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-<!DOCTYPE html PUBLIC "-//W3C//DTD HTML 4.01 Transitional//EN"
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+<head><title>eSim Manual</title>
+<meta http-equiv="Content-Type" content="text/html; charset=iso-8859-1">
+<meta name="generator" content="TeX4ht (http://www.cse.ohio-state.edu/~gurari/TeX4ht/)">
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+<link rel="stylesheet" type="text/css" href="esim.css">
+</head><body
+>
+
+<div class="center"
>
<!--l. 1--><p class="noindent" >
-<!--l. 2--><p class="noindent" ><span
+<!--l. 2--><p class="noindent" ><span
class="cmbx-12x-x-207">eSim</span><br /><br />
-<span
+<span
class="cmbx-12x-x-144">An open source EDA tool for circuit design,</span>
-<span
+<span
class="cmbx-12x-x-144">simulation, analysis and PCB design</span><br />
-<img
-src="figures/logo-trimmed.png" alt="PIC"
+<img
+src="figures/logo-trimmed.png" alt="PIC"
>
-<span
+<span
class="cmbx-12x-x-144">eSim User Manual</span><br />
-<span
+<span
class="cmr-10">version 1.0.0</span><br />
-<span
+<span
class="cmbx-10">Prepared By:</span><br />
-<span
+<span
class="cmr-10">eSim Team</span><br />
-<span
+<span
class="cmr-10">FOSSEE at IIT,Bombay</span>
-<!--l. 17--><p class="noindent" ><img
-src="figures/iitblogo.png" alt="PIC"
+<!--l. 17--><p class="noindent" ><img
+src="figures/iitblogo.png" alt="PIC"
><br />
-<span
+<span
class="cmr-10">Indian Institute of Technology Bombay</span><br />
-<img
-src="esim0x.png" alt="&#x25CB;BY:" class="oalign" > <img
-src="esim1x.png" alt="&#x25CB;$\" class="oalign" > <img
+<img
+src="esim0x.png" alt="&#x25CB;BY:" class="oalign" > <img
+src="esim1x.png" alt="&#x25CB;$\" class="oalign" > <img
src="esim2x.png" alt="&#x25CB;=" class="oalign" > <br />
-<span
+<span
class="cmr-10">August 2015</span></div>
- <h2 class="likechapterHead"><a
+ <h2 class="likechapterHead"><a
id="x1-1000"></a>Contents</h2> <div class="tableofcontents">
- <span class="chapterToc" >1 <a
+ <span class="chapterToc" >1 <a
href="#x1-20001" id="QQ2-1-2">Introduction</a></span>
-<br /> <span class="chapterToc" >2 <a
+<br /> <span class="chapterToc" >2 <a
href="#x1-30002" id="QQ2-1-3">Installing eSim</a></span>
-<br /> <span class="chapterToc" >3 <a
+<br /> <span class="chapterToc" >3 <a
href="#x1-40003" id="QQ2-1-4">Architecture of eSim</a></span>
-<br /> &#x00A0;<span class="sectionToc" >3.1 <a
+<br /> &#x00A0;<span class="sectionToc" >3.1 <a
href="#x1-50003.1" id="QQ2-1-5">Modules used in eSim</a></span>
-<br /> &#x00A0;&#x00A0;<span class="subsectionToc" >3.1.1 <a
+<br /> &#x00A0;&#x00A0;<span class="subsectionToc" >3.1.1 <a
href="#x1-60003.1.1" id="QQ2-1-6">Eeschema</a></span>
-<br /> &#x00A0;&#x00A0;<span class="subsectionToc" >3.1.2 <a
+<br /> &#x00A0;&#x00A0;<span class="subsectionToc" >3.1.2 <a
href="#x1-70003.1.2" id="QQ2-1-7">CvPcb</a></span>
-<br /> &#x00A0;&#x00A0;<span class="subsectionToc" >3.1.3 <a
+<br /> &#x00A0;&#x00A0;<span class="subsectionToc" >3.1.3 <a
href="#x1-80003.1.3" id="QQ2-1-8">Pcbnew</a></span>
-<br /> &#x00A0;&#x00A0;<span class="subsectionToc" >3.1.4 <a
+<br /> &#x00A0;&#x00A0;<span class="subsectionToc" >3.1.4 <a
href="#x1-90003.1.4" id="QQ2-1-9">KiCad to Ngspice converter</a></span>
-<br /> &#x00A0;&#x00A0;<span class="subsectionToc" >3.1.5 <a
+<br /> &#x00A0;&#x00A0;<span class="subsectionToc" >3.1.5 <a
href="#x1-100003.1.5" id="QQ2-1-10">Model Builder</a></span>
-<br /> &#x00A0;&#x00A0;<span class="subsectionToc" >3.1.6 <a
+<br /> &#x00A0;&#x00A0;<span class="subsectionToc" >3.1.6 <a
href="#x1-110003.1.6" id="QQ2-1-11">Subcircuit Builder</a></span>
-<br /> &#x00A0;&#x00A0;<span class="subsectionToc" >3.1.7 <a
+<br /> &#x00A0;&#x00A0;<span class="subsectionToc" >3.1.7 <a
href="#x1-120003.1.7" id="QQ2-1-12">Ngspice</a></span>
-<br /> &#x00A0;<span class="sectionToc" >3.2 <a
+<br /> &#x00A0;<span class="sectionToc" >3.2 <a
href="#x1-130003.2" id="QQ2-1-13">Work flow of eSim</a></span>
-<br /> <span class="chapterToc" >4 <a
+<br /> <span class="chapterToc" >4 <a
href="#x1-140004" id="QQ2-1-15">Getting Started</a></span>
-<br /> &#x00A0;<span class="sectionToc" >4.1 <a
+<br /> &#x00A0;<span class="sectionToc" >4.1 <a
href="#x1-150004.1" id="QQ2-1-16">eSim Main Window</a></span>
-<br /> &#x00A0;&#x00A0;<span class="subsectionToc" >4.1.1 <a
+<br /> &#x00A0;&#x00A0;<span class="subsectionToc" >4.1.1 <a
href="#x1-160004.1.1" id="QQ2-1-17">How to launch eSim in Ubuntu?</a></span>
-<br /> &#x00A0;&#x00A0;<span class="subsectionToc" >4.1.2 <a
+<br /> &#x00A0;&#x00A0;<span class="subsectionToc" >4.1.2 <a
href="#x1-170004.1.2" id="QQ2-1-19">Main-GUI</a></span>
-<br /> <span class="chapterToc" >5 <a
+<br /> <span class="chapterToc" >5 <a
href="#x1-280005" id="QQ2-1-33">Schematic Creation</a></span>
-<br /> &#x00A0;<span class="sectionToc" >5.1 <a
+<br /> &#x00A0;<span class="sectionToc" >5.1 <a
href="#x1-290005.1" id="QQ2-1-34">Familiarizing the Schematic Editor interface</a></span>
-<br /> &#x00A0;&#x00A0;<span class="subsectionToc" >5.1.1 <a
+<br /> &#x00A0;&#x00A0;<span class="subsectionToc" >5.1.1 <a
href="#x1-300005.1.1" id="QQ2-1-36">Top menu bar</a></span>
-<br /> &#x00A0;&#x00A0;<span class="subsectionToc" >5.1.2 <a
+<br /> &#x00A0;&#x00A0;<span class="subsectionToc" >5.1.2 <a
href="#x1-310005.1.2" id="QQ2-1-38">Top toolbar</a></span>
-<br /> &#x00A0;&#x00A0;<span class="subsectionToc" >5.1.3 <a
+<br /> &#x00A0;&#x00A0;<span class="subsectionToc" >5.1.3 <a
href="#x1-320005.1.3" id="QQ2-1-40">Toolbar on the right</a></span>
-<br /> &#x00A0;&#x00A0;<span class="subsectionToc" >5.1.4 <a
+<br /> &#x00A0;&#x00A0;<span class="subsectionToc" >5.1.4 <a
href="#x1-330005.1.4" id="QQ2-1-42">Toolbar on the left</a></span>
-<br /> &#x00A0;&#x00A0;<span class="subsectionToc" >5.1.5 <a
+<br /> &#x00A0;&#x00A0;<span class="subsectionToc" >5.1.5 <a
href="#x1-340005.1.5" id="QQ2-1-44">Hotkeys</a></span>
-<br /> &#x00A0;<span class="sectionToc" >5.2 <a
+<br /> &#x00A0;<span class="sectionToc" >5.2 <a
href="#x1-350005.2" id="QQ2-1-45">Schematic creation for simulation</a></span>
-<br /> &#x00A0;&#x00A0;<span class="subsectionToc" >5.2.1 <a
+<br /> &#x00A0;&#x00A0;<span class="subsectionToc" >5.2.1 <a
href="#x1-360005.2.1" id="QQ2-1-47">Selection and placement of components</a></span>
-<br /> &#x00A0;&#x00A0;<span class="subsectionToc" >5.2.2 <a
+<br /> &#x00A0;&#x00A0;<span class="subsectionToc" >5.2.2 <a
href="#x1-370005.2.2" id="QQ2-1-51">Wiring the circuit</a></span>
-<br /> &#x00A0;&#x00A0;<span class="subsectionToc" >5.2.3 <a
+<br /> &#x00A0;&#x00A0;<span class="subsectionToc" >5.2.3 <a
href="#x1-380005.2.3" id="QQ2-1-53">Assigning values to components</a></span>
-<br /> &#x00A0;&#x00A0;<span class="subsectionToc" >5.2.4 <a
+<br /> &#x00A0;&#x00A0;<span class="subsectionToc" >5.2.4 <a
href="#x1-390005.2.4" id="QQ2-1-55">Annotation and ERC</a></span>
-<br /> &#x00A0;&#x00A0;<span class="subsectionToc" >5.2.5 <a
+<br /> &#x00A0;&#x00A0;<span class="subsectionToc" >5.2.5 <a
href="#x1-400005.2.5" id="QQ2-1-59">Netlist generation</a></span>
-<br /> <span class="chapterToc" >6 <a
+<br /> <span class="chapterToc" >6 <a
href="#x1-410006" id="QQ2-1-61">PCB Design</a></span>
-<br /> &#x00A0;<span class="sectionToc" >6.1 <a
+<br /> &#x00A0;<span class="sectionToc" >6.1 <a
href="#x1-420006.1" id="QQ2-1-62">Schematic creation for PCB design</a></span>
-<br /> &#x00A0;&#x00A0;<span class="subsectionToc" >6.1.1 <a
+<br /> &#x00A0;&#x00A0;<span class="subsectionToc" >6.1.1 <a
href="#x1-430006.1.1" id="QQ2-1-64">Netlist generation for PCB</a></span>
-<br /> &#x00A0;&#x00A0;<span class="subsectionToc" >6.1.2 <a
+<br /> &#x00A0;&#x00A0;<span class="subsectionToc" >6.1.2 <a
href="#x1-440006.1.2" id="QQ2-1-66">Mapping of components using Footprint Editor</a></span>
-<br /> &#x00A0;&#x00A0;<span class="subsectionToc" >6.1.3 <a
+<br /> &#x00A0;&#x00A0;<span class="subsectionToc" >6.1.3 <a
href="#x1-450006.1.3" id="QQ2-1-67">Familiarising the Footprint Editor tool</a></span>
-<br /> &#x00A0;&#x00A0;<span class="subsectionToc" >6.1.4 <a
+<br /> &#x00A0;&#x00A0;<span class="subsectionToc" >6.1.4 <a
href="#x1-470006.1.4" id="QQ2-1-71">Viewing footprints in 2D and 3D</a></span>
-<br /> &#x00A0;&#x00A0;<span class="subsectionToc" >6.1.5 <a
+<br /> &#x00A0;&#x00A0;<span class="subsectionToc" >6.1.5 <a
href="#x1-480006.1.5" id="QQ2-1-75">Mapping of components in the RC circuit</a></span>
-<br /> &#x00A0;<span class="sectionToc" >6.2 <a
+<br /> &#x00A0;<span class="sectionToc" >6.2 <a
href="#x1-490006.2" id="QQ2-1-77">Creation of PCB layout</a></span>
-<br /> &#x00A0;&#x00A0;<span class="subsectionToc" >6.2.1 <a
+<br /> &#x00A0;&#x00A0;<span class="subsectionToc" >6.2.1 <a
href="#x1-500006.2.1" id="QQ2-1-78">Familiarizing the Layout Editor tool</a></span>
-<br /> &#x00A0;&#x00A0;<span class="subsectionToc" >6.2.2 <a
+<br /> &#x00A0;&#x00A0;<span class="subsectionToc" >6.2.2 <a
href="#x1-520006.2.2" id="QQ2-1-82">Hotkeys</a></span>
-<br /> &#x00A0;&#x00A0;<span class="subsectionToc" >6.2.3 <a
+<br /> &#x00A0;&#x00A0;<span class="subsectionToc" >6.2.3 <a
href="#x1-530006.2.3" id="QQ2-1-83">PCB design example using RC circuit</a></span>
-<br /> <span class="chapterToc" >7 <a
+<br /> <span class="chapterToc" >7 <a
href="#x1-540007" id="QQ2-1-98">Model Editor</a></span>
-<br /> &#x00A0;<span class="sectionToc" >7.1 <a
+<br /> &#x00A0;<span class="sectionToc" >7.1 <a
href="#x1-550007.1" id="QQ2-1-100">Creating New Model Library </a></span>
-<br /> &#x00A0;<span class="sectionToc" >7.2 <a
+<br /> &#x00A0;<span class="sectionToc" >7.2 <a
href="#x1-560007.2" id="QQ2-1-105">Editing Current Model Library</a></span>
-<br /> &#x00A0;<span class="sectionToc" >7.3 <a
+<br /> &#x00A0;<span class="sectionToc" >7.3 <a
href="#x1-570007.3" id="QQ2-1-107">Uploading external .lib file to eSim repository</a></span>
-<br /> <span class="chapterToc" >8 <a
+<br /> <span class="chapterToc" >8 <a
href="#x1-580008" id="QQ2-1-108">SubCircuit Builder</a></span>
-<br /> &#x00A0;<span class="sectionToc" >8.1 <a
+<br /> &#x00A0;<span class="sectionToc" >8.1 <a
href="#x1-590008.1" id="QQ2-1-110">Creating a SubCircuit</a></span>
-<br /> &#x00A0;<span class="sectionToc" >8.2 <a
+<br /> &#x00A0;<span class="sectionToc" >8.2 <a
href="#x1-600008.2" id="QQ2-1-118">Edit a Subcircuit</a></span>
-<br /> <span class="chapterToc" >9 <a
+<br /> <span class="chapterToc" >9 <a
href="#x1-610009" id="QQ2-1-119">Solved Examples</a></span>
-<br /> &#x00A0;<span class="sectionToc" >9.1 <a
+<br /> &#x00A0;<span class="sectionToc" >9.1 <a
href="#x1-620009.1" id="QQ2-1-120">Solved Examples</a></span>
-<br /> &#x00A0;&#x00A0;<span class="subsectionToc" >9.1.1 <a
+<br /> &#x00A0;&#x00A0;<span class="subsectionToc" >9.1.1 <a
href="#x1-630009.1.1" id="QQ2-1-121">Basic RC Circuit</a></span>
-<br /> &#x00A0;&#x00A0;<span class="subsectionToc" >9.1.2 <a
+<br /> &#x00A0;&#x00A0;<span class="subsectionToc" >9.1.2 <a
href="#x1-660009.1.2" id="QQ2-1-136">Half Wave Rectifier</a></span>
-<br /> &#x00A0;&#x00A0;<span class="subsectionToc" >9.1.3 <a
+<br /> &#x00A0;&#x00A0;<span class="subsectionToc" >9.1.3 <a
href="#x1-690009.1.3" id="QQ2-1-143">Precision Rectifier</a></span>
-<br /> &#x00A0;&#x00A0;<span class="subsectionToc" >9.1.4 <a
+<br /> &#x00A0;&#x00A0;<span class="subsectionToc" >9.1.4 <a
href="#x1-720009.1.4" id="QQ2-1-150">Inverting Amplifier</a></span>
-<br /> &#x00A0;&#x00A0;<span class="subsectionToc" >9.1.5 <a
+<br /> &#x00A0;&#x00A0;<span class="subsectionToc" >9.1.5 <a
href="#x1-750009.1.5" id="QQ2-1-157">Half Adder Example</a></span>
-<br /> <span class="chapterToc" > <a
+<br /> <span class="chapterToc" > <a
href="#Q1-1-166">References </a></span>
</div>
- <h2 class="chapterHead"><span class="titlemark">Chapter&#x00A0;1</span><br /><a
+ <h2 class="chapterHead"><span class="titlemark">Chapter&#x00A0;1</span><br /><a
id="x1-20001"></a>Introduction</h2> Electronic systems are an integral part of human life. They have
simplified our lives to a great extent. Starting from small systems made of a few
discrete components to the present day integrated circuits (ICs) with millions of
logic gates, electronic systems have undergone a sea change. As a result, design of
electronic systems too have become extremely difficult and time consuming. Thanks to
a host of computer aided design tools, we have been able to come up with quick
-and efficient designs. These are called <span
-class="cmtt-10x-x-109">Electronic Design Automation </span>or <span
+and efficient designs. These are called <span
+class="cmtt-10x-x-109">Electronic Design Automation </span>or <span
class="cmtt-10x-x-109">EDA</span>
-<a
+<a
id="dx1-2001"></a>tools.
-<!--l. 20--><p class="noindent" >Let us see the steps involved in EDA.<a
+<!--l. 20--><p class="noindent" >Let us see the steps involved in EDA.<a
id="dx1-2002"></a> In the first stage, the specifications of the system are
laid out. These specifications are then converted to a design. The design could be in
the form of a circuit schematic, logical description using an HDL language, etc.
@@ -185,37 +185,37 @@ The design is then simulated and re-designed, if needed, to achieve the desired
results. Once simulation achieves the specifications, the design is either converted to
a PCB, a chip layout, or ported to an FPGA. The final product is again tested
for specifications. The whole cycle is repeated until desired results are obtained
-<span class="cite">&#x00A0;[<a
+<span class="cite">&#x00A0;[<a
href="#Xeda">9</a>]</span>.
<!--l. 31--><p class="indent" > A person who builds an electronic system has to first design the circuit, produce a virtual
representation of it through a schematic for easy comprehension, simulate it and finally
-convert it into a Printed Circuit Board (PCB). <a
+convert it into a Printed Circuit Board (PCB). <a
id="dx1-2003"></a>There are various tools available that will help
-us do this. Some of the popular EDA tools are those of <span
-class="cmtt-10x-x-109">Cadence</span>, <span
-class="cmtt-10x-x-109">Synopys</span>, <span
+us do this. Some of the popular EDA tools are those of <span
+class="cmtt-10x-x-109">Cadence</span>, <span
+class="cmtt-10x-x-109">Synopys</span>, <span
class="cmtt-10x-x-109">Mentor Graphics</span>
-and <span
+and <span
class="cmtt-10x-x-109">Xilinx</span>. Although these are fairly comprehensive and high end, their licenses are
expensive, being proprietary.
-<!--l. 40--><p class="indent" > There are some free and open source EDA tools like <span
-class="cmtt-10x-x-109">gEDA</span>, <span
-class="cmtt-10x-x-109">KiCad </span>and <span
+<!--l. 40--><p class="indent" > There are some free and open source EDA tools like <span
+class="cmtt-10x-x-109">gEDA</span>, <span
+class="cmtt-10x-x-109">KiCad </span>and <span
class="cmtt-10x-x-109">Ngspice</span>. The main
drawback of these open source tools is that they are not comprehensive. Some of them are
-capable of PCB design (e.g. <span
+capable of PCB design (e.g. <span
class="cmtt-10x-x-109">KiCad</span>) while some of them are capable of performing simulations
-(e.g. <span
+(e.g. <span
class="cmtt-10x-x-109">gEDA</span>). To the best of our knowledge, there is no open source software that can perform
circuit design, simulation and layout design together. eSim is capable of doing all of the
above.
-<!--l. 49--><p class="indent" > eSim is a free and open source EDA tool. It is an acronym for <span
-class="cmbx-10x-x-109">E</span>lectronics <span
+<!--l. 49--><p class="indent" > eSim is a free and open source EDA tool. It is an acronym for <span
+class="cmbx-10x-x-109">E</span>lectronics <span
class="cmbx-10x-x-109">Sim</span>ulation.
-eSim is created using open source software packages, such as KiCad, Ngspice and Python. <a
- id="dx1-2004"></a><a
+eSim is created using open source software packages, such as KiCad, Ngspice and Python. <a
+ id="dx1-2004"></a><a
id="dx1-2005"></a>
-<a
+<a
id="dx1-2006"></a>Using eSim, one can create circuit schematics, perform simulations and design PCB
layouts. It can create or edit new device models, and create or edit subcircuits for
simulation.
@@ -224,127 +224,127 @@ professionals who would want to study and/or design electronic systems. eSim is
for entrepreneurs and small scale enterprises who do not have the capability to invest in
heavily priced proprietary tools.
<!--l. 63--><p class="indent" > This book introduces eSim to the reader and illustrates all the features of eSim with
-examples. Chapter&#x00A0;<a
+examples. Chapter&#x00A0;<a
href="#x1-30002">2<!--tex4ht:ref: chap2 --></a> gives step by step instructions to install eSim on a typical computer
system and to validate the installation. The software architecture of eSim is presented in
-Chapter&#x00A0;<a
-href="#x1-40003">3<!--tex4ht:ref: chap3 --></a>. Chapter&#x00A0;<a
+Chapter&#x00A0;<a
+href="#x1-40003">3<!--tex4ht:ref: chap3 --></a>. Chapter&#x00A0;<a
href="#x1-140004">4<!--tex4ht:ref: chap4 --></a> gets the user started with eSim. It takes them through a tour
of eSim with the help of a simple RC circuit example. Chapter 5 illustrates how
to simulate circuits. Chapter 6 explains PCB design using eSim, in detail. The
advanced features of eSim such as Model Builder covered in Chapter 7 and Sub
-circuiting is covered in Chapter 8. Chapter&#x00A0;<a
+circuiting is covered in Chapter 8. Chapter&#x00A0;<a
href="#x1-610009">9<!--tex4ht:ref: chap5 --></a> illustrates how to use eSim for solving
problems.
<!--l. 73--><p class="indent" > The following convention has been adopted throughout this manual.All the
menu names, options under each menu item, tool names, certain points to be noted,
-etc., are given in <span
+etc., are given in <span
class="cmti-10x-x-109">italics</span>. Some keywords, names of certain windows/dialog boxes,
names of some files/projects/folders, messages displayed during an activity, names
-of websites, component references, etc., are given in <span
+of websites, component references, etc., are given in <span
class="cmtt-10x-x-109">typewriter </span>font. Some key
-presses, e.g. <span
-class="cmtt-10x-x-109">Enter </span>key, <span
-class="cmtt-10x-x-109">F1 </span>key, <span
-class="cmtt-10x-x-109">y </span>for yes, etc., are also mentioned in <span
+presses, e.g. <span
+class="cmtt-10x-x-109">Enter </span>key, <span
+class="cmtt-10x-x-109">F1 </span>key, <span
+class="cmtt-10x-x-109">y </span>for yes, etc., are also mentioned in <span
class="cmtt-10x-x-109">typewriter</span>
font.
