pspice软件使用练习实验实验报告范例

SPICE仿真实验报告SPICE仿真实验1.实验目的(1)练习使用标准SPICE的元件描述语句，分析语句，输出语句，模型语句等，熟练掌握电路元件的编写;(2)能够根据电路分析的具体要求灵活使用SPICE;(3)练习使用aim-SPICE软件，特别是其中的标准SPICE分析功能。

2.实验设备:aim-SPICE Student Version3.8a软件。

3.实验内容:实验7-1:解直流电路习题1mixture, bubble all disappear, further increase the firepower, to the complete decomposition of organic matter, and white smoke, the solution should be clear and colorless or slightly yellow, cool. 12.1.1 "plus 20mL boil water......" action according to law. 12.1.6 aquatic products: take can food part sample pound into uniform pulp, said take 5.00g or 10.O0g (seafood algae, and shellfish can appropriate reduced sampling volume), placed 250mL~500mL set nitrogen bottle in the, Addendgrain glass beads, 5mL~10mL nitric acid a perchlorate mixed liquid, mixed uniform Hou. following by 12.1.1 since "along bottle wall added people 5mL or 10mL sulfuric acid......" up law operation. 12.2 method of nitric acid-sulfuric acid to nitric acid instead of nitric-perchloric acid mixture to operate. 12.3 ashing 12_3.1 food, tea and other foods containing less moisture: weighing 5.00g ground sample, is placed in a crucible, and LG solution of magnesium oxide and magnesium nitrate 10mL. mix. soak 4H. Low temperature dry steam or water bath, with small fires charring to smoke-free back behind horses Alex furnaces heated to 550 c, burning 3h~4H, cooling out. Add 5mL water moist, with a small glass rod and stir, then a small amount of water to wash down Ash on glass rod to the crucible. Water bath after steaming into the muffle furnace ashing at 550 ? 2H, cooling out. Plus 5mL wet ash, and then slowly add 10mL hydrochloride (1+1), and then move the solution to a 50mL bottle in the crucible with hydrochloric acid (1+1), washed 3 times, each time 5mL, then washed 3 times. 5mL. Wash solution into the volumetric flask, then add water to the scale and mix. Sizing 10mL实验7-2 解直流电路习题2mixture, bubble all disappear, further increase the firepower, tothe complete decomposition of organic matter, and white smoke, the solution should be clear and colorless or slightly yellow, cool. 12.1.1 "plus 20mL boil water......" action according to law. 12.1.6 aquatic products: take can food part sample pound into uniform pulp, said take 5.00g or 10.O0g (seafood algae, and shellfish can appropriate reduced sampling volume), placed 250mL~500mL set nitrogen bottle in the, Addend grain glass beads, 5mL~10mL nitric acid a perchlorate mixed liquid, mixed uniform Hou. following by 12.1.1 since "along bottle wall added people 5mL or 10mL sulfuric acid......" up law operation. 12.2 method of nitric acid-sulfuric acid to nitric acid instead of nitric-perchloric acid mixture to operate. 12.3 ashing 12_3.1 food, tea and other foods containing less moisture: weighing 5.00g ground sample, is placed in a crucible, and LG solution of magnesium oxide and magnesium nitrate 10mL. mix. soak 4H. Low temperature dry steam or water bath, with small fires charring to smoke-free back behind horses Alex furnaces heated to 550 c, burning 3h~4H, cooling out. Add 5mL water moist, with a small glass rod and stir, then a small amount of water to wash down Ash on glass rod to the crucible. Water bath after steaming into the muffle furnace ashing at 550 ? 2H, cooling out. Plus 5mL wet ash, and then slowly add 10mL hydrochloride (1+1), and then move the solution to a 50mL bottle in the crucible with hydrochloric acid (1+1), washed 3 times, each time 5mL, then washed 3 times. 5mL. Wash solution into the volumetric flask, then add water to the scale and mix. Sizing 10mL实验7-4 文氏电桥电路的频率特性mixture, bubble all disappear, further increase the firepower, tothe complete decomposition of organic matter, and white smoke, the solution should be clear and colorless or slightly yellow, cool. 12.1.1 "plus 20mL boil water......" action according to law. 12.1.6 aquatic products: take can food part sample pound into uniform pulp, said take 5.00g or 10.O0g (seafood algae, and shellfish can appropriate reduced sampling volume), placed 250mL~500mL set nitrogen bottle in the, Addend grain glass beads, 5mL~10mL nitric acid a perchlorate mixed liquid, mixed uniform Hou. following by 12.1.1 since "along bottle wall added people 5mL or 10mL sulfuric acid......" up law operation. 12.2 method of nitric acid-sulfuric acid to nitric acid instead of nitric-perchloric acid mixture to operate. 