ADM1177

• 使用MxFE的多通道、宽带系统开发平台
• 与Xilinx VCU118评估板（不包括）搭配使用
• 16个RF接收(Rx)通道（32个数字Rx通道）
  • 总共16个1.5GSPS至4GSPS ADC
  • 48个数字下变频器(DDC)，每个包括复数数控振荡器(NCO)
  • 16个可编程有限脉冲响应滤波器(pFIR)
• 16个RF发射(Tx)通道（32个数字Tx通道）
  • 16个RF发射(Tx)通道（32个数字Tx通道）
  • 48个数字上变频器(DUC)，每个包括复数数控振荡器(NCO)
• 灵活的Rx和Tx RF前端
  • Rx：用于增益控制的滤波、放大、数字步进衰减
  • Tx：滤波、放大
• 单个12V电源适配器（随附）提供片上电源调节
• 灵活的时钟分配
  • 单个外部500MHz基准电压源提供片上时钟分配
  • 每个MxFE支持外部转换器时钟

• 可配合四通道MxFE数字化处理卡和VCU118 PMOD接口（随附电缆）使用
• 提供单独的相邻通道环回和组合通道环回选项
• 通过SMA选项提供组合Tx通道输出
• 通过SMA选项提供组合Rx通道输入
• 板载对数功率检波器，AD5592R通过PMOD输出到VCU118
• 单个12V电源适配器（随附）提供片上电源调节

• IIO示波器GUI
• MATLAB插件和示例脚本
• 示例HDL版本，包括JESD204b/JESD204c启动
• 用于Linux和设备驱动程序的嵌入式软件解决方案
• MATLAB系统应用GUI

• 用于确定上电相位的多芯片同步功能
• 使用NCO实现系统级幅度/相位对齐
• 旁路JESD接口的低延迟ADC至DAC环回
• 用于宽带通道间幅度/相位对齐的pFIR控制
• 快速跳频
• 校准板MATLAB驱动程序文件
• FPGA编程MATLAB脚本

四通道MxFE系统开发平台包含四个MxFE®软件定义的直接RF采样收发器以及相关的RF前端、时钟和电源电路。目标应用包括相控阵雷达、电子战和地面卫星通信，尤其是L/S/C频段（0.1 GHz至~5GHz）的16发射/16接收通道直接采样相控阵。Rx和Tx RF前端具有插入式配置，可根据用户应用自定义频率范围。

四通道MxFE系统开发平台可提供完整的系统解决方案。它可以用作测试平台，用于演示多芯片同步以及实现系统级校准、波束成形算法和其他信号处理算法。该系统旨在配合Xilinx® VCU118评估板使用，具有Virtex® UltraScale+™ XCVU9P FPGA并提供参考软件、HDL代码和MATLAB系统级接口。

除了四通道MxFE数字化处理卡之外，该套件还包含16Tx / 16Rx校准板，用于开发系统级校准算法，或在与自己的用例相关的情况下更轻松地演示上电相位确定性。通过该校准板，用户还可演示组合通道动态范围、杂散和相位噪声的改进性能，连接至VCU118 PMOD接口时，还可通过免费的MATLAB插件进行控制。

该系统可用于加快以下应用的开发程序上市时间：

• ADEF（相控阵、雷达、电子战、卫星通信）
• 通信基础设施（多频段5G和毫米波5G）
• 电子测试与测量

• Allows evaluation and prototyping of 60 GHz wireless data links to replace traditional mechanical connectors in moving joints
• 1 Gbps Ethernet interface on both sides of the wireless data link
• Fully programmable system allowing ultimate flexibility for custom developments
• Open-source software stack for firmware development  
• Open-source GUI for system configuration, monitoring, and control

The ADMV96S-WGBE-EK1 is a complete evaluation and prototyping system for 60 GHz wireless data links. It consists of a pair of receiver and transmitter boards with a 1Gbp Ethernet interface on each side of the wireless link.

