场效应管放大(da)电(dian)路图的结构及(ji)功(gong)能(neng)(neng)特点(dian),能(neng)(neng)够正确(que)分析和识读(du)放大(da)电������(dian)路中各种(zhong)关键元(yuan)器件(jian)的作用(yong)以及(ji)信(xin)号经过(guo)放大(da)电(dian)路后的输出状态(tai),并(bing)且可以灵(ling)活运用(yong)到实际电(dian)子(zi)产品电(dian)路中,能(neng)(neng)够正确(que)分析其功(gong)能(neng)(neng)及(ji)作用(yong)范围。
场效应管放大电路图的基本结构
场效应管与(yu)晶体管一样,也(ye)具有(you)放大(da)作用,但与(yu)普通晶体管是电流控�����(kong)制型器件相�������(xiang)反(fan),场效应管是电压控(kong)制型器件。它具有(you)输入(ru)阻抗高、噪声低(di)的特(te)点(dian)。
场(chang)效(xiao)应(ying)(ying)管的(de)(de)(de)3个(ge)电极(ji)(ji)(ji)(ji)(ji),即栅(zha)(zha)(zha)极(ji)(ji)(ji)(ji)(ji)、源(yuan)极(ji)(ji)(ji)(ji)(ji)和漏(l������ou)(lou)极(ji)(ji)(ji)(ji)(ji)分别相(xiang)当于晶(jing)(jing)体(ti)管的(de)(de)(de)基极(ji)(ji)(ji)(ji)(ji)、发(fa)射(she)极(ji)(ji)(ji)(ji)(ji)和集(ji)电极(ji)(ji)(ji)(ji)(ji)。图(tu)所(suo)示(shi)(shi)是场(chang)效(xiao)应(ying)(ying)管的(de)(de)(de)3种(zhong)(zhong)组态(tai)电路(lu)(lu),即共(gong)源(yuan)极(ji)(ji)(ji)(ji)(ji)、共(gong)漏(lou)(lou)极(ji)(ji)(ji)(ji)(ji)和共(gong)栅(zha)(zha)(zha)极(ji)(ji)(ji)(ji)(ji)放(fang)(fang)大(da)器(qi)(qi)(qi)。图(tu)(a)所(suo)示(shi)(shi)是共(gong)源(yuan)极(ji)(ji)(ji)(ji)(ji)放(fang)(fang)大(da)器(qi)(qi)(qi),它相(xiang)当于晶(jing)(jing)体(ti)管共(gong)发(fa)射(she)极(ji)(ji)(ji)(ji)(ji)放(fang)(fang)大(da)器(qi)(qi)(qi),是一种(zhong)(zhong)最常(chang)用的(de)(de)(de)电路(lu)(lu)。图(tu)(b)所(suo)示(shi)(shi)是共(gong)漏(lou)(lou)极(ji)(ji)(ji)(ji)(ji)放(fang)(fang)大(da)器(qi)(qi)(qi),相(xiang)当于晶(jing)(jing)体(ti)管共(gong)集(ji)电极(ji)(ji)(ji)(ji)(ji)放(fang)(fang)大(da)器(qi)(qi)(qi),输(shu)(shu)入信号(hao)(hao)(hao)从漏(lou)(lou)极(ji)(ji)(ji)(ji)(ji)与(yu)(yu)栅(zha)(zha)(zha)极(ji)(ji)(ji)(ji)(ji)之(zhi)(zhi)(zhi)间(jian)(jian)输(shu)(shu)入,输(shu)(shu)出信号(hao)(hao)(hao)从源(yuan)极(ji)(ji)(ji)(ji)(ji)与(yu)(yu)漏(lou)(lou)极(ji)(ji)(ji)(ji)(ji)之(zhi)(zhi)(zhi)间(jian)(jian)输(shu)(shu)出,这(zhei)种(zhong)(zhong)电路(lu)(lu)又称(cheng)为源(yuan)极(ji)(ji)(ji)(ji)(ji)输(shu)(shu)出器(qi)(qi)(qi)或源(yuan)极(ji)(ji)(ji)(ji)(ji)跟随器(qi)(qi)(qi)。