12.3 ashing 12_3.1 food, tea and other foods containing less moisture: weighing 5.00g ground sample, is placed in a crucible, and LG solution of magnesium oxide and magnesium nitrate 10mL. mix. soak 4H. Low temperature dry steam or water bath, with small fires charring to smoke-free back behind horses Alex furnaces heated to 550 c, burning 3h~4H, cooling out. Add 5mL water moist, with a small glass rodand stir, then a small amount of water to wash down Ash on glass rod to the crucible. Water bath after steaming into the muffle furnace ashing at 550 ? 2H, cooling out. Plus 5mL wet ash, and then slowly add 10mL hydrochloride (1+1), and then move the solution to a 50mL bottle in the crucible with hydrochloric acid (1+1), washed 3 times, each time 5mL, then washed 3 times. 5mL. Wash solution into the volumetric flask, then add water to the scale and mix. Sizing 10mL实验7-5 RC电路的一阶过渡过程mixture, bubble all disappear, further increase the firepower, tothe complete decomposition of organic matter, and white smoke, the solution should be clear and colorless or slightly yellow, cool. 12.1.1 "plus 20mL boil water......" action according to law. 12.1.6 aquatic products: take can food part sample pound into uniform pulp, said take 5.00g or 10.O0g (seafood algae, and shellfish can appropriate reduced sampling volume), placed 250mL~500mL set nitrogen bottle in the, Addend grain glass beads, 5mL~10mL nitric acid a perchlorate mixed liquid, mixed uniform Hou. following by 12.1.1 since "along bottle wall added people 5mL or 10mL sulfuric acid......" up law operation. 12.2 method ofnitric acid-sulfuric acid to nitric acid instead of nitric-perchloric acid mixture to operate. 12.3 ashing 12_3.1 food, tea and other foods containing less moisture: weighing 5.00g ground sample, is placed in a crucible, and LG solution of magnesium oxide and magnesium nitrate 10mL. mix. soak 4H. Low temperature dry steam or water bath, with small fires charring to smoke-free back behind horses Alex furnaces heated to 550 c, burning 3h~4H, cooling out. Add 5mL water moist, with a small glass rod and stir, then a small amount of water to wash down Ash on glass rod to the crucible. Water bath after steaming into the muffle furnace ashing at 550 ? 2H, cooling out. Plus 5mL wet ash, and then slowly add 10mL hydrochloride (1+1), and then move the solution to a 50mL bottle in the crucible with hydrochloric acid (1+1), washed 3 times, each time 5mL, then washed 3 times. 5mL. Wash solution into the volumetric flask, then add water to the scale and mix. Sizing 10mL实验7-6 RLC串联电路的二阶过渡过程mixture, bubble all disappear, further increase the firepower, tothe complete decomposition of organic matter, and white smoke, the solution should be clear and colorless or slightly yellow, cool. 12.1.1"plus 20mL boil water......" action according to law. 12.1.6 aquatic products: take can food part sample pound into uniform pulp, said take 5.00g or 10.O0g (seafood algae, and shellfish can appropriate reduced sampling volume), placed 250mL~500mL set nitrogen bottle in the, Addend grain glass beads, 5mL~10mL nitric acid a perchlorate mixed liquid, mixed uniform Hou. following by 12.1.1 since "along bottle wall added people 5mL or 10mL sulfuric acid......" up law operation. 12.2 method of nitric acid-sulfuric acid to nitric acid instead of nitric-perchloric acid mixture to operate. 12.3 ashing 12_3.1 food, tea and other foods containing less moisture: weighing 5.00g ground sample, is placed in a crucible, and LG solution of magnesium oxide and magnesium nitrate 10mL. mix. soak 4H. Low temperature dry steam or water bath, with small fires charring to smoke-free back behind horses Alex furnaces heated to 550 c, burning 3h~4H, cooling out. Add 5mL water moist, with a small glass rod and stir, then a small amount of water to wash down Ash on glass rod to the crucible. Water bath after steaming into the muffle furnace ashing at 550 ? 2H, cooling out. Plus 5mL wet ash, and then slowly add 10mL hydrochloride (1+1), and then move the solution to a 50mL bottle in the crucible with hydrochloric acid (1+1), washed 3 times, each time 5mL, then washed 3 times. 5mL. Wash solution into the volumetric flask, then add water to the scale and mix. Sizing 10mL实验7-7 画二极管伏安特性曲线mixture, bubble all disappear, further increase the firepower, tothe complete decomposition of organic matter, and white smoke, the solution should be clear and colorless or slightly yellow, cool. 12.1.1 "plus 20mL boil water......" action according to law. 12.1.6 aquatic products: take can food part sample pound into uniform pulp, said take 5.00g or 10.O0g (seafood algae, and shellfish can appropriate reduced sampling volume), placed 250mL~500mL set nitrogen bottle in the, Addend grain glass beads, 5mL~10mL nitric acid a perchlorate mixed liquid, mixed uniform Hou. following by 12.1.1 since "along bottle wall added people 5mL or 10mL sulfuric acid......" up law operation. 