The 60 GHz wireless link is implemented by the ADMV9615 and ADMV9525 modules. These are coupled with a SerDes device which translates the modules’ SGMII interface to RGMII so that it can be connected to an ADIN1300 industrial low latency and low power 1 Gbps Ethernet PHY. This enables each side of the wireless link to act as an Ethernet port and essentially create a seamless wire-like connection between two ends of an Ethernet cable.

The on-board MAX32650 ultralow power ARM^® Cortex^®-M4 microcontroller controls the system’s operation and implements the algorithms to configure the wireless link in real time so that optimal link quality is constantly maintained over temperature and various operating conditions. An open-source software stack is provided for firmware development as well as reference applications. The MAX32650 can be programmed through a programming port which can also be used for firmware debugging.

The two sides of the wireless link are mounted on an adjustable rail so that the system can be configured and tested for various distances between the links. Each side of the link is powered from an external 12 V power supply.

An open-source GUI is provided for system configuration, monitoring, and control from a host PC.

APPLICATIONS

• 60 GHz wireless data links for industrial and medical high data rate applications
• High speed data for rotating applications, such as slip rings and magnetic resonance imaging systems
• Autonomous guided vehicles
• Mechanical Connector replacement

• 兼容 FMC 的外形规格
• 可使用外部电源通过 FMC 连接器供电
• 提供电平转换和各种电源值
• 与 RaspberryPi X-MW 控制器兼容 

AD-FMCXMWBR1-EBZ 是一个电平转换器和电源板，外形规格与 FMC 兼容。它由 FMC 连接器供电，而对于需要更高负载电流的应用，可以添加外部电源。在这种情况下，将优先使用外部电源。 

AD-FMCXMWBR1-EBZ 支持在控制器/FPGA 套件与 X-MW 模块之间使用转换的多电平数字通信路径。该模块提供具有高电流能力的多个电源电压，可在原型制作中用于偏置 X-MW 模块或其他 IC’。

应用

• RF 和微波设计
• 电压电平转换
• 通用软件无线电
• 雷达系统
• 点对点通信系统
• 多输入/多输出 (MIMO) 无线电
• 自动测试设备

• GMSL2 prototyping system supporting the NVIDIA Jetson™ SoCs
• On-board MAX96724 that allows 4x GMSL2/1 camera inputs that allows for camera module bring-up, debug, and video streaming
• On-board MAX96717 that can be used for camera emulation and head-unit debug
• Enables development of GMSL applications with NVIDIA Jetson™ SoC
• SAMTEC connector that allows connection of any GMSL DPHY EV Kit to the NVIDIA Jetson™
• Additional inputs: USB, Ethernet, PCIe, and microSD card

The AD-GMSL522-SL is a GMSL-enabled NVIDIA Jetson Xavier™ NX-based carrier board and software solution that allows for simple camera to display conversion. This solution creates a scalable, user friendly, GMSL platform for receiving and transmitting data over a gigabit multimedia serial link (GMSL). The platform enables demonstrations and ecosystem development by serving as a hardware platform for software development.

The AD-GMSL522-SL supports two forms of camera input -- either straight CSI data coming through a SAMTEC connector, or via camera modules using GMSL2 or GMSL1 technology to connect to the on-board MAX96724 via COAX connectors. GMSL evaluation kits or any camera utilizing the standard 15- or 22-pin Raspberry Pi connector can be connected here using the AD-GMSLCAMRPI-SL adapter board.

The AD-GMSL522-SL package includes software tools to enable customers in their development of GMSL applications. Among these tools are modified L4T kernels that support certain camera modules and documentation that allows any user to update these kernels for their specific hardware needs.

The design incorporates the MAX96724GTN/VY+ Quad tunneling GMSL2/1 to CSI-2 deserializer and MAX96717GTJ/VY+ CSI-2 to GMSL2 serializer and provides a reliable platform to evaluate high-bandwidth GMSL.

There are two system options available for purchase: the AD-GMSL522-SL which is the base carrier board and does not include the NVIDIA SoM, and the AD-GMSL522-SOM-SL which is the carrier board including the NVIDIA Jetson Xavier™ NX SoM.

APPLICATIONS

• ADAS Camera Solutions
• Sensor Fusion ECU
• Driver and Occupant Monitoring
• In-cabin Infotainment