图(tu)(c)所(suo)示(shi)(shi)是共(gong)栅(zha)(zha)(zha)极(ji)(ji)(ji)(ji)(ji)放(fang)(fang)大(da)器(qi)(qi)(qi),它相(xiang)当于晶(jing)(jing)体(ti)管共(gong)基极(ji)(ji)(ji)(ji)(ji)放(fang)(fang)大(da)器(qi)(qi)(qi),输(shu)(shu)入信号(hao)(hao)(hao)从栅(zha)(zha)(zha)极(ji)(ji)(ji)(ji)(ji)与(yu)(yu)源(yuan)极(ji)(ji)(ji)(ji)(ji)之(zhi)(zhi)(zhi)间(jian)(jian)输(shu)(shu)入,输(shu)(shu)出信号(hao)(hao)(hao)从漏(lou)(lou)极(ji)(ji)(ji)(ji)(ji)与(yu)(yu)栅(zha)(zha)(zha)极(ji)(ji)(ji)(ji)(ji)之(zhi)(zhi)(zhi)间(jian)(jian)输(shu)(shu)出,这(zhei)种(zhong)(zhong)放(fang)(fang)大(da)器(qi)(qi)(qi)的(de)(de)(de)高频特性比较(jiao)好。
绝缘栅型场(chang)(chang)效(xiao)应(ying)(ying)(ying)管(guan)的输入电(dian)(dian)(dian)阻很(hen)高,如果在(zai)栅极上感(gan)应(ying)(ying)(ying)了电(dian)(dian)(dian)荷,很(hen)不(bu)(bu)容易(yi)泄放(fang)(fang),极易(yi)将(jiang)PN结击穿(chuan)而造成损(sun)坏(huai)。为了避(bi)免发生PN结击穿(chuan)损(sun)坏(huai),存放(fang)(fang)时应(ying)(ying)(ying)将(jiang)场(chang)(chang)效(xiao)应(ying)(ying)(ying)管(guan)的3个极短(duan)接(jie);不(bu)(bu)要(yao)将(jiang)它放(fang)(fang)在(zai)静电(dian)(dian)(dian)场(chang)(chang)很(hen)强的地方,必要(yao)时可放(fang)(fang)在(zai)屏(ping)蔽盒内(nei)。焊(han)接(jie)时,为了避(bi)免电(dian)(dian)(dian)烙铁(tie)带有感(gan)应(yi����ng)(ying)(ying)电(dian������)(dian)(dian)荷,应(ying)(ying)(ying)将(jiang)电(dian)(dian)(dian)烙铁(tie)从电(dian)(dian)(dian)源(yuan)上拔下。焊(han)进电(dian)(dian)(dian)路板后,不(bu)(bu)能让(rang)栅极悬空。
如何工作在放大区
Mos管也(ye)能工(gong)作在(zai)放大区,而且(qie)很(hen)常见。做(zuo)镜像电流(liu)源、运(yun)(yun)放、反馈控(kong)制(zhi)等(deng),都是(shi)利用(yong)mos管工(gong)作在(zai)放大区,由于(yu)(yu)mos管的特性,当(dang)沟道(dao)处于(yu)(yu)似(si)通(tong)非(fei)通(tong)时(shi),栅极(ji)(ji)(ji)电压直接影响(xiang)沟道(dao)的导电能力,呈现一定的线性关(guan)系。由于(yu)(yu)栅极(ji)(ji)(ji)与(yu)源漏(lou)隔离,因(yin)此其(qi)输入阻(zu)抗可(ke������)视(shi)(shi)为无穷(qiong)大,当(dang)然,随频率增(zeng)加阻(zu)抗就越(yue)来越(yue)小,一定频率时(shi),就变得不(bu)可(ke)忽视(shi)(shi)。这(zhei)个高阻(zu)抗特点被广泛用(yong)于(yu)(yu)运(yun)(yun)放,运(yun)(yun)放分析的虚(xu)连、虚(xu)断(duan)两个重(zhong)要原则(ze)就是(shi)基于(yu)(yu)这(zhei)个特点。这(zhei)是(shi)三极(ji)(ji)(ji)管不(bu)可(ke)比(bi)拟的。