12.2 method of nitric acid-sulfuric acid to nitric acid instead of nitric-perchloric acid mixture to operate. 12.3 ashing 12_3.1 food, tea and other foods containing less moisture: weighing 5.00g ground sample, is placed in a crucible, and LG solution of magnesium oxide and magnesium nitrate 10mL. mix. soak 4H. Low temperature dry steam or water bath, with small fires charring to smoke-free back behind horses Alex furnaces heated to 550 c, burning 3h~4H, cooling out. Add 5mL water moist, with a small glass rod and stir, then a small amount of water to wash down Ash on glass rod tothe crucible. Water bath after steaming into the muffle furnace ashing at 550 ? 2H, cooling out. Plus 5mL wet ash, and then slowly add 10mL hydrochloride (1+1), and then move the solution to a 50mL bottle in the crucible with hydrochloric acid (1+1), washed 3 times, each time 5mL, then washed 3 times. 5mL. Wash solution into the volumetric flask, then add water to the scale and mix. Sizing 10mL实验7-8 画三极管的输出特性曲线mixture, bubble all disappear, further increase the firepower, tothe complete decomposition of organic matter, and white smoke, the solution should be clear and colorless or slightly yellow, cool. 12.1.1 "plus 20mL boil water......" action according to law. 12.1.6 aquatic products: take can food part sample pound into uniform pulp, said take 5.00g or 10.O0g (seafood algae, and shellfish can appropriate reduced sampling volume), placed 250mL~500mL set nitrogen bottle in the, Addend grain glass beads, 5mL~10mL nitric acid a perchlorate mixed liquid, mixed uniform Hou. following by 12.1.1 since "along bottle wall added people 5mL or 10mL sulfuric acid......" up law operation. 12.2 method of nitric acid-sulfuric acid to nitric acid instead of nitric-perchloricacid mixture to operate. 12.3 ashing 12_3.1 food, tea and other foods containing less moisture: weighing 5.00g ground sample, is placed in a crucible, and LG solution of magnesium oxide and magnesium nitrate 10mL. mix. soak 4H. Low temperature dry steam or water bath, with small fires charring to smoke-free back behind horses Alex furnaces heated to 550 c, burning 3h~4H, cooling out. Add 5mL water moist, with a small glass rod and stir, then a small amount of water to wash down Ash on glass rod to the crucible. Water bath after steaming into the muffle furnace ashing at 550 ? 2H, cooling out. Plus 5mL wet ash, and then slowly add 10mL hydrochloride (1+1), and then move the solution to a 50mL bottle in the crucible with hydrochloric acid (1+1), washed 3 times, each time 5mL, then washed 3 times. 5mL. Wash solution into the volumetric flask, then add water to the scale and mix. Sizing 10mLmixture, bubble all disappear, further increase the firepower, tothe complete decomposition of organic matter, and white smoke, the solution should be clear and colorless or slightly yellow, cool. 12.1.1 "plus 20mL boil water......" action according to law. 12.1.6 aquatic products: take can food part sample pound into uniform pulp, said take 5.00g or 10.O0g (seafood algae, and shellfish can appropriate reduced sampling volume), placed 250mL~500mL set nitrogen bottle in the, Addend grain glass beads, 5mL~10mL nitric acid a perchlorate mixed liquid, mixed uniform Hou. following by 12.1.1 since "along bottle wall added people 5mL or 10mL sulfuric acid......" up law operation. 12.2 method of nitric acid-sulfuric acid to nitric acid instead of nitric-perchloricacid mixture to operate. 12.3 ashing 12_3.1 food, tea and other foods containing less moisture: weighing 5.00g ground sample, is placed in a crucible, and LG solution of magnesium oxide and magnesium nitrate 10mL. mix. soak 4H. Low temperature dry steam or water bath, with small fires charring to smoke-free back behind horses Alex furnaces heated to 550 c, burning 3h~4H, cooling out. Add 5mL water moist, with a small glass rod and stir, then a small amount of water to wash down Ash on glass rod to the crucible. Water bath after steaming into the muffle furnace ashing at 550 ? 2H, cooling out. Plus 5mL wet ash, and then slowly add 10mL hydrochloride (1+1), and then move the solution to a 50mL bottle in the crucible with hydrochloric acid (1+1), washed 3 times, each time 5mL, then washed 3 times. 5mL. Wash solution into the volumetric flask, then add water to the scale and mix. Sizing 10mL。

