<p><em><span>Wolfspeed CMPA901A020S</span><span>、</span><span>Wolfspeed CMPA9396025S</span><span>、</span><span>Wolfspeed CMPA801B030 系列</span><span>均为</span><span>GaN MMIC</span><span>器件,具备小型化、高效率等优势。</span></em></p>
<p><span>全球碳化硅技术领先企业科锐</span><span>Cree</span><span>,<span> </span></span><span>Inc</span><span>. (</span><span>Nasdaq</span><span>:<span> </span></span><span>CREE</span><span>) 宣布,</span><span>推出多款</span><span>碳化硅基氮化镓(</span><span>GaN-on-SiC</span><span>)器件</span><span>:</span><span>Wolfspeed</span><span><span> </span></span><span>CMPA901A020S</span><span>、</span><span>CMPA9396025S</span><span>、</span><span>CMPA801B030</span><span><span> </span>系列</span><span>。本次推出的器件采用</span><span>MMIC</span><span>技术,具备研发部署大型雷达系统所需的小型化、高效率、高可靠性、以及优异的</span><span>功率密度</span><span>等特点,可有效应对大型雷达所面临的挑战。</span></p>
<p><span>有源电子扫描阵列(</span><span>AESA</span><span>)系统愈来愈受到研发的青睐</span><span>,</span><span>该系统主要运用于大型机载平台上,同时在陆地和海事细分市场也有采用。</span><span>AESA</span><span><span> </span>系统使用有源阵列,每个阵列拥有数百甚至数千根天线。每一根天线均有其各自的相位和增益控制。天线元件的间距通常为半波长,以减少近场中的暴露。</span><span>AESA</span><span><span> </span>雷达同时也常常需要在</span><span>宽范围</span><span>的高频</span><span>率</span><span>内扩散信号。这样的频率捷变可以让雷达快速地搜索扇形区中的目标,同时保持隐蔽,并带来更出色的抗干扰能力。这些要求为工程师们带来了一</span><span>定</span><span>挑战:每</span><span>个</span><span>天线元件必须足够小</span><span>型和</span><span>轻量,同时</span><span>要</span><span>让整体系统尺寸和重量</span><span>在</span><span>空中和海上使用</span><span>时</span><span>可控。</span></p>
<p><img alt="科锐推出多款碳化硅基氮化镓器件,助力大型雷达加速发展" data-entity-type="file" data-entity-uuid="5f8f61d9-82bc-4be8-ac39-aceac0c12316" src="http://new.eetrend.com/files/2021-04/wen_zhang_/100088660-174175-1.jpg&…; /></p>
![http://new.eetrend.com/files/2021-04/wen_zhang_/100088660-174175-1.jpg&…](http://new.eetrend.com/files/2021-04/wen_zhang_/100088660-174175-1.jpg"){kind=link}
<p><span>赋能技术</span><span>:</span><span>GaN</span></p>
<p><span>GaN</span><span>能够帮助雷达设计</span><span>者</span><span>克服功率、</span><span>散热</span><span>、重量和尺寸</span><span>、以及成本效益</span><span>等</span><span>诸多</span><span>挑战</span><span>,其具备宽的能</span><span>带隙</span><span>,</span><span>拥有</span><span>极</span><span>高</span><span>的临界</span><span>击穿电场</span><span>;具备出色的</span><span>高温可靠性</span><span>、出众的</span><span>高供电电压下</span><span>的鲁棒性</span><span>,</span><span>以及优异的</span><span>功率密度。</span><span>将</span><span>碳化硅</span><span>(</span><span>SiC</span><span>)作为<span> </span></span><span>GaN</span><span><span> </span></span><span>的衬底,能实现较</span><span>低的热膨胀、</span><span>较低的</span><span>晶格失配,</span><span>以及</span><span>出色的热导率,</span><span>进而</span><span>充分发挥</span><span><span> </span></span><span>GaN</span><span><span> </span>的特性。</span></p>
<p><span>高性能</span><span>关键</span></p>
<p><span>单片微波集成电路</span><span>(</span><span>MMIC</span><span>)能</span><span>将多个</span><span>元</span><span>件的完整功能模块制造在单</span><span>个设备</span><span>中,</span><span>进</span><span>而提高电路密度。</span><span>MMIC</span><span>采用方形扁平无引脚</span><span>(</span><span>QFN</span><span>)</span><span>封装,能够带来进一步降低成本和减小</span><span>尺寸</span><span>的优势。由于<span> </span></span><span>QFN</span><span><span> </span>封装采用短键合引线,有助于降低引线电感,其暴露在外的铜裸芯片焊盘</span><span>提供</span><span>出色的热</span><span>学</span><span>性能。</span><span>本次科锐推出的器件就是基于上述技术:</span></p>
<p><span>Wolfspeed</span><span>的</span><span>CMPA901A020S</span><span><span> </span></span><span>器件</span><span>采用<span> </span></span><span>6</span><span><span> </span>×<span> </span></span><span>6</span><span><span> </span></span><span>mm</span><span><span> </span></span><span>QFN</span><span><span> </span>封装,是一款<span> </span></span><span>20W</span><span><span> </span>的</span><span>GaN</span><span>-</span><span>on</span><span>-</span><span>SiC</span><span>高功率放大器,能够在<span> </span></span><span>9</span><span><span> </span></span><span>GHz</span><span><span> </span></span><span>至</span><span><span> </span></span><span>10</span><span><span> </span></span><span>GHz</span><span><span> </span></span><span>频率范围内工作</span><span>,适用于海洋气象雷达这样的脉冲雷达应用。</span><span>该</span><span>放大器拥有三级增益,能够提供大于<span> </span></span><span>30</span><span><span> </span></span><span>dB</span><span><span> </span>的大信号增益和大于<span> </span></span><span>50</span><span>% 的效率,能够满足</span><span>更</span><span>低的系统直流功率要求,并为简化系统热管理解决方案提供支持。</span></p>