放大区应用
工作于放大(da)区,一般(ban)用来(lai)设(she)计反馈(kui)电路,需要(yao)的(de)专业知识(shi)比较多,类似运(yun)放,这(zhei)里无法细说。常用做镜像电流源(yuan)、电流反馈(kui)、电压(ya)反馈(kui)等。至于运(yun)放的(de)集(ji)成(cheng)应用,我(wo�����)们其实不(bu)用关注(zhu)。人家都做好了,看好datasheet就可以(yi)了,不(bu)用按mos管方式(shi)去考虑(lv)导通电阻和寄生电容。
1.场效应管放大电路图的偏置方法
(1)固定式偏置电路
在场效应管放大(da)器中,有时需要(yao)外(wai)加栅(zha����)极直流偏置(zhi)电源,这种方式(shi)被称为(wei)固定式(shi)偏置(zhi)电路(lu),如图所(suo)示。
C1和C2分别(bie)是输入端(duan)耦合电(dian)(dian)(dian)(dian)容(rong)和输出端(duan)耦合电(di�������an)(dian)(dian)(dian)容(rong)。+UCC通(tong)过(guo)(guo)漏极(ji)(ji)(ji)负(fu)载电(dian)(dian)(dian)(dian)阻(zu)R2加(jia)到(dao)VT的(de)漏极(ji)(ji)(ji),VT的������(de)源(yuan)极(ji)(ji)(ji)接地。-UCC是栅(zha)极(ji)(ji)(ji)专用偏(pian)置(zhi)(zhi)直(zhi)流电(dian)(dian)(dian)(dian)源(yuan),为(wei)负(fu)极(ji)(ji)(ji)性电(dian)(dian)(dian)(dian)源(yuan),它通(tong)过(guo)(guo)栅(zha)极(ji)(ji)(ji)偏(pian)置(zhi)(zhi)电(dian)(dian)(dian)(dian)阻(zu)R1加(jia)到(dao)VT1的(de)栅(zha)极(ji)(ji)(ji),使栅(zha)极(ji)(ji)(ji)电(dian)(dian)(dian)(dian)压(ya)低于源(yuan)极(ji)(ji)(ji)电(dian)(dian)(dian)(dian)压(ya),这样就(jiu)建立(li)了(le)VT的(de)正常(chang)偏(pian)置(zhi)(zhi)电(dian)(dian)(dian)(dian)压(ya)。
在电(dian)(dian)路中,输入信(xin)号(hao)Ui经(jing)C1耦合(he)至场效(xiao)应管VT的(de)(de)栅(zha)极(ji)(ji)(ji),与原来的(de)(de)栅(zha)极(ji)(ji)(ji)负偏(pian)压叠加。场效(xiao)应管受(shou)到栅(zha)极(ji)(ji)(ji)的(de)(de)作(zuo)用(yong),其漏(lou)极(ji)(ji)(ji)电(dian)(dian)流(liu)I2相(xiang)应变(bian)化,并在负载(zai)电(dian)(dian)阻R2上产生压降,经(jing)C2隔离直流(liu)后输出,在输出端即得到放(fang���)大了的(de)(de)信(xin)号(hao)电(dian�������)(dian)压Uo。I2与Ui同(tong)相(xiang),Uo与Ui反相(xiang)。
这种偏置电(dian)路的优点是VT的工作点可以(yi)任意选择,不受(shou)其他(ta)因素的�������制约,也充分利(li)用了漏极直流电(dian)源+UCC,所以(yi)可以(yi)用于低压供电(dian)放大器。其缺(que)点是需要两个直流电(dian)源。
(2)自给偏压共源极放大电路
