场效应管放大电路的静态分析.htm

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		<br/><div align="center"><h1 class="aTitle">场效应管放大电路的静态分析</h1></div>
		
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			<td width="120">[日期：<span id="TimeLabel">2006-02-06</span>]</td>
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		<div id="BodyLabel" class="content" style="display:block;padding:0px 10px">&nbsp;&nbsp;&nbsp; 根据偏置电路形式，场效应管放大电路的直流通路分为自给偏压电路和分压式偏置电路。<BR><B>&nbsp;&nbsp;&nbsp;&nbsp;一、自给偏压电路</B><BR>&nbsp;&nbsp;&nbsp;&nbsp;用N沟道结型场效应管组成的自给偏压电路如图Z0217所示。<BR>&nbsp;&nbsp;&nbsp;&nbsp;自给偏压原理：在正常工作范围内，场效应管的栅极几乎不取电流，<I><FONT face="Times New Roman" size=2>I</FONT></I><FONT face="Times New Roman" size=1>G</FONT>= 0，所以，<FONT face="Times New Roman" size=2><I>U</I></FONT><FONT face="Times New Roman" size=1>G</FONT> = 0，当有<I><FONT face="Times New Roman" size=2>I</FONT></I><FONT size=1>S</FONT> = <I><FONT face="Times New Roman" size=2>I</FONT></I><FONT size=1>D</FONT>流过<I><FONT size=2>R</FONT></I><FONT face="Times New Roman" size=1>S</FONT>时，<IMG height=199 src="upload/2006_02/060206140939361.gif" width=165 align=right>必然会产生一个电压<FONT face="Times New Roman" size=2><I>U</I></FONT><FONT face="Times New Roman" size=1>S</FONT>＝<I><FONT face="Times New Roman" size=2>I</FONT></I><FONT face="Times New Roman" size=1>S</FONT><I><FONT size=2>R</FONT></I><FONT face="Times New Roman" size=1>S</FONT>＝<I><FONT face="Times New Roman" size=2>I</FONT></I><FONT face="Times New Roman" size=1>D</FONT><I><FONT size=2>R</FONT></I><FONT face="Times New Roman" size=1>S</FONT>，从而有<BR>&nbsp;&nbsp;&nbsp;&nbsp;&nbsp;&nbsp;<FONT face="Times New Roman" size=2><I>U</I></FONT><FONT face="Times New Roman" size=1>GS</FONT> = <FONT face="Times New Roman" size=2><I>U</I></FONT><FONT face="Times New Roman" size=1>G</FONT>- <FONT face="Times New Roman" size=2><I>U</I></FONT><FONT face="Times New Roman" size=1>S</FONT>= - <I><FONT face="Times New Roman" size=2>I</FONT></I><FONT face="Times New Roman" size=1>D</FONT><I><FONT size=2>R</FONT></I><FONT face="Times New Roman" size=1>S</FONT><BR>&nbsp;&nbsp;&nbsp;&nbsp;依靠场效应管自身的电流<I><FONT face="Times New Roman" size=2>I</FONT></I><FONT face="Times New Roman" size=1>D</FONT><I><FONT size=2></FONT></I> 产生了栅极所需的负偏压，故称为自给偏压。<BR>&nbsp;&nbsp;&nbsp;&nbsp;为了减小RS对放大倍数的影响，在<I><FONT size=2>R</FONT></I><FONT face="Times New Roman" size=1>S</FONT> 两端并联了一个旁路<a href="http://www.go-gddq.com/news/show.aspx?id=396&amp;cid=55" title="电容">电容</a> Cs。<BR>估算静态工作点,由图Z0217所示电路的直流通路可得：<BR>&nbsp;&nbsp;&nbsp;&nbsp;&nbsp;&nbsp;<FONT face="Times New Roman" size=2><I>U</I></FONT><FONT face="Times New Roman" size=1>GS</FONT> = <FONT face="Times New Roman" size=2><I>U</I></FONT><FONT face="Times New Roman" size=1>G</FONT>- <FONT face="Times New Roman" size=2><I>U</I></FONT><FONT face="Times New Roman" size=1>S</FONT>= - <I><FONT face="Times New Roman" size=2>I</FONT></I><FONT face="Times New Roman" size=1>D</FONT><I><FONT size=2>R</FONT></I><FONT face="Times New