- <h2 class="chapterHead"><span class="titlemark">Chapter&#x00A0;2</span><br /><a
+ <h2 class="chapterHead"><span class="titlemark">Chapter&#x00A0;2</span><br /><a
id="x1-30002"></a>Installing eSim</h2>
<dl class="enumerate"><dt class="enumerate">
- 1. </dt><dd
-class="enumerate"><span
-class="cmbx-10x-x-109">eSim installation in Ubuntu:</span><br
+ 1. </dt><dd
+class="enumerate"><span
+class="cmbx-10x-x-109">eSim installation in Ubuntu:</span><br
class="newline" />After downloading the zip file from https://github.com/FOSSEE/eSim to a local
- directory unpack it using:<br
-class="newline" />&#x00A0;&#x00A0;&#x00A0;&#x00A0;&#x00A0; <span
-class="cmbx-10x-x-109">$ unzip eSim.zip </span><br
+ directory unpack it using:<br
+class="newline" />&#x00A0;&#x00A0;&#x00A0;&#x00A0;&#x00A0; <span
+class="cmbx-10x-x-109">$ unzip eSim.zip </span><br
class="newline" />Now change directories in to the top-level source directory (where this INSTALL
file can be found).
- <!--l. 13--><p class="noindent" >To install eSim and other dependecies run the following command. <br
-class="newline" />&#x00A0;&#x00A0;&#x00A0;&#x00A0;&#x00A0; <span
-class="cmbx-10x-x-109">$ ../install-linux.sh &#8211;install </span><br
+ <!--l. 13--><p class="noindent" >To install eSim and other dependecies run the following command. <br
+class="newline" />&#x00A0;&#x00A0;&#x00A0;&#x00A0;&#x00A0; <span
+class="cmbx-10x-x-109">$ ../install-linux.sh &#8211;install </span><br
class="newline" />Above script will install eSim along with dependencies.
<!--l. 19--><p class="noindent" >eSim will be installed to /opt/eSim
- <!--l. 21--><p class="noindent" >To run eSim you can directly run it from terminal as <br
-class="newline" />&#x00A0;&#x00A0;&#x00A0;&#x00A0;&#x00A0; <span
-class="cmbx-10x-x-109">$ esim </span><br
+ <!--l. 21--><p class="noindent" >To run eSim you can directly run it from terminal as <br
+class="newline" />&#x00A0;&#x00A0;&#x00A0;&#x00A0;&#x00A0; <span
+class="cmbx-10x-x-109">$ esim </span><br
class="newline" />or you can double click on eSim icon created on desktop after installation.</dd></dl>
- <h2 class="chapterHead"><span class="titlemark">Chapter&#x00A0;3</span><br /><a
+ <h2 class="chapterHead"><span class="titlemark">Chapter&#x00A0;3</span><br /><a
id="x1-40003"></a>Architecture of eSim</h2>
-<!--l. 6--><p class="noindent" >eSim is a CAD <a
+<!--l. 6--><p class="noindent" >eSim is a CAD <a
id="dx1-4001"></a>tool that helps electronic system designers to design, test and analyse their
circuits. But the important feature of this tool is that it is open source and hence the user can
modify the source as per his/her need. The software provides a generic, modular and
extensible platform for experiment with electronic circuits. This software runs on all
-Ubuntu Linux distributions and some flavours of Windows. It uses <span
-class="cmtt-10x-x-109">Python</span>, <span
+Ubuntu Linux distributions and some flavours of Windows. It uses <span
+class="cmtt-10x-x-109">Python</span>, <span
class="cmtt-10x-x-109">KiCad </span>and
-<span
+<span
class="cmtt-10x-x-109">Ngspice</span>.
<!--l. 13--><p class="indent" > The objective behind the development of eSim is to provide an open source EDA solution
for electronics and electrical engineers. The software should be capable of performing
schematic creation, PCB design and circuit simulation (analog, digital and mixed signal). It
should provide facilities to create new models and components. The architecture of eSim has
been designed by keeping these objectives in mind.
- <h3 class="sectionHead"><span class="titlemark">3.1 </span> <a
+ <h3 class="sectionHead"><span class="titlemark">3.1 </span> <a
id="x1-50003.1"></a>Modules used in eSim</h3>
<!--l. 21--><p class="noindent" >Various open-source tools have been used for the underlying build-up of eSim. In this section
we will give a brief idea about all the modules used in eSim.
<!--l. 23--><p class="noindent" >
- <h4 class="subsectionHead"><span class="titlemark">3.1.1 </span> <a
+ <h4 class="subsectionHead"><span class="titlemark">3.1.1 </span> <a
id="x1-60003.1.1"></a>Eeschema</h4>
-<a
+<a
id="dx1-6001"></a>
-<a
+<a
id="dx1-6002"></a>
<!--l. 24--><p class="noindent" >Eeschema is an integrated software where all functions of circuit drawing, control, layout,
library management and access to the PCB design software are carried out. It is the
-schematic editor tool used in KiCad <span class="cite">&#x00A0;[<a
+schematic editor tool used in KiCad <span class="cite">&#x00A0;[<a
href="#Xeeschema">11</a>]</span>. Eeschema is intended to work with PCB layout
software such as Pcbnew. It provides netlist that describes the electrical connections of the
PCB. Eeschema also integrates a component editor which allows the creation, editing and
visualization of components. It also allows the user to effectively handle the symbol
libraries i.e; import, export, addition and deletion of library components. Eeschema
also integrates the following additional but essential functions needed for a modern
-schematic capture software: <a
- id="x1-6003r1"></a>1.&#x00A0;Design rules check <a
- id="dx1-6004"></a>(<span
+schematic capture software: <a
+ id="x1-6003r1"></a>1.&#x00A0;Design rules check <a
+ id="dx1-6004"></a>(<span
class="cmtt-10x-x-109">DRC</span>) for the automatic control of
-incorrect connections and inputs of components left unconnected. <a
+incorrect connections and inputs of components left unconnected. <a
id="x1-6005r2"></a>2.&#x00A0;Generation of
-layout files in <span
-class="cmtt-10x-x-109">POSTSCRIPT</span> <a
- id="dx1-6006"></a>or <span
-class="cmtt-10x-x-109">HPGL</span> <a
- id="dx1-6007"></a>format. <a
+layout files in <span
+class="cmtt-10x-x-109">POSTSCRIPT</span> <a
+ id="dx1-6006"></a>or <span
+class="cmtt-10x-x-109">HPGL</span> <a
+ id="dx1-6007"></a>format. <a
id="x1-6008r3"></a>3.&#x00A0;Generation of layout files printable via
-printer. <a
- id="x1-6009r4"></a>4.&#x00A0;Bill of material generation. <a
+printer. <a
+ id="x1-6009r4"></a>4.&#x00A0;Bill of material generation. <a
id="x1-6010r5"></a>5.&#x00A0;Netlist generation for PCB layout or for
simulation.
-This module is indicated by the label 1 in Fig.&#x00A0;<a
+This module is indicated by the label 1 in Fig.&#x00A0;<a
href="#x1-130011">3.1<!--tex4ht:ref: blockd --></a>.
<!--l. 45--><p class="indent" > As Eeschema is originally intended for PCB Design, there are no fictitious
-components<span class="footnote-mark"><a
-href="esim2.html#fn1x3"><sup class="textsuperscript">1</sup></a></span><a
+components<span class="footnote-mark"><a
+href="esim2.html#fn1x3"><sup class="textsuperscript">1</sup></a></span><a
id="x1-6011f1"></a>
such as voltage or current sources. Thus, we have added a new library for different types of
voltage and current sources such as sine, pulse and square wave. We have also built a library
which gives printing and plotting solutions. This extension, developed by us for eSim, is
-indicated by the label 2 in Fig.&#x00A0;<a
+indicated by the label 2 in Fig.&#x00A0;<a
href="#x1-130011">3.1<!--tex4ht:ref: blockd --></a>.
- <h4 class="subsectionHead"><span class="titlemark">3.1.2 </span> <a
+ <h4 class="subsectionHead"><span class="titlemark">3.1.2 </span> <a
id="x1-70003.1.2"></a>CvPcb</h4>
-<a
+<a
id="dx1-7001"></a>
<!--l. 58--><p class="noindent" >CvPcb is a tool that allows the user to associate components in the schematic to component
footprints when designing the printed circuit board. CvPcb is the footprint editor tool in
-KiCad <span class="cite">&#x00A0;[<a
+KiCad <span class="cite">&#x00A0;[<a
href="#Xeeschema">11</a>]</span>. Typically the netlist file generated by Eeschema does not specify which printed
circuit board footprint is associated with each component in the schematic. However, this is
not always the case as component footprints can be associated during schematic capture by
@@ -358,15 +358,15 @@ and less error prone than directly associating footprints in the schematic edito
This is because CvPcb not only allows automatic association, but also allows to
see the list of available footprints and displays them on the screen to ensure the
correct footprint is being associated. This module is indicated by the label 3 in
-Fig.&#x00A0;<a
+Fig.&#x00A0;<a
href="#x1-130011">3.1<!--tex4ht:ref: blockd --></a>.
<!--l. 80--><p class="noindent" >
- <h4 class="subsectionHead"><span class="titlemark">3.1.3 </span> <a
+ <h4 class="subsectionHead"><span class="titlemark">3.1.3 </span> <a
id="x1-80003.1.3"></a>Pcbnew</h4>
-<a
+<a
id="dx1-8001"></a>
<!--l. 81--><p class="noindent" >Pcbnew is a powerful printed circuit board software tool. It is the layout editor tool
-used in KiCad <span class="cite">&#x00A0;[<a
+used in KiCad <span class="cite">&#x00A0;[<a
href="#Xeeschema">11</a>]</span>. It is used in association with the schematic capture software
Eeschema, which provides the netlist. Netlist describes the electrical connections of
the circuit. CvPcb is used to assign each component, in the netlist produced by
@@ -375,7 +375,7 @@ below:
<ul class="itemize1">
<li class="itemize">It manages libraries of modules. Each module is a drawing of the physical
- component including its footprint<a
+ component including its footprint<a
id="dx1-8002"></a> - the layout of pads providing connections to the
component. The required modules are automatically loaded during the reading of
the netlist produced by CvPcb.
@@ -389,7 +389,7 @@ below:
connected on the schematic. These connections move dynamically as track and
module movements are made.
</li>
- <li class="itemize">It has an active Design Rules Check (<span
+ <li class="itemize">It has an active Design Rules Check (<span
class="cmtt-10x-x-109">DRC</span>) which automatically indicates any error
of track layout in real time.
</li>
@@ -397,7 +397,7 @@ class="cmtt-10x-x-109">DRC</span>) which automatically indicates any error
pads.
</li>
<li class="itemize">It has a simple but effective auto router to assist in the production of the
- circuit. An export/import in <span
+ circuit. An export/import in <span
class="cmtt-10x-x-109">SPECCTRA </span>dsn format allows to use more advanced
auto-routers.
</li>
@@ -413,67 +413,67 @@ class="cmtt-10x-x-109">SPECCTRA </span>dsn format allows to use more advanced
<li class="itemize">display the track/pad clearance.</li></ul>
</li></ul>
-<!--l. 121--><p class="noindent" >This module is indicated by the label 4 in Fig.&#x00A0;<a
+<!--l. 121--><p class="noindent" >This module is indicated by the label 4 in Fig.&#x00A0;<a
href="#x1-130011">3.1<!--tex4ht:ref: blockd --></a>.
- <h4 class="subsectionHead"><span class="titlemark">3.1.4 </span> <a
+ <h4 class="subsectionHead"><span class="titlemark">3.1.4 </span> <a
id="x1-90003.1.4"></a>KiCad to Ngspice converter</h4>
<!--l. 124--><p class="noindent" >We can provide analysis parameters, and the source details through this module. It also
allows us to add and edit the device models and subcircuits, included in the circuit
schematic. Finally, this module facilitates the conversion of KiCad netlist to Ngspice
compatible ones. It is developed by us for eSim and it is indicated by the label 7 in
-Fig.&#x00A0;<a
+Fig.&#x00A0;<a
href="#x1-130011">3.1<!--tex4ht:ref: blockd --></a>.
<!--l. 149--><p class="noindent" >
- <h4 class="subsectionHead"><span class="titlemark">3.1.5 </span> <a
+ <h4 class="subsectionHead"><span class="titlemark">3.1.5 </span> <a
id="x1-100003.1.5"></a>Model Builder</h4>
-<a
+<a
id="dx1-10001"></a>
-<!--l. 150--><p class="noindent" >This tool provides the facility to define a new model for devices such as, <a
- id="x1-10002r1"></a>1.&#x00A0;Diode <a
+<!--l. 150--><p class="noindent" >This tool provides the facility to define a new model for devices such as, <a
+ id="x1-10002r1"></a>1.&#x00A0;Diode <a
id="x1-10003r2"></a>2.&#x00A0;Bipolar
-Junction Transistor (BJT) <a
+Junction Transistor (BJT) <a
id="x1-10004r3"></a>3.&#x00A0;Metal Oxide Semiconductor Field Effect Transistor
-(MOSFET) <a
- id="x1-10005r4"></a>4.&#x00A0;Junction Field Effect Transistor (JFET) <a
- id="x1-10006r5"></a>5.&#x00A0;IGBT and <a
+(MOSFET) <a
+ id="x1-10005r4"></a>4.&#x00A0;Junction Field Effect Transistor (JFET) <a
+ id="x1-10006r5"></a>5.&#x00A0;IGBT and <a
id="x1-10007r6"></a>6.&#x00A0;Magnetic
core.
This module also helps edit existing models. It is developed by us for eSim and it is indicated
-by the label 5 in Fig.&#x00A0;<a
+by the label 5 in Fig.&#x00A0;<a
href="#x1-130011">3.1<!--tex4ht:ref: blockd --></a>.
<!--l. 164--><p class="noindent" >
- <h4 class="subsectionHead"><span class="titlemark">3.1.6 </span> <a
+ <h4 class="subsectionHead"><span class="titlemark">3.1.6 </span> <a
id="x1-110003.1.6"></a>Subcircuit Builder</h4>
-<a
+<a
id="dx1-11001"></a>
<!--l. 164--><p class="noindent" >This module allows the user to create a subcircuit for a component. Once the subcircuit for a
component is created, the user can use it in other circuits. It has the facility to define new
components such as, Op-amps and IC-555. This component also helps edit existing
subcircuits. This module is developed by us for eSim and it is indicated by the label 6 in
-Fig.&#x00A0;<a
+Fig.&#x00A0;<a
href="#x1-130011">3.1<!--tex4ht:ref: blockd --></a>.
<!--l. 172--><p class="noindent" >
- <h4 class="subsectionHead"><span class="titlemark">3.1.7 </span> <a
+ <h4 class="subsectionHead"><span class="titlemark">3.1.7 </span> <a
id="x1-120003.1.7"></a>Ngspice</h4>
-<a
+<a
id="dx1-12001"></a>
<!--l. 173--><p class="noindent" >Ngspice is a general purpose circuit simulation program for nonlinear dc, nonlinear transient,
-and linear ac analysis <span class="cite">&#x00A0;[<a
+and linear ac analysis <span class="cite">&#x00A0;[<a
href="#Xngspice-web">12</a>]</span>. Circuits may contain resistors, capacitors, inductors, mutual
inductors, independent voltage and current sources, four types of dependent sources, lossless
and lossy transmission lines (two separate implementations), switches, uniform
distributed RC lines, and the five most common semiconductor devices: diodes,
-<a
- id="dx1-12002"></a>BJTs, <a
- id="dx1-12003"></a>JFETs, MESFETs, and MOSFET. <a
+<a
+ id="dx1-12002"></a>BJTs, <a
+ id="dx1-12003"></a>JFETs, MESFETs, and MOSFET. <a
id="dx1-12004"></a>This module is indicated by the label 9 in
-Fig.&#x00A0;<a
+Fig.&#x00A0;<a
href="#x1-130011">3.1<!--tex4ht:ref: blockd --></a>.
<!--l. 184--><p class="noindent" >
- <h3 class="sectionHead"><span class="titlemark">3.2 </span> <a
+ <h3 class="sectionHead"><span class="titlemark">3.2 </span> <a
id="x1-130003.2"></a>Work flow of eSim</h3>
-<!--l. 185--><p class="noindent" >Fig.&#x00A0;<a
+<!--l. 185--><p class="noindent" >Fig.&#x00A0;<a
href="#x1-130011">3.1<!--tex4ht:ref: blockd --></a> shows the work flow in eSim. The block diagram consists of mainly three
parts:
<ul class="itemize1">
@@ -482,18 +482,18 @@ parts:
<li class="itemize">PCB Layout Editor
</li>
<li class="itemize">Circuit Simulators</li></ul>
-<!--l. 193--><p class="indent" > <hr class="figure"><div class="figure"
+<!--l. 193--><p class="indent" > <hr class="figure"><div class="figure"
>
-<a
+<a
id="x1-130011"></a>
-<!--l. 196--><p class="noindent" ><img
-src="figures/blockdiagram.png" alt="PIC"
+<!--l. 196--><p class="noindent" ><img
+src="figures/blockdiagram.png" alt="PIC"
>
-<br /> <div class="caption"
-><span class="id">Figure&#x00A0;3.1: </span><span
+<br /> <div class="caption"
+><span class="id">Figure&#x00A0;3.1: </span><span
class="content">Work flow in eSim. (Boxes with dotted lines denote the modules developed
in this work).</span></div><!--tex4ht:label?: x1-130011 -->
@@ -502,7 +502,7 @@ in this work).</span></div><!--tex4ht:label?: x1-130011 -->
first step in the design of an electronic circuit. Generally a circuit diagram is drawn on a
paper, and then entered into a computer using a schematic editor. Eeschema is the schematic
editor for eSim. Thus all the functionalities of Eeschema are naturally available in eSim.
-<a
+<a
id="dx1-13002"></a>
<!--l. 210--><p class="indent" > Libraries for components, explicitly or implicitly supported by Ngspice, have been created
using the features of Eeschema. As Eeschema is originally intended for PCB design, there are
@@ -528,7 +528,7 @@ type of simulation to be performed and the corresponding options are provided
through a graphical user interface (GUI). This is called KiCad to Ngspice Converter in
eSim.
<!--l. 245--><p class="indent" > eSim uses Ngspice for analog, digital, mixed-level/mixed-signal circuit simulation. Ngspice
-is based on three open source software packages<span class="cite">&#x00A0;[<a
+is based on three open source software packages<span class="cite">&#x00A0;[<a
href="#Xspice">14</a>]</span>:
<ul class="itemize1">
<li class="itemize">Spice3f5 (analog circuit simulator)
@@ -537,130 +537,130 @@ href="#Xspice">14</a>]</span>:
</li>
<li class="itemize">Xspice (code modeling support and simulation of digital components through an
event driven algorithm)</li></ul>
-<!--l. 253--><p class="noindent" >It is a part of gEDA <a
- id="dx1-13003"></a>project. Ngspice is capable of simulating devices with BSIM, <a
- id="dx1-13004"></a>EKV, HICUM, <a
- id="dx1-13005"></a><a
+<!--l. 253--><p class="noindent" >It is a part of gEDA <a
+ id="dx1-13003"></a>project. Ngspice is capable of simulating devices with BSIM, <a
+ id="dx1-13004"></a>EKV, HICUM, <a
+ id="dx1-13005"></a><a
id="dx1-13006"></a>
-HiSim, <a
- id="dx1-13007"></a>PSP, <a
- id="dx1-13008"></a>and PTM <a
+HiSim, <a
+ id="dx1-13007"></a>PSP, <a
+ id="dx1-13008"></a>and PTM <a
id="dx1-13009"></a>models. It is widely used due to its accuracy even for the latest
technology devices.
- <h2 class="chapterHead"><span class="titlemark">Chapter&#x00A0;4</span><br /><a
+ <h2 class="chapterHead"><span class="titlemark">Chapter&#x00A0;4</span><br /><a
id="x1-140004"></a>Getting Started</h2>
<!--l. 5--><p class="noindent" >In this chapter we will get started with eSim. We will run through the various options
available with an example circuit. Referring to this chapter will make one familiar with
eSim and will help plan the project before actually designing a circuit. Lets get
started.
- <h3 class="sectionHead"><span class="titlemark">4.1 </span> <a
+ <h3 class="sectionHead"><span class="titlemark">4.1 </span> <a
id="x1-150004.1"></a>eSim Main Window</h3>
<!--l. 12--><p class="noindent" >
- <h4 class="subsectionHead"><span class="titlemark">4.1.1 </span> <a
+ <h4 class="subsectionHead"><span class="titlemark">4.1.1 </span> <a
id="x1-160004.1.1"></a>How to launch eSim in Ubuntu?</h4>
-<!--l. 13--><p class="noindent" >After installation is completed, to launch eSim 1. Go to terminal.<br
-class="newline" />2. Type <span
-class="cmbx-10x-x-109">esim </span>and hit enter.<br
-class="newline" />The first window that appears is workspace dialog as shown in Fig.&#x00A0;<a
-href="#x1-160011">4.1<!--tex4ht:ref: workspace --></a>. <hr class="figure"><div class="figure"
+<!--l. 13--><p class="noindent" >After installation is completed, to launch eSim 1. Go to terminal.<br
+class="newline" />2. Type <span
+class="cmbx-10x-x-109">esim </span>and hit enter.<br
+class="newline" />The first window that appears is workspace dialog as shown in Fig.&#x00A0;<a
+href="#x1-160011">4.1<!--tex4ht:ref: workspace --></a>. <hr class="figure"><div class="figure"
>
-<a
+<a
id="x1-160011"></a>
-<!--l. 19--><p class="noindent" ><img
-src="figures/workspace.png" alt="PIC"
+<!--l. 19--><p class="noindent" ><img
+src="figures/workspace.png" alt="PIC"
>
-<br /> <div class="caption"
-><span class="id">Figure&#x00A0;4.1: </span><span
+<br /> <div class="caption"
+><span class="id">Figure&#x00A0;4.1: </span><span
class="content">eSim-Workspace</span></div><!--tex4ht:label?: x1-160011 -->
<!--l. 22--><p class="indent" > </div><hr class="endfigure">
<!--l. 24--><p class="indent" > The default workspace is eSim-Workspace under home directory. To create new workspace
-use <span
+use <span
class="cmti-10x-x-109">browse </span>option.
- <h4 class="subsectionHead"><span class="titlemark">4.1.2 </span> <a
+ <h4 class="subsectionHead"><span class="titlemark">4.1.2 </span> <a
id="x1-170004.1.2"></a>Main-GUI</h4>
-<!--l. 27--><p class="noindent" >The main GUI window of eSim is as shown in Fig.&#x00A0;<a
-href="#x1-170012">4.2<!--tex4ht:ref: maingui --></a> <hr class="figure"><div class="figure"
+<!--l. 27--><p class="noindent" >The main GUI window of eSim is as shown in Fig.&#x00A0;<a
+href="#x1-170012">4.2<!--tex4ht:ref: maingui --></a> <hr class="figure"><div class="figure"
>
-<a
+<a
id="x1-170012"></a>
-<!--l. 30--><p class="noindent" ><img
-src="figures/maingui.png" alt="PIC"
+<!--l. 30--><p class="noindent" ><img
+src="figures/maingui.png" alt="PIC"
>
-<br /> <div class="caption"
-><span class="id">Figure&#x00A0;4.2: </span><span
+<br /> <div class="caption"
+><span class="id">Figure&#x00A0;4.2: </span><span
class="content">eSim Main GUI</span></div><!--tex4ht:label?: x1-170012 -->
<!--l. 33--><p class="indent" > </div><hr class="endfigure">
<!--l. 34--><p class="indent" > The eSim main window consists of the following symbols.