图(tu)所(suo)示是(shi)(shi)(shi)典型的(de)(de)自给(ji)偏(pian)(pian)压(ya)共源(yuan)极(ji)(ji)(ji)(ji)(ji)放(fang)大(da)电(dian)(dian)(dian)(dian)路。图(tu)中(zhong)C1和C2分别是(shi)(shi)(shi)输(shu)入、输(shu)出耦(ou)合(he)电(dian)(dian)(dian)(dian)容,起(qi)通(tong)交(jiao)流(liu)、隔直流(liu)的(de)(de)作(zuo)用;+UCC为漏极(ji)(ji)(ji)(ji)(ji)直流(liu)电(dian)(dian)(dian)(dian)压(ya)源(yuan),为放(fang)大(da)电(dian)(dian)(dian)(dian)路提(ti)(ti)供(gong)能源(yuan);RD是(shi)(shi)(shi)漏极(ji)(ji)(ji)(ji)(ji)电(dian)(dian)(dian)(dian)阻,它能把漏极(ji)(ji)(ji)(ji)(ji)电(dian)(dian)(dian)(dian)流(liu)的(de)(de)变化转变为电(dian)(dian)(dian)(dian)压(ya)的(de)(de)变化,以(yi)便输(shu)出信(xin)号(hao)(hao)电(dian)(dian)(dian)(dian)压(ya);RS是(shi)(shi)(shi)源(yuan)极(ji)(ji)(ji)(ji)(ji)电(dian)(dian)(dian)(dian)阻,其(qi)作(zuo)用是(shi)(shi)(shi)产(chan)生(sheng)一(yi)个源(yuan)极(j�������i)(ji)(ji)(ji)(ji)到地的(de)(de)电(dian)(dian)(dian)(dian)压(ya)降,以(yi)提(ti)(ti)供(gong)源(yuan)极(ji)(ji)(ji)(ji)(ji)偏(pian)(pian)压(ya),建立静(jing)态偏(pian)(pian)置,同时具有(you)电(dian)(dian)(dian)(dian)流(liu)负(fu)反馈的(de)(de)作(zuo)用;CS是(shi)(shi)(shi)源(yuan)极(ji)(ji)(ji)(ji)(ji)旁路电(dian)(dian)(dian)(dian)容,给(ji)源(yuan)极(ji)(ji)(ji)(ji)(ji)交(jiao)流(liu)信(xin)号(hao)(hao)提(ti)(ti)供(gong)一(yi)条通(tong)路,以(yi)免交(jiao)流(liu)信(xin)号(hao)(hao)在RS上(shang)产(chan)生(sheng)负(fu)反馈。
由于场效应(ying������)管在(zai)漏极(ji)(ji)电(dian)流较大时(shi),具有温度上升、漏极(ji)(ji)电(dian)流就(jiu)减小的特点,因(yin)而热稳定性好(hao),故(gu)源极(ji)(ji)仅需设置自偏压(ya)电(dian)路就(jiu)十分稳定了。
“自(zi)给(ji)偏(pian)(pian)压(ya)(ya)”指的(de)是(shi)由(you)场效应(ying)(ying)管(guan)(guan)自(zi)身(shen)的(de)电(dian)(dian)流产(chan)(chan)生(sheng)偏(pian)(pian)置电(dian)(dian)压(ya)(ya)。N沟道结型场效应(ying)(ying)管(guan)(guan)正(zheng)常工(gong)作(zuo)时,栅(zha)极(ji)、源(yuan)极(ji)之(zhi)(zhi)间需要加一(yi)个负偏(pian)(pian)置电(dian)(dian)压(ya)(ya),这一(yi)点与晶体管(guan)(guan)的(de)发射(she)结需要正(zheng)偏(pian)(pian)置电(dian)(dian)压(ya)(ya)是(shi)相反的(de)。为了使栅(zha)极(ji)、源(yuan)极(ji)之(zhi)(zhi)间获得所(suo)需负偏(pian)(pian)压(ya)(ya),设置了自(zi)生(sheng)偏(pian)(pian)压(ya)(ya)电(dian)(dian)阻RS。当源(yuan)极(ji�������)电(dian)(dian)流流过(guo)RS时,将会(hui)在(zai)RS两端产(chan)(chan)生(sheng)上正(zheng)下负的(de)电(dian)(dian)压(ya)(ya)降US。