pspice仿真实验报告Pspice仿真实验报告引言：电子电路设计与仿真是电子工程领域中的重要环节。

通过使用电路仿真软件，如Pspice，能够在计算机上对电路进行模拟，从而节省了大量的时间和成本。

本文将介绍一次使用Pspice进行的仿真实验，并对实验结果进行分析和讨论。

实验目的：本次实验的目的是设计一个低通滤波器，通过Pspice进行仿真，并验证其性能指标。

实验步骤：1. 设计电路图：根据低通滤波器的设计要求，我们选择了一个二阶巴特沃斯滤波器。

根据滤波器的截止频率和阻带衰减要求，我们确定了电路的参数，包括电容和电感的数值。

2. 选择元件：根据电路图，我们选择了适当的电容和电感元件，并将其添加到Pspice软件中。

3. 设置仿真参数：在Pspice中，我们需要设置仿真的时间范围和步长，以及输入信号的幅值和频率等参数。

4. 运行仿真：通过点击运行按钮，Pspice将开始对电路进行仿真。

仿真结果将以图表的形式显示出来。

实验结果：通过Pspice的仿真，我们得到了低通滤波器的频率响应曲线。

从图表中可以看出，在截止频率以下，滤波器对输入信号的衰减非常明显，而在截止频率以上，滤波器对输入信号的衰减较小。

这符合我们设计的要求。

此外，我们还可以通过Pspice的仿真结果，得到滤波器的幅频特性和相频特性。

通过分析这些结果，我们可以进一步了解滤波器的性能，并对其进行优化。

讨论与分析：通过本次实验，我们深入了解了Pspice仿真软件的使用方法，并成功设计了一个低通滤波器。

通过仿真结果的分析，我们可以看到滤波器的性能符合预期，并且可以通过调整电路参数来进一步优化滤波器的性能。

然而，需要注意的是，仿真结果可能与实际电路存在一定的误差。

因此，在实际应用中，我们需要结合实际情况，对电路进行实际测试和调整。

结论：通过Pspice的仿真实验，我们成功设计了一个低通滤波器，并验证了其性能指标。

通过对仿真结果的分析和讨论，我们进一步了解了滤波器的特性，并为实际应用提供了一定的参考。

仿真实验报告模板篇一：电路电路仿真实验报告实验一直流电路工作点分析和直流扫描分析一、实验目的（1）学习使用Pspice软件，熟悉它的工作流程，即绘制电路图、元件类别的选择及其参数的赋值、分析类型的建立及其参数的设置、Probe窗口的设置和分析的运行过程等。

