电路定理 Flashcards by Chunyin Ho

Q

叠加原理：只能叠加电流跟电压

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Q

例题：叠加原理 - 非完全拆分

A

拆分之后：求电流用kcl,然后在用电势求电压

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Q

例题：叠加原理 - 含受控源

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Q

例题：替代定理（一般会结合叠加定理）

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Q

典型例题：运用叠加定理后，要利用电势差求电压

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Q

例题：替代定理&叠加定理 -存在电流源后省略支路

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Q

替代定理：重要例题

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Q

例题：替代电阻

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Q

替代定理是什么？

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Q

替代定理适用条件：

A

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Q

例题：戴维宁定理（没有受控源）

hint ：这里没有受控源，用电流源断路，电压源看成短路就能求出电阻。

A

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Q

例题：戴维宁定理 - 求电压

思路：求开路电压，短路电流

A

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Q

例题：戴维宁电路 - 求负载R的功率

hint：为什么求短路电流时,受控源没有了？因为控制受控源的电流没有了

A

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Q

例题：诺顿模型 - 例题（没有受控源）

思路：先求短路电流,再求等效电阻（求等效果时去掉电压源）

A

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Q

例题：诺顿模型 - 四足兽型

先求短路电流,再求等效电阻（求等效果时去掉电压源）

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Q

什么是叠加原理？

A

Q

什么是替代定理？

A

Q

戴维南定理求等效电阻：有受控源的情况

A

Q

例题 - 戴维南定理求等效电阻：没有受控源

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Q

例题：求戴维南等效电路

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Hint : 电压源短路，电流源断路求出等效电阻

Q

戴维南定理（含有受控源） -求等效电阻的方法：外加电源法&短路电流法

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短路电流法：外部电路只有受控源不能用

Q

戴维南定理（没有受控源） -求等效电阻的方法：独立源置零

A

Q

例题：已知端口电压电流关系，求等效戴维南/诺顿电路

A