由(you)于栅(zha)极(ji)通过(guo)RG接地(di),所(suo)以栅(zha)极(ji)为零电(dian)(dian)位(wei)。这样,RS产(chan)(chan)生(sheng)的(de)US就能使栅(zha)极(ji)、源(yuan)极(ji)之(zhi)(zhi)间获得所(suo)需的(de)负偏(pian)(pian)压(ya)(ya)UGS,这就是(shi)自(zi)给(ji)偏(pian)(pian)压(ya)(ya)共源(yuan)极(ji)放大电(dian)(dian)路的(de)工(gong)作(zuo)原理(li)。
(3)分压式自偏压电路
图(tu)所示(shi)为分(fen)(fen)压式(shi)自(zi)(zi)偏压电路,又称栅极接正电位偏置电路。它是在�������自(zi)(zi)给偏压共源极放大电路的(de)基础上,加上分(fen)(fen)压电阻(zu)Rf1和Rf2构成的(de)。
图中,电(dian)(dian)源+UDD、输入耦(ou)合电(dian)(dian)容C1、输出耦(ou)合电(dian)(dian)容C2、漏极(ji)(ji)电(dian)(dian)阻(zu)(zu)RD、源极(ji)(ji)电(dian)(dian)阻(zu)(zu)RS、源极(ji)(ji)旁路(lu)电(dian)(dian)容CS的(de)(de)作用均与(yu)(yu)自给偏(pian)(pian)压共源极(ji)(ji)放大电(dian)(dian)路(lu)相同。Rf1和Rf2是分压偏(pian)(pian)置(zhi)(zhi)电(dian)(dian)阻(zu)(zu),Rf1与(yu)(yu)Rf2的(de)(de)接(jie)点(dian)通过大电(dian)(dian)阻(zu)(zu)RG与(yu)(yu)场(chang)效应管(guan)的(de)(de)栅极(ji)(ji)相连。由于(yu)栅极(ji)(ji)绝缘无电(dian)(dian)流,所(suo)以(yi)Rf1与(yu)(yu)Rf2的(de)(de)分压点(dian)A与(yu)(yu)场(chang)效应管(guan)的(de)(de)栅极(ji)(ji)同电(dian)(dian)位。由于(yu)该电(dian)(dian)路(lu)既(ji)(ji)有“分压偏(pian)(pian)置(z�������hi)(zhi)”又有“自给偏(pian)(pian)置(zhi)(zhi)”,所(suo)以(yi)又称为组合偏(pian)(pian)置(zhi)(zhi)电(dian)(dian)路(lu)。这种偏(pian)(pian)置(zhi)(zhi)电(dian)(dian)路(lu)既(ji)(ji)可用于(yu)耗(hao)尽型场(chang)效应管(guan),也可用于(yu)增强型场(chang)效应管(guan)。
2.场效应管放大电路图的工作原理
(1)源极接地放大器
源(yuan)极(ji)接地放(fang)大(da)器是场效应管放(fang)大(da)电(dian)(dian)路图最重要的(de)(de)(de)(de)(de)电(dian)(dian)路形式,其(qi)工(gong)作(zuo)原理如图所(suo)示。图中,交流输(shu)(shu)入电(dian)(dian)压(ya)Ui在(zai)(zai)1/4周期(qi)内处于(yu)增(zeng)(zeng)大(da)的(de)(de)(de)(de)(de)趋势(shi),因此在(zai)(zai)这(zhei)段时间内漏极(ji)电(dian)(dian)流ID增(zeng)(zeng)大(da)。ID的(de)(de)(de)(de)(de)增����(zeng)(zeng)大(da)使负(fu)载(zai)上(shang)的(de)(de)(de)(de)(de)压(ya)降增(zeng)(zeng)大(da),UDS就(jiu)下降;当(dang)Ui在(zai)(zai)2/4周期(qi)内时,处于(yu)减(jian)小(xiao)(xiao)状态,UGS增(zeng)(zeng)大(da),ID则减(jian)小(xiao)(xiao),而ID的(de)(de)(de)(de)(de)减(jian)小(xiao)(xiao)使负(fu)载(zai)上(shang)的(de)(de)(de)(de)(de)压(ya)降减(jian)小(xiao)(xiao),UDS就(jiu)上(shang)升。