（2）学习使用Pspice进行直流工作点的分析和直流扫描的操作步骤。

二、原理与说明对于电阻电路，可以用直观法列些电路方程，求解电路中各个电压和电流。

Pspice软件是采用节点电压法对电路进行分析的。

使用Pspice软件进行电路的计算机辅助分析时，首先编辑电路，用Pspice的元件符号库绘制电路图并进行编辑。

存盘。

然后调用分析模块、选择分析类型，就可以“自动”进行电路分析了。

三、实验示例1、利用Pspice绘制电路图如下2、仿真（1）点击Psipce/New Simulation Profile,输入名称；（2）在弹出的窗口中Basic Point是默认选中，必须进行分析的。

点击确定。

（3）点击Pspice/Run或工具栏相应按钮。

（4）如原理图无错误，则显示Pspice A/D窗口。

（5）在原理图窗口中点击V,I工具栏按钮，图形显示各节点电压和各元件电流值如下。

四、思考与讨论1、根据仿真结果验证基尔霍夫定律根据图1-1，R1节点：2A+2A=4A,R1,R2,R3构成的闭合回路：1*2+1*4-3*2=0，满足基尔霍夫定律。

2、由图1-3可知，负载电流与US1呈线性关系，IR3=+ US1=+，式中表示将US1置零时其它激励在负载支路产生的响应，表示仅保留US1，将其它电源置零（电压源短路，电流源开路）时，负载支路的电流响应。

3、若想确定节点电压Un1随Us1变化的函数关系，应如何操作？应进行直流扫描，扫描电源Vs1，观察Un1的电压波形随Us1的变化，即可确认其函数关系！4、若想确定电流Irl随负载电阻RL的变化的波形，如何进行仿真？将RL的阻值设为全局变量var，进行直流扫描，观察电流波形即可。

实验七：使用PSpice软件对混频电路仿真一．实验目的1. 掌握PSpice软件的基本操作（包括设计绘制电路、仿真调测、时域频域分析）。

2．掌握如何使用PSpice仿真软件研究分析三极管混频器和乘法器混频器工作原理。

3．通过实验中波形和频谱，研究三极管混频与乘法器混频的区别。

二．实验仪器1．计算机2．PSpice8.0软件三．实验内容1．在PSpice原理图编辑环境下分别完成三极管混频和乘法器混频的电路绘制；2．对以上两种电路分别进行仿真，显示时域波形图（参与混频的两个频率为1kHz和10kHz）；3．对以上两种电路的输出波形分别进行FFT（频域分析），指出二者的频谱差别。

四．实验步骤1．实验准备在计算机上安装PSpice8.0软件包（安装过程中如有提示，选默认即可）。

2．原理图的绘制方法安装成功后，选择Windows程序->DesignLab Eval 8->Schematics即可打开原理图编辑界面。

然后按如下操作：（1）选择与布放元器件：菜单 -> Draw -> Get New Part…选择所需电路元器件 -> Place&Close（2）连接元器件：把所需元器件布放完毕后，可点击菜单栏下方的快捷图标按钮“”将各元器件按照下图提示连接起来。

图1 三极管混频原理图图1提示：图中Vcc与VBB选择元件库中的“VDC”元件，分别双击它们，按照图中标记设定好直流电压（DC）参数。

V1与V2选择元件库中的“VSIN”元件。

双击这些元件可以改变这些电压的参数，将V1和V2的振幅（VAMPL）参数都设置为0.01V，频率（FREQ）参数按上图标记设定好。

“地”选择库中的“AGND”元件。

图2 乘法器混频原理图图2提示：图中的乘法器直接使用库中的“MULT”元件。

V1与V2选择元件库中的“VSIN”元件。

振幅都设为0.01V，频率分别为1kHz和10kHz。

3．时域仿真及频域分析⑴实验步骤①在电脑D:\盘上创建pspice目录。

实验报告课程名称：___模拟电子技术实验____________指导老师：__蔡忠法___ _成绩：__________________ 实验名称： PSpice 的使用练习——半导体器件特性仿真 实验类型：_EDA___同组学生姓名：__________ 一、实验目的和要求（必填） 二、实验内容和原理（必填） 三、主要仪器设备（必填） 四、操作方法和实验步骤 五、实验数据记录和处理 六、实验结果与分析（必填） 七、讨论、心得实验目的1. 了解PSpice 软件常用菜单和命令的使用。