<p><span>今天</span><span>推出的另一款GaN</span><span><span> </span></span><span>MMIC<span> </span></span><span>是</span><span>CMPA9396025S</span><span><span> </span>,</span><span>其能够集成诸多技术,带来</span><span><span> </span></span><span>SWaP</span><span>-</span><span>C</span><span><span> </span>改进</span><span>的最大化</span><span>。该三级器件</span><span>针对</span><span><span> </span></span><span>9</span><span>.</span><span>3</span><span>-</span><span>GHz</span><span><span> </span>至<span> </span></span><span>9</span><span>.</span><span>6</span><span>-</span><span>GHz</span><span><span> </span></span><span>工作</span><span>而设计,采用<span> </span></span><span>6</span><span><span> </span>×<span> </span></span><span>6</span><span><span> </span></span><span>mm</span><span><span> </span></span><span>QFN</span><span><span> </span>封装,在<span> </span></span><span>100</span><span>-</span><span>µs</span><span><span> </span>脉冲宽度、占空比为<span> </span></span><span>10</span><span>% 条件下的功率为<span> </span></span><span>25</span><span><span> </span></span><span>W</span><span>。</span></p>
<p><span>MMIC</span><span><span> </span>放大器</span><span>中</span><span>的</span><span>CMPA801B030</span><span><span> </span>系列在<span> </span></span><span>7</span><span>.</span><span>9</span><span>-</span><span>GHz</span><span><span> </span>到<span> </span></span><span>11</span><span>-</span><span>GHz</span><span><span> </span>频率范围</span><span>内工作,</span><span>能够</span><span>支持</span><span>在<span> </span></span><span>X</span><span>-</span><span>波段中实现更宽的</span><span>带宽</span><span>和更高的功率</span><span>。</span><span>其输出典型值高达<span> </span></span><span>40</span><span><span> </span></span><span>W</span><span>,大信号增益大于<span> </span></span><span>20</span><span><span> </span></span><span>dB</span><span>,功率附加效率达<span> </span></span><span>40</span><span>%。该产品系列采用<span> </span></span><span>7</span><span><span> </span>×<span> </span></span><span>7</span><span><span> </span></span><span>mm</span><span><span> </span>的塑料二次注塑成型<span> </span></span><span>QFN</span><span>,同样提供裸芯片和<span> </span></span><span>10</span><span><span> </span></span><span>引</span><span>脚金属</span><span><span> </span></span><span>/ 陶瓷</span><span>安装凸缘<span> </span></span><span>flanged</span><span><span> </span>封装,从而带来更</span><span>出众的</span><span>电气性能和热</span><span>学</span><span>性能。</span></p>
<p><img alt="CMPA801B030提供裸芯片和高度紧凑型封装,带来SWaP-C改进的最大化" data-entity-type="file" data-entity-uuid="bdd0e6d6-0263-46d8-98d1-fe53ebf5f0c0" src="http://new.eetrend.com/files/2021-04/wen_zhang_/100088660-174177-2.png&…; /></p>
![http://new.eetrend.com/files/2021-04/wen_zhang_/100088660-174177-2.png&…](http://new.eetrend.com/files/2021-04/wen_zhang_/100088660-174177-2.png"){kind=link}
<p><span>▲ CMPA801B030提供裸芯片和高度紧凑型封装,带来SWaP-C改进的最大化</span></p>
<p><span>(备注:以上所列所有器件 ECCN均为3A001.b.2)</span></p>
<p><span>上述此类</span><span>GaN</span><span>器件有利于推动迅速增加的</span><span>各类</span><span>平台更快速地采用<span> </span></span><span>AESA</span><span><span> </span>雷达,而雷达系统的</span><span><span> </span></span><span>GaN</span><span><span> </span>开支</span><span>也将快速增长。</span></p>
<p><span>了解如何赋能您的下一代 X-波段雷达设计,敬请浏览 Wolfspeed<span> <span> </span></span>X-波段产品页面:</span></p>
