<p><span><em>集成</em></span><span><em>的</em></span><span><em>实时、无传感器控制</em></span><span><em>与</em></span><span><em>驱动</em></span><span><em>技术</em></span><span><em>将功率损耗降低50%,</em></span><span><em>可驱动功率</em></span><span><em>高出</em></span><span><em>三倍</em></span><span><em>的电机(高达7A)</em></span></p>
<p><span><span>TRINAMIC Motion Control GmbH & Co. KG</span></span><span><span>现已</span></span><span><span>并入</span></span><span><span>Maxim Integrated Products, Inc (NASDAQ: MXIM),</span></span><span><span>公司</span></span><span><span>日前推出两款新型插槽式运动控制</span></span><span><span>嵌入式</span></span><span><span>模块</span></span><span><span>及其</span></span><span><span>开发工具</span></span><span><span>,</span></span><span><span>采用独特的实时无传感器控制技术。这些完备的控制/驱动模块通过</span></span><span><span>在其</span></span><span><span>板</span></span><span><span>上</span></span><span><span>实时处理关键功能</span></span><span><span>,</span></span><span><span>使得电机控制系统的通信流量保持在较低水平,从而减轻</span></span><span><span>系统处理器的</span></span><span><span>工作负荷</span></span><span><span>。</span></span><span><span>控制技术优化了工业电机的</span></span><span><span>功耗</span></span><span><span>,将浪费的功率降低50%,</span></span><span><span>使其能够驱动功率高出</span></span><span><span>3倍</span></span><span><span>(高达7A)</span></span><span><span>的工业</span></span><span><span>步进电机和</span></span><span><span>无刷</span></span><span><span>直流</span></span><span><span>(BLDC)电机。</span></span></p>
<ul>
<li><span>关于</span><span>Trinamic嵌入式运动控制模块的详细信息,请访问</span><span>:</span><a href="https://www.trinamic.com/products/modules/"><span>https://www.trinamic…;
</ul>
<p><strong>两相双极步进电机方案:</strong><span>5</span><span><span>A RM</span></span><span><span>S<span> </span></span></span><a href="https://www.trinamic.com/products/modules/details/tmcm-1230/"><span><sp… RMS<span> </span></span></span><a href="https://www.trinamic.com/products/modules/details/tmcm-1231/"><span><sp…。</span><span>每个模块均可为两相双极步进电机供电,具有相同的外形尺寸和引脚排列,便于</span><span>替换</span><span>。</span><span>两款模块均采用</span><span><span>Trinami</span></span><span><span>c</span></span><a href="https://www.trinamic.com/technology/"><span><span>独特</span></span></a><a href="https://www.trinamic.com/technology/"><span><span>的</span></span></a><a href="https://www.trinamic.com/technology/"><span><span>无传感器</span></span></a… href="https://www.trinamic.com/technology/"><span><span>控制</span></span></a><a href="https://www.trinamic.com/technology/"><span><span>技术</span></span></a><…;,</span><span>实时检测电机的功率要求,</span><span>以</span><span>即时调节电流,</span><span>使得</span><span>功耗比竞争方案降低</span><span>至少</span><span>50%。</span></p>
<p><strong>现场</strong><strong>定向</strong><strong>控制方案:</strong><span>Trinamic</span><span>还</span><span>提供5A RMS<span> </span></span><a href="https://www.trinamic.com/products/modules/details/tmcm-1637/"><span>TMC… RMS<span> </span></span><a href="https://www.trinamic.com/products/modules/details/tmcm-1638/"><span>TMC…,</span><span>为现场</span><span>定向</span><span>控制(或矢量控制)增加霍尔或ABN编码能力。这些模块支持单相直流(DC)电机、两相双极步进电机和三相BLDC电机。</span></p>
<p><strong>免费</strong><strong>提供</strong><strong>集成开发环境(IDE):</strong><span>为快速评估系统性能</span><span>并</span><span>加快</span><span>产品</span><span>上市时间,工程师可利用</span><span>Trin</span><span>amic</span><span>提供的</span><span>IDE</span><span>免费软件,</span><span>配合使用由</span><a href="https://www.trinamic.com/products/modules/details/tmcm-0930-tmcl/"><spa… href="https://www.trinamic.com/products/modules/details/tmcm-bb/"><span>单轴TMC…;。</span></p>
<p><strong>主要优势</strong></p>
<ul>
<li><strong>以较低功耗和成本驱动较大</strong><strong>功率</strong><strong>电机:</strong><span>由于</span><span>集成</span><span>了</span><span>关键控制</span><span>功能,降低系统</span><span>处理器的计算</span><span>负荷</span><span>,同时</span><span>节省了</span><span>50%</span><span>的功率-----可用于</span><span>更大</span><span>功率</span><span>的电机。</span></li>
<li><strong>容易升级:</strong><span>不同</span><span>模块采用相同的外形尺</span><span>寸和引脚排列,易于更换,无需与外部主板重新接线。</span></li>
<li><strong>加快上市时间:</strong><span>直观的</span><a href="https://www.trinamic.com/support/software/"><span>集成开发环境</span></a><spa…;、</span><span>测试系统。</span></li>
</ul>
<p><strong>评价</strong></p>
<p><span>“解除处理器</span><span>的一些</span><span>关键</span><span>、实时</span><span>计算</span><span>任务</span><span>,</span><span>能够</span><span>将</span><span>处理器资源分配给</span><span>其他关键部件,</span><span>例如传感器、编码器、用于状态和健康查询的云数据传输等,从</span><span>而</span><span>将智能</span><span>化</span><span>推向</span><span>边缘</span><span>。”Trinamic业务管理总监Jonas Proeger表示:“</span><span>此外,考虑到</span><span>相同</span><span>的外形</span><span>尺寸</span><span>、可</span><span>灵活替换</span><span>等</span><span>优势</span><span>,这些模块</span><span>为</span><span>用户</span><span>提供简单、直观的</span><span>强大控制功能</span><span>,</span><span>可用于支持功率高出</span><span>3倍的电机。”</span></p>
<p><strong>供货及价格</strong></p>
<p><span>现在全部产品均已上市。价格和定购信息请咨询Trinamic特许经销商。</span></p>
<p><span>所有商标权归其所有者所有。</span></p>
<p><strong>关于TRINAMIC Motion Control</strong></p>
<p><a href="https://www.trinamic.com/"><span>TRINAMIC Motion Control</span></a><span>现已</span><span>并</span><span>入</span><span>Maxim Integrated,</span><span>公司产品</span><span>旨在大幅简化运动控制。通过将数字信息转换为</span><span>精确的</span><span>物理运动,</span><span>我们正在</span><span>将不可能变为现实。</span></p>
<p><span>Maxi</span><span>m Integrated的模拟电源工艺及通信技术与Trinamic</span><span>专业</span><span>的运动控制</span><span>技术</span><span>相结合,</span><span>进一步推进了运动控制的智能化</span><span>。</span><span>采用最新科技成果的</span><span>Trinamic</span><span><span> </span></span><span>IC、模块、机电</span><span>一体化</span><span>系统和开发工具</span><span>帮助</span><span>软件工程师开发高效、平稳和安静运动的高精度</span><span>电机</span><span>驱动</span><span>方案</span><span>,确保</span><span>产品的</span><span>一次成功</span><span>率,将产品快速推向市场。</span></p>