2. 掌握PSpice 中电路图的输入和编辑方法。

3. 学习PSpice 分析设置、仿真、波形查看的方法。

4. 学习半导体器件特性的仿真分析方法。

一. 实验器材PSpice 软件二. 实验内容1. 二极管伏安特性测试电路如图1所示。

输入该电路图，设置合适的分析方法及参数，用PSpice 软件仿真分析二极管的伏安特性。

图1 二极管特性测试电路2. 在直流分析中设置对温度的内嵌分析，仿真分析二极管在不同温度下的伏安特性。

3. 将图1所示电路中的电源VS 用VSIN 元件代替，并设置合适的元件参数，仿真反系二极管两端的输出波形。

4. 三极管特性测试电路如图2所示，用PSpice 程序仿真分析三极管的输出特性，并估算其电流放大倍数。

专业： 姓名： 学号：_日期：_2010/5/10 地点：紫金港东三212装订线实验名称：_____pspice的使用_____姓名：______学号：_图2 三极管特性测试电路四.实验原理1.二极管特性的仿真分析 1.1二极管伏安特性 （1）输入图5.1电路图（2）仿真二极管伏安特性时的设置直流扫描（DC Sweep ）分析参数设置：扫描变量类型为电压源，扫描变量为Vs ，扫描类型为线性扫描，初始值为-200V ，终值为40V ，增量为0.1V 。

（3）运行仿真分析程序 （4）查看仿真结果装订线P.2①在Probe程序中显示I（D）曲线，结果如图3显示。

实验报告课程名称：电路与模拟电子技术实验指导老师：成绩：实验名称：PSpice 的使用练习1实验类型：EDA 同组学生姓名：一、实验目的和要求：1、了解CAA 的一般过程，了解ORCAD-PSpice 软件常用菜单和命令的使用。

2、掌握ORCAD 中电路图的输入和编辑方法。

3、学习ORCAD 分析设置、仿真、波形查看方法。

4、学习半导体器件特性的仿真分析方法。

二、实验原理图：D D1N40011kVs0Vdc in out 0Q1Q2N2222Rc1k Vcc 0Vdc Ib0Adc 0图1二极管伏安特性测试电路图2三极管输出特性测试电路三、实验须知：1．二极管的伏安特性是指：答：二极管的伏安特性是指在一定温度下，加在PN 结两端的电压和流过二极管的电流之间的关系。

2．二极管伏安特性的主要特点有哪些？答：对二极管施加正向偏置电压时，随电压增大，正向电流先缓慢增加，当正偏电压接近导通电压时，电流急剧增加。

导通后，电压变化小，电流变化大。

施加反向电压时，截止电流很小，在击穿时，电流急剧增大。

3．温度升高时，流过二极管的电流是（A 、增大B 、减小）？答：A 。

电压一定，温度升高，电流增大。

4．仿真分析二极管两端的输出波形时该如何改进图1？答：5．三极管共射输出特性曲线是指：答：发射结接地，输入电流为，输出电流为，输出特性曲线是指一定时，与之间的关系。

整个输出特性可划分为三个不同的区域：截止区、饱和区、放大区。

6．如何根据三极管的输出特性估算其电流放大系数？答：在一定的下，当处于饱和区不再增大时，此时的就是电流放大系数。

四、实验步骤：1.二极管伏安特性的DC 参数设置：2．如何改变坐标变量来得到二极管的伏安特性曲线？答：设置好仿真参数后，点击运行按钮进入仿真。

在Axis setting 菜单下选择X Axis,在Axis variable…下选择横坐标为,如果在电路图中有in 、out 标识，也可以选择；然后点击确定，在Trace 菜单下选择Add Trace ，选择，此时就可以显示出以二极管电压为横坐标、通过二极管电流为纵坐标的伏安特性曲线。

EDA实践环节实验报告电气与控制工程学院测控技术与仪器0802班2011年1月8日设计与仿真共射-共集组合放大电路一、设计简介自已设计电路系统，构成低通滤波器、高通滤波器和带通滤波器。

利用Matlab或PSPICE或PROTEL或其他软件仿真。

二、设计要求完成电路设计；学习用计算机画电路图；学会利用Matlab 或PSPICE或其他软件仿真。

要求电路有合适的静态工作点，其电压放大倍数Av > 100、输入电阻Ri > 1KΩ、输出电阻Ro < 0.5KΩ及频带Fh > 1Mhz，负载电阻RL为5.1 KΩ，并书写Pspice实践练习报告。