<dl class="enumerate"><dt class="enumerate">
- 1. </dt><dd
+ 1. </dt><dd
class="enumerate">Toolbar
</dd><dt class="enumerate">
- 2. </dt><dd
+ 2. </dt><dd
class="enumerate">Menubar
</dd><dt class="enumerate">
- 3. </dt><dd
+ 3. </dt><dd
class="enumerate">Project explorer
</dd><dt class="enumerate">
- 4. </dt><dd
+ 4. </dt><dd
class="enumerate">Dockarea
</dd><dt class="enumerate">
- 5. </dt><dd
+ 5. </dt><dd
class="enumerate">Console area</dd></dl>
- <h5 class="subsubsectionHead"><a
+ <h5 class="subsubsectionHead"><a
id="x1-180004.1.2"></a>Toolbar</h5>
-<!--l. 44--><p class="noindent" ><hr class="figure"><div class="figure"
+<!--l. 44--><p class="noindent" ><hr class="figure"><div class="figure"
>
-<a
+<a
id="x1-180013"></a>
-<!--l. 46--><p class="noindent" ><img
-src="figures/guitoolbar.png" alt="PIC"
+<!--l. 46--><p class="noindent" ><img
+src="figures/guitoolbar.png" alt="PIC"
>
-<br /> <div class="caption"
-><span class="id">Figure&#x00A0;4.3: </span><span
+<br /> <div class="caption"
+><span class="id">Figure&#x00A0;4.3: </span><span
class="content">Toolbar</span></div><!--tex4ht:label?: x1-180013 -->
<!--l. 49--><p class="noindent" ></div><hr class="endfigure">
<ul class="itemize1">
- <li class="itemize">Open Schematic: The first tool on the toolbar i.e. <span
-class="cmti-10x-x-109">Schematic Editor</span><a
+ <li class="itemize">Open Schematic: The first tool on the toolbar i.e. <span
+class="cmti-10x-x-109">Schematic Editor</span><a
id="dx1-18002"></a>. Clicking on
this button will open Eeschema, the KiCad schematic editor.
</li>
<li class="itemize">Convert KiCad to Ngspice: This converter converts KiCad spice netlist into
Ngspice compatible netlist. The KiCad to Ngspice window consists of total five
- tabs as namely <span
+ tabs as namely <span
class="cmti-10x-x-109">Analysis, Device Model, Source Details, Model Library, Subcircuits</span>.
- Once the values have been entered, press the <span
+ Once the values have been entered, press the <span
class="cmtt-10x-x-109">Convert </span>key. It will generate
- <span
-class="cmtt-10x-x-109">.cir.out </span>file in the same project directory.<br
-class="newline" />Note that <span
+ <span
+class="cmtt-10x-x-109">.cir.out </span>file in the same project directory.<br
+class="newline" />Note that <span
class="cmti-10x-x-109">KiCad to Ngspice Converter </span>can only be used if current project has
- created the KiCad spice netlist file <span
-class="cmtt-10x-x-109">.cir</span>.<br
+ created the KiCad spice netlist file <span
+class="cmtt-10x-x-109">.cir</span>.<br
class="newline" />
- <!--l. 62--><p class="noindent" >The details of tabs under KiCad to Ngspice converter are as follows:<br
+ <!--l. 62--><p class="noindent" >The details of tabs under KiCad to Ngspice converter are as follows:<br
class="newline" />
- <h5 class="subsubsectionHead"><a
+ <h5 class="subsubsectionHead"><a
id="x1-190004.1.2"></a>Analysis</h5>
<!--l. 65--><p class="noindent" >This feature helps the user to perform different types of analysis such as Operating
- point analysis, <a
- id="dx1-19001"></a>DC analysis, <a
- id="dx1-19002"></a>AC analysis, <a
- id="dx1-19003"></a>transient analysis. <a
+ point analysis, <a
+ id="dx1-19001"></a>DC analysis, <a
+ id="dx1-19002"></a>AC analysis, <a
+ id="dx1-19003"></a>transient analysis. <a
id="dx1-19004"></a>It has the facility
to
<ul class="itemize2">
@@ -668,71 +668,71 @@ class="newline" />
</li>
<li class="itemize">Insert values for analysis</li></ul>
<!--l. 73--><p class="noindent" >
- <h5 class="subsubsectionHead"><a
+ <h5 class="subsubsectionHead"><a
id="x1-200004.1.2"></a>Source Details</h5>
- <!--l. 74--><p class="noindent" >eSim sources are added from <span
-class="cmtt-10x-x-109">eSim</span><span
-class="cmtt-10x-x-109">_Sources </span>library. Source such as <span
+ <!--l. 74--><p class="noindent" >eSim sources are added from <span
+class="cmtt-10x-x-109">eSim</span><span
+class="cmtt-10x-x-109">_Sources </span>library. Source such as <span
class="cmti-10x-x-109">SINE, AC, DC,</span>
- <span
+ <span
class="cmti-10x-x-109">PULSE </span>are in this library. The parameter values to all the sources added in the
shcematic can be given through &#8217;Source Details&#8217;.
<!--l. 76--><p class="noindent" >
- <h5 class="subsubsectionHead"><a
+ <h5 class="subsubsectionHead"><a
id="x1-210004.1.2"></a>Ngspice Model</h5>
- <!--l. 77--><p class="noindent" >Ngspice has in built model such as <span
+ <!--l. 77--><p class="noindent" >Ngspice has in built model such as <span
class="cmti-10x-x-109">flipflop(D,SR,JK,T),gain,summer </span>etc. which can be
utilised while building a circuit. eSim allows to add and modify Ngspice model
parameter through Ngspice Model tab.
<!--l. 80--><p class="noindent" >
- <h5 class="subsubsectionHead"><a
+ <h5 class="subsubsectionHead"><a
id="x1-220004.1.2"></a>Device Modeling</h5>
- <!--l. 81--><p class="noindent" >Devices like <span
+ <!--l. 81--><p class="noindent" >Devices like <span
class="cmti-10x-x-109">Diode, JFET, MOSFET, IGBT, MOS </span>etc used in the circuit can be
modeled using device model libraries. eSim also provides editing and adding new model
libraries. While converting KiCad to Ngspice, these library files are added to the
corresponding devices used in the circuit.
<!--l. 83--><p class="noindent" >
- <h5 class="subsubsectionHead"><a
+ <h5 class="subsubsectionHead"><a
id="x1-230004.1.2"></a>Subcircuits</h5>
<!--l. 84--><p class="noindent" >Subcircuits are circuits within circuit. Subcircuiting helps to reuse the parts of the
circuits. The subcircuits in the main circuits are added using this facility. Also, eSim
provides us with the facility to edit already existing subcircuits.
</li>
- <li class="itemize">Simulation: The netlist generated using the <span
+ <li class="itemize">Simulation: The netlist generated using the <span
class="cmti-10x-x-109">KiCad to Ngspice </span>converter is
- simulated using simulation button. Clicking on the <span
+ simulated using simulation button. Clicking on the <span
class="cmti-10x-x-109">Simulation </span>button will run
the Ngspice simulation for current project. Python plotting window will open, as
- shown in Fig.&#x00A0;<a
+ shown in Fig.&#x00A0;<a
href="#x1-230014">4.4<!--tex4ht:ref: simulation-op --></a>. It shows the output waveform of current project. In the
- Ngspice tab we can view the output plotted by Ngspice. <hr class="figure"><div class="figure"
-><a
- id="x1-230014"></a> <img
-src="figures/simulation-op.png" alt="PIC"
+ Ngspice tab we can view the output plotted by Ngspice. <hr class="figure"><div class="figure"
+><a
+ id="x1-230014"></a> <img
+src="figures/simulation-op.png" alt="PIC"
>
-<br /> <div class="caption"
-><span class="id">Figure&#x00A0;4.4: </span><span
+<br /> <div class="caption"
+><span class="id">Figure&#x00A0;4.4: </span><span
class="content">Simulation Output in Python Plotting Window</span></div><!--tex4ht:label?: x1-230014 -->
<!--l. 94--><p class="noindent" ></div><hr class="endfigure">
</li>
- <li class="itemize">Foot Print Editor: Clicking on the <span
-class="cmti-10x-x-109">Footprint Editor </span>tool will open the <span
+ <li class="itemize">Foot Print Editor: Clicking on the <span
+class="cmti-10x-x-109">Footprint Editor </span>tool will open the <span
class="cmtt-10x-x-109">CvPcb</span>
- <a
+ <a
id="dx1-23002"></a>window. This window will ideally open the .net file for the current project. So,
before using this tool, one should have the netlist for PCB design (a .net
file).
</li>
- <li class="itemize">PCB Layout: Clicking on the <span
-class="cmti-10x-x-109">Layout Editor </span>tool will open <span
-class="cmtt-10x-x-109">Pcbnew</span><a
+ <li class="itemize">PCB Layout: Clicking on the <span
+class="cmti-10x-x-109">Layout Editor </span>tool will open <span
+class="cmtt-10x-x-109">Pcbnew</span><a
id="dx1-23003"></a>, the layout editor
used in eSim. In this window, one will create the PCB. It involves laying
tracks and vias, performing optimum routing of tracks, creating one or more
- copper layers for PCB, etc. It will be saved as a <span
+ copper layers for PCB, etc. It will be saved as a <span
class="cmtt-10x-x-109">.brd </span>file in the current project
directory.
</li>
@@ -744,15 +744,15 @@ class="cmtt-10x-x-109">.brd </span>file in the current project
components having subcircuits and so on. This enables users to build commonly used
circuits as subcircuits and then use it across circuits. For example, one can build a 12
Volt power supply as a subcircuit and then use it as just a single component across
- circuits without having to recreate it. Clicking on <span
+ circuits without having to recreate it. Clicking on <span
class="cmti-10x-x-109">Subcircuit Builder </span>tool will allow one
to edit or create a subcircuit.
<!--l. 126--><p class="noindent" >
- <h5 class="subsubsectionHead"><a
+ <h5 class="subsubsectionHead"><a
id="x1-240004.1.2"></a>Menubar</h5>
<ul class="itemize2">
<li class="itemize">New Project: New projects are created in the eSim-workspace. When this
- menu is selected, a new window opens up with <span
+ menu is selected, a new window opens up with <span
class="cmtt-10x-x-109">Enter Project name </span>field.
Type the name of the new project and click on OK. A project directory will
be created in eSim-Workspace. The name of this folder will be the same as
@@ -767,300 +767,300 @@ class="cmtt-10x-x-109">Enter Project name </span>field.
<li class="itemize">Help: It opens user manual in the dockarea.</li></ul>
<!--l. 141--><p class="noindent" >
- <h5 class="subsubsectionHead"><a
+ <h5 class="subsubsectionHead"><a
id="x1-250004.1.2"></a>Project Explorer</h5>
<!--l. 142--><p class="noindent" >Project explorer has tree of all the project previously added in it. On right clicking the
project we can simply remove or refresh the project in the explorer. Also on
double/right clicking, the project file can be opened in the text editor which can then be
edited.
<!--l. 145--><p class="noindent" >
- <h5 class="subsubsectionHead"><a
+ <h5 class="subsubsectionHead"><a
id="x1-260004.1.2"></a>Dockarea</h5>
<!--l. 146--><p class="noindent" >This area is used to open the following windows.
<dl class="enumerate"><dt class="enumerate">
- 1. </dt><dd
+ 1. </dt><dd
class="enumerate">KiCad to Ngspice converter
</dd><dt class="enumerate">
- 2. </dt><dd
+ 2. </dt><dd
class="enumerate">Ngspice plotting
</dd><dt class="enumerate">
- 3. </dt><dd
+ 3. </dt><dd
class="enumerate">Python plotting
</dd><dt class="enumerate">
- 4. </dt><dd
+ 4. </dt><dd
class="enumerate">Model builder
</dd><dt class="enumerate">
- 5. </dt><dd
+ 5. </dt><dd
class="enumerate">Subcircuit builder</dd></dl>
<!--l. 155--><p class="noindent" >
- <h5 class="subsubsectionHead"><a
+ <h5 class="subsubsectionHead"><a
id="x1-270004.1.2"></a>Console Area</h5>
<!--l. 156--><p class="noindent" >Console area provides information about the activity done in current project.
</li></ul>
- <h2 class="chapterHead"><span class="titlemark">Chapter&#x00A0;5</span><br /><a
+ <h2 class="chapterHead"><span class="titlemark">Chapter&#x00A0;5</span><br /><a
id="x1-280005"></a>Schematic Creation</h2> The first step in the design of an electronic system is the
-design of its circuit. This circuit is usually created using a <span
-class="cmtt-10x-x-109">Schematic Editor</span><a
+design of its circuit. This circuit is usually created using a <span
+class="cmtt-10x-x-109">Schematic Editor</span><a
id="dx1-28001"></a> and is called a
-<span
-class="cmtt-10x-x-109">Schematic</span>. <a
- id="dx1-28002"></a>eSim uses <span
-class="cmtt-10x-x-109">Eeschema</span> <a
+<span
+class="cmtt-10x-x-109">Schematic</span>. <a
+ id="dx1-28002"></a>eSim uses <span
+class="cmtt-10x-x-109">Eeschema</span> <a
id="dx1-28003"></a>as its schematic editor. Eeschema is the schematic editor of
-KiCad. <a
+KiCad. <a
id="dx1-28004"></a>It is a powerful schematic editor software. It allows the creation and modification of
components and symbol libraries and supports multiple hierarchical layers of printed circuit
design.
- <h3 class="sectionHead"><span class="titlemark">5.1 </span> <a
+ <h3 class="sectionHead"><span class="titlemark">5.1 </span> <a
id="x1-290005.1"></a>Familiarizing the Schematic Editor interface</h3>
-<!--l. 22--><p class="noindent" >Fig.&#x00A0;<a
+<!--l. 22--><p class="noindent" >Fig.&#x00A0;<a
href="#x1-290011">5.1<!--tex4ht:ref: eesch1 --></a> shows the schematic editor and the various menu and toolbars. We will explain them
-briefly in this section. <hr class="figure"><div class="figure"
+briefly in this section. <hr class="figure"><div class="figure"
>
-<a
+<a
id="x1-290011"></a>
-<div class="center"
+<div class="center"
>
<!--l. 25--><p class="noindent" >
-<!--l. 26--><p class="noindent" ><img
-src="figures/schematic1.png" alt="PIC"
+<!--l. 26--><p class="noindent" ><img
+src="figures/schematic1.png" alt="PIC"
>
-<br /> <div class="caption"
-><span class="id">Figure&#x00A0;5.1: </span><span
+<br /> <div class="caption"
+><span class="id">Figure&#x00A0;5.1: </span><span
class="content">Schematic editor with the menu bar and toolbars marked</span></div><!--tex4ht:label?: x1-290011 -->
</div>
<!--l. 30--><p class="indent" > </div><hr class="endfigure">
- <h4 class="subsectionHead"><span class="titlemark">5.1.1 </span> <a
+ <h4 class="subsectionHead"><span class="titlemark">5.1.1 </span> <a
id="x1-300005.1.1"></a>Top menu bar</h4>
<!--l. 35--><p class="noindent" >The top menu bar will be available at the top left corner. Some of the important menu
options in the top menu bar are:
<dl class="compactenum"><dt class="compactenum">
- 1. </dt><dd
+ 1. </dt><dd
class="compactenum">File - The file menu items are given below:
<dl class="compactenum"><dt class="compactenum">
- (a) </dt><dd
+ (a) </dt><dd
class="compactenum">New - Clear current schematic and start a new one
</dd><dt class="compactenum">
- (b) </dt><dd
+ (b) </dt><dd
class="compactenum">Open - Open a schematic
</dd><dt class="compactenum">
- (c) </dt><dd
+ (c) </dt><dd
class="compactenum">Open Recent - A list of recently opened files for loading
</dd><dt class="compactenum">
- (d) </dt><dd
+ (d) </dt><dd
class="compactenum">Save Whole Schematic project - Save current sheet and all its hierarchy.
</dd><dt class="compactenum">
- (e) </dt><dd
+ (e) </dt><dd
class="compactenum">Save Current Sheet Only - Save current sheet, but not others in a hierarchy.
</dd><dt class="compactenum">
- (f) </dt><dd
+ (f) </dt><dd
class="compactenum">Save Current sheet as - Save current sheet with a new name.
</dd><dt class="compactenum">
- (g) </dt><dd
-class="compactenum">Print - Access to print menu (See Fig.&#x00A0;<a
+ (g) </dt><dd
+class="compactenum">Print - Access to print menu (See Fig.&#x00A0;<a
href="#x1-300112">5.2<!--tex4ht:ref: print --></a>).
</dd><dt class="compactenum">
- (h) </dt><dd
+ (h) </dt><dd
class="compactenum">Plot - Plot the schematic in Postscript, HPGL, SVF or DXF format
</dd><dt class="compactenum">
- (i) </dt><dd
+ (i) </dt><dd
class="compactenum">Quit - Quit the schematic editor.</dd></dl>
- <!--l. 53--><p class="noindent" ><hr class="figure"><div class="figure"
-><a
+ <!--l. 53--><p class="noindent" ><hr class="figure"><div class="figure"
+><a
id="x1-300112"></a>
-<div class="center"
+<div class="center"
>
<!--l. 54--><p class="noindent" >
-<!--l. 55--><p class="noindent" ><img
-src="figures/print.png" alt="PIC"
+<!--l. 55--><p class="noindent" ><img
+src="figures/print.png" alt="PIC"
>
-<br /> <div class="caption"
-><span class="id">Figure&#x00A0;5.2: </span><span
+<br /> <div class="caption"
+><span class="id">Figure&#x00A0;5.2: </span><span
class="content">Print options</span></div><!--tex4ht:label?: x1-300112 -->
</div>
<!--l. 59--><p class="noindent" ></div><hr class="endfigure">
</dd><dt class="compactenum">
- 2. </dt><dd
+ 2. </dt><dd
class="compactenum">Place - The place menu has shortcuts for placing various items like components, wire
- and junction, on to the schematic editor window. See Sec.&#x00A0;<a
+ and junction, on to the schematic editor window. See Sec.&#x00A0;<a
href="#x1-340005.1.5">5.1.5<!--tex4ht:ref: short --></a> to know more about
various shortcut keys (hotkeys).
</dd><dt class="compactenum">
- 3. </dt><dd
+ 3. </dt><dd
class="compactenum">Preferences - The preferences menu has the following options:
<dl class="compactenum"><dt class="compactenum">
- (a) </dt><dd
+ (a) </dt><dd
class="compactenum">Library - Select libraries and library paths
</dd><dt class="compactenum">
- (b) </dt><dd
+ (b) </dt><dd
class="compactenum">Colors - Select colors for various items.
</dd><dt class="compactenum">
- (c) </dt><dd
+ (c) </dt><dd
class="compactenum">Options - Display schematic editor options (Units, Grid size).
</dd><dt class="compactenum">
- (d) </dt><dd
+ (d) </dt><dd
class="compactenum">Language - Shows the current list of translations. Use default.
</dd><dt class="compactenum">
- (e) </dt><dd
-class="compactenum">Hotkeys - Access to the hot keys menu. See Sec.&#x00A0;<a
+ (e) </dt><dd
+class="compactenum">Hotkeys - Access to the hot keys menu. See Sec.&#x00A0;<a
href="#x1-340005.1.5">5.1.5<!--tex4ht:ref: short --></a> about hotkeys.
</dd><dt class="compactenum">
- (f) </dt><dd
+ (f) </dt><dd
class="compactenum">Read preferences - Read configuration file.
</dd><dt class="compactenum">
- (g) </dt><dd
+ (g) </dt><dd
class="compactenum">Save preferences - Save configuration file.</dd></dl>
</dd></dl>
<!--l. 79--><p class="noindent" >
- <h4 class="subsectionHead"><span class="titlemark">5.1.2 </span> <a
+ <h4 class="subsectionHead"><span class="titlemark">5.1.2 </span> <a
id="x1-310005.1.2"></a>Top toolbar</h4>
-<a
+<a
id="dx1-31001"></a>
-<a
+<a
id="dx1-31002"></a>
<!--l. 80--><p class="noindent" >Some of the important tools in the top toolbar are discussed below. They are marked in
-Fig.&#x00A0;<a
-href="#x1-310033">5.3<!--tex4ht:ref: eeschem2 --></a>. <hr class="figure"><div class="figure"
+Fig.&#x00A0;<a
+href="#x1-310033">5.3<!--tex4ht:ref: eeschem2 --></a>. <hr class="figure"><div class="figure"
>
-<a
+<a
id="x1-310033"></a>
-<!--l. 84--><p class="noindent" ><img
-src="figures/toptoolbar.png" alt="PIC"
+<!--l. 84--><p class="noindent" ><img
+src="figures/toptoolbar.png" alt="PIC"
>
-<br /> <div class="caption"
-><span class="id">Figure&#x00A0;5.3: </span><span
+<br /> <div class="caption"
+><span class="id">Figure&#x00A0;5.3: </span><span
class="content">Toolbar on top with important tools marked</span></div><!--tex4ht:label?: x1-310033 -->
<!--l. 87--><p class="indent" > </div><hr class="endfigure">
<dl class="compactenum"><dt class="compactenum">
- 1. </dt><dd
+ 1. </dt><dd
class="compactenum">Save - Save the current schematic
</dd><dt class="compactenum">
- 2. </dt><dd
+ 2. </dt><dd
class="compactenum">Library Editor - Create or edit components.
</dd><dt class="compactenum">
- 3. </dt><dd
+ 3. </dt><dd
class="compactenum">Library Browser - Browse through the various component libraries available
</dd><dt class="compactenum">
- 4. </dt><dd
+ 4. </dt><dd
class="compactenum">Navigate schematic hierarchy - Navigate among the root and sub-sheets in the
hierarchy
</dd><dt class="compactenum">
- 5. </dt><dd
+ 5. </dt><dd
class="compactenum">Print - Print the schematic
</dd><dt class="compactenum">
- 6. </dt><dd
+ 6. </dt><dd
class="compactenum">Generate netlist - Generate a netlist for PCB design or for simulation.
