Hi. This is Millimeter Wave EVMS Deep Dive. 大家好!下面深入介绍毫米波EVM Here’s the agenda. 这是议程 We’ll first talk about the millimeter wave EVM terminologies. 首先,我们先来看一下毫米波EVM的相关术语 There are two types of EVMs-- BoosterPack and DevPack. EVM有两种类型,分别是:BoosterPack和DevPack For each of the EVM, we’ll show the block diagram. 对于这两种EVM,我们将介绍一下它们的方框图 For the connectivity ecosystem, we’ll show the platforms, connectivity with TI LaunchPad, and the connectivity with TSW 1,400. 针对连接生态系统,我们将介绍所有的平台,与TI LaunchPad的连接和与TSW1400的连接 Millimeter Wave EVM terminologies. 毫米波相关术语 The BoosterPack EVMs-- BoosterPack are EVM boards with millimeter waves SOC onboard. BoosterPack EVMs:BoosterPack是具有板载毫米波SOC的EVM板 It allows plug-in ability to interface with LaunchPads. 它支持插件功能,可与LaunchPad连接 We have 12, a 14 BoosterPack and a 16 BoosterPack available. 有三种可用类型,分别是12、14 BoosterPack和16BoosterPack Another type of EVM is development packs, or DevPack. EVM的另一种类型是开发包,或称DevPack It add on board for particular set of BoosterPack EVMs to support higher capability of debug. 它添加在特定一组BoosterPack EVM的板上,以支持更高级调试功能 It allows connectivity with PC, for organizing radar data during development. 它支持与PC连接,用于在开发过程中整理雷达数据 DevPack EVM is compatible for both 12, 14, and 16 BoosterPack. DevPack EVM兼容12、14和16BoosterPack块的背景知识介绍 This is 12, 14 BoosterPack block background. 这是12、14BoosterPack块的背景知识介绍 Since there is a millimeter sensor as you’ll see, it is connected to 4x RX 3 TX antennas. 您稍后将会看到,我们准备了一个连接到4Rx3Tx天线的毫米波传感器 The [? clock ?] system is supported with onboard 40 megahertz crystal. 该时钟由板载40MHz晶体提供支持 5 volt input with PMIC and LDOs for power supply. 具有PMIC和LDO的5伏输入作为电源 xds 110 [INAUDIBLE] emulation with [? zero port ?] for onboard [? skills by ?] flash programming. xds110仿真通过[?零端口?]进行板载[?技能?]闪存编程 Back channel [? UR through ?] USB to PC for logging purposes, while onboard can transceiver. 反向通道[?UR通过?]USB到PC用于记录目的 The connectors are used with all the traces listed for user application and debug. 连接器与为用户应用和调式列出的所有迹线搭配使用 Note that for the tau BoosterPack, it is a closed system. 请注意,tauBoosterPack是一个封闭式系统 Only spy for configuration and LVDS/CSI2 for data transfer. 仅探测配置和LVDS/CSI2以进行数据传输 Also, if [INAUDIBLE] BoosterPack, xds, and the CAN support is not available, [INAUDIBLE] support is not using [INAUDIBLE]. 另外,如果不提供[听不清]BoosterPack、xds和CAN支持,则[听不清]支持将不使用[听不清] This is 16 BoosterPack block diagram. 这是16BoosterPack方框图 Compared to the 14 BoosterPack, the major difference is two TX instead of three, CAN-FD instead of CAN receiver. 与14BoosterPack相比,主要区别是它有两个Tx而不是三个,具有CAN-FD而没有CAN接收器 However, for industrial application, CAN-FD is not supported here. 但对于工业应用来说,并不支持CAN-FD [INAUDIBLE] [? HD ?] connector is only LVDS and not CSI. [听不清][?HD?]连接器仅限LVDS而不是CSI And in addition, EMM interface is added. 此外,还添加了EMM接口 This is the DevPack EVM block diagram. 这是DevPack EVM方框图 The 2-20 pin connector provides connectivity to Launchpad. 通过2-20引脚连接器,可以连接到Launchpad [? They’re stuck in a ?] CAN transceiver. [?它们卡在?]CAN收发器中 Onboard FTDI chip provides PC interface for SPI, I2C, GPL controls and UR loggers. 板载FTDI芯片具有适用于SPI、I2C、GPL控制和UR记录器的PC接口 60-MIPI connector for JTAG trees. 用于JTAG树的60-MIPI连接器 And the 120 Samtec connector with LVDS signal trace. 具有LVDS信号迹线的120Samtec连接器 This is connectivity ecosystem. 以上内容是连接生态系统 BoosterPack alone connected to PC can be used for software development with CCS. 单独连接到PC的BoosterPack可用于使用CCS进行软件开发 BoosterPack together with DevPack is connected with TSW 1400 for raw data capture. BoosterPack与DevPack由TSW1400连接在一起,用于进行原始数据的捕获 An ecosystem with TI Launchpad can be used for sensitive development and debug. 包含TI Launchpad的生态系统可用于进行敏感性开发和测试 Examples of hardware platforms are presented here. 此处显示了硬件平台的示例 BoosterPack alone it enables evaluation of single chip millimeter width sensor. BoosterPack独自支持评估单芯片毫米波传感器 4Rx/3Tx transceiver with the ranged Doppler angle FFT capability. 具有距离多普勒角度FFT功能的4Rx/3Tx收发器 Proximity sensor demo is included in millimeter wave SDK. 毫米波SDK中包括接近传感器演示 BoosterPack, DevPack, and TSW1400 system enables RF performance evaluation. BoosterPack、DevPack和TSW1400系统支持射频性能评估 Raw ADC data can be captured and processed to PC. 可以捕获原始ADC数据并将其处理到PC中 [INAUDIBLE] of range velocity angle are made possible with mmWave Studio. 使用mmWave Studio可以实现距离、速度和角度的[听不清] BoosterPack with TI Launchpad enables RF performance evaluation and a wireless connectivity. 配置TI Launchpad的BoosterPack支持射频性能评估和无线连接 This is BoosterPack header pin-out diagram. 这是BoosterPack接头引脚分配图 There are [? 220P ?] headers on the back of BoosterPack EVM [INAUDIBLE] signals [INAUDIBLE]. BoosterPack EVM[听不清]信号[听不清]背面有[?220P?]接头 This is the connectivity of BoosterPack with TI Launchpad. 这是BoosterPack与TI Launchpad的连接 Center is the 40 pin-outs msp 432 p401r Launchpad, showing all the functions for which the device pins can be configured on the two sides of BoosterPack plug in module standard, as we show in previous page. 中心是40引脚msp 432 p401r Launchpad,显示了可在模块标准的BoosterPack插头两侧为器件引脚配置的所有功能,如前一页所示 The connectivity with TSW1400 shows a block diagram of the three EVMs, BoosterPack, DevPack, and TSW1400. 与TSW1400的连接显示了三个EVM的方框图,分别是BoosterPack、DevPack和TSW1400 The BoosterPack and DevPack are connected to the [? 220P ?] header and the six DP high density connectors using Samtec cable. BoosterPack和DevPack使用Samtec电缆连接到[?220P?]接头和六个DP高密度连接器 The connection to TSW1400 can be through the [? 120P ?] Samtec cable or direct connection between DevPack and TSW1400. 与TSW1400的连接可以通过[?120P?]Samtec线缆或在DevPack和TSW1400直接连接
