64 lines
8.5 KiB
Markdown
64 lines
8.5 KiB
Markdown
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title: 复刻R300A
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updated: 2022-01-08 13:54:59Z
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created: 2022-01-08 13:18:07Z
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---
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<!DOCTYPE HTML PUBLIC "-//W3C//DTD HTML 4.0//EN" "http://www.w3.org/TR/REC-html40/strict.dtd">
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<html>
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<head>
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<meta name="qrichtext" content="1" />
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<meta http-equiv="Content-Type" content="text/html; charset=UTF-8" />
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<style type="text/css">
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p, li { white-space: pre-wrap; }
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</style>
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</head>
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<body style="font-family:'Tahoma'; font-size:10pt; font-weight:400; font-style:normal;">
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<ol style="margin: 0px; -qt-list-indent: 1;">
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<li style="font-family:'Consolas';" style="margin:0px;">结构方面尽量压缩厚度,单层最高内腔厚度以<span style=" background-color:#ffff00;">最高器件+2mm</span>为限,<span style=" text-decoration: line-through;">上盖板侧面为【土】和【山】型,即对外接口面无竖墙,其余面有竖墙</span></li>
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<li style="font-family:'Consolas';" style="margin:0px;">多加分腔,优化分腔大小(信号产生点,压缩空间)、长宽(信号传输线,抑制泄漏),分腔隔离带(<span style=" background-color:#ffff00;">Wmin=3mm</span>)中地孔孔径(<span style=" background-color:#ffff00;">2mm?</span>)最大化,保证可靠接地</li>
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<p style="margin:0px; -qt-block-indent:1;"><span style="font-family:'Consolas';">分腔隔离带对应的隔离墙开槽(墙宽3mm,槽宽2mm)并填充导电泡棉保证隔离效果(参考</span><a href="nyf://entry?itemid=30&itemtext=G35DDC"><span style="font-family:'Consolas'; text-decoration: underline; color:#0000ff;">G35DDC</span></a><span style="font-family:'Consolas';"> 的设计)</span></p>
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<p style="margin:0px; -qt-block-indent:1;"><span style="font-family:'Consolas';">PCB与盒体仅依靠隔离带共地接触,发热大户(DCDC、LDO、PLL)的位置亦需要共地接触(涂导热硅脂加速热传递)</span></p>
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<p style="margin:0px; -qt-block-indent:1;"><span style="font-family:'Consolas';">隔离带采用全密闭设计,互联处射频线采用</span><span style="font-family:'Consolas'; background-color:#ffff00;">带状线1B1A</span><span style="font-family:'Consolas';">结构过渡</span></p>
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<li style="font-family:'Consolas';" style="margin:0px;">PCB采用全FR4,双面器件,顶层射频线,第二层全地保证射频地完整,三层控制线减小干扰,底层电源</li>
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<p style="margin:0px; -qt-block-indent:1;"><span style="font-family:'Consolas';">器件挨着器件放置、减少射频线裸缆的长度,可直接降低信号损耗</span></p>
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<p style="margin:0px; -qt-block-indent:1;"><span style="font-family:'Consolas';">射频信号由</span><span style="font-family:'Consolas'; background-color:#ffff00;">【微带线-带状线1BA-微带线】</span><span style="font-family:'Consolas';">的过渡需要仿真,最好能打板实测</span></p>
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<li style="font-family:'Consolas';" style="margin:0px;">进电升压选<span style="font-family:'Tahoma'; font-weight:600; color:#000000;">TPS63070</span><span style=" color:#000000;">,LDO选</span><span style="font-family:'Tahoma'; font-weight:600; color:#000000;">ADM7151</span><span style=" color:#000000;">,</span>分路磁珠选<span style="font-family:'Tahoma'; font-weight:600;">BLM18AG601SN1</span><span style=" color:#000000;">,开关P-MOS选用</span><span style="font-family:'Tahoma'; font-weight:600;">FDN340P</span><span style=" color:#000000;"> </span><a href="nyf://entry?itemid=28&itemtext=P"><span style="font-family:'Tahoma'; text-decoration: underline; color:#0000ff;">Pmos用法</span></a><span style="font-family:'Tahoma';"> </span><span style=" color:#000000;">,PLL选HMC835</span></li>
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</ol>
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<p style="-qt-paragraph-type:empty; margin:0px; -qt-block-indent:1; font-family:'Consolas'; color:#000000;"><br /></p>
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<p style="-qt-paragraph-type:empty; margin:0px; -qt-block-indent:1; font-family:'Consolas'; color:#000000;"><br /></p>
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<p style="margin:0px; -qt-block-indent:1;"><span style="font-family:'Consolas'; color:#000000;">预选滤波器独立成板</span></p>
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<p style="margin:0px; -qt-block-indent:1;"><span style="font-family:'Consolas'; color:#000000;">PLL可升级为LMX2572</span></p>
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<p style="margin:0px; -qt-block-indent:1;"><span style="font-family:'Consolas'; color:#000000;">射频开关换为PE42540E-Z,原HMC253A太贵</span></p>