</dd><dt class="compactenum">
- 7. </dt><dd
+ 7. </dt><dd
class="compactenum">Annotate - Annotate the schematic
</dd><dt class="compactenum">
- 8. </dt><dd
+ 8. </dt><dd
class="compactenum">Check ERC - Do Electric Rules Check for the schematic
</dd><dt class="compactenum">
- 9. </dt><dd
+ 9. </dt><dd
class="compactenum">Create BOM - Create a Bill of Materials of the schematic</dd></dl>
- <h4 class="subsectionHead"><span class="titlemark">5.1.3 </span> <a
+ <h4 class="subsectionHead"><span class="titlemark">5.1.3 </span> <a
id="x1-320005.1.3"></a>Toolbar on the right</h4>
-<a
+<a
id="dx1-32001"></a>
-<a
+<a
id="dx1-32002"></a>
<!--l. 104--><p class="noindent" >The toolbar on the right side of the schematic editor window has many important tools. Some
-of them are marked in Fig.&#x00A0;<a
-href="#x1-320034">5.4<!--tex4ht:ref: eeschem3 --></a>. <hr class="figure"><div class="figure"
+of them are marked in Fig.&#x00A0;<a
+href="#x1-320034">5.4<!--tex4ht:ref: eeschem3 --></a>. <hr class="figure"><div class="figure"
>
-<a
+<a
id="x1-320034"></a>
-<!--l. 108--><p class="noindent" ><img
-src="figures/rightoolbar.png" alt="PIC"
+<!--l. 108--><p class="noindent" ><img
+src="figures/rightoolbar.png" alt="PIC"
>
-<br /> <div class="caption"
-><span class="id">Figure&#x00A0;5.4: </span><span
+<br /> <div class="caption"
+><span class="id">Figure&#x00A0;5.4: </span><span
class="content">Toolbar on right with important tools marked</span></div><!--tex4ht:label?: x1-320034 -->
<!--l. 111--><p class="indent" > </div><hr class="endfigure">
<!--l. 112--><p class="indent" > Let us now look at each of these tools and their uses.
<dl class="compactenum"><dt class="compactenum">
- 1. </dt><dd
-class="compactenum">Place a component - Load a component to the schematic. See Sec.&#x00A0;<a
+ 1. </dt><dd
+class="compactenum">Place a component - Load a component to the schematic. See Sec.&#x00A0;<a
href="#x1-360005.2.1">5.2.1<!--tex4ht:ref: selplace --></a> for more
details.
</dd><dt class="compactenum">
- 2. </dt><dd
+ 2. </dt><dd
class="compactenum">Place a power port - Load a power port (Vcc, ground) to the schematic
</dd><dt class="compactenum">
- 3. </dt><dd
+ 3. </dt><dd
class="compactenum">Place wire - Draw wires to connect components in schematic
</dd><dt class="compactenum">
- 4. </dt><dd
+ 4. </dt><dd
class="compactenum">Place bus - Place a bus on the schematic
</dd><dt class="compactenum">
- 5. </dt><dd
+ 5. </dt><dd
class="compactenum">Place a no connect - Place a no connect flag, particularly useful in ICs
</dd><dt class="compactenum">
- 6. </dt><dd
+ 6. </dt><dd
class="compactenum">Place a local label - Place a label or node name which is local to the schematic
</dd><dt class="compactenum">
- 7. </dt><dd
+ 7. </dt><dd
class="compactenum">Place a global label - Place a global label (these are connected across all schematic
diagrams in the hierarchy)
</dd><dt class="compactenum">
- 8. </dt><dd
+ 8. </dt><dd
class="compactenum">Place a text or comment - Place a text or comment in the schematic</dd></dl>
- <h4 class="subsectionHead"><span class="titlemark">5.1.4 </span> <a
+ <h4 class="subsectionHead"><span class="titlemark">5.1.4 </span> <a
id="x1-330005.1.4"></a>Toolbar on the left</h4>
-<a
+<a
id="dx1-33001"></a>
-<a
+<a
id="dx1-33002"></a>
<!--l. 126--><p class="noindent" >Some of the important tools in the toolbar on the left are discussed below. They are marked
-in Fig.&#x00A0;<a
-href="#x1-330035">5.5<!--tex4ht:ref: eeschem4 --></a>. <hr class="figure"><div class="figure"
+in Fig.&#x00A0;<a
+href="#x1-330035">5.5<!--tex4ht:ref: eeschem4 --></a>. <hr class="figure"><div class="figure"
>
-<a
+<a
id="x1-330035"></a>
-<!--l. 130--><p class="noindent" ><img
-src="figures/lefttoolbar.png" alt="PIC"
+<!--l. 130--><p class="noindent" ><img
+src="figures/lefttoolbar.png" alt="PIC"
>
-<br /> <div class="caption"
-><span class="id">Figure&#x00A0;5.5: </span><span
+<br /> <div class="caption"
+><span class="id">Figure&#x00A0;5.5: </span><span
class="content">Toolbar on left with important tools marked</span></div><!--tex4ht:label?: x1-330035 -->
<!--l. 133--><p class="indent" > </div><hr class="endfigure">
<dl class="compactenum"><dt class="compactenum">
- 1. </dt><dd
+ 1. </dt><dd
class="compactenum">Show/Hide grid - Show or Hide the grid in the schematic editor. Pressing the tool
again hides (shows) the grid if it was shown (hidden) earlier.
</dd><dt class="compactenum">
- 2. </dt><dd
+ 2. </dt><dd
class="compactenum">Show hidden pins - Show hidden pins of certain components, for example, power
pins of certain ICs.</dd></dl>
- <h4 class="subsectionHead"><span class="titlemark">5.1.5 </span> <a
+ <h4 class="subsectionHead"><span class="titlemark">5.1.5 </span> <a
id="x1-340005.1.5"></a>Hotkeys</h4>
<!--l. 142--><p class="noindent" >A set of keyboard keys are associated with various operations in the schematic editor. These
keys save time and make it easy to switch from one operation to another. The list of hotkeys
-can be viewed by going to Preferences in the top menu bar. Choose <span
+can be viewed by going to Preferences in the top menu bar. Choose <span
class="cmti-10x-x-109">Hotkeys </span>and
-select <span
+select <span
class="cmti-10x-x-109">List current keys</span>. The hotkeys can also be edited by selecting the option
-<span
+<span
class="cmti-10x-x-109">Edit Hotkeys</span>. Some frequently used hotkeys, along with their functions, are given
below:
<ul>
@@ -1094,12 +1094,12 @@ below:
<li class="compactitem">T - Add text
</li>
<li class="compactitem">S - Add sheet</li></ul>
-<!--l. 166--><p class="noindent" ><span
+<!--l. 166--><p class="noindent" ><span
class="cmti-10x-x-109">Note: Both lower and upper-case keys will work as hotkeys</span>.
<!--l. 168--><p class="noindent" >
- <h3 class="sectionHead"><span class="titlemark">5.2 </span> <a
+ <h3 class="sectionHead"><span class="titlemark">5.2 </span> <a
id="x1-350005.2"></a>Schematic creation for simulation</h3>
-<a
+<a
id="dx1-35001"></a>
<!--l. 170--><p class="noindent" >There are certain differences between the schematic created for simulation and that created
for PCB design. We need certain components like plots and current sources. For simulation
@@ -1108,1436 +1108,1436 @@ whereas these are not needed for PCB design. For PCB design, we would require co
these have no meaning in simulation. This section covers schematic creation for
simulation.
<!--l. 177--><p class="indent" > The first step in the creation of circuit schematic is the selection and placement of
-required components. The components are grouped under eSim-libraries as shown in Fig.&#x00A0;<a
+required components. The components are grouped under eSim-libraries as shown in Fig.&#x00A0;<a
href="#x1-350026">5.6<!--tex4ht:ref: libraries --></a>.
-<hr class="figure"><div class="figure"
+<hr class="figure"><div class="figure"
>
-<a
+<a
id="x1-350026"></a>
-<!--l. 181--><p class="noindent" ><img
-src="figures/libraries.png" alt="PIC"
+<!--l. 181--><p class="noindent" ><img
+src="figures/libraries.png" alt="PIC"
>
-<br /> <div class="caption"
-><span class="id">Figure&#x00A0;5.6: </span><span
+<br /> <div class="caption"
+><span class="id">Figure&#x00A0;5.6: </span><span
class="content">eSim-Components Libraries</span></div><!--tex4ht:label?: x1-350026 -->
<!--l. 184--><p class="indent" > </div><hr class="endfigure">
- <h4 class="subsectionHead"><span class="titlemark">5.2.1 </span> <a
+ <h4 class="subsectionHead"><span class="titlemark">5.2.1 </span> <a
id="x1-360005.2.1"></a>Selection and placement of components</h4>
-<a
+<a
id="dx1-36001"></a>
<!--l. 189--><p class="noindent" >We would need a resistor, a capacitor, a voltage source, ground terminal. To place a resistor
-on the schematic editor window, select the <span
+on the schematic editor window, select the <span
class="cmti-10x-x-109">Place a component </span>tool from the toolbar
on the right side and click anywhere on the schematic editor. This opens up the
-component selection window. Resistor component can be found under <span
-class="cmti-10x-x-109">eSim</span><span
+component selection window. Resistor component can be found under <span
+class="cmti-10x-x-109">eSim</span><span
class="cmti-10x-x-109">_Devices</span>
-library. Fig.&#x00A0;<a
+library. Fig.&#x00A0;<a
href="#x1-360027">5.7<!--tex4ht:ref: resistor --></a> shows the selection of resistor component. Click on OK. A resistor
will be tied to the cursor. Place the resistor on the schematic editor by a single
click.
-<!--l. 196--><p class="indent" > <hr class="figure"><div class="figure"
+<!--l. 196--><p class="indent" > <hr class="figure"><div class="figure"
>
-<a
+<a
id="x1-360027"></a>
-<!--l. 198--><p class="noindent" ><img
-src="figures/resistor.png" alt="PIC"
+<!--l. 198--><p class="noindent" ><img
+src="figures/resistor.png" alt="PIC"
>
-<br /> <div class="caption"
-><span class="id">Figure&#x00A0;5.7: </span><span
+<br /> <div class="caption"
+><span class="id">Figure&#x00A0;5.7: </span><span
class="content">Placing a resistor using the Place a Component tool</span></div><!--tex4ht:label?: x1-360027 -->
<!--l. 201--><p class="indent" > </div><hr class="endfigure">
<!--l. 202--><p class="indent" > To place the next component, i.e., capacitor, click again on the schematic editor.Similarly,
-Capacitor component is found under <span
-class="cmti-10x-x-109">eSim</span><span
+Capacitor component is found under <span
+class="cmti-10x-x-109">eSim</span><span
class="cmti-10x-x-109">_Devices </span>library. Click on OK. Place the capacitor
on the schematic editor by a single click. Let us now place a sinusoidal voltage source. This is
required for performing transient analysis. To place it, click again on the schematic editor. On
-the component selection window, choose the library <span
-class="cmti-10x-x-109">eSim</span><span
+the component selection window, choose the library <span
+class="cmti-10x-x-109">eSim</span><span
class="cmti-10x-x-109">_source </span>by double clicking on it.
-Select the component <span
+Select the component <span
class="cmtt-10x-x-109">SINE </span>and click on OK. Place the sine source on the schematic editor by
a single click.
-<!--l. 211--><p class="indent" > Place the component by clicking on the schematic editor. Similarly place <span
+<!--l. 211--><p class="indent" > Place the component by clicking on the schematic editor. Similarly place <span
class="cmtt-10x-x-109">gnd</span>, a ground
-terminal and <span
-class="cmtt-10x-x-109">power</span><span
-class="cmtt-10x-x-109">_flag </span>under <span
+terminal and <span
+class="cmtt-10x-x-109">power</span><span
+class="cmtt-10x-x-109">_flag </span>under <span
class="cmtt-10x-x-109">power </span>library. Once all the components are placed, the
-schematic editor would look like the Fig.&#x00A0;<a
-href="#x1-360038">5.8<!--tex4ht:ref: afterplace --></a>. <hr class="figure"><div class="figure"
+schematic editor would look like the Fig.&#x00A0;<a
+href="#x1-360038">5.8<!--tex4ht:ref: afterplace --></a>. <hr class="figure"><div class="figure"
>
-<a
+<a
id="x1-360038"></a>
-<!--l. 216--><p class="noindent" ><img
-src="figures/afterplace.png" alt="PIC"
+<!--l. 216--><p class="noindent" ><img
+src="figures/afterplace.png" alt="PIC"
>
-<br /> <div class="caption"
-><span class="id">Figure&#x00A0;5.8: </span><span
+<br /> <div class="caption"
+><span class="id">Figure&#x00A0;5.8: </span><span
class="content">All RC circuit components placed</span></div><!--tex4ht:label?: x1-360038 -->
<!--l. 219--><p class="indent" > </div><hr class="endfigure">
<!--l. 220--><p class="indent" > Let us rotate the resistor to complete the circuit. To rotate the resistor, place the cursor
-on the resistor and press the key <span
-class="cmtt-10x-x-109">R</span>. Note that if the cursor is placed above the letter <span
+on the resistor and press the key <span
+class="cmtt-10x-x-109">R</span>. Note that if the cursor is placed above the letter <span
class="cmtt-10x-x-109">R </span>(not
-<span
-class="cmtt-10x-x-109">R?</span>) on the resistor, it asks to clarify selection. Choose the option <span
+<span
+class="cmtt-10x-x-109">R?</span>) on the resistor, it asks to clarify selection. Choose the option <span
class="cmti-10x-x-109">Component R</span>. This can be
-avoided by placing the cursor slightly away from the letter R as shown in Fig.&#x00A0;<a
+avoided by placing the cursor slightly away from the letter R as shown in Fig.&#x00A0;<a
href="#x1-360059">5.9<!--tex4ht:ref: rotate --></a>. This
-applies to all components.<a
- id="dx1-36004"></a> <hr class="figure"><div class="figure"
+applies to all components.<a
+ id="dx1-36004"></a> <hr class="figure"><div class="figure"
>
-<a
+<a
id="x1-360059"></a>
-<!--l. 228--><p class="noindent" ><img
-src="figures/rotate.png" alt="PIC"
+<!--l. 228--><p class="noindent" ><img
+src="figures/rotate.png" alt="PIC"
>
-<br /> <div class="caption"
-><span class="id">Figure&#x00A0;5.9: </span><span
+<br /> <div class="caption"
+><span class="id">Figure&#x00A0;5.9: </span><span
class="content">Placing the cursor (cross mark) slightly away from the letter R</span></div><!--tex4ht:label?: x1-360059 -->
<!--l. 231--><p class="indent" > </div><hr class="endfigure">
<!--l. 232--><p class="indent" > If one wants to move a component, place the cursor on top of the component and press the
-key <span
+key <span
class="cmtt-10x-x-109">M</span>. The component will be tied to the cursor and can be moved in any direction.
-<a
+<a
id="dx1-36006"></a>
- <h4 class="subsectionHead"><span class="titlemark">5.2.2 </span> <a
+ <h4 class="subsectionHead"><span class="titlemark">5.2.2 </span> <a
id="x1-370005.2.2"></a>Wiring the circuit</h4>
-<a
+<a
id="dx1-37001"></a>
<!--l. 238--><p class="noindent" >The next step is to wire the connections. Let us connect the resistor to the capacitor.
To do so, point the cursor to the terminal of resistor to be connected and press
-the key <span
+the key <span
class="cmtt-10x-x-109">W</span>. It has now changed to the wiring mode. Move the cursor towards the
-terminal of the capacitor and click on it. A wire is formed as shown in Fig.&#x00A0;<a
+terminal of the capacitor and click on it. A wire is formed as shown in Fig.&#x00A0;<a
href="#x1-37002r1">5.10a<!--tex4ht:ref: wire1 --></a>.
-<hr class="figure"><div class="figure"
+<hr class="figure"><div class="figure"
>
-<a
+<a
id="x1-3700510"></a>
-<a
+<a
id="x1-37002r1"></a>
-<!--l. 248--><p class="noindent" > <img
-src="figures/wire1.png" alt="PIC"
+<!--l. 248--><p class="noindent" > <img
+src="figures/wire1.png" alt="PIC"
>
-<span
+<span
class="cmr-9">(a)</span>
-<span
+<span
class="cmr-9">Initial</span>
-<span
-class="cmr-9">stages</span> <a
- id="x1-37003r2"></a> <img
-src="figures/wirefin.png" alt="PIC"
+<span
+class="cmr-9">stages</span> <a
+ id="x1-37003r2"></a> <img
+src="figures/wirefin.png" alt="PIC"
>
- <span
+ <span
class="cmr-9">(b)</span>
- <span
+ <span
class="cmr-9">Wiring</span>
- <span
-class="cmr-9">done</span> <a
- id="x1-37004r3"></a> <img
-src="figures/schemfin.png" alt="PIC"
+ <span
+class="cmr-9">done</span> <a
+ id="x1-37004r3"></a> <img
+src="figures/schemfin.png" alt="PIC"
>
- <span
+ <span
class="cmr-9">(c)</span>
- <span
+ <span
class="cmr-9">Final</span>
- <span
+ <span
class="cmr-9">schematic</span>
- <span
+ <span
class="cmr-9">with</span>
- <span
-class="cmr-9">PWR</span><span
+ <span
+class="cmr-9">PWR</span><span
class="cmr-9">_FLAG</span>
-<br /> <div class="caption"
-><span class="id">Figure&#x00A0;5.10: </span><span
+<br /> <div class="caption"
+><span class="id">Figure&#x00A0;5.10: </span><span
class="content">Various stages of wiring</span></div><!--tex4ht:label?: x1-3700510 -->
<!--l. 256--><p class="indent" > </div><hr class="endfigure">
<!--l. 257--><p class="indent" > Similarly connect the wires between all terminals and the final schematic would look like
-Fig.&#x00A0;<a
+Fig.&#x00A0;<a
href="#x1-37003r2">5.10b<!--tex4ht:ref: wirefin --></a>.
- <h4 class="subsectionHead"><span class="titlemark">5.2.3 </span> <a
+ <h4 class="subsectionHead"><span class="titlemark">5.2.3 </span> <a
id="x1-380005.2.3"></a>Assigning values to components</h4>
-<a
+<a
id="dx1-38001"></a>
<!--l. 261--><p class="noindent" >We need to assign values to the components in our circuit i.e., resistor and capacitor. Note
that the sine voltage source has been placed for simulation. The specifications of sine source
will be given during simulation. To assign value to the resistor, place the cursor above the
-letter <span
-class="cmtt-10x-x-109">R </span>(not <span
-class="cmtt-10x-x-109">R?</span>) and press the key <span
-class="cmtt-10x-x-109">E</span>. Choose <span
-class="cmti-10x-x-109">Field value</span>. Type <span
-class="cmtt-10x-x-109">1k </span>in the <span
+letter <span
+class="cmtt-10x-x-109">R </span>(not <span
+class="cmtt-10x-x-109">R?</span>) and press the key <span
+class="cmtt-10x-x-109">E</span>. Choose <span
+class="cmti-10x-x-109">Field value</span>. Type <span
+class="cmtt-10x-x-109">1k </span>in the <span
class="cmti-10x-x-109">Edit value field </span>box
-as shown in Fig.&#x00A0;<a
-href="#x1-3800211">5.11<!--tex4ht:ref: field --></a>. 1k means 1<span
-class="cmmi-10x-x-109">k</span>&Omega;. Similarly give the value <span
+as shown in Fig.&#x00A0;<a
+href="#x1-3800211">5.11<!--tex4ht:ref: field --></a>. 1k means 1<span
+class="cmmi-10x-x-109">k</span>&Omega;. Similarly give the value <span
class="cmtt-10x-x-109">1u </span>for the capacitor. 1u means
-1<span
+1<span
class="cmmi-10x-x-109">&mu;F</span>.
-<!--l. 271--><p class="indent" > <hr class="figure"><div class="figure"
+<!--l. 271--><p class="indent" > <hr class="figure"><div class="figure"
>
-<a
+<a
id="x1-3800211"></a>
-<!--l. 273--><p class="noindent" ><img
-src="figures/field.png" alt="PIC"
+<!--l. 273--><p class="noindent" ><img
+src="figures/field.png" alt="PIC"
>
-<br /> <div class="caption"
-><span class="id">Figure&#x00A0;5.11: </span><span
+<br /> <div class="caption"
+><span class="id">Figure&#x00A0;5.11: </span><span
class="content">Editing value of resistor</span></div><!--tex4ht:label?: x1-3800211 -->
<!--l. 276--><p class="indent" > </div><hr class="endfigure">
- <h4 class="subsectionHead"><span class="titlemark">5.2.4 </span> <a
+ <h4 class="subsectionHead"><span class="titlemark">5.2.4 </span> <a
id="x1-390005.2.4"></a>Annotation and ERC</h4>
-<a
+<a
id="dx1-39001"></a>
-<a
+<a
id="dx1-39002"></a>
-<a
+<a
id="dx1-39003"></a>
-<a
+<a
id="dx1-39004"></a>
<!--l. 280--><p class="noindent" >The next step is to annotate the schematic. Annotation gives unique references to the
-components. To annotate the schematic, click on <span
+components. To annotate the schematic, click on <span
class="cmti-10x-x-109">Annotate schematic </span>tool from the
-top toolbar. Click on <span
-class="cmtt-10x-x-109">annotation</span>, then click on <span
+top toolbar. Click on <span
+class="cmtt-10x-x-109">annotation</span>, then click on <span
class="cmtt-10x-x-109">OK </span>and finally click on close as
-shown in Fig.&#x00A0;<a
+shown in Fig.&#x00A0;<a
href="#x1-3900813">5.13<!--tex4ht:ref: anno --></a>. The schematic is now annotated. The question marks next to
component references have been replaced by unique numbers. If there are more than
one instance of a component (say resistor), the annotation will be done as R1, R2,
etc.