以此类(lei)推(tui),其(qi)输(shu)(shu)入与输(shu)(shu)出信(xin)号的(de)(de)(de)(de)(de)波形如图中所(suo)示。Ui和(he)ID的(de)(de)(de)(de)(de)相(xiang)位相(xiang)同,与输(shu)(shu)出信(xin)号电(dian)(dian)压(ya)UDS的(de)(de)(de)(de)(de)相(xiang)位相(xiang)反。
(2)栅极接地放大器
栅极接(jie)地放大器适(shi)用于高频宽带放�������大器,其(qi)基本(ben)连接(jie)方式如图所示。
(3)漏极接地放大器
漏������极(ji)(ji)接地放大器(qi)也称(cheng)为源(yuan)极(ji)(ji)跟随器(�������qi)或源(yuan)极(ji)(ji)输出器(qi),相当于双(shuang)极(ji)(ji)型晶(jing)体管的集电极(ji)(ji)接地电路。图(tu)(tu)为其(qi)基本连(lian)接图(tu)(tu)。源(yuan)极(ji)(ji)跟随器(qi)最主要的特点是输出阻(zu)抗低。
由于(yu)场效(xiao)应管的输(shu)入阻抗非(fei)常高,也就是输(shu)入电(dian)流极小,它常�������������用(yong)于(yu)收音(yin)机电(dian)路中作为微弱(ruo)信(xin)号的放大(da)器。
① 源极接地放大器与射极跟随器(共集电极晶体管放大器)的组合
如图(tu)所示,VT1为源极(ji)接地场效应管(guan)放(fang)大(da)(da)器,VT2为共集电(dian)(dian)(dian)极(ji)晶体(ti)管(guan)放(fang)大(da)(da)器。若电(dian)(dian)(dian)路中(zhong)没(mei)有设置VT2,而是将数千欧(ou)的(de)负载RL直(zhi)接作为VT1的(de)负载,其电(dian)(dian)(dian)压增(zeng)益(yi)(yi)就(jiu)相当(dang)小。通过源极(ji)接地放(fang)大(da)(da)器与(yu)低输出阻������抗的(de)射极(ji)跟(gen)随器进行组合,就(jiu)可获(huo)得较高的(de)电(dian)(dian)(dian)压增(zeng)益(yi)(yi),这是该(gai)电(dian)(dian)(dian)路的(de)主(zhu)要����特征。
② 源极接地放大器与共发射极放大器的组合
共(gong)发射(she)极放大(da)器的输(shu)入(ru)阻抗在(zai)103Ω的范围内(nei),很难(nan)由场效应管直(zhi)接(jie)驱动,但是(shi),若通(tong)过一级射(she)极跟随(sui)器,将其作为(wei)图(tu)中的负(fu)载RL接(jie)在(zai)共(gong)发射(she)极放大(da)器之(zhi)前,就很容易驱动了(le),如图(tu)所示。该电(dian)路在(zai)输(shu)出(chu)级的前面加入(ru)了(le)一级射�������(she)极跟随(sui)器,以获得(de)大(da)电(dian)流(liu)增益,这(zhei)是(shi)典型(xing)的低(di)输(shu)出(chu)阻抗实例。
③ 将源极接地放大器与共基极放大器组合成级联式放大器
图所示是(shi)将场效应管的(de)低(di)噪声性与共基(ji)极放(fang)(fang)(fang)大器对(dui)高(gao)频(pin)放(fang)(fang)(fang)大的(de)适应性相(xiang)结合而产生的(de)级联式放(fang)(fang)(fang)大器,常作为宽(kuan)频(pin)带低(di)噪声的(de)前置(zhi)放(fan�����g)(fang)(fang)大�����器。
场效应管放大电路图的应用实例
1.场效应管固定式偏置电路在双管袖珍收音机中的应用
