<p><em>Arcadium</em><em>™</em><em>系列</em><em>振荡器(</em><em>AS5001/02/03</em><em>)——可</em><em>兼容替换</em><em>石英</em><em>晶振或</em><em>MEMS振</em><em>荡器的</em><em>全新方案</em></p>
<p><strong>中国</strong><strong>南京</strong><strong>和美国硅谷,</strong><strong>2020年10月19日</strong><strong> –</strong><span> </span><span>数模</span><span>混合信号通信芯片</span><span>领域的创新企业</span><span>益昂</span><span>半导体(</span><span>Aeonsemi</span><span>,以下简称益昂)</span><span>今</span><span>日宣布推出其</span><span>Arcadium</span><span>™</span><span>系列高性能</span><span>全硅可</span><span>编程振荡器</span><span>。该产品系列</span><span>实现了</span><span>在</span><span>超宽工业温度</span><span>范围内</span><span>频率</span><span>稳定</span><span>度</span><span>优于</span><span>±</span><span>50 ppm</span><span>,能产生1</span><span>0 kHz</span><span>至3</span><span>50 MHz</span><span>之间任意频率且</span><span>相位抖动</span><span>性能达到3</span><span>50 fs rms</span><span>的时钟信号。</span><span>Arcadium</span><span>™</span><span>振荡器</span><span>是一款适用于服务器、</span><span>AI</span><span>处理器、网络接口、边缘计算、汽车电子以及广泛工业应用的理想时钟源。</span></p>
<p><span>据</span><span>市场咨询机构联合市场研究(</span><span>Allied Market Research</span><span>)预测</span><span>,全球振荡器市场规模</span><span>在</span><span>2022年</span><span>将</span><span>达到32亿美元。</span><span>边缘计算及汽车电子应用的趋势表明,高可靠性和低成本振荡器的需求正在不断增长。</span><span>当前的振荡器市场主要</span><span>是</span><span>由具有百年历史</span><span>但有多方面技</span><span>术</span><span>局限的石英</span><span>振荡器</span><span>所垄断</span><span>。Arcadium</span><span>™</span><span>振荡器是</span><span>基于</span><span>纯CMOS</span><span>工艺</span><span>,利用</span><span>自主创新的</span><span>先进电路和补偿算法来实现</span><span>高性能</span><span>的相位</span><span>稳定性</span><span>和频率稳定性,同时</span><span>相</span><span>比基于</span><span>石英</span><span>的同类产品</span><span>可提供</span><span>更高的可靠性。</span><span>石英晶振需要的真空陶瓷封装基座一直以来被日系企业垄断,而</span><span>Arcadium</span><span>™</span><span>振荡器</span><span>只需要普通的塑封工艺,从而大大提高了供应链的灵活性和安全性。此</span><span>外,</span><span>高度灵活的</span><span>频率</span><span>和输出配置可以</span><span>使客户</span><span>大幅简化单元器</span><span>件库并</span><span>通过设计归一化显著提高产品研发效率</span><span>。</span></p>
<p><span>益昂首席执行官黄云腾总结该产品特点时说道:“</span><span>我们的团队</span><span>通过技术创新从根本上解</span><span>决了传统</span><span>晶振产品在</span><span>频</span><span>点单一、功能固定、易高温失效、易震动失效、供货周期长等方面的局</span><span>限</span><span>性。跟业内其他产品不同,</span><span>Arcadiu</span><span>m</span><span>™</span><span>系列振荡器</span><span>是基于</span><span>单</span><span>芯</span><span>片</span><span>的</span><span>集成电</span><span>路产品,其内部</span><span>没有</span><span>任何需要活</span><span>动</span><span>的机械</span><span>部件</span><span>!”</span></p>
<p><span>为适用于各种应用场景,</span><span>Arcadium</span><span>™</span><span>系列</span><span>有三种型号可供选择:1)</span><span>AS5001</span><span>——单频点</span><span>振荡器</span><span>;2)</span><span>AS5002</span><span>——多频点多配置振荡器,可通过控制引脚的方式从多达九组预烧录的配置中选择所需的输出频率及格式;3)AS</span><span>5003</span><span>——可编程频率振荡器,提供I2C接口灵活配置输出频率及格式并支持DCO模式。</span><span>所有产品均支持LVDS</span><span>、</span><span>LVPECL</span><span>、</span><span>HCSL</span><span>、</span><span>CML</span><span>、</span><span>CMOS和双</span><span>路</span><span>CMOS</span><span>等</span><span>输出格式,并提供与3.2 x 2.5 mm和5.0 x 3.2 mm振荡器行业标准封装兼容</span><span>的</span><span>6引脚封装。</span></p>
<p><strong>供货及价格信息</strong></p>
<p><span>客户可通过益昂官方网站订购</span><span>Arcadium</span><span>™</span><span>系列振荡器AS5001、AS5002、AS5003</span><span>工业温度级</span><span>和扩展工业</span><span>温度级</span><span>样品</span><span>。批量发货将于2020年12月开始。满足</span><span>AEC-Q100</span><span>的车规级产品</span><span>将在</span><span>近期推出</span><span>。</span><span>对数量达到1万片的订单参考价为:A</span><span>S5001</span><span>-</span><span>0.69美元,AS</span><span>5002</span><span>-</span><span>1.28美元,</span><span>AS5003</span><span>-</span><span>2.62美元。欲了解</span><span>更多信息</span><span>,请访问益昂官方网站的</span><span>Arcadium™</span><span>系列产品页面</span><span>:</span><a href="http://www.aeonsemi.com/arcadium"><span>www.aeonsemi.com/arcadium</span…;
<p><strong>关于</strong><strong>益昂</strong></p>
<p><span>益昂(</span><span>Aeonsemi</span><span>)</span><span>成立于2018年10月,由</span><span>数模</span><span>混合信号、DSP和系统</span><span>设计</span><span>领域的技术</span><span>专家</span><span>创立,致力于为客户带来</span><span>具有</span><span>创新</span><span>性</span><span>的高速</span><span>物理</span><span>接口和</span><span>时钟</span><span>解决方案,并解决网络、计算、工业、无线基础设施和汽车领域日益严峻的信号完整性挑战。</span></p>