-<!--l. 289--><p class="indent" > Let us now do <span
-class="cmtt-10x-x-109">ERC </span>or <span
-class="cmtt-10x-x-109">Electric Rules Check</span>. To do so, click on <span
+<!--l. 289--><p class="indent" > Let us now do <span
+class="cmtt-10x-x-109">ERC </span>or <span
+class="cmtt-10x-x-109">Electric Rules Check</span>. To do so, click on <span
class="cmti-10x-x-109">Perform electric rules</span>
-<span
-class="cmti-10x-x-109">check </span>tool from the top toolbar. Click on <span
-class="cmti-10x-x-109">Test Erc </span>button. The error as shown in Fig.&#x00A0;<a
+<span
+class="cmti-10x-x-109">check </span>tool from the top toolbar. Click on <span
+class="cmti-10x-x-109">Test Erc </span>button. The error as shown in Fig.&#x00A0;<a
href="#x1-3900712">5.12<!--tex4ht:ref: erc --></a>
-may be displayed. Click on close in the test erc<a
- id="dx1-39005"></a> window. <a
- id="dx1-39006"></a><hr class="figure"><div class="figure"
+may be displayed. Click on close in the test erc<a
+ id="dx1-39005"></a> window. <a
+ id="dx1-39006"></a><hr class="figure"><div class="figure"
>
-<a
+<a
id="x1-3900712"></a>
-<!--l. 296--><p class="noindent" ><img
-src="figures/erc2.png" alt="PIC"
+<!--l. 296--><p class="noindent" ><img
+src="figures/erc2.png" alt="PIC"
>
-<br /> <div class="caption"
-><span class="id">Figure&#x00A0;5.12: </span><span
+<br /> <div class="caption"
+><span class="id">Figure&#x00A0;5.12: </span><span
class="content">ERC error</span></div><!--tex4ht:label?: x1-3900712 -->
<!--l. 299--><p class="indent" > </div><hr class="endfigure">
-<!--l. 300--><p class="indent" > <hr class="figure"><div class="figure"
+<!--l. 300--><p class="indent" > <hr class="figure"><div class="figure"
>
-<a
+<a
id="x1-3900813"></a>
-<!--l. 302--><p class="noindent" ><img
-src="figures/anno.png" alt="PIC"
+<!--l. 302--><p class="noindent" ><img
+src="figures/anno.png" alt="PIC"
>
-<br /> <div class="caption"
-><span class="id">Figure&#x00A0;5.13: </span><span
+<br /> <div class="caption"
+><span class="id">Figure&#x00A0;5.13: </span><span
class="content">Steps in annotating a schematic: 1. First click on Annotation then 2. Click
on Ok then 3. Click on close</span></div><!--tex4ht:label?: x1-3900813 -->
<!--l. 305--><p class="indent" > </div><hr class="endfigure">
<!--l. 306--><p class="indent" > There will be a green arrow pointing to the source of error in the schematic. Here it points
-to the ground terminal. This is shown in Fig.&#x00A0;<a
-href="#x1-3900914">5.14<!--tex4ht:ref: ercgnd --></a>. <hr class="figure"><div class="figure"
+to the ground terminal. This is shown in Fig.&#x00A0;<a
+href="#x1-3900914">5.14<!--tex4ht:ref: ercgnd --></a>. <hr class="figure"><div class="figure"
>
-<a
+<a
id="x1-3900914"></a>
-<!--l. 311--><p class="noindent" ><img
-src="figures/ercgnd.png" alt="PIC"
+<!--l. 311--><p class="noindent" ><img
+src="figures/ercgnd.png" alt="PIC"
>
-<br /> <div class="caption"
-><span class="id">Figure&#x00A0;5.14: </span><span
+<br /> <div class="caption"
+><span class="id">Figure&#x00A0;5.14: </span><span
class="content">Green arrow pointing to Ground terminal indicating an ERC error</span></div><!--tex4ht:label?: x1-3900914 -->
<!--l. 314--><p class="indent" > </div><hr class="endfigure">
-<!--l. 315--><p class="indent" > To correct this error, place a <span
-class="cmtt-10x-x-109">PWR</span><span
-class="cmtt-10x-x-109">_FLAG </span>from the Eeschema library <span
-class="cmti-10x-x-109">power</span>. <a
+<!--l. 315--><p class="indent" > To correct this error, place a <span
+class="cmtt-10x-x-109">PWR</span><span
+class="cmtt-10x-x-109">_FLAG </span>from the Eeschema library <span
+class="cmti-10x-x-109">power</span>. <a
id="dx1-39010"></a>Connect the
-power flag to the ground terminal as shown in Fig.&#x00A0;<a
-href="#x1-37004r3">5.10c<!--tex4ht:ref: schemfin --></a>. One needs to place <span
-class="cmtt-10x-x-109">PWR</span><span
+power flag to the ground terminal as shown in Fig.&#x00A0;<a
+href="#x1-37004r3">5.10c<!--tex4ht:ref: schemfin --></a>. One needs to place <span
+class="cmtt-10x-x-109">PWR</span><span
class="cmtt-10x-x-109">_FLAG</span>
-wherever the error shown in Fig.&#x00A0;<a
+wherever the error shown in Fig.&#x00A0;<a
href="#x1-3900712">5.12<!--tex4ht:ref: erc --></a> is obtained. Repeat the ERC. Now there are no errors.
With this we have created the schematic for simulation.
- <h4 class="subsectionHead"><span class="titlemark">5.2.5 </span> <a
+ <h4 class="subsectionHead"><span class="titlemark">5.2.5 </span> <a
id="x1-400005.2.5"></a>Netlist generation</h4>
-<a
+<a
id="dx1-40001"></a>
<!--l. 326--><p class="noindent" >To simulate the circuit that has been created in the previous section, we need to generate its
-netlist. <span
+netlist. <span
class="cmtt-10x-x-109">Netlist </span>is a list of components in the schematic along with their connection
-information. <a
- id="dx1-40002"></a>To do so, click on the <span
+information. <a
+ id="dx1-40002"></a>To do so, click on the <span
class="cmti-10x-x-109">Generate netlist </span>tool from the top toolbar. Click on spice
-from the window that opens up. Check the option <span
-class="cmtt-10x-x-109">Default Format</span>. Then click on <span
+from the window that opens up. Check the option <span
+class="cmtt-10x-x-109">Default Format</span>. Then click on <span
class="cmti-10x-x-109">Generate</span>.
-This is shown in Fig.&#x00A0;<a
-href="#x1-4000315">5.15<!--tex4ht:ref: chap5net --></a>. Save the netlist. This will be a <span
+This is shown in Fig.&#x00A0;<a
+href="#x1-4000315">5.15<!--tex4ht:ref: chap5net --></a>. Save the netlist. This will be a <span
class="cmtt-10x-x-109">.cir </span>file. Do not change the
-directory while saving. <hr class="figure"><div class="figure"
+directory while saving. <hr class="figure"><div class="figure"
>
-<a
+<a
id="x1-4000315"></a>
-<!--l. 337--><p class="noindent" ><img
-src="figures/netlist.png" alt="PIC"
+<!--l. 337--><p class="noindent" ><img
+src="figures/netlist.png" alt="PIC"
>
-<br /> <div class="caption"
-><span class="id">Figure&#x00A0;5.15: </span><span
+<br /> <div class="caption"
+><span class="id">Figure&#x00A0;5.15: </span><span
class="content">Steps in generating a Netlist for simulation: 1. Click on Spice then 2.
-Check the option <span
+Check the option <span
class="cmtt-10x-x-109">Default Format </span>then 3. Click on Generate </span></div><!--tex4ht:label?: x1-4000315 -->
<!--l. 340--><p class="indent" > </div><hr class="endfigure">
-<!--l. 341--><p class="indent" > Now the netlist is ready to be simulated. Refer to <span class="cite">&#x00A0;[<a
-href="#Xkicad">15</a>]</span> or <span class="cite">&#x00A0;[<a
+<!--l. 341--><p class="indent" > Now the netlist is ready to be simulated. Refer to <span class="cite">&#x00A0;[<a
+href="#Xkicad">15</a>]</span> or <span class="cite">&#x00A0;[<a
href="#Xkicad2">16</a>]</span> to know more about
Eeschema.
- <h2 class="chapterHead"><span class="titlemark">Chapter&#x00A0;6</span><br /><a
- id="x1-410006"></a>PCB Design</h2> Printed Circuit Board (PCB) <a
+ <h2 class="chapterHead"><span class="titlemark">Chapter&#x00A0;6</span><br /><a
+ id="x1-410006"></a>PCB Design</h2> Printed Circuit Board (PCB) <a
id="dx1-41001"></a>design is an important step in
electronic system design. Every component of the circuit needs to be placed and connections
routed to minimise delay and area. Each component has an associated footprint. Footprint
-refers to the physical layout of a component that is required to mount it on the PCB.<a
- id="dx1-41002"></a> <a
+refers to the physical layout of a component that is required to mount it on the PCB.<a
+ id="dx1-41002"></a> <a
id="dx1-41003"></a>PCB
design involves associating footprints to all components, placing them appropriately to
minimise wire length and area, connecting the footprints using tracks/vias and finally
extracting the required files needed for printing the PCB. Let us see the steps to design PCB
using eSim.
- <h3 class="sectionHead"><span class="titlemark">6.1 </span> <a
+ <h3 class="sectionHead"><span class="titlemark">6.1 </span> <a
id="x1-420006.1"></a>Schematic creation for PCB design</h3>
-<!--l. 16--><p class="noindent" >In Chapter&#x00A0;<a
+<!--l. 16--><p class="noindent" >In Chapter&#x00A0;<a
href="#x1-610009">9<!--tex4ht:ref: chap5 --></a>, we will see the differences between schematic for simulation and schematic for
PCB design. Let us design the PCB for a RC circuit. A resistor, capacitor, ground, power flag
and a connector are required. Connectors are used to take signals in and out of the
PCB.
-<!--l. 22--><p class="indent" > Create the circuit schematic as shown in Fig.&#x00A0;<a
-href="#x1-420011">6.1<!--tex4ht:ref: pcbschfin --></a>. The two pin connector (<span
-class="cmti-10x-x-109">CONN</span><span
+<!--l. 22--><p class="indent" > Create the circuit schematic as shown in Fig.&#x00A0;<a
+href="#x1-420011">6.1<!--tex4ht:ref: pcbschfin --></a>. The two pin connector (<span
+class="cmti-10x-x-109">CONN</span><span
class="cmti-10x-x-109">_2</span>) can
-be placed from the Eeschema library <span
+be placed from the Eeschema library <span
class="cmti-10x-x-109">conn</span>. Do the annotation and test for ERC. Refer to
-Chapter&#x00A0;<a
+Chapter&#x00A0;<a
href="#x1-610009">9<!--tex4ht:ref: chap5 --></a> to know more about basic steps in schematic creation.
-<!--l. 28--><p class="indent" > <hr class="figure"><div class="figure"
+<!--l. 28--><p class="indent" > <hr class="figure"><div class="figure"
>
-<a
+<a
id="x1-420011"></a>
-<!--l. 30--><p class="noindent" ><img
-src="figures/pcbschfin.png" alt="PIC"
+<!--l. 30--><p class="noindent" ><img
+src="figures/pcbschfin.png" alt="PIC"
>
-<br /> <div class="caption"
-><span class="id">Figure&#x00A0;6.1: </span><span
+<br /> <div class="caption"
+><span class="id">Figure&#x00A0;6.1: </span><span
class="content">Final circuit schematic for RC low pass circuit</span></div><!--tex4ht:label?: x1-420011 -->
<!--l. 33--><p class="indent" > </div><hr class="endfigure">
- <h4 class="subsectionHead"><span class="titlemark">6.1.1 </span> <a
+ <h4 class="subsectionHead"><span class="titlemark">6.1.1 </span> <a
id="x1-430006.1.1"></a>Netlist generation for PCB</h4>
-<a
+<a
id="dx1-43001"></a>
-<a
+<a
id="dx1-43002"></a>
<!--l. 38--><p class="noindent" >The netlist for PCB is different from that for simulation. To generate netlist for PCB, click on
-the <span
+the <span
class="cmti-10x-x-109">Generate netlist </span>tool from the top toolbar in Schematic editor. In the Netlist window,
-under the tab <span
-class="cmti-10x-x-109">Pcbnew</span>, <a
- id="dx1-43003"></a>click on the button <span
-class="cmti-10x-x-109">Netlist</span>. This is shown in Fig.&#x00A0;<a
+under the tab <span
+class="cmti-10x-x-109">Pcbnew</span>, <a
+ id="dx1-43003"></a>click on the button <span
+class="cmti-10x-x-109">Netlist</span>. This is shown in Fig.&#x00A0;<a
href="#x1-430042">6.2<!--tex4ht:ref: netlistpcb --></a>. Click on
-<span
+<span
class="cmti-10x-x-109">Save </span>in the Save netlist file dialog box that opens up. Do not change the directory
or the name of the netlist file. Save the schematic and close the schematic editor.
-<hr class="figure"><div class="figure"
+<hr class="figure"><div class="figure"
>
-<a
+<a
id="x1-430042"></a>
-<!--l. 48--><p class="noindent" ><img
-src="figures/netlistpcb.png" alt="PIC"
+<!--l. 48--><p class="noindent" ><img
+src="figures/netlistpcb.png" alt="PIC"
>
-<br /> <div class="caption"
-><span class="id">Figure&#x00A0;6.2: </span><span
+<br /> <div class="caption"
+><span class="id">Figure&#x00A0;6.2: </span><span
class="content">Netlist generation for PCB</span></div><!--tex4ht:label?: x1-430042 -->
<!--l. 51--><p class="indent" > </div><hr class="endfigure">
-<!--l. 52--><p class="indent" > <span
-class="cmti-10x-x-109">Note that the netlist for PCB has an extension </span><span
-class="cmtt-10x-x-109">.net</span><span
+<!--l. 52--><p class="indent" > <span
+class="cmti-10x-x-109">Note that the netlist for PCB has an extension </span><span
+class="cmtt-10x-x-109">.net</span><span
class="cmti-10x-x-109">. The netlist created for simulation</span>
-<span
-class="cmti-10x-x-109">has an extension </span><span
+<span
+class="cmti-10x-x-109">has an extension </span><span
class="cmtt-10x-x-109">.cir</span>.
- <h4 class="subsectionHead"><span class="titlemark">6.1.2 </span> <a
+ <h4 class="subsectionHead"><span class="titlemark">6.1.2 </span> <a
id="x1-440006.1.2"></a>Mapping of components using Footprint Editor</h4>
-<a
+<a
id="dx1-44001"></a>
-<a
+<a
id="dx1-44002"></a>
-<a
+<a
id="dx1-44003"></a>
<!--l. 59--><p class="noindent" >Once the netlist for PCB is created, one needs to map each component in the netlist to a
-footprint. The tool <span
-class="cmti-10x-x-109">Footprint Editor </span>is used for this. eSim uses <span
+footprint. The tool <span
+class="cmti-10x-x-109">Footprint Editor </span>is used for this. eSim uses <span
class="cmtt-10x-x-109">CvPcb </span>as its footprint editor.
-<span
-class="cmtt-10x-x-109">CvPcb </span>is the footprint editor tool in KiCad. <a
+<span
+class="cmtt-10x-x-109">CvPcb </span>is the footprint editor tool in KiCad. <a
id="dx1-44004"></a>
<!--l. 64--><p class="noindent" >
- <h4 class="subsectionHead"><span class="titlemark">6.1.3 </span> <a
+ <h4 class="subsectionHead"><span class="titlemark">6.1.3 </span> <a
id="x1-450006.1.3"></a>Familiarising the Footprint Editor tool</h4>
-<a
+<a
id="dx1-45001"></a>
-<!--l. 67--><p class="noindent" >If one opens the <span
-class="cmti-10x-x-109">Footprint Editor </span>after creating the <span
+<!--l. 67--><p class="noindent" >If one opens the <span
+class="cmti-10x-x-109">Footprint Editor </span>after creating the <span
class="cmtt-10x-x-109">.net </span>netlist file, the Footprint editor as
-shown in Fig.&#x00A0;<a
+shown in Fig.&#x00A0;<a
href="#x1-450023">6.3<!--tex4ht:ref: fe --></a> will be obtained. The menu bar and toolbars and the panes are marked in
this figure. The menu bar will be available in the top left corner. The left pane has a list of
components in the netlist file and the right pane has a list of available footprints for each
-component. <hr class="figure"><div class="figure"
+component. <hr class="figure"><div class="figure"
>
-<a
+<a
id="x1-450023"></a>
-<!--l. 75--><p class="noindent" ><img
-src="figures/fe.png" alt="PIC"
+<!--l. 75--><p class="noindent" ><img
+src="figures/fe.png" alt="PIC"
>
-<br /> <div class="caption"
-><span class="id">Figure&#x00A0;6.3: </span><span
+<br /> <div class="caption"
+><span class="id">Figure&#x00A0;6.3: </span><span
class="content">Footprint editor with the menu bar, toolbar, left pane and right pane
marked</span></div><!--tex4ht:label?: x1-450023 -->
<!--l. 78--><p class="indent" > </div><hr class="endfigure">
-<!--l. 79--><p class="indent" > <span
+<!--l. 79--><p class="indent" > <span
class="cmti-10x-x-109">Note that if the Footprint Editor is opened before creating a &#8216;.net&#8217; file, then the left and</span>
-<span
+<span
class="cmti-10x-x-109">right panes will be empty</span>.
- <h5 class="subsubsectionHead"><a
+ <h5 class="subsubsectionHead"><a
id="x1-460006.1.3"></a>Toolbar</h5>
-<!--l. 82--><p class="noindent" >Some of the important tools in the toolbar are shown in Fig.&#x00A0;<a
+<!--l. 82--><p class="noindent" >Some of the important tools in the toolbar are shown in Fig.&#x00A0;<a
href="#x1-460014">6.4<!--tex4ht:ref: tb_fe --></a>. They are explained below:
-<hr class="figure"><div class="figure"
+<hr class="figure"><div class="figure"
>
-<a
+<a
id="x1-460014"></a>
-<!--l. 86--><p class="noindent" ><img
-src="figures/tb_fe.png" alt="PIC"
+<!--l. 86--><p class="noindent" ><img
+src="figures/tb_fe.png" alt="PIC"
>
-<br /> <div class="caption"
-><span class="id">Figure&#x00A0;6.4: </span><span
+<br /> <div class="caption"
+><span class="id">Figure&#x00A0;6.4: </span><span
class="content">Some important tools in the toolbar</span></div><!--tex4ht:label?: x1-460014 -->
<!--l. 89--><p class="indent" > </div><hr class="endfigure">
<dl class="compactenum"><dt class="compactenum">
- 1. </dt><dd
+ 1. </dt><dd
class="compactenum">Save netlist and footprint files - Save the netlist and the footprints that are
associated with it.
</dd><dt class="compactenum">
- 2. </dt><dd
-class="compactenum">View selected footprint - View the selected footprint in 2D. See Sec.&#x00A0;<a
+ 2. </dt><dd
+class="compactenum">View selected footprint - View the selected footprint in 2D. See Sec.&#x00A0;<a
href="#x1-470006.1.4">6.1.4<!--tex4ht:ref: viewfp --></a> for more
details.
</dd><dt class="compactenum">
- 3. </dt><dd
+ 3. </dt><dd
class="compactenum">Automatic footprint association - Perform footprint association for each
component automatically. Footprints will be selected from the list of footprints
available.
</dd><dt class="compactenum">
- 4. </dt><dd
+ 4. </dt><dd
class="compactenum">Delete all associations - Delete all the footprint associations made
</dd><dt class="compactenum">
- 5. </dt><dd
+ 5. </dt><dd
class="compactenum">Display filtered footprint list - Display a filtered list of footprints suitable to the
selected component
</dd><dt class="compactenum">
- 6. </dt><dd
+ 6. </dt><dd
class="compactenum">Display full footprint list - Display the list of all footprints available (without
filtering)</dd></dl>
- <h4 class="subsectionHead"><span class="titlemark">6.1.4 </span> <a
+ <h4 class="subsectionHead"><span class="titlemark">6.1.4 </span> <a
id="x1-470006.1.4"></a>Viewing footprints in 2D and 3D</h4>
-<a
+<a
id="dx1-47001"></a>
-<a
+<a
id="dx1-47002"></a>
-<!--l. 110--><p class="noindent" >To view a footprint in 2D, select it from the right pane and click on <span
+<!--l. 110--><p class="noindent" >To view a footprint in 2D, select it from the right pane and click on <span
class="cmti-10x-x-109">View selected footprint</span>
-from the menu bar. Let us view the footprint for <span
+from the menu bar. Let us view the footprint for <span
class="cmtt-10x-x-109">SM1210</span>. Choose SM1210 from
-the right pane as shown in Fig.&#x00A0;<a
-href="#x1-470035">6.5<!--tex4ht:ref: sm --></a>. On clicking the <span
+the right pane as shown in Fig.&#x00A0;<a
+href="#x1-470035">6.5<!--tex4ht:ref: sm --></a>. On clicking the <span
class="cmti-10x-x-109">View selected footprint </span>tool,
-the <span
-class="cmtt-10x-x-109">Footprint </span>window with the view in 2D will be displayed. Click on the <span
+the <span
+class="cmtt-10x-x-109">Footprint </span>window with the view in 2D will be displayed. Click on the <span
class="cmti-10x-x-109">3D</span>
-tool in the <span
-class="cmtt-10x-x-109">Footprint </span>window, as shown in Fig.&#x00A0;<a
+tool in the <span
+class="cmtt-10x-x-109">Footprint </span>window, as shown in Fig.&#x00A0;<a
href="#x1-470046">6.6<!--tex4ht:ref: 3d --></a>. A top view of the selected
footprint in 3D is obtained. Click on the footprint and rotate it using mouse to get 3D
views from various angles. One such side view of the footprint in 3D is shown in
-Fig.&#x00A0;<a
+Fig.&#x00A0;<a
href="#x1-470057">6.7<!--tex4ht:ref: 3dv --></a>.
-<!--l. 121--><p class="indent" > <hr class="figure"><div class="figure"
+<!--l. 121--><p class="indent" > <hr class="figure"><div class="figure"
>
-<a
+<a
id="x1-470035"></a>
-<!--l. 123--><p class="noindent" ><img
-src="figures/sm.png" alt="PIC"
+<!--l. 123--><p class="noindent" ><img
+src="figures/sm.png" alt="PIC"
>
-<br /> <div class="caption"
-><span class="id">Figure&#x00A0;6.5: </span><span
+<br /> <div class="caption"
+><span class="id">Figure&#x00A0;6.5: </span><span
class="content">Viewing footprint for SM1210: 1. Choose the footprint SM1210 from the
-right pane, 2. Click on <span
+right pane, 2. Click on <span
class="cmti-10x-x-109">View selected footprint</span></span></div><!--tex4ht:label?: x1-470035 -->
<!--l. 127--><p class="indent" > </div><hr class="endfigure">
-<!--l. 128--><p class="indent" > <hr class="figure"><div class="figure"
+<!--l. 128--><p class="indent" > <hr class="figure"><div class="figure"
>
-<a
+<a
id="x1-470046"></a>
-<!--l. 130--><p class="noindent" ><img
-src="figures/3d.png" alt="PIC"
+<!--l. 130--><p class="noindent" ><img
+src="figures/3d.png" alt="PIC"
>
-<br /> <div class="caption"
-><span class="id">Figure&#x00A0;6.6: </span><span
-class="content">Footprint view in 2D. Click on <span
+<br /> <div class="caption"
+><span class="id">Figure&#x00A0;6.6: </span><span
+class="content">Footprint view in 2D. Click on <span
class="cmti-10x-x-109">3D </span>to get 3D view</span></div><!--tex4ht:label?: x1-470046 -->
<!--l. 133--><p class="indent" > </div><hr class="endfigure">
-<!--l. 134--><p class="indent" > <hr class="figure"><div class="figure"
+<!--l. 134--><p class="indent" > <hr class="figure"><div class="figure"
>
-<a
+<a
id="x1-470057"></a>
-<!--l. 136--><p class="noindent" ><img
-src="figures/3dv.png" alt="PIC"
+<!--l. 136--><p class="noindent" ><img
+src="figures/3dv.png" alt="PIC"
>
-<br /> <div class="caption"
-><span class="id">Figure&#x00A0;6.7: </span><span
+<br /> <div class="caption"
+><span class="id">Figure&#x00A0;6.7: </span><span
class="content">Side view of the footprint in 3D</span></div><!--tex4ht:label?: x1-470057 -->
<!--l. 139--><p class="indent" > </div><hr class="endfigure">
- <h4 class="subsectionHead"><span class="titlemark">6.1.5 </span> <a
+ <h4 class="subsectionHead"><span class="titlemark">6.1.5 </span> <a
id="x1-480006.1.5"></a>Mapping of components in the RC circuit</h4>
-<!--l. 142--><p class="noindent" >Click on <span
-class="cmtt-10x-x-109">C1 </span>from the left pane. Choose the footprint <span
+<!--l. 142--><p class="noindent" >Click on <span
+class="cmtt-10x-x-109">C1 </span>from the left pane. Choose the footprint <span
class="cmti-10x-x-109">C1 </span>from the right pane by double
-clicking on it. Click on connector <span
-class="cmtt-10x-x-109">P1 </span>from the left pane. Choose the footprint <span
+clicking on it. Click on connector <span
+class="cmtt-10x-x-109">P1 </span>from the left pane. Choose the footprint <span
class="cmti-10x-x-109">SIL-2 </span>from the
-right pane by double clicking on it. Similarly choose the footprint <span
-class="cmti-10x-x-109">R3 </span>for the resistor <span
+right pane by double clicking on it. Similarly choose the footprint <span
+class="cmti-10x-x-109">R3 </span>for the resistor <span
class="cmtt-10x-x-109">R1</span>. The
-footprint mapping is shown in Fig.&#x00A0;<a
-href="#x1-480018">6.8<!--tex4ht:ref: map --></a>. Save the footprint association by clicking on the <span
+footprint mapping is shown in Fig.&#x00A0;<a
+href="#x1-480018">6.8<!--tex4ht:ref: map --></a>. Save the footprint association by clicking on the <span
class="cmti-10x-x-109">Save</span>
-<span
-class="cmti-10x-x-109">netlist and footprint files </span>tool from the <span
-class="cmtt-10x-x-109">CvPcb </span>toolbar. The <span
+<span
+class="cmti-10x-x-109">netlist and footprint files </span>tool from the <span
+class="cmtt-10x-x-109">CvPcb </span>toolbar. The <span
class="cmtt-10x-x-109">Save Net and component List</span>
window appears. Browse to the directory where the schematic file for this project is saved and
-click on <span
-class="cmti-10x-x-109">Save</span>. The netlist gets saved and the <span
+click on <span
+class="cmti-10x-x-109">Save</span>. The netlist gets saved and the <span
class="cmti-10x-x-109">Footprint Editor </span>window closes automatically.