Roman" size=1>S</FONT>GS0223<BR>&nbsp;&nbsp;&nbsp;&nbsp;&nbsp;&nbsp;<FONT face="Times New Roman" size=2><I>U</I></FONT><FONT face="Times New Roman" size=1>DS</FONT> = <FONT size=2><I><FONT face="Times New Roman">E</FONT></I></FONT><FONT face="Times New Roman" size=1>D</FONT><FONT face="Times New Roman"> </FONT>- <I><FONT face="Times New Roman" size=2>I</FONT></I><FONT face="Times New Roman" size=1>D</FONT>（<I><FONT size=2>R</FONT></I><FONT face="Times New Roman" size=1>S</FONT> + <I><FONT size=2>R</FONT></I>d） GS0224<BR>&nbsp;&nbsp;&nbsp;&nbsp;结型场效应管的转移特性可近似表示为：<BR>&nbsp;&nbsp;&nbsp;<IMG height=60 src="upload/2006_02/060206140939362.gif" width=539><BR>式中<I><FONT face="Times New Roman" size=2>I</FONT></I><FONT size=1>DSS</FONT>为饱和漏电流，VP为夹断电压。<BR>&nbsp;&nbsp;&nbsp;&nbsp;联立求解GS0223～GS0225各式，便可求得静态工作点<I><FONT face="Times New Roman" size=2>Q</FONT></I>（<I><FONT face="Times New Roman" size=2>I</FONT></I><FONT face="Times New Roman" size=1>D</FONT>，<FONT face="Times New Roman" size=2><I>U</I></FONT><FONT face="Times New Roman" size=1>GS</FONT>，<FONT face="Times New Roman" size=2><I>U</I></FONT><FONT face="Times New Roman" size=1>DS</FONT>）。<BR><B>&nbsp;&nbsp;&nbsp;&nbsp;二、分压式偏置电路</B><BR>&nbsp;&nbsp;&nbsp;&nbsp;由于参数<I><FONT face="Times New Roman" size=2>I</FONT></I><FONT size=1>DSS</FONT> ，VP 等与温度有关，因此，场效应管放大电路也要设法稳定静态工作点。<IMG height=187 src="upload/2006_02/060206140939363.gif" width=185 align=right>实际上，自给偏压电路就具有一定的稳定<I><FONT face="Times New Roman" size=2>Q</FONT></I>点的能力。例如：温度升高使<I><FONT face="Times New Roman" size=2>I</FONT></I><FONT face="Times New Roman" size=1>D</FONT>增加时，<FONT face="Times New Roman" size=2><I>U</I></FONT><FONT face="Times New Roman" size=1>S</FONT>也随之增加，从而使<FONT face="Times New Roman" size=2><I>U</I></FONT><FONT face="Times New Roman" size=1>GS</FONT> 更负，反过来又抑制了<I><FONT face="Times New Roman" size=2>I</FONT></I><FONT face="Times New Roman" size=1>D</FONT>的增大。但如果对温度稳定性要求更高时，单纯靠增大<I><FONT face="Times New Roman" size=2>R</FONT></I><FONT face="Times New Roman" size=1>S</FONT>来稳定<I><FONT face="Times New Roman" size=2>Q</FONT></I>点，势必会导致Au下降，甚至产生严重的非线性失真。图Z0218所示的分压式偏置电路，通过<I><FONT size=2>R</FONT></I><FONT face="Times New Roman" size=1>1</FONT>与<I><FONT size=2>R</FONT></I><FONT face="Times New Roman" size=1>2</FONT>分压，给栅极一个固定的<I><FONT face="Times New Roman" size=2>I</FONT></I><FONT face="Times New Roman" size=1>E</FONT>电压，这样就可以把<I><FONT size=2>R</FONT></I><FONT face="Times New Roman" size=1>S</FONT>选的比较大，而<I><FONT face="Times New Roman" size=2>Q</FONT></I>点又不致于过低。图中<I><FONT size=2>R</FONT></I><FONT face="Times New Roman" size=1>g</FONT>的主要作用是增大输入<a href="http://www.go-gddq.com/news/show.aspx?id=383&amp;cid=58" title="电阻">电阻</a>，进一步减小栅极电流。<BR>&nbsp;&nbsp;&nbsp;&nbsp;对分压式偏置电路，在确定静悉工作点时，同样可用图解法和计算法。与自给偏压电路不同之处是<I><FONT face="Times New Roman" size=2>U</FONT></I><FONT size=1>G</FONT>≠0。只需将栅源回路直流负载线方程改为：<BR>&nbsp;&nbsp;<IMG height=54 src="upload/2006_02/060206140939364.gif" width=361></div><br/><br/>
		
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