digital variable gain amplifiers (DVGAs) to control the amplitude.

In receive mode, input signals pass through two sets of eight receive channels (either vertical or horizontal) and are combined via one independent 8:1 combiner connected to the RFV pin and one independent 8:1 combiner connected to the RFH pin. In this mode, each channel includes a VM to control the phase and a DVGA to control the amplitude.

The VM provides a full 360° phase adjustment range in either transmit or receive mode. The VM provides six bits of resolution for 5.625° phase steps.

In transmit mode, the total DVGA dynamic range adjustment range is 32.4 dB. The DVGAs provide five bits or six bits of resolution, resulting in 1.0 dB or 0.5 dB amplitude steps, respectively.

In receive mode, the DVGA allows for 17.1 dB of dynamic range adjustment. The DVGA also provides six bits of resolution, resulting in 0.5 dB amplitude steps. The DVGAs provide a flat phase response across the full gain range.

The transmitter channels contain individual power detectors to detect and calibrate the gain for each channel as well as the channel to channel gain mismatch. Directly connect the ADMV4821 RF ports to a patch antenna to create a dual polarization mmW 5G subarray.

Users can program the ADMV4821 by using a 3-wire or 4-wire serial port interface (SPI). The integrated on-chip low dropout (LDO) regulator generates the 1.8 V supply for the SPI circuitry to reduce the number of supply domains required. There are various SPI modes to enable fast startup and control during normal operation.

Users can either set the amplitude and phase for each channel individually or program multiple channels simultaneously by using the on-chip memory for beamforming. The on-chip memory can store up to 256 beam positions, which can be allocated for either transmitter or receiver mode in any combination. In addition, four address pins allow SPI control of up to 16 devices on the same serial lines. Dedicated horizontal and vertical polarization load pins also synchronize all devices in the same array. There is a horizontal and vertical polarization transmit and receive mode control pins (TRXV and TRXH) for fast switching between transmit and receive mode.

The ADMV4821 comes in a compact, thermally enhanced 10 mm × 10 mm, RoHs compliant land grid array (LGA) package. The ADMV4821 operates over the −40°C to +95°C case temperature range. This LGA package allows users to heat-sink the ADMV4821 from the top side of the package for the most efficient thermal heatsinking and to allow flexible antenna placement on the opposite side of the printed circuit board (PCB).

Throughout the figures in the data sheet, Tx means transmit (or transmitter) and Rx means receive (or receiver).

APPLICATIONS

  • 5G applications
  • Broadband communication
  • Test and measurement
  • Aerospace and defense
  • 产品技术资料帮助

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    ADI公司所提供的资料均视为准确、可靠。但本公司不为用户在应用过程中侵犯任何专利权或第三方权利承担任何责任。技术指标的修改不再另行通知。本公司既没有含蓄的允许,也不允许借用ADI公司的专利或专利权的名义。本文出现的商标和注册商标所有权分别属于相应的公司。

    参考资料

    产品型号 引脚/封装图-中文版 文档 CAD 符号,脚注和 3D模型
    ADMV4821BCCZ
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    • HTML

    软件和型号相关生态系统

    评估套件 1

    reference details image

    EVAL-ADMV4821

    评估ADMV4821 24 GHz至29.5 GHz发射器/接收器、双极化波束形成器

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    EVAL-ADMV4821

    评估ADMV4821 24 GHz至29.5 GHz发射器/接收器、双极化波束形成器

    评估ADMV4821 24 GHz至29.5 GHz发射器/接收器、双极化波束形成器

    特性和优点

    • ADMV4821的全功能评估板
    • 用于SPI控制的板载SDP-S连接器
    • 通过LDO稳压器实现5 V操作
    • 用于SPI控制的ACE软件接口

    产品详情

    ADMV4821-EVALZ评估板集成了具有低压差(LDO)稳压器、电平转换器和EVAL-SDP-CS1Z (SDP-S)控制器板的ADMV4821锗硅(SiGe)、24 GHz至29.5 GHz、5G波束形成器,以便简化、高效评估ADMV4821。RF IC高度集成,包含16个独立的发射器和接收器通道。该器件通过独立的RFV和RFH输入/输出(I/O)支持八个水平和八个垂直极化天线。该芯片可通过3线式或4线式串行端口接口(SPI)进行编程。 SDP-S控制器允许用户通过ADI的分析、控制、评估(ACE)软件与ADMV4821 SPI接口。电平转换器将1.8 V芯片逻辑电平转换为3.3 V SDP-S逻辑电平。LDO稳压器使ADMV4821能够采用单电源供电。

    有关ADMV4821的完整详细信息,请参阅ADMV4821数据手册,在使用ADMV4821-EVALZ时,必须同时参阅该数据手册和用户指南。

    工具及仿真模型 1

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