-<hr class="figure"><div class="figure"
+<hr class="figure"><div class="figure"
>
-<a
+<a
id="x1-480018"></a>
-<!--l. 155--><p class="noindent" ><img
-src="figures/map.png" alt="PIC"
+<!--l. 155--><p class="noindent" ><img
+src="figures/map.png" alt="PIC"
>
-<br /> <div class="caption"
-><span class="id">Figure&#x00A0;6.8: </span><span
+<br /> <div class="caption"
+><span class="id">Figure&#x00A0;6.8: </span><span
class="content">Footprint mapping done</span></div><!--tex4ht:label?: x1-480018 -->
<!--l. 158--><p class="indent" > </div><hr class="endfigure">
-<!--l. 159--><p class="indent" > <span
+<!--l. 159--><p class="indent" > <span
class="cmti-10x-x-109">Note that one needs to browse to the directory where the schematic file is saved and save</span>
-<span
+<span
class="cmti-10x-x-109">the &#8216;.net&#8217; file in the same directory</span>.
- <h3 class="sectionHead"><span class="titlemark">6.2 </span> <a
+ <h3 class="sectionHead"><span class="titlemark">6.2 </span> <a
id="x1-490006.2"></a>Creation of PCB layout</h3>
-<a
+<a
id="dx1-49001"></a>
-<a
+<a
id="dx1-49002"></a>
<!--l. 164--><p class="noindent" >The next step is to place the footprints and lay tracks between them to get the layout. This is
-done using the <span
-class="cmti-10x-x-109">Layout Editor </span>tool. eSim uses <span
+done using the <span
+class="cmti-10x-x-109">Layout Editor </span>tool. eSim uses <span
class="cmtt-10x-x-109">Pcbnew</span>, the layout creation tool in KiCad, as its
layout editor.
<!--l. 169--><p class="noindent" >
- <h4 class="subsectionHead"><span class="titlemark">6.2.1 </span> <a
+ <h4 class="subsectionHead"><span class="titlemark">6.2.1 </span> <a
id="x1-500006.2.1"></a>Familiarizing the Layout Editor tool</h4>
-<a
+<a
id="dx1-50001"></a>
-<!--l. 172--><p class="noindent" >The layout editor with the various menu bar and toolbars is shown in Fig.&#x00A0;<a
+<!--l. 172--><p class="noindent" >The layout editor with the various menu bar and toolbars is shown in Fig.&#x00A0;<a
href="#x1-500029">6.9<!--tex4ht:ref: pcbnew --></a>.
-<hr class="figure"><div class="figure"
+<hr class="figure"><div class="figure"
>
-<a
+<a
id="x1-500029"></a>
-<!--l. 176--><p class="noindent" ><img
-src="figures/pcbnew.png" alt="PIC"
+<!--l. 176--><p class="noindent" ><img
+src="figures/pcbnew.png" alt="PIC"
>
-<br /> <div class="caption"
-><span class="id">Figure&#x00A0;6.9: </span><span
+<br /> <div class="caption"
+><span class="id">Figure&#x00A0;6.9: </span><span
class="content">Layout editor with menu bar, toolbars and layer options marked</span></div><!--tex4ht:label?: x1-500029 -->
<!--l. 179--><p class="indent" > </div><hr class="endfigure">
-<!--l. 180--><p class="indent" > <hr class="figure"><div class="figure"
+<!--l. 180--><p class="indent" > <hr class="figure"><div class="figure"
>
-<a
+<a
id="x1-5000310"></a>
-<!--l. 182--><p class="noindent" ><img
-src="figures/toptble.png" alt="PIC"
+<!--l. 182--><p class="noindent" ><img
+src="figures/toptble.png" alt="PIC"
>
-<br /> <div class="caption"
-><span class="id">Figure&#x00A0;6.10: </span><span
+<br /> <div class="caption"
+><span class="id">Figure&#x00A0;6.10: </span><span
class="content">Top toolbar with important tools marked</span></div><!--tex4ht:label?: x1-5000310 -->
<!--l. 185--><p class="indent" > </div><hr class="endfigure">
- <h5 class="subsubsectionHead"><a
+ <h5 class="subsubsectionHead"><a
id="x1-510006.2.1"></a>Top toolbar</h5>
-<!--l. 188--><p class="noindent" >Some of the important menu options in the top menu bar are shown in Fig.&#x00A0;<a
+<!--l. 188--><p class="noindent" >Some of the important menu options in the top menu bar are shown in Fig.&#x00A0;<a
href="#x1-5000310">6.10<!--tex4ht:ref: toptble --></a>. They are
explained below:
<dl class="compactenum"><dt class="compactenum">
- 1. </dt><dd
+ 1. </dt><dd
class="compactenum">Save board - Save the printed circuit board
</dd><dt class="compactenum">
- 2. </dt><dd
+ 2. </dt><dd
class="compactenum">Module editor - Open module editor to edit footprint modules or libraries
</dd><dt class="compactenum">
- 3. </dt><dd
+ 3. </dt><dd
class="compactenum">Read netlist - Import the netlist whose layout needs to be created.
</dd><dt class="compactenum">
- 4. </dt><dd
+ 4. </dt><dd
class="compactenum">Perform design rules check - Check for design rules, unconnected nets, etc., in the
layout.
</dd><dt class="compactenum">
- 5. </dt><dd
+ 5. </dt><dd
class="compactenum">Select working layer - Selection of working layer
</dd><dt class="compactenum">
- 6. </dt><dd
+ 6. </dt><dd
class="compactenum">Show active layer selections and select layer pair for route and place - Select layer
in top and bottom layers. It also shows the currently active layer selections.
</dd><dt class="compactenum">
- 7. </dt><dd
+ 7. </dt><dd
class="compactenum">Mode footprint: Manual/automatic move and place - Move and place modules</dd></dl>
<!--l. 206--><p class="noindent" >
- <h4 class="subsectionHead"><span class="titlemark">6.2.2 </span> <a
+ <h4 class="subsectionHead"><span class="titlemark">6.2.2 </span> <a
id="x1-520006.2.2"></a>Hotkeys</h4>
-<a
+<a
id="dx1-52001"></a>
<!--l. 208--><p class="noindent" >A list of hotkeys are given below:
<dl class="compactenum"><dt class="compactenum">
- 1. </dt><dd
+ 1. </dt><dd
class="compactenum">F1 - Zoom in
</dd><dt class="compactenum">
- 2. </dt><dd
+ 2. </dt><dd
class="compactenum">F2 - Zoom out
</dd><dt class="compactenum">
- 3. </dt><dd
+ 3. </dt><dd
class="compactenum">Delete - Delete Track or Footprint
</dd><dt class="compactenum">
- 4. </dt><dd
+ 4. </dt><dd
class="compactenum">X - Add new track
</dd><dt class="compactenum">
- 5. </dt><dd
+ 5. </dt><dd
class="compactenum">V - Add Via
</dd><dt class="compactenum">
- 6. </dt><dd
+ 6. </dt><dd
class="compactenum">M - Move Item
</dd><dt class="compactenum">
- 7. </dt><dd
+ 7. </dt><dd
class="compactenum">F - Flip Footprint
</dd><dt class="compactenum">
- 8. </dt><dd
+ 8. </dt><dd
class="compactenum">R - Rotate Item
</dd><dt class="compactenum">
- 9. </dt><dd
+ 9. </dt><dd
class="compactenum">G - Drag Footprint
</dd><dt class="compactenum">
- 10. </dt><dd
+ 10. </dt><dd
class="compactenum">Ctrl+Z - Undo
</dd><dt class="compactenum">
- 11. </dt><dd
+ 11. </dt><dd
class="compactenum">E - Edit Item</dd></dl>
-<!--l. 222--><p class="noindent" >The list can be viewed by selecting <span
-class="cmti-10x-x-109">Preferences </span>from the top menu bar and choosing <span
+<!--l. 222--><p class="noindent" >The list can be viewed by selecting <span
+class="cmti-10x-x-109">Preferences </span>from the top menu bar and choosing <span
class="cmti-10x-x-109">List Current</span>
-<span
-class="cmti-10x-x-109">Keys </span>from the option <span
+<span
+class="cmti-10x-x-109">Keys </span>from the option <span
class="cmti-10x-x-109">Hotkeys</span>.
<!--l. 226--><p class="noindent" >
- <h4 class="subsectionHead"><span class="titlemark">6.2.3 </span> <a
+ <h4 class="subsectionHead"><span class="titlemark">6.2.3 </span> <a
id="x1-530006.2.3"></a>PCB design example using RC circuit</h4>
-<a
+<a
id="dx1-53001"></a>
-<!--l. 227--><p class="noindent" >Click on <span
-class="cmti-10x-x-109">Layout Editor </span>from the eSim toolbar. Click on <span
+<!--l. 227--><p class="noindent" >Click on <span
+class="cmti-10x-x-109">Layout Editor </span>from the eSim toolbar. Click on <span
class="cmti-10x-x-109">Read Netlist </span>tool from the top
-toolbar. Click on <span
-class="cmti-10x-x-109">Browse Netlist files </span>on the Netlist window that opens up. Select the <span
+toolbar. Click on <span
+class="cmti-10x-x-109">Browse Netlist files </span>on the Netlist window that opens up. Select the <span
class="cmtt-10x-x-109">.net </span>file
-that was modified after assigning footprints. Click on <span
-class="cmti-10x-x-109">Open</span>. Now Click on <span
+that was modified after assigning footprints. Click on <span
+class="cmti-10x-x-109">Open</span>. Now Click on <span
class="cmti-10x-x-109">Read Current</span>
-<span
+<span
class="cmti-10x-x-109">Netlist </span>on the Netlist window. The message area in the Netlist window says that
-the RC_pcb.net has been read. The sequence of operations is shown in Fig.&#x00A0;<a
+the RC_pcb.net has been read. The sequence of operations is shown in Fig.&#x00A0;<a
href="#x1-5300411">6.11<!--tex4ht:ref: brnet --></a>.
-<a
- id="dx1-53002"></a><a
- id="dx1-53003"></a><hr class="figure"><div class="figure"
+<a
+ id="dx1-53002"></a><a
+ id="dx1-53003"></a><hr class="figure"><div class="figure"
>
-<a
+<a
id="x1-5300411"></a>
-<!--l. 238--><p class="noindent" ><img
-src="figures/rcpcb.png" alt="PIC"
+<!--l. 238--><p class="noindent" ><img
+src="figures/rcpcb.png" alt="PIC"
>
-<br /> <div class="caption"
-><span class="id">Figure&#x00A0;6.11: </span><span
+<br /> <div class="caption"
+><span class="id">Figure&#x00A0;6.11: </span><span
class="content">Importing netlist file to layout editor: 1. Browse netlist Files, 2. Choose
the RC_pcb.net file, 3. Read Netlist file, 4. Close</span></div><!--tex4ht:label?: x1-5300411 -->
<!--l. 242--><p class="indent" > </div><hr class="endfigure">
<!--l. 243--><p class="indent" > The footprint modules will now be imported to the top left hand corner of the layout
-editor window. This is shown in Fig.&#x00A0;<a
-href="#x1-5300512">6.12<!--tex4ht:ref: netlisttop --></a>. <hr class="figure"><div class="figure"
+editor window. This is shown in Fig.&#x00A0;<a
+href="#x1-5300512">6.12<!--tex4ht:ref: netlisttop --></a>. <hr class="figure"><div class="figure"
>
-<a
+<a
id="x1-5300512"></a>
-<!--l. 247--><p class="noindent" ><img
-src="figures/netlisttop.png" alt="PIC"
+<!--l. 247--><p class="noindent" ><img
+src="figures/netlisttop.png" alt="PIC"
>
-<br /> <div class="caption"
-><span class="id">Figure&#x00A0;6.12: </span><span
+<br /> <div class="caption"
+><span class="id">Figure&#x00A0;6.12: </span><span
class="content">Footprint modules imported to top left corner of layout editor window</span></div><!--tex4ht:label?: x1-5300512 -->
<!--l. 250--><p class="indent" > </div><hr class="endfigure">
-<!--l. 251--><p class="indent" > Zoom in to the top left corner by pressing the key <span
+<!--l. 251--><p class="indent" > Zoom in to the top left corner by pressing the key <span
class="cmtt-10x-x-109">F1 </span>or using the scroll button of the
-mouse. The zoomed in version of the imported netlist is shown in Fig.&#x00A0;<a
+mouse. The zoomed in version of the imported netlist is shown in Fig.&#x00A0;<a
href="#x1-5300613">6.13<!--tex4ht:ref: zoom --></a>.
-<!--l. 255--><p class="indent" > Let us now place this in the center of the layout editor window. <hr class="figure"><div class="figure"
+<!--l. 255--><p class="indent" > Let us now place this in the center of the layout editor window. <hr class="figure"><div class="figure"
>
-<a
+<a
id="x1-5300613"></a>
-<!--l. 259--><p class="noindent" ><img
-src="figures/zoom.png" alt="PIC"
+<!--l. 259--><p class="noindent" ><img
+src="figures/zoom.png" alt="PIC"
>
-<br /> <div class="caption"
-><span class="id">Figure&#x00A0;6.13: </span><span
+<br /> <div class="caption"
+><span class="id">Figure&#x00A0;6.13: </span><span
class="content">Zoomed in version of the imported netlist</span></div><!--tex4ht:label?: x1-5300613 -->
<!--l. 262--><p class="indent" > </div><hr class="endfigure">
-<!--l. 263--><p class="indent" > Click on <span
+<!--l. 263--><p class="indent" > Click on <span
class="cmti-10x-x-109">Mode footprint: Manual/automatic move and place </span>tool from the top toolbar.
-Place the cursor near the center of the layout editor window. Right click and choose <span
+Place the cursor near the center of the layout editor window. Right click and choose <span
class="cmti-10x-x-109">Glob</span>
-<span
-class="cmti-10x-x-109">move and place</span>. Choose <span
-class="cmti-10x-x-109">move all modules</span>. The sequence of operations is shown in Fig.&#x00A0;<a
+<span
+class="cmti-10x-x-109">move and place</span>. Choose <span
+class="cmti-10x-x-109">move all modules</span>. The sequence of operations is shown in Fig.&#x00A0;<a
href="#x1-5300714">6.14<!--tex4ht:ref: movep --></a>.
-Click on <span
+Click on <span
class="cmti-10x-x-109">Yes </span>on the confirmation window to move the modules. Zoom in using the F1 key.
-The current placement of components after zooming in is shown in Fig.&#x00A0;<a
+The current placement of components after zooming in is shown in Fig.&#x00A0;<a
href="#x1-53008r1">6.15a<!--tex4ht:ref: curplace --></a>.
-<hr class="figure"><div class="figure"
+<hr class="figure"><div class="figure"
>
-<a
+<a
id="x1-5300714"></a>
-<!--l. 272--><p class="noindent" ><img
-src="figures/movep.png" alt="PIC"
+<!--l. 272--><p class="noindent" ><img
+src="figures/movep.png" alt="PIC"
>
-<br /> <div class="caption"
-><span class="id">Figure&#x00A0;6.14: </span><span
+<br /> <div class="caption"
+><span class="id">Figure&#x00A0;6.14: </span><span
class="content">Moving and placing modules to the center of layout editor. 1. Click on
-<span
+<span
class="cmti-10x-x-109">Mode footprint: Manual/automatic move and place</span>, 2. Place cursor at center of layout
-editor and right click on it 3. Choose <span
-class="cmti-10x-x-109">Glob Move and Place </span>and then choose <span
+editor and right click on it 3. Choose <span
+class="cmti-10x-x-109">Glob Move and Place </span>and then choose <span
class="cmti-10x-x-109">Move All</span>
-<span
+<span
class="cmti-10x-x-109">Modules.</span></span></div><!--tex4ht:label?: x1-5300714 -->
<!--l. 279--><p class="indent" > </div><hr class="endfigure">
-<!--l. 286--><p class="indent" > <hr class="figure"><div class="figure"
+<!--l. 286--><p class="indent" > <hr class="figure"><div class="figure"
>
-<a
+<a
id="x1-5301015"></a>
-<a
+<a
id="x1-53008r1"></a>
-<!--l. 290--><p class="noindent" > <img
-src="figures/curplace.png" alt="PIC"
+<!--l. 290--><p class="noindent" > <img
+src="figures/curplace.png" alt="PIC"
>
-<span
+<span
class="cmr-9">(a)</span>
-<span
+<span
class="cmr-9">Zoomed</span>
-<span
+<span
class="cmr-9">in</span>
-<span
+<span
class="cmr-9">version</span>
-<span
+<span
class="cmr-9">of the</span>
-<span
+<span
class="cmr-9">current</span>
-<span
+<span
class="cmr-9">placement</span>
-<span
+<span
class="cmr-9">after</span>
-<span
+<span
class="cmr-9">moving</span>
-<span
+<span
class="cmr-9">modules</span>
-<span
+<span
class="cmr-9">to the</span>
-<span
+<span
class="cmr-9">center</span>
-<span
+<span
class="cmr-9">of the</span>
-<span
+<span
class="cmr-9">layout</span>
-<span
-class="cmr-9">editor</span> <a
- id="x1-53009r2"></a> <img
-src="figures/fplace.png" alt="PIC"
+<span
+class="cmr-9">editor</span> <a
+ id="x1-53009r2"></a> <img
+src="figures/fplace.png" alt="PIC"
>
- <span
+ <span
class="cmr-9">(b)</span>
- <span
+ <span
class="cmr-9">Final</span>
- <span
+ <span
class="cmr-9">placement</span>
- <span
+ <span
class="cmr-9">of</span>
- <span
+ <span
class="cmr-9">footprints</span>
- <span
+ <span
class="cmr-9">after</span>
- <span
+ <span
class="cmr-9">rotating</span>
- <span
+ <span
class="cmr-9">and</span>
- <span
+ <span
class="cmr-9">moving</span>
- <span
+ <span
class="cmr-9">P1</span>
-<br /> <div class="caption"
-><span class="id">Figure&#x00A0;6.15: </span><span
+<br /> <div class="caption"
+><span class="id">Figure&#x00A0;6.15: </span><span
class="content">Different stages of placement of modules on PCB</span></div><!--tex4ht:label?: x1-5301015 -->
<!--l. 295--><p class="indent" > </div><hr class="endfigure">
<!--l. 296--><p class="indent" > We need to arrange the modules properly to lay tracks. Rotate the connector P1 by
placing the cursor on top of P1 and pressing R. Move it by placing the cursor on top of it and
-pressing M. The final placement is shown in Fig.&#x00A0;<a
-href="#x1-53009r2">6.15b<!--tex4ht:ref: fplace --></a>. <a
+pressing M. The final placement is shown in Fig.&#x00A0;<a
+href="#x1-53009r2">6.15b<!--tex4ht:ref: fplace --></a>. <a
id="dx1-53011"></a>
-<!--l. 302--><p class="indent" > Let us now lay the tracks. Let us first change the track width. Click on <span
+<!--l. 302--><p class="indent" > Let us now lay the tracks. Let us first change the track width. Click on <span
class="cmti-10x-x-109">Design rules </span>from
-the top menu bar. Click on <span
-class="cmti-10x-x-109">Design rules</span>. This is shown in Fig.&#x00A0;<a
-href="#x1-5301416">6.16<!--tex4ht:ref: drules --></a>. The <span
+the top menu bar. Click on <span
+class="cmti-10x-x-109">Design rules</span>. This is shown in Fig.&#x00A0;<a
+href="#x1-5301416">6.16<!--tex4ht:ref: drules --></a>. The <span
class="cmti-10x-x-109">Design Rules Editor</span>
window opens up. Here one can edit the various design rules. Double click on the track width
-field to edit it. Type 0.8 and press <span
-class="cmtt-10x-x-109">Enter</span>. Click on OK. Fig.&#x00A0;<a
+field to edit it. Type 0.8 and press <span
+class="cmtt-10x-x-109">Enter</span>. Click on OK. Fig.&#x00A0;<a
href="#x1-5301517">6.17<!--tex4ht:ref: druleedit --></a> shows the sequence of
-operations. <a
- id="dx1-53012"></a><a
- id="dx1-53013"></a> <hr class="figure"><div class="figure"
+operations. <a
+ id="dx1-53012"></a><a
+ id="dx1-53013"></a> <hr class="figure"><div class="figure"
>
-<a
+<a
id="x1-5301416"></a>
-<!--l. 312--><p class="noindent" ><img
-src="figures/drules.png" alt="PIC"
+<!--l. 312--><p class="noindent" ><img
+src="figures/drules.png" alt="PIC"
>
-<br /> <div class="caption"
-><span class="id">Figure&#x00A0;6.16: </span><span
-class="content">Choose <span
-class="cmti-10x-x-109">Design Rules </span>from the top menu bar and <span
+<br /> <div class="caption"
+><span class="id">Figure&#x00A0;6.16: </span><span
+class="content">Choose <span
+class="cmti-10x-x-109">Design Rules </span>from the top menu bar and <span
class="cmti-10x-x-109">Design Rules </span>again</span></div><!--tex4ht:label?: x1-5301416 -->
<!--l. 316--><p class="indent" > </div><hr class="endfigure">
-<!--l. 317--><p class="indent" > <hr class="figure"><div class="figure"
+<!--l. 317--><p class="indent" > <hr class="figure"><div class="figure"
>
-<a
+<a
id="x1-5301517"></a>
-<!--l. 319--><p class="noindent" ><img
-src="figures/druleedit.png" alt="PIC"
+<!--l. 319--><p class="noindent" ><img
+src="figures/druleedit.png" alt="PIC"
>
-<br /> <div class="caption"
-><span class="id">Figure&#x00A0;6.17: </span><span
-class="content">Changing the track width: 1. Double click on <span
+<br /> <div class="caption"
+><span class="id">Figure&#x00A0;6.17: </span><span
+class="content">Changing the track width: 1. Double click on <span
class="cmti-10x-x-109">Track Width </span>field and type
-0.8, 2. Click on <span
+0.8, 2. Click on <span
class="cmti-10x-x-109">OK</span></span></div><!--tex4ht:label?: x1-5301517 -->
<!--l. 323--><p class="indent" > </div><hr class="endfigure">
-<!--l. 325--><p class="indent" > Click on <span
-class="cmti-10x-x-109">Back </span>from the <span
-class="cmti-10x-x-109">Layer </span>options as shown in Fig.&#x00A0;<a
-href="#x1-5301718">6.18<!--tex4ht:ref: layer --></a>. <a
- id="dx1-53016"></a><hr class="figure"><div class="figure"
+<!--l. 325--><p class="indent" > Click on <span
+class="cmti-10x-x-109">Back </span>from the <span
+class="cmti-10x-x-109">Layer </span>options as shown in Fig.&#x00A0;<a
+href="#x1-5301718">6.18<!--tex4ht:ref: layer --></a>. <a
+ id="dx1-53016"></a><hr class="figure"><div class="figure"
>
-<a
+<a
id="x1-5301718"></a>
-<!--l. 329--><p class="noindent" ><img
-src="figures/layer.png" alt="PIC"
+<!--l. 329--><p class="noindent" ><img
+src="figures/layer.png" alt="PIC"
>
-<br /> <div class="caption"
-><span class="id">Figure&#x00A0;6.18: </span><span
-class="content">Choosing the copper layer <span
+<br /> <div class="caption"
+><span class="id">Figure&#x00A0;6.18: </span><span
+class="content">Choosing the copper layer <span
class="cmti-10x-x-109">Back</span></span></div><!--tex4ht:label?: x1-5301718 -->
<!--l. 332--><p class="indent" > </div><hr class="endfigure">
<!--l. 333--><p class="indent" > Let us now start laying the tracks. Place the cursor above the left terminal of R1
-in the layout editor window. Press the key <span
+in the layout editor window. Press the key <span
class="cmtt-10x-x-109">x</span>. Move the cursor down and double
-click on the left terminal of C1. A track is formed. This is shown in Fig.&#x00A0;<a
+click on the left terminal of C1. A track is formed. This is shown in Fig.&#x00A0;<a
href="#x1-53018r1">6.19a<!--tex4ht:ref: track1 --></a>.
