模电学习1. 三极管基础知识及常用电路
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模电学习1. 三极管基础知识及常用电路
- 1. 基本功能与引脚
- 2. 输入回路与输出回路
- 3. 输入特性曲线
- 4. 输出特性曲线
- 5. 电流关系
- 6. 静态工作点的概念
- 7. 放大电路分析
- 8. 负反馈放大电路
- 参数
- 参数
一、PNP与NPN
1. 基本功能与引脚
三极管主要作用是放大信号,按材料分有锗管、硅管。
三极管的三个极:
- b: 基极,输入的微弱信号
- e: 发射极,提供大电流
- c: 集电极,输出的放大后信号
2. 输入回路与输出回路
三极管工作在放大区时可近似看成线性元件。
左侧是输入回路,右侧为输出回路。
3. 输入特性曲线
4. 输出特性曲线
Ib=0以下是截止区,Ib=100uA以上是饱和区。
5. 电流关系
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即发射极电流等于基极与集电极之和。
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直流放大倍数等于集电集除以基极电流值。
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交流放大倍数为集电信电流变化量除以基极电流的变化量。
低频时直流与交流相差不大,有时不作严格区分。
6. 静态工作点的概念
静态工作点是指三极管放大电路中,三极管静态工作点就是交流输入信号为零时,电路处于直流工作状态,这些电流、电压的数值可用BJT特性曲线上一个确定的点表示,该点习惯上称为静态工作点Q 。
设置静态工作点的目的就是要保证在被放大的交流信号加入电路时,不论是正半周还是负半周都能满足发射结正向偏置,集电结反向偏置的三极管放大状态。——百度百科
静态工作点设置不合理的时候,三极管对交流信号放大时容易出现饱和失真或截止失真。
7. 放大电路分析
下面是一个共发射极放大电路:
可得公式:
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