<p><a href="https://www.wolfspeed.com/rf/products/x-band"><span>https</span></a><a href="https://www.wolfspeed.com/rf/products/x-band"><span>://</span></a><a href="https://www.wolfspeed.com/rf/products/x-band"><span>www</span></a><a href="https://www.wolfspeed.com/rf/products/x-band"><span>.</span></a><a href="https://www.wolfspeed.com/rf/products/x-band"><span>wolfspeed</span></a… href="https://www.wolfspeed.com/rf/products/x-band"><span>.</span></a><a href="https://www.wolfspeed.com/rf/products/x-band"><span>com</span></a><a href="https://www.wolfspeed.com/rf/products/x-band"><span>/</span></a><a href="https://www.wolfspeed.com/rf/products/x-band"><span>rf</span></a><a href="https://www.wolfspeed.com/rf/products/x-band"><span>/</span></a><a href="https://www.wolfspeed.com/rf/products/x-band"><span>products</span></a>… href="https://www.wolfspeed.com/rf/products/x-band"><span>/</span></a><a href="https://www.wolfspeed.com/rf/products/x-band"><span>x</span></a><a href="https://www.wolfspeed.com/rf/products/x-band"><span>-</span></a><a href="https://www.wolfspeed.com/rf/products/x-band"><span>band</span></a></p&…;
<p><span>关于英文原稿,敬请浏览【Wolfspeed Knowledge Center】与相应文章:</span></p>
<p><a href="https://www.wolfspeed.com/knowledge-center/article/gan-solutions-small-… href="https://www.wolfspeed.com/knowledge-center/article/gan-solutions-small-… href="https://www.wolfspeed.com/knowledge-center/article/gan-solutions-small-… href="https://www.wolfspeed.com/knowledge-center/article/gan-solutions-small-… href="https://www.wolfspeed.com/knowledge-center/article/gan-solutions-small-… href="https://www.wolfspeed.com/knowledge-center/article/gan-solutions-small-… href="https://www.wolfspeed.com/knowledge-center/article/gan-solutions-small-… href="https://www.wolfspeed.com/knowledge-center/article/gan-solutions-small-… href="https://www.wolfspeed.com/knowledge-center/article/gan-solutions-small-… href="https://www.wolfspeed.com/knowledge-center/article/gan-solutions-small-… href="https://www.wolfspeed.com/knowledge-center/article/gan-solutions-small-… href="https://www.wolfspeed.com/knowledge-center/article/gan-solutions-small-… href="https://www.wolfspeed.com/knowledge-center/article/gan-solutions-small-… href="https://www.wolfspeed.com/knowledge-center/article/gan-solutions-small-… href="https://www.wolfspeed.com/knowledge-center/article/gan-solutions-small-… href="https://www.wolfspeed.com/knowledge-center/article/gan-solutions-small-… href="https://www.wolfspeed.com/knowledge-center/article/gan-solutions-small-… href="https://www.wolfspeed.com/knowledge-center/article/gan-solutions-small-… href="https://www.wolfspeed.com/knowledge-center/article/gan-solutions-small-… href="https://www.wolfspeed.com/knowledge-center/article/gan-solutions-small-… href="https://www.wolfspeed.com/knowledge-center/article/gan-solutions-small-… href="https://www.wolfspeed.com/knowledge-center/article/gan-solutions-small-… href="https://www.wolfspeed.com/knowledge-center/article/gan-solutions-small-… href="https://www.wolfspeed.com/knowledge-center/article/gan-solutions-small-… href="https://www.wolfspeed.com/knowledge-center/article/gan-solutions-small-… href="https://www.wolfspeed.com/knowledge-center/article/gan-solutions-small-… href="https://www.wolfspeed.com/knowledge-center/article/gan-solutions-small-… href="https://www.wolfspeed.com/knowledge-center/article/gan-solutions-small-… href="https://www.wolfspeed.com/knowledge-center/article/gan-solutions-small-…;
<p><span>关于科锐</span><span><span> </span>Cree, Inc.</span></p>
<p><span>30</span><span>多年以来,科锐(纳斯达克上市代码:</span><span>CREE</span><span>)作为碳化硅(</span><span>SiC</span><span>)技术和生产的全球领先企业,在全球范围内引领从硅到碳化硅的转型。客户凭借</span><span><span> </span>Wolfspeed<span> </span></span><span>产品组合,开发出颠覆性的技术解决方案,为电动汽车、快速充电、</span><span>5G</span><span>、电源、可再生能源和储能、以及航空航天和国防等应用提供支持,以实现一个更高效和可持续的未来。我们的团队致力于推动技术领域的重大转变,并且把公司打造成强大的全球性半导体企业。关于公司和产品的更多信息,敬请访问:</span><a href="http://www.cree.com/"><span>www.cree.com</span></a><span>。</span></p>