-<hr class="figure"><div class="figure"
+<hr class="figure"><div class="figure"
>
-<a
+<a
id="x1-5302119"></a>
-<a
+<a
id="x1-53018r1"></a>
-<!--l. 341--><p class="noindent" > <img
-src="figures/track1.png" alt="PIC"
+<!--l. 341--><p class="noindent" > <img
+src="figures/track1.png" alt="PIC"
>
-<span
+<span
class="cmr-9">(a) A</span>
-<span
+<span
class="cmr-9">track</span>
-<span
+<span
class="cmr-9">formed</span>
-<span
+<span
class="cmr-9">between</span>
-<span
+<span
class="cmr-9">resistor</span>
-<span
+<span
class="cmr-9">and</span>
-<span
-class="cmr-9">capacitor</span> <a
- id="x1-53019r2"></a> <img
-src="figures/track2.png" alt="PIC"
+<span
+class="cmr-9">capacitor</span> <a
+ id="x1-53019r2"></a> <img
+src="figures/track2.png" alt="PIC"
>
- <span
+ <span
class="cmr-9">(b) A</span>
- <span
+ <span
class="cmr-9">track</span>
- <span
+ <span
class="cmr-9">formed</span>
- <span
+ <span
class="cmr-9">between</span>
- <span
+ <span
class="cmr-9">capacitor</span>
- <span
+ <span
class="cmr-9">and</span>
- <span
-class="cmr-9">connector</span> <a
- id="x1-53020r3"></a> <img
-src="figures/track3.png" alt="PIC"
+ <span
+class="cmr-9">connector</span> <a
+ id="x1-53020r3"></a> <img
+src="figures/track3.png" alt="PIC"
>
- <span
+ <span
class="cmr-9">(c) A</span>
- <span
+ <span
class="cmr-9">track</span>
- <span
+ <span
class="cmr-9">formed</span>
- <span
+ <span
class="cmr-9">between</span>
- <span
+ <span
class="cmr-9">connector</span>
- <span
+ <span
class="cmr-9">and</span>
- <span
+ <span
class="cmr-9">resistor</span>
-<br /> <div class="caption"
-><span class="id">Figure&#x00A0;6.19: </span><span
+<br /> <div class="caption"
+><span class="id">Figure&#x00A0;6.19: </span><span
class="content">Different stages of laying tracks during PCB design</span></div><!--tex4ht:label?: x1-5302119 -->
<!--l. 349--><p class="indent" > </div><hr class="endfigure">
<!--l. 350--><p class="indent" > Similarly lay the track between capacitor C1 and connector P1 as shown in
-Fig.&#x00A0;<a
+Fig.&#x00A0;<a
href="#x1-53019r2">6.19b<!--tex4ht:ref: track2 --></a>. The last track needs to be laid at an angle. To do so, place the cursor
above the second terminal of R1. Press the key x and move the cursor diagonally
down. Double click on the other terminal of the connector. The track will be laid
-as shown in Fig.&#x00A0;<a
+as shown in Fig.&#x00A0;<a
href="#x1-53020r3">6.19c<!--tex4ht:ref: track3 --></a>. All tracks are now laid. The next step is to create PCB
edges.
-<!--l. 358--><p class="indent" > Choose <span
-class="cmti-10x-x-109">PCB</span><span
-class="cmti-10x-x-109">_edges </span>from the <span
-class="cmti-10x-x-109">Layer </span>options to add edges. Click on <span
+<!--l. 358--><p class="indent" > Choose <span
+class="cmti-10x-x-109">PCB</span><span
+class="cmti-10x-x-109">_edges </span>from the <span
+class="cmti-10x-x-109">Layer </span>options to add edges. Click on <span
class="cmti-10x-x-109">Add graphic line or</span>
-<span
-class="cmti-10x-x-109">polygon </span>from the toolbar on the left. Fig.&#x00A0;<a
+<span
+class="cmti-10x-x-109">polygon </span>from the toolbar on the left. Fig.&#x00A0;<a
href="#x1-5302320">6.20<!--tex4ht:ref: pcbedges --></a> shows the sequence of operations. Let us now
-start drawing edges for PCB. <a
- id="dx1-53022"></a><hr class="figure"><div class="figure"
+start drawing edges for PCB. <a
+ id="dx1-53022"></a><hr class="figure"><div class="figure"
>
-<a
+<a
id="x1-5302320"></a>
-<!--l. 365--><p class="noindent" ><img
-src="figures/pcbedges.png" alt="PIC"
+<!--l. 365--><p class="noindent" ><img
+src="figures/pcbedges.png" alt="PIC"
>
-<br /> <div class="caption"
-><span class="id">Figure&#x00A0;6.20: </span><span
-class="content">Creating PCB edges: 1. Choose <span
-class="cmti-10x-x-109">PCB</span><span
-class="cmti-10x-x-109">_Edges </span>from <span
+<br /> <div class="caption"
+><span class="id">Figure&#x00A0;6.20: </span><span
+class="content">Creating PCB edges: 1. Choose <span
+class="cmti-10x-x-109">PCB</span><span
+class="cmti-10x-x-109">_Edges </span>from <span
class="cmti-10x-x-109">Layer </span>options 2. Choose
-<span
+<span
class="cmti-10x-x-109">Add graphic line or polygon </span>from left toolbar</span></div><!--tex4ht:label?: x1-5302320 -->
<!--l. 370--><p class="indent" > </div><hr class="endfigure">
<!--l. 371--><p class="indent" > Click to the left of the layout. Move cursor horizontally to the right. Click once to change
-orientation. Move cursor vertically down. Draw the edges as shown in Fig.&#x00A0;<a
+orientation. Move cursor vertically down. Draw the edges as shown in Fig.&#x00A0;<a
href="#x1-5302421">6.21<!--tex4ht:ref: pcbed --></a>. Double click
-to finish drawing the edges. <hr class="figure"><div class="figure"
+to finish drawing the edges. <hr class="figure"><div class="figure"
>
-<a
+<a
id="x1-5302421"></a>
-<!--l. 377--><p class="noindent" ><img
-src="figures/pcbed.png" alt="PIC"
+<!--l. 377--><p class="noindent" ><img
+src="figures/pcbed.png" alt="PIC"
>
-<br /> <div class="caption"
-><span class="id">Figure&#x00A0;6.21: </span><span
+<br /> <div class="caption"
+><span class="id">Figure&#x00A0;6.21: </span><span
class="content">PCB edges drawn</span></div><!--tex4ht:label?: x1-5302421 -->
<!--l. 380--><p class="indent" > </div><hr class="endfigure">
-<!--l. 382--><p class="indent" > Click on <span
+<!--l. 382--><p class="indent" > Click on <span
class="cmti-10x-x-109">Perform design rules check </span>from the top toolbar to check for design rules. The
-<span
-class="cmti-10x-x-109">DRC Control </span>window opens up. Click on <span
-class="cmti-10x-x-109">Start DRC</span>. There are no errors under the <span
+<span
+class="cmti-10x-x-109">DRC Control </span>window opens up. Click on <span
+class="cmti-10x-x-109">Start DRC</span>. There are no errors under the <span
class="cmtt-10x-x-109">Error</span>
-<span
-class="cmtt-10x-x-109">messages </span>tab. Click on <span
-class="cmti-10x-x-109">OK </span>to close DRC control window. Fig.&#x00A0;<a
+<span
+class="cmtt-10x-x-109">messages </span>tab. Click on <span
+class="cmti-10x-x-109">OK </span>to close DRC control window. Fig.&#x00A0;<a
href="#x1-5302622">6.22<!--tex4ht:ref: drc --></a> shows the sequence of
-operations. <a
- id="dx1-53025"></a><hr class="figure"><div class="figure"
+operations. <a
+ id="dx1-53025"></a><hr class="figure"><div class="figure"
>
-<a
+<a
id="x1-5302622"></a>
-<!--l. 390--><p class="noindent" ><img
-src="figures/drc.png" alt="PIC"
+<!--l. 390--><p class="noindent" ><img
+src="figures/drc.png" alt="PIC"
>
-<br /> <div class="caption"
-><span class="id">Figure&#x00A0;6.22: </span><span
-class="content">Performing design rules check: 1. Click on <span
-class="cmti-10x-x-109">Start DRC</span>, 2. Click on <span
+<br /> <div class="caption"
+><span class="id">Figure&#x00A0;6.22: </span><span
+class="content">Performing design rules check: 1. Click on <span
+class="cmti-10x-x-109">Start DRC</span>, 2. Click on <span
class="cmti-10x-x-109">Ok</span></span></div><!--tex4ht:label?: x1-5302622 -->
<!--l. 394--><p class="indent" > </div><hr class="endfigure">
-<!--l. 395--><p class="indent" > Click on <span
+<!--l. 395--><p class="indent" > Click on <span
class="cmti-10x-x-109">Save board </span>on the top toolbar.
-<!--l. 397--><p class="indent" > To generate Gerber files, click on <span
-class="cmti-10x-x-109">File </span>from the top menu bar. Click on <span
+<!--l. 397--><p class="indent" > To generate Gerber files, click on <span
+class="cmti-10x-x-109">File </span>from the top menu bar. Click on <span
class="cmti-10x-x-109">Plot</span>. This is shown
-in Fig.&#x00A0;<a
+in Fig.&#x00A0;<a
href="#x1-5302823">6.23<!--tex4ht:ref: plot --></a>. The plot window opens up. One can choose which layers to plot by
-selecting/deselecting them from the <span
+selecting/deselecting them from the <span
class="cmtt-10x-x-109">Layers </span>pane on the left side. One can also choose the
-format used to plot them. Choose <span
+format used to plot them. Choose <span
class="cmti-10x-x-109">Gerber</span>. The output directory of the plots created
can also be chosen. By default, it is the project directory. Some more options can
-be chosen in this window. Click on <span
+be chosen in this window. Click on <span
class="cmti-10x-x-109">Plot</span>. The message window shows the location
-in which the Gerber files are created. Click on <span
-class="cmti-10x-x-109">Close</span>. This is shown in Fig.&#x00A0;<a
+in which the Gerber files are created. Click on <span
+class="cmti-10x-x-109">Close</span>. This is shown in Fig.&#x00A0;<a
href="#x1-5302924">6.24<!--tex4ht:ref: plot2 --></a>.
-<a
- id="dx1-53027"></a><hr class="figure"><div class="figure"
+<a
+ id="dx1-53027"></a><hr class="figure"><div class="figure"
>
-<a
+<a
id="x1-5302823"></a>
-<!--l. 410--><p class="noindent" ><img
-src="figures/plot.png" alt="PIC"
+<!--l. 410--><p class="noindent" ><img
+src="figures/plot.png" alt="PIC"
>
-<br /> <div class="caption"
-><span class="id">Figure&#x00A0;6.23: </span><span
-class="content">Choosing <span
-class="cmti-10x-x-109">Plot </span>from the <span
+<br /> <div class="caption"
+><span class="id">Figure&#x00A0;6.23: </span><span
+class="content">Choosing <span
+class="cmti-10x-x-109">Plot </span>from the <span
class="cmti-10x-x-109">File </span>menu</span></div><!--tex4ht:label?: x1-5302823 -->
<!--l. 413--><p class="indent" > </div><hr class="endfigure">
-<!--l. 414--><p class="indent" > <hr class="figure"><div class="figure"
+<!--l. 414--><p class="indent" > <hr class="figure"><div class="figure"
>
-<a
+<a
id="x1-5302924"></a>
-<!--l. 416--><p class="noindent" ><img
-src="figures/plot2.png" alt="PIC"
+<!--l. 416--><p class="noindent" ><img
+src="figures/plot2.png" alt="PIC"
>
-<br /> <div class="caption"
-><span class="id">Figure&#x00A0;6.24: </span><span
-class="content">Creating Gerber files: 1. Choose <span
+<br /> <div class="caption"
+><span class="id">Figure&#x00A0;6.24: </span><span
+class="content">Creating Gerber files: 1. Choose <span
class="cmti-10x-x-109">Gerber </span>as the plot format, 2. Click on
-<span
-class="cmti-10x-x-109">Plot</span>. Message window shows location in which Gerber files are created, 3. Click on <span
+<span
+class="cmti-10x-x-109">Plot</span>. Message window shows location in which Gerber files are created, 3. Click on <span
class="cmti-10x-x-109">Close</span></span></div><!--tex4ht:label?: x1-5302924 -->
<!--l. 421--><p class="indent" > </div><hr class="endfigure">
<!--l. 422--><p class="indent" > The PCB design of RC circuit is now complete. To know more about Pcbnew, refer to
-<span class="cite">&#x00A0;[<a
-href="#Xkicad">15</a>]</span> or <span class="cite">&#x00A0;[<a
+<span class="cite">&#x00A0;[<a
+href="#Xkicad">15</a>]</span> or <span class="cite">&#x00A0;[<a
href="#Xkicad2">16</a>]</span>.
- <h2 class="chapterHead"><span class="titlemark">Chapter&#x00A0;7</span><br /><a
+ <h2 class="chapterHead"><span class="titlemark">Chapter&#x00A0;7</span><br /><a
id="x1-540007"></a>Model Editor</h2>
<!--l. 4--><p class="noindent" >Spice based simulators include a feature which allows accurate modeling of semiconductor
devices such as diodes, transistors etc. eSim Model Editor provides a facility to define a new
-model for devices such as <span
+model for devices such as <span
class="cmti-10x-x-109">diodes, MOSFET, BJT, JFET, IGBT, Magnetic core </span>etc. Model
Editor in eSim lets the user enter the values of parameters depending on the type of
device for which a model is required. The parameter values can be obtained from the
data-sheet of the device. A newly created model can be exported to the model library
and one can import it for different projects, whenever required. Model Editor also
provides a facility to edit existing models. The GUI of the model editor is as shown in
-Fig.&#x00A0;<a
+Fig.&#x00A0;<a
href="#x1-540011">7.1<!--tex4ht:ref: modeleditor --></a>
-<!--l. 15--><p class="indent" > <hr class="figure"><div class="figure"
+<!--l. 15--><p class="indent" > <hr class="figure"><div class="figure"
>
-<a
+<a
id="x1-540011"></a>
-<!--l. 17--><p class="noindent" ><img
-src="figures/modeleditor_new.png" alt="PIC"
+<!--l. 17--><p class="noindent" ><img
+src="figures/modeleditor_new.png" alt="PIC"
>
-<br /> <div class="caption"
-><span class="id">Figure&#x00A0;7.1: </span><span
+<br /> <div class="caption"
+><span class="id">Figure&#x00A0;7.1: </span><span
class="content">Model Editor</span></div><!--tex4ht:label?: x1-540011 -->
<!--l. 20--><p class="indent" > </div><hr class="endfigure">
- <h3 class="sectionHead"><span class="titlemark">7.1 </span> <a
+ <h3 class="sectionHead"><span class="titlemark">7.1 </span> <a
id="x1-550007.1"></a>Creating New Model Library </h3>
<!--l. 24--><p class="noindent" >eSim lets us create new model libraries based on the template model libraries. On selecting
-<span
-class="cmtt-10x-x-109">New </span>button the window is popped as shown in Fig.&#x00A0;<a
+<span
+class="cmtt-10x-x-109">New </span>button the window is popped as shown in Fig.&#x00A0;<a
href="#x1-550012">7.2<!--tex4ht:ref: modeleditor_new --></a>. The name has to be unique otherwise
the error message appears on the window.
-<!--l. 27--><p class="indent" > <hr class="figure"><div class="figure"
+<!--l. 27--><p class="indent" > <hr class="figure"><div class="figure"
>
-<a
+<a
id="x1-550012"></a>
-<!--l. 29--><p class="noindent" ><img
-src="figures/modeleditor.png" alt="PIC"
+<!--l. 29--><p class="noindent" ><img
+src="figures/modeleditor.png" alt="PIC"
>
-<br /> <div class="caption"
-><span class="id">Figure&#x00A0;7.2: </span><span
+<br /> <div class="caption"
+><span class="id">Figure&#x00A0;7.2: </span><span
class="content">Creating New Model Library</span></div><!--tex4ht:label?: x1-550012 -->
<!--l. 32--><p class="indent" > </div><hr class="endfigure">
<!--l. 33--><p class="indent" > After the OK button is pressed the type of model library to be created is chosen by
-selecting one of the types on the left hand side i.e. <span
+selecting one of the types on the left hand side i.e. <span
class="cmtt-10x-x-109">Diode, BJT, MOS, JFET, IGBT,</span>
-<span
-class="cmtt-10x-x-109">Magnetic Core</span>. The template model library opens up in a tabular form as shown in Fig.&#x00A0;<a
+<span
+class="cmtt-10x-x-109">Magnetic Core</span>. The template model library opens up in a tabular form as shown in Fig.&#x00A0;<a
href="#x1-550023">7.3<!--tex4ht:ref: modelnew --></a>
-<hr class="figure"><div class="figure"
+<hr class="figure"><div class="figure"
>
-<a
+<a
id="x1-550023"></a>
-<!--l. 36--><p class="noindent" ><img
-src="figures/modelnew.png" alt="PIC"
+<!--l. 36--><p class="noindent" ><img
+src="figures/modelnew.png" alt="PIC"
>
-<br /> <div class="caption"
-><span class="id">Figure&#x00A0;7.3: </span><span
+<br /> <div class="caption"
+><span class="id">Figure&#x00A0;7.3: </span><span
class="content">Choosing the Template Model Library </span></div><!--tex4ht:label?: x1-550023 -->
<!--l. 39--><p class="indent" > </div><hr class="endfigure">
-<!--l. 43--><p class="indent" > New parameters can be added or current parameters can be removed using <span
+<!--l. 43--><p class="indent" > New parameters can be added or current parameters can be removed using <span
class="cmtt-10x-x-109">ADD</span>
-and <span
+and <span
class="cmtt-10x-x-109">REMOVE </span>buttons. Also the values of parameters can be changed in the table.
-Adding and removing the parameters in library files is shown in the Fig.&#x00A0;<a
+Adding and removing the parameters in library files is shown in the Fig.&#x00A0;<a
href="#x1-550034">7.4<!--tex4ht:ref: modeladd --></a> and
-Fig.&#x00A0;<a
+Fig.&#x00A0;<a
href="#x1-550045">7.5<!--tex4ht:ref: modelremove --></a>
-<!--l. 45--><p class="indent" > <hr class="figure"><div class="figure"
+<!--l. 45--><p class="indent" > <hr class="figure"><div class="figure"
>
-<a
+<a
id="x1-550034"></a>
-<!--l. 47--><p class="noindent" ><img
-src="figures/modeladd.png" alt="PIC"
+<!--l. 47--><p class="noindent" ><img
+src="figures/modeladd.png" alt="PIC"
>
-<br /> <div class="caption"
-><span class="id">Figure&#x00A0;7.4: </span><span
+<br /> <div class="caption"
+><span class="id">Figure&#x00A0;7.4: </span><span
class="content">Adding the Parameter in a Library</span></div><!--tex4ht:label?: x1-550034 -->
<!--l. 50--><p class="indent" > </div><hr class="endfigure">
-<!--l. 52--><p class="indent" > <hr class="figure"><div class="figure"
+<!--l. 52--><p class="indent" > <hr class="figure"><div class="figure"
>
-<a
+<a
id="x1-550045"></a>
-<!--l. 54--><p class="noindent" ><img
-src="figures/modelremove.png" alt="PIC"
+<!--l. 54--><p class="noindent" ><img
+src="figures/modelremove.png" alt="PIC"
>
-<br /> <div class="caption"
-><span class="id">Figure&#x00A0;7.5: </span><span
+<br /> <div class="caption"
+><span class="id">Figure&#x00A0;7.5: </span><span
class="content">Removing a Parameter from a Library </span></div><!--tex4ht:label?: x1-550045 -->
<!--l. 57--><p class="indent" > </div><hr class="endfigure">
-<!--l. 59--><p class="indent" > After the editing of the model library is done, the file can be saved by selecting the <span
+<!--l. 59--><p class="indent" > After the editing of the model library is done, the file can be saved by selecting the <span
class="cmtt-10x-x-109">SAVE</span>
-button. These libraries are saved in the <span
-class="cmti-10x-x-109">User Libraries </span>folder under <span
+button. These libraries are saved in the <span
+class="cmti-10x-x-109">User Libraries </span>folder under <span
class="cmti-10x-x-109">deviceModelLibrary</span>
repository.
- <h3 class="sectionHead"><span class="titlemark">7.2 </span> <a
+ <h3 class="sectionHead"><span class="titlemark">7.2 </span> <a
id="x1-560007.2"></a>Editing Current Model Library</h3>
-<!--l. 62--><p class="noindent" >The existing model library can be modified using <span
-class="cmtt-10x-x-109">EDIT </span>option. On clicking the <span
+<!--l. 62--><p class="noindent" >The existing model library can be modified using <span
+class="cmtt-10x-x-109">EDIT </span>option. On clicking the <span
class="cmtt-10x-x-109">EDIT </span>button
-the file dialog opens where all the library files are saved as shown in Fig.&#x00A0;<a
+the file dialog opens where all the library files are saved as shown in Fig.&#x00A0;<a
href="#x1-560016">7.6<!--tex4ht:ref: modeledit --></a>. You can select
-the library you want to edit. Once you are done with the editing, click on <span
+the library you want to edit. Once you are done with the editing, click on <span
class="cmtt-10x-x-109">SAVE</span>
button.