三、设计电路四、仿真1、静态输出文件；* source 22Q_Q1 N00763 N03749 N03595 Q2N2222C_C1 N00673 N002511 10ufQ_Q2 N000291 N04481 N01035 Q2N2222C_C3 N01035 VO 10ufR_R1 N002511 N03749 2kR_Rb1 N03749 N01147 100kR_R2 N00763 N01147 3kR_R5 0 N04481 20kR_Rb2 0 N03749 20kR_R3 0 N01035 1kR_R4 0 VO 5.1kR_Re 0 N03595 1kV_V2 N01147 0 12VC_C2 N00763 N04481 10ufR_Rw N04481 N01147 100kV_Vs N00673 0+SIN 0 50mv 1khz 0 0 0R_Rc2 N000291 N01147 4.3k**** RESUMING "22-SCHEMATIC1-22 tran.sim.cir" ****.END**** 01/08/11 17:44:50 ************** PSpice Lite (Mar 2000) ******************* Profile: "SCHEMATIC1-22 tran" [ C:\360downloads\Capture\Library\PSpice\22-SCHEMATIC1-22 tran.sim ]**** BJT MODEL PARAMETERS******************************************************* ***********************Q2N2222NPNIS 14.340000E-15BF 50NF 1VAF 74.03IKF .2847ISE 14.340000E-15NE 1.307BR 6.092NR 1RB 10RC 1CJE 22.010000E-12MJE .377CJC 7.306000E-12MJC .3416TF 411.100000E-12XTF 3VTF 1.7ITF .6TR 46.910000E-09XTB 1.5CN 2.42D .87**** 01/08/11 17:44:50 ************** PSpice Lite (Mar 2000) ******************* Profile: "SCHEMATIC1-22 tran" [ C:\360downloads\Capture\Library\PSpice\22-SCHEMATIC1-22 tran.sim ]**** INITIAL TRANSIENT SOLUTION TEMPERATURE = 27.000 DEG C******************************************************************************NODE VOLTAGE NODE VOLTAGE NODE VOLTAGE NODE VOLTAGE( VO) 0.0000 (N00673) 0.0000 (N00763) 9.0275 (N01035) 1.0074(N01147) 12.0000 (N03595) 1.0115 (N03749) 1.6549 (N04481) 1.6511(N000291) 7.7581 (N002511) 1.6549VOLTAGE SOURCE CURRENTSNAME CURRENTV_V2 -2.184E-03V_Vs 0.000E+00TOTAL POWER DISSIPATION 2.62E-02 WATTSJOB CONCLUDEDTOTAL JOB TIME .02**** 01/08/11 17:20:48 ************** PSpice Lite (Mar 2000) ******************* Profile: "SCHEMATIC1-22 bias" [ C:\360downloads\Capture\Library\PSpice\22-SCHEMATIC1-22 bias.sim ]**** SMALL SIGNAL BIAS SOLUTION TEMPERATURE = 27.000 DEG C******************************************************************************NODE VOLTAGE NODE VOLTAGE NODE VOLTAGENODE VOLTAGE( VO) 0.0000 (N00673) 0.0000 (N00763) 3.2871 (N01035) 25.06E-09(N01147) 12.0000 (N03595) 3.2769 (N03749) 4.0009 (N000290) .1633(N002511) 4.0009VOLTAGE SOURCE CURRENTSNAME CURRENTV_V2 -3.277E-03V_Vs 0.000E+00TOTAL POWER DISSIPATION 3.93E-02 WATTS**** 01/08/11 17:20:48 ************** PSpice Lite (Mar 2000) ******************* Profile: "SCHEMATIC1-22 bias" [ C:\360downloads\Capture\Library\PSpice\22-SCHEMATIC1-22 bias.sim ]**** OPERATING POINT INFORMATION TEMPERATURE = 27.000 DEG C********************************************************************************** BIPOLAR JUNCTION TRANSISTORSNAME Q_Q1 Q_Q2MODEL Q2N2222 Q2N2222IB 1.57E-03 1.26E-18IC 1.71E-03 2.51E-11VBE 7.24E-01 1.63E-01VBC 7.14E-01 -1.18E+01VCE 1.03E-02 1.20E+01BETADC 1.09E+00 1.98E+07GM 1.13E-01 3.55E-10RPI 1.08E+02 1.69E+10RX 1.00E+01 1.00E+01RO 3.36E+00 7.00E+11CBE 2.03E-10 2.41E-11CBC 1.47E-08 2.79E-12CJS 0.00E+00 0.00E+00BETAAC 1.22E+01 5.98E+00CBX/CBX2 0.00E+00 0.00E+00FT/FT2 1.21E+06 2.10E+00JOB CONCLUDEDTOTAL JOB TIME .022、静态值；3、仿真电压波形、曲线及数据Time0s2.0ms 4.0ms6.0msV(VO)V(Vs:+)-100mV0V 100mV(2.2579m,-94.231m)Time 0s2.5ms5.0ms IB(Q1)20.0uA 22.5uA (2.7520m,19.833u)(1.2480m,21.585u)Vb1=86.0mV=Vi;Vo=98Mv;Au=Vo/Vi=1.14;Time0s2.5ms5.0msIE(Q1)-1.2mA-1.0mA -0.8mA (1.2640m,-1.0538m)(1.7480m,-970.032u)幅频曲线图；由图可得；Fh=1.9481MHZ, Frequency10KHz100MHz10Hz dB(V(Vo)/V(Vs:+))-20020(1.9481M,2.4860)(5.1331K,5.5845)相频曲线图；Frequency 10KHz100MHz10Hz Vp(Vo)-Vp(Vs:+)-400d-200d 0d(1.9377M,-225.908)输入电阻；在低通内的输入电阻值为14.468K Ω-7.715K Ω;Frequency 10KHz100MHz10Hz V(Vs:+)/I(Vs)10K 20K (5.1981K,14.468K)(1.9377M,7.7154K)求取输出电阻时，将Vs 短路，去掉负载电阻，加入Vw 信号源300mV 进行测量；如下图所示。