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<p style="margin:0px; -qt-block-indent:1;"><span style="font-family:'Consolas'; color:#000000;">结构要精简,避免处处挖槽,处处凸出;避免异形槽、孔</span></p>
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<p style="margin:0px; -qt-block-indent:1;"><span style="font-family:'Consolas'; color:#000000;">线缆互连要合理,避免盲连</span></p>
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<p style="margin:0px; -qt-block-indent:1;"><span style="font-family:'Consolas'; color:#000000;">电源磁珠要足够</span></p>
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<p style="margin:0px; -qt-block-indent:1;"><span style="font-family:'Consolas'; color:#000000;">开关选用pmos,控制电平要明确,H(低压控制高压必须Z),L。考虑用Z代替H</span></p>
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<p style="margin:0px; -qt-block-indent:1;"><span style="font-family:'Consolas'; color:#000000;">控制线加滤波,善用</span><span style="font-family:'Arial-BoldMT'; font-size:9pt; font-weight:600; color:#000000;">74HCT2G04</span><span style="font-family:'Consolas'; color:#000000;">(TTL版)的反向器以减小控制线数量,电平兼容,同时简化控制逻辑、提升稳定性</span></p>
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<p style="-qt-paragraph-type:empty; margin:0px; -qt-block-indent:1; font-family:'Consolas'; color:#000000;"><br /></p>
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<p style="margin:0px; -qt-block-indent:1;"><span style="font-family:'Consolas'; color:#000000;">CPLD的速度可能远快于MCU</span></p>
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<p style="-qt-paragraph-type:empty; margin:0px; -qt-block-indent:1; font-family:'Consolas'; color:#000000;"><br /></p>
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<p style="margin:0px; -qt-block-indent:1;"><span style="font-family:'Consolas'; color:#000000;">2020.0904</span></p>
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<p style="margin:0px; -qt-block-indent:1;"><span style="font-family:'Consolas'; color:#000000;">预选滤波器独立成板,控制线采用普通fpc座或类似座,线可自制,拧线成束,</span></p>
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<p style="margin:0px; -qt-block-indent:1;"><span style="font-family:'Consolas'; color:#000000;">预选滤波器采用振华富成品,性能、体积有保证</span></p>
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<p style="-qt-paragraph-type:empty; margin:0px; -qt-block-indent:1; font-family:'Consolas'; color:#000000;"><br /></p>
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<p style="margin:0px; -qt-block-indent:1;"><a href="nyf://entry?itemid=28&file=Pmos应用电路.png"><span style=" text-decoration: underline; color:#0000ff;">Pmos应用电路.png</span></a><a href="nyf://entry?itemid=28&file=Pmos应用电路.png"><span style=" text-decoration: underline; color:#0000ff;"> </span></a></p>
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<p style="-qt-paragraph-type:empty; margin:0px; -qt-block-indent:1;"><br /></p>
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<p style="-qt-paragraph-type:empty; margin:0px; -qt-block-indent:1;"><br /></p>
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<p style="margin:0px; -qt-block-indent:1;">0905</p>
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<p style="margin:0px; -qt-block-indent:1;"><span style=" font-size:16pt; font-weight:600; background-color:#ffff00;">测向相关</span></p>
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<p style="margin:0px; -qt-block-indent:1;">考虑到多模块同步后用于测向的场景及小型化、低功耗的需求,</p>
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<p style="margin:0px; -qt-block-indent:1;"><span style=" background-color:#ffff00;">方案一</span>,拟做专用的版本</p>
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<p style="margin:0px; -qt-block-indent:1;">此版本射频链路中无本振、无参考,无控制单元,裁剪部分提供外部接口用于受控,外部接口可级联</p>
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<p style="margin:0px; -qt-block-indent:1;">本振及控制单元抽立出来成为独立的模块,拟支持同步控制4路前端模块</p>
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<p style="-qt-paragraph-type:empty; margin:0px; -qt-block-indent:1;"><br /></p>
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<p style="margin:0px; -qt-block-indent:1;"><span style=" background-color:#ffff00;">方案二</span>,硬件上采用完整的射频前端,功能上兼容独立工作和测向,测向时需要共参考且对各路本振进行同步,</p>
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<p style="margin:0px; -qt-block-indent:1;">据手册知,每次变频后都需要进行同步,同步时间待测,目测可能到数百us甚至数十ms级别,</p>
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<p style="margin:0px; -qt-block-indent:1;">考虑到 1,测向的频点不会快速跳变;2,测向是连续多次测量;3,测向会持续一段时间</p>
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<p style="margin:0px; -qt-block-indent:1;">此方案或许可行</p>
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<p style="-qt-paragraph-type:empty; margin:0px; -qt-block-indent:1;"><br /></p>
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<p style="-qt-paragraph-type:empty; margin:0px; -qt-block-indent:1;"><br /></p>
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<p style="-qt-paragraph-type:empty; margin:0px; -qt-block-indent:1;"><br /></p>
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<p style="-qt-paragraph-type:empty; margin:0px; -qt-block-indent:1;"><br /></p>
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</body>
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</html>
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