图所示是一种双管(guan)(guan)袖珍(zhen)收(shou)音(yin)机电路,它采用两只晶体管(guan)(guan),这(zhei)种电路具(ju)有���(you)较高(gao)的灵敏度。
在该场效应(ying)管(guan)(guan)(guan)(guan)放(fang)大(da)电(dian)(dian)(dian)路(lu)图,电(dian)(dian)(dian)池作为直流(liu)电(dian)(dian)(dian)源(yuan)通(tong)过负(fu)载(zai)电(dian)(dian)(dian)阻R1为场效应(ying)管(guan)(guan)(guan)(guan)的(de)(de)漏(lou)极(ji)提供偏(pian)置(zhi)电(dian)(dian)(dian)压(ya),使其工作在放(fang)大(da)状态。由外(wai)接(jie)天线接(jie)收天空中(zhong)的(de)(de)各种信号,交流(liu)信号通(tong)过C1进入(ru)LC谐振电(dian)(dian)(dian)路(lu)。LC谐振电(dian)(dian)(dian)路(lu)是由磁棒线圈和电(dian)(dian)(dian)容组成的(de)(de),谐振电(dian)(dian)(dian)路(lu)选(xuan)频后(hou)(hou),将(jiang)信号经C4耦合至场效应(ying)管(guan)(guan)(guan)(guan)VT的(de)(de)栅极(ji),与栅极(ji)负(fu)偏(pian)压(ya)叠加后(hou)(hou)加到(dao)场效应(ying)管(guan)(guan)(guan)(guan)的(de)(de)栅极(ji)上,使场效应(ying)管(guan)(guan)(guan)(guan)的(de)(de)漏(lou)极(ji)电(dian)(dian)(dian)流(liu)ID相应(ying)变化,并(bing)在负(fu)载(���zai)电(dian)(dian)(dian)阻R1上产生(sheng)压(ya)降(jiang),经C5隔离直流(liu)后(hou)(hou)输出(chu),在输出(chu)端(duan)即得到(dao)放(fang)大(da)了(le)的(de)(de)信号电(dian)(dian)(dian)压(ya)。放(fang)大(da)后(hou)(hou)的(de)(de)信号送入(ru)晶体管(guan)(guan)(guan)(guan)的(de)(de)基极(ji),由晶体管(guan)(guan)(guan)(guan)放(fang)大(da)后(hou)(hou)输出(chu)较纯净的(de)(de)音频信号送到(dao)耳机中(zhong)。
2.场效应管在FM收音电路中的应用
图所示是FM前端电(dian)路(lu),它(ta)是由(you)高(gao)频(pin)(pin)放大器VT1、混(hun)频(pin)(pin)器VT3和本机(ji)振荡(dang)器VT2等部(bu)分构(gou)成(cheng)的。天线(xian)感应(y������ing)的FM调频(pin)(pin)广(guang)播信(xin)号(hao)经(jing)输入(ru)变(bian)压(ya)器L1加(jia)到VT1的栅极。VT1为高(gao)频(pin)(pin)放大器的主要器件,它(ta)将FM高(gao)频(pin)(pin)信(xin)号(hao)放大后经(jing)变(bian)压(ya)器L2加(jia)到混(hun)频(pin)(pin)电(dian)路(lu)VT3的栅极。VT2和LC谐振电(dian)路(lu)构(gou)成(cheng)本机(ji)振荡(dang)器,振荡(dang)信(xin)号(hao)由(you)振荡(dang)变(bian)压(ya)器的次级送往混(hun)频(pin)(pin)电(dian)路(lu)VT3的源极。混(hun)频(pin)(pin)信(xin)号(hao)由(you)VT3的漏极输出,经(jing)中频(pin)(pin)变(bian)压(ya)器IFT(L4)输出10.7MHz中频(pin)(pin)信(xin)号(hao)。
联系方式:邹先生
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