<p>文章来源:<a href="https://mp.weixin.qq.com/s/KNpnA5cn0TWHN6kucjkP7A" id="js_name">罗姆半导体集团</a></p>
<p>本文先介绍使用通用电源IC实现电源时序控制电路中,电源导通时的时序工作。</p>
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<p><strong>电源时序规格①:电源导通时的时序工作</strong></p>
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<p>正如在之前的文章中介绍过的,规格①的时序是依次进行1.2V、3.3V、1.5V三个系统的输出。下面将按顺序对该时序工作进行说明。在介绍中,将施加1.2V的工作表述为“第一阶段”,将施加3.3V的工作表述为“第二阶段”,将施加1.5V的工作表述为“第三阶段”,将三个系统均导通的状态表述为“电源工作时”。在各阶段的图中,与说明相对应的部分用红色来表示。</p>
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<p>v在初始状态下,Enable引脚为“L”电平,三个DCDC输出均为零。</p>
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<p><strong>第一阶段电源导通时的工作</strong></p>
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<p>1) 将Enable引脚设置为“H”电平以启动电源。</p>
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<p>2) 由于DCDC 1的EN引脚通过二极管D1变为“H”,因此DCDC 1启动。</p>
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<p>3) 当DCDC 1的输出电压从0V上升到1.2V时,Power Good 1的输出由“L”电平变为“H”电平,下一级的DCDC 2的EN引脚变为“H”电平。</p>
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<p>4) Power Good 3和Power Good 4的IN引脚被二极管D2和D4赋予“H”电平,因此PGOOD引脚(输出)保持高阻抗。</p>
<p><img alt="电源导通时的工作" data-entity-type="file" data-entity-uuid="7fd00d02-d314-4f73-b8f4-2195c74433bb" src="/sites/default/files/inline-images/%E5%9B%BE1_108.png" /></p>
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<p><strong>第二阶段电源导通时的工作</strong></p>
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<p>1) DCDC 2的EN引脚变为“H”电平,因此DCDC 2启动。</p>
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<p>2) 当DCDC 2的输出电压从0V上升到3.3V时,Power Good 2的输出由“L”变为“H”,下一级DCDC 3的EN引脚变为“H”。</p>
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<section><strong>第三阶段电源导通时的工作</strong></section>
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<p>1) DCDC 3的EN引脚变为“H”电平,因此DCDC 3启动。</p>
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<p>2) DCDC 3的输出电压从0V上升到1.5V,至此,三个系统的电源均处于工作状态(电源工作时的主要节点状态见单独给出的图示)。</p>
<p>在下一篇文章中,将会介绍关断时的时序工作。</p>
<p><img alt="关断时的时序工作" data-entity-type="file" data-entity-uuid="de2b2c21-15c2-4a7b-b254-8ab10489ec60" src="/sites/default/files/inline-images/%E5%9B%BE2_134.png" /></p>
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<p><strong>关键要点</strong></p>
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<p>・在时序①中,实现了将3个系统的电源按顺序导通、并按相反顺序关断的时序。</p>
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<p>・为了理解时序工作,本文分别列出了三个系统的电源导通时的工作图示。</p>
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