华中科技大学文化学院电子线路实验报告一：实验目的学会用Pspice9.2设计与仿真一个单级共射放大电路，熟练使用Pspice软件。

二：实验要求单级共射放大电路需要放大电路有合适的静态工作点，输入正弦信号幅值30mv，电压放大倍数30左右，输入阻抗大于1kΩ，输出阻抗小雨5.1kΩ及通频带大于1MHZ.三：实验步骤1、启动Pspice9.2打开Capture CIS Lite Edition在主页下创建工程项目wfl：1.选file/New/Project2.建立一个子目录Creat Dir(键入d：\仿真)，并双击打开3.选中Analog or Mixed Singnal Circuit OK!4.键入工程项目名Name:wfl5.在设计项目创建方式选择对话框下，选中Creat a blank proOK!6.画一直线，将建立空白的图形文件（wfl.sch）存盘。

2、画电路图：1.打开库浏览器选择菜单Place/Part,Add Library；2.删除某一元件：鼠标选中该元件并单击（元器件符号变为红色），选中菜单的Edit/delet；3.翻转或旋转某一元器件符号：同2选中元件，按键Ctrl+R即可；4.画电路连线：选择菜单中的Place/wire；5.为突出输出端，需键入标注in字符，选择Place/Net Alias inOK!6.将建立的文件（wfl.sch）存盘。

3、修改元器件的符号和参数1.用鼠标教案头双击该元件符号，此时出现修改框，可以进入符号和参数的设置2.VSIN信号的设置：鼠标选中VSIN信号源并单击（符号变为红色）然后，用鼠标双击该元件符号，此时出现修改框，即可进入参数的设置，AC=30mv，鼠标选中Apply并单击应用，退出。

3.三极管参数设置：同2选中三极管并单击其变为红色，然后选择菜单Edit/PSpice Model.打开模型编辑框Edit/PSpice Model修改Bf为50，保存，即设置三极管的放大系数变为50.单级共射放大电路4、设置分析功能1.Bias Point Detail（静态）选择菜单PSice/New Simulation Profile,在New Simulation对话框下，键入Bias用鼠标单击Creat，然后出现模拟类型和参数设置框，见此框的Amalysis type栏目，用鼠标单击Bias Point Detail并在Output File Options栏目下，单击选中“incluedetailed bias point information fornonlinear controlled sources and semiconductors”最后单击应用A及确定返回。