-<!--l. 65--><p class="indent" > <hr class="figure"><div class="figure"
+<!--l. 65--><p class="indent" > <hr class="figure"><div class="figure"
>
-<a
+<a
id="x1-560016"></a>
-<!--l. 67--><p class="noindent" ><img
-src="figures/modeledit.png" alt="PIC"
+<!--l. 67--><p class="noindent" ><img
+src="figures/modeledit.png" alt="PIC"
>
-<br /> <div class="caption"
-><span class="id">Figure&#x00A0;7.6: </span><span
+<br /> <div class="caption"
+><span class="id">Figure&#x00A0;7.6: </span><span
class="content">Editing Existing Model Library</span></div><!--tex4ht:label?: x1-560016 -->
<!--l. 70--><p class="indent" > </div><hr class="endfigure">
- <h3 class="sectionHead"><span class="titlemark">7.3 </span> <a
+ <h3 class="sectionHead"><span class="titlemark">7.3 </span> <a
id="x1-570007.3"></a>Uploading external .lib file to eSim repository</h3>
<!--l. 73--><p class="noindent" >eSim directly cannot use the external .lib file. It has to be uploaded to eSim repository before
using it in a circuit. eSim provides the facility to upload library files. They are then converted
-into xml format, which can be easily modified from the eSim interface. On clicking <span
+into xml format, which can be easily modified from the eSim interface. On clicking <span
class="cmtt-10x-x-109">UPLOAD</span>
button the library can be uploaded from any location. The model library will be
-saved with the name you have provided, in the <span
+saved with the name you have provided, in the <span
class="cmti-10x-x-109">User Libraries </span>folder of repository
-<span
+<span
class="cmti-10x-x-109">deviceModelLibrary</span>.
- <h2 class="chapterHead"><span class="titlemark">Chapter&#x00A0;8</span><br /><a
+ <h2 class="chapterHead"><span class="titlemark">Chapter&#x00A0;8</span><br /><a
id="x1-580008"></a>SubCircuit Builder</h2> Subcircuit is a way to implement hierarchical modeling.
Once a subcircuit for a compo- nent is created, it can be used in other circuits.
-eSim provides an easy way to create a subcircuit. The following Fig.&#x00A0;<a
+eSim provides an easy way to create a subcircuit. The following Fig.&#x00A0;<a
href="#x1-580011">8.1<!--tex4ht:ref: subcircuit_mainwin --></a> shows
the window that is opened when the SubCircuit tool is chosen from the toolbar.
-<hr class="figure"><div class="figure"
+<hr class="figure"><div class="figure"
>
-<a
+<a
id="x1-580011"></a>
-<!--l. 8--><p class="noindent" ><img
-src="figures/subcirciut_window.png" alt="PIC"
+<!--l. 8--><p class="noindent" ><img
+src="figures/subcirciut_window.png" alt="PIC"
>
-<br /> <div class="caption"
-><span class="id">Figure&#x00A0;8.1: </span><span
+<br /> <div class="caption"
+><span class="id">Figure&#x00A0;8.1: </span><span
class="content">Subcircuit Window</span></div><!--tex4ht:label?: x1-580011 -->
<!--l. 11--><p class="noindent" ></div><hr class="endfigure">
- <h3 class="sectionHead"><span class="titlemark">8.1 </span> <a
+ <h3 class="sectionHead"><span class="titlemark">8.1 </span> <a
id="x1-590008.1"></a>Creating a SubCircuit</h3>
<!--l. 32--><p class="noindent" >The steps to create subcircuit are as follows.
<ul class="itemize1">
- <li class="itemize">After opening the Subcircuit tool, click on <span
+ <li class="itemize">After opening the Subcircuit tool, click on <span
class="cmtt-10x-x-109">New Subcircuit Schematic </span>button.
It will ask the name of the subcircuit. Enter the name of subcircuit (without any
- spaces) and click <span
-class="cmtt-10x-x-109">OK </span>as shown in Fig.&#x00A0;<a
+ spaces) and click <span
+class="cmtt-10x-x-109">OK </span>as shown in Fig.&#x00A0;<a
href="#x1-590012">8.2<!--tex4ht:ref: newsubcktschematic --></a>.
- <!--l. 39--><p class="noindent" ><hr class="figure"><div class="figure"
-><a
- id="x1-590012"></a> <img
-src="figures/newsubcktschematic.png" alt="PIC"
+ <!--l. 39--><p class="noindent" ><hr class="figure"><div class="figure"
+><a
+ id="x1-590012"></a> <img
+src="figures/newsubcktschematic.png" alt="PIC"
>
-<br /> <div class="caption"
-><span class="id">Figure&#x00A0;8.2: </span><span
+<br /> <div class="caption"
+><span class="id">Figure&#x00A0;8.2: </span><span
class="content">New Sub circuit Window</span></div><!--tex4ht:label?: x1-590012 -->
<!--l. 44--><p class="noindent" ></div><hr class="endfigure">
</li>
- <li class="itemize">After clicking <span
+ <li class="itemize">After clicking <span
class="cmtt-10x-x-109">OK </span>button it will open KiCad schematic. Draw your circuit
- which will be later used as a subcircuit. e.g the Fig.&#x00A0;<a
+ which will be later used as a subcircuit. e.g the Fig.&#x00A0;<a
href="#x1-590023">8.3<!--tex4ht:ref: createsubcktsch --></a> shows the half adder
circuit.
- <!--l. 49--><p class="noindent" ><hr class="figure"><div class="figure"
-><a
- id="x1-590023"></a> <img
-src="figures/createsubcktsch.png" alt="PIC"
+ <!--l. 49--><p class="noindent" ><hr class="figure"><div class="figure"
+><a
+ id="x1-590023"></a> <img
+src="figures/createsubcktsch.png" alt="PIC"
>
-<br /> <div class="caption"
-><span class="id">Figure&#x00A0;8.3: </span><span
+<br /> <div class="caption"
+><span class="id">Figure&#x00A0;8.3: </span><span
class="content">New Sub circuit Window</span></div><!--tex4ht:label?: x1-590023 -->
<!--l. 54--><p class="noindent" ></div><hr class="endfigure">
</li>
<li class="itemize">Once you complete the circuit, assign port to the node of your circuit which will be
- used to connect with the main circuit. The circuit will look like Fig.&#x00A0;<a
+ used to connect with the main circuit. The circuit will look like Fig.&#x00A0;<a
href="#x1-590034">8.4<!--tex4ht:ref: halfadder --></a> after
adding PORT to it. The PORT symbol can be found in Eeschema as shown in
- Fig.&#x00A0;<a
+ Fig.&#x00A0;<a
href="#x1-590045">8.5<!--tex4ht:ref: port --></a>.
- <!--l. 61--><p class="noindent" ><hr class="figure"><div class="figure"
-><a
- id="x1-590034"></a> <img
-src="figures/ha_sub.png" alt="PIC"
+ <!--l. 61--><p class="noindent" ><hr class="figure"><div class="figure"
+><a
+ id="x1-590034"></a> <img
+src="figures/ha_sub.png" alt="PIC"
>
-<br /> <div class="caption"
-><span class="id">Figure&#x00A0;8.4: </span><span
+<br /> <div class="caption"
+><span class="id">Figure&#x00A0;8.4: </span><span
class="content">Half-Adder Subcircuit </span></div><!--tex4ht:label?: x1-590034 -->
<!--l. 66--><p class="noindent" ></div><hr class="endfigure">
- <!--l. 69--><p class="noindent" ><hr class="figure"><div class="figure"
-><a
- id="x1-590045"></a> <img
-src="figures/port_lib.png" alt="PIC"
+ <!--l. 69--><p class="noindent" ><hr class="figure"><div class="figure"
+><a
+ id="x1-590045"></a> <img
+src="figures/port_lib.png" alt="PIC"
>
-<br /> <div class="caption"
-><span class="id">Figure&#x00A0;8.5: </span><span
+<br /> <div class="caption"
+><span class="id">Figure&#x00A0;8.5: </span><span
class="content">Selection of PORT component</span></div><!--tex4ht:label?: x1-590045 -->
<!--l. 74--><p class="noindent" ></div><hr class="endfigure">
@@ -2548,45 +2548,45 @@ class="content">Selection of PORT component</span></div><!--tex4ht:label?: x1-59
<li class="itemize">To use this as a subcircuit, create a block in KiCad Eeschema by following steps given
below:
<dl class="enumerate"><dt class="enumerate">
- 1. </dt><dd
+ 1. </dt><dd
class="enumerate">Go to library browser of Eeschema.
</dd><dt class="enumerate">
- 2. </dt><dd
-class="enumerate">Select the working library as eSim_Subckt as shown in Fig.&#x00A0;<a
-href="#x1-590076">8.6<!--tex4ht:ref: esimsubckt --></a> <hr class="figure"><div class="figure"
-><a
- id="x1-590076"></a> <img
-src="figures/esim-subckt.png" alt="PIC"
->
-<br /> <div class="caption"
-><span class="id">Figure&#x00A0;8.6: </span><span
+ 2. </dt><dd
+class="enumerate">Select the working library as eSim_Subckt as shown in Fig.&#x00A0;<a
+href="#x1-590076">8.6<!--tex4ht:ref: esimsubckt --></a> <hr class="figure"><div class="figure"
+><a
+ id="x1-590076"></a> <img
+src="figures/esim-subckt.png" alt="PIC"
+>
+<br /> <div class="caption"
+><span class="id">Figure&#x00A0;8.6: </span><span
class="content">Selecting Working Library</span></div><!--tex4ht:label?: x1-590076 -->
<!--l. 90--><p class="noindent" ></div><hr class="endfigure">
</dd><dt class="enumerate">
- 3. </dt><dd
-class="enumerate">Click on create a new component with reference X as shown in Fig.&#x00A0;<a
-href="#x1-590097">8.7<!--tex4ht:ref: subcktnewcomp --></a> <hr class="figure"><div class="figure"
-><a
+ 3. </dt><dd
+class="enumerate">Click on create a new component with reference X as shown in Fig.&#x00A0;<a
+href="#x1-590097">8.7<!--tex4ht:ref: subcktnewcomp --></a> <hr class="figure"><div class="figure"
+><a
id="x1-590097"></a>
- <img
-src="figures/subcktnewcomp.png" alt="PIC"
+ <img
+src="figures/subcktnewcomp.png" alt="PIC"
>
-<br /> <div class="caption"
-><span class="id">Figure&#x00A0;8.7: </span><span
+<br /> <div class="caption"
+><span class="id">Figure&#x00A0;8.7: </span><span
class="content">Creating New Component</span></div><!--tex4ht:label?: x1-590097 -->
<!--l. 99--><p class="noindent" ></div><hr class="endfigure">
</dd><dt class="enumerate">
- 4. </dt><dd
-class="enumerate">Start drawing the subcircuit block. Update and save it as shown in Fig.&#x00A0;<a
+ 4. </dt><dd
+class="enumerate">Start drawing the subcircuit block. Update and save it as shown in Fig.&#x00A0;<a
href="#x1-590118">8.8<!--tex4ht:ref: block --></a>.
- <!--l. 104--><p class="noindent" ><hr class="figure"><div class="figure"
-><a
- id="x1-590118"></a> <img
-src="figures/halfadderblock.png" alt="PIC"
+ <!--l. 104--><p class="noindent" ><hr class="figure"><div class="figure"
+><a
+ id="x1-590118"></a> <img
+src="figures/halfadderblock.png" alt="PIC"
>
-<br /> <div class="caption"
-><span class="id">Figure&#x00A0;8.8: </span><span
+<br /> <div class="caption"
+><span class="id">Figure&#x00A0;8.8: </span><span
class="content">Half-Adder Subcircuit Block</span></div><!--tex4ht:label?: x1-590118 -->
<!--l. 109--><p class="noindent" ></div><hr class="endfigure">
</dd></dl>
@@ -2598,11 +2598,11 @@ class="content">Half-Adder Subcircuit Block</span></div><!--tex4ht:label?: x1-59
circuit.
</li></ul>
<!--l. 120--><p class="noindent" >
- <h3 class="sectionHead"><span class="titlemark">8.2 </span> <a
+ <h3 class="sectionHead"><span class="titlemark">8.2 </span> <a
id="x1-600008.2"></a>Edit a Subcircuit</h3>
<!--l. 121--><p class="noindent" >The steps to edit a subcircuit are as follows.
<ul class="itemize1">
- <li class="itemize">After opening the Subcircuit tool, click on <span
+ <li class="itemize">After opening the Subcircuit tool, click on <span
class="cmtt-10x-x-109">Edit Subcircuit Schematic </span>button.
It will open a dialog box where you can select any subcircuit for editing.
</li>
@@ -2614,222 +2614,222 @@ class="cmtt-10x-x-109">Edit Subcircuit Schematic </span>button.
<li class="itemize">If you have edited the number of ports then you have to change the block in KiCad
Eeschema accordingly.
</li>
- <li class="itemize">Close the Eeschema window and click on <span
+ <li class="itemize">Close the Eeschema window and click on <span
class="cmtt-10x-x-109">Convert KiCad to Ngspice </span>button in
subcircuit builder tool to convert the edited subcircuit KiCad netlist into Ngspice
netlist.
</li></ul>
- <h2 class="chapterHead"><span class="titlemark">Chapter&#x00A0;9</span><br /><a
+ <h2 class="chapterHead"><span class="titlemark">Chapter&#x00A0;9</span><br /><a
id="x1-610009"></a>Solved Examples</h2>
- <h3 class="sectionHead"><span class="titlemark">9.1 </span> <a
+ <h3 class="sectionHead"><span class="titlemark">9.1 </span> <a
id="x1-620009.1"></a>Solved Examples</h3>
<!--l. 8--><p class="noindent" >
- <h4 class="subsectionHead"><span class="titlemark">9.1.1 </span> <a
+ <h4 class="subsectionHead"><span class="titlemark">9.1.1 </span> <a
id="x1-630009.1.1"></a>Basic RC Circuit</h4>
<!--l. 9--><p class="noindent" >
- <h5 class="subsubsectionHead"><a
+ <h5 class="subsubsectionHead"><a
id="x1-640009.1.1"></a>Problem Statement:</h5>
<!--l. 9--><p class="noindent" >Plot the Input and Output Waveform of an RC circuit whose input voltage (Vs) is 50Hz,
-3V peak to peak. The values of Resistor (R) and Capacitor(C) are 1<span
-class="cmmi-10x-x-109">k </span>and 1<span
+3V peak to peak. The values of Resistor (R) and Capacitor(C) are 1<span
+class="cmmi-10x-x-109">k </span>and 1<span
class="cmmi-10x-x-109">uf</span>
respectively.
- <h5 class="subsubsectionHead"><a
+ <h5 class="subsubsectionHead"><a
id="x1-650009.1.1"></a>Solution:</h5>
<ul class="itemize1">
- <li class="itemize">Creating a Project: The new project is created by clicking the <span
+ <li class="itemize">Creating a Project: The new project is created by clicking the <span
class="cmtt-10x-x-109">New </span>icon on the
menubar. The name of the project is given in the pop up window as shown in
- Fig.&#x00A0;<a
-href="#x1-650011">9.1<!--tex4ht:ref: rc1 --></a>. <hr class="figure"><div class="figure"
-><a
- id="x1-650011"></a> <img
-src="figures/rc1.png" alt="PIC"
->
-<br /> <div class="caption"
-><span class="id">Figure&#x00A0;9.1: </span><span
+ Fig.&#x00A0;<a
+href="#x1-650011">9.1<!--tex4ht:ref: rc1 --></a>. <hr class="figure"><div class="figure"
+><a
+ id="x1-650011"></a> <img
+src="figures/rc1.png" alt="PIC"
+>
+<br /> <div class="caption"
+><span class="id">Figure&#x00A0;9.1: </span><span
class="content">Creating New Project</span></div><!--tex4ht:label?: x1-650011 -->
<!--l. 20--><p class="noindent" ></div><hr class="endfigure">
</li>
<li class="itemize">Creating the Schematic: To create the schematic, click the very first icon of the left
- toolbar as shown in the Fig.&#x00A0;<a
+ toolbar as shown in the Fig.&#x00A0;<a
href="#x1-650022">9.2<!--tex4ht:ref: rc2 --></a>. This will open KiCad Eeschema.
- <!--l. 25--><p class="noindent" ><hr class="figure"><div class="figure"
-><a
- id="x1-650022"></a> <img
-src="figures/rc2.png" alt="PIC"
+ <!--l. 25--><p class="noindent" ><hr class="figure"><div class="figure"
+><a
+ id="x1-650022"></a> <img
+src="figures/rc2.png" alt="PIC"
>
-<br /> <div class="caption"
-><span class="id">Figure&#x00A0;9.2: </span><span
+<br /> <div class="caption"
+><span class="id">Figure&#x00A0;9.2: </span><span
class="content">Open Schematic Editor</span></div><!--tex4ht:label?: x1-650022 -->
<!--l. 31--><p class="noindent" ></div><hr class="endfigure">
- <!--l. 33--><p class="noindent" >To create a schematic in KiCad, we need to place the required components. Fig.&#x00A0;<a
+ <!--l. 33--><p class="noindent" >To create a schematic in KiCad, we need to place the required components. Fig.&#x00A0;<a
href="#x1-650033">9.3<!--tex4ht:ref: rc_component --></a>
shows the icon on the right toolbar which opens the component library.
- <!--l. 35--><p class="noindent" ><hr class="figure"><div class="figure"
-><a
- id="x1-650033"></a> <img
-src="figures/rc_component.png" alt="PIC"
+ <!--l. 35--><p class="noindent" ><hr class="figure"><div class="figure"
+><a
+ id="x1-650033"></a> <img
+src="figures/rc_component.png" alt="PIC"
>
-<br /> <div class="caption"
-><span class="id">Figure&#x00A0;9.3: </span><span
+<br /> <div class="caption"
+><span class="id">Figure&#x00A0;9.3: </span><span
class="content">Place Component Icon</span></div><!--tex4ht:label?: x1-650033 -->
<!--l. 41--><p class="noindent" ></div><hr class="endfigure">
<!--l. 45--><p class="noindent" >After all the required components of the simple RC circuit are placed, wiring is done
- using the <span
-class="cmtt-10x-x-109">Place Wire </span>option as shown in the Fig.&#x00A0;<a
+ using the <span
+class="cmtt-10x-x-109">Place Wire </span>option as shown in the Fig.&#x00A0;<a
href="#x1-650044">9.4<!--tex4ht:ref: rc_wire --></a>
- <!--l. 47--><p class="noindent" ><hr class="figure"><div class="figure"
-><a
- id="x1-650044"></a> <img
-src="figures/rc_wire.png" alt="PIC"
+ <!--l. 47--><p class="noindent" ><hr class="figure"><div class="figure"
+><a
+ id="x1-650044"></a> <img
+src="figures/rc_wire.png" alt="PIC"
>
-<br /> <div class="caption"
-><span class="id">Figure&#x00A0;9.4: </span><span
+<br /> <div class="caption"
+><span class="id">Figure&#x00A0;9.4: </span><span
class="content">Place Wire Icon</span></div><!--tex4ht:label?: x1-650044 -->
<!--l. 53--><p class="noindent" ></div><hr class="endfigure">
- <!--l. 55--><p class="noindent" >Next step is <span
-class="cmtt-10x-x-109">ERC (Electric Rules Check)</span>. Fig.&#x00A0;<a
-href="#x1-650055">9.5<!--tex4ht:ref: erc1 --></a> shows the icon for <span
+ <!--l. 55--><p class="noindent" >Next step is <span
+class="cmtt-10x-x-109">ERC (Electric Rules Check)</span>. Fig.&#x00A0;<a
+href="#x1-650055">9.5<!--tex4ht:ref: erc1 --></a> shows the icon for <span
class="cmtt-10x-x-109">ERC</span>.
- <!--l. 57--><p class="noindent" ><hr class="figure"><div class="figure"
-><a
- id="x1-650055"></a> <img
-src="figures/erc1.png" alt="PIC"
+ <!--l. 57--><p class="noindent" ><hr class="figure"><div class="figure"
+><a
+ id="x1-650055"></a> <img
+src="figures/erc1.png" alt="PIC"
>
-<br /> <div class="caption"
-><span class="id">Figure&#x00A0;9.5: </span><span
+<br /> <div class="caption"
+><span class="id">Figure&#x00A0;9.5: </span><span
class="content">Electric Rules Check Icon</span></div><!--tex4ht:label?: x1-650055 -->
<!--l. 63--><p class="noindent" ></div><hr class="endfigure">
- <!--l. 65--><p class="noindent" >Fig.&#x00A0;<a
+ <!--l. 65--><p class="noindent" >Fig.&#x00A0;<a
href="#x1-650066">9.6<!--tex4ht:ref: rc_complete1 --></a> shows the RC circuit after connecting the components by wire.
- <!--l. 67--><p class="noindent" ><hr class="figure"><div class="figure"
-><a
- id="x1-650066"></a> <img
-src="figures/rc_complete1.png" alt="PIC"
+ <!--l. 67--><p class="noindent" ><hr class="figure"><div class="figure"
+><a
+ id="x1-650066"></a> <img
+src="figures/rc_complete1.png" alt="PIC"
>
-<br /> <div class="caption"
-><span class="id">Figure&#x00A0;9.6: </span><span
+<br /> <div class="caption"
+><span class="id">Figure&#x00A0;9.6: </span><span
class="content">RC circuit</span></div><!--tex4ht:label?: x1-650066 -->
<!--l. 72--><p class="noindent" ></div><hr class="endfigure">
- <!--l. 76--><p class="noindent" >After clicking the <span
-class="cmtt-10x-x-109">ERC </span>icon a window opens up. Click the <span
+ <!--l. 76--><p class="noindent" >After clicking the <span
+class="cmtt-10x-x-109">ERC </span>icon a window opens up. Click the <span
class="cmtt-10x-x-109">Run </span>button to run rules check.
- The errors are listed in as shown in Fig.&#x00A0;<a
-href="#x1-65007r1">9.7a<!--tex4ht:ref: erc2 --></a>. This error is handled by adding <span
+ The errors are listed in as shown in Fig.&#x00A0;<a
+href="#x1-65007r1">9.7a<!--tex4ht:ref: erc2 --></a>. This error is handled by adding <span
class="cmtt-10x-x-109">Power</span>
- <span
-class="cmtt-10x-x-109">Flag </span>as shown in Fig.&#x00A0;<a
+ <span
+class="cmtt-10x-x-109">Flag </span>as shown in Fig.&#x00A0;<a
href="#x1-65008r2">9.7b<!--tex4ht:ref: rc_pwr --></a>.
- <!--l. 78--><p class="noindent" ><hr class="figure"><div class="figure"
-><a
- id="x1-650097"></a> <a
- id="x1-65007r1"></a> <img
-src="figures/erc2.png" alt="PIC"
+ <!--l. 78--><p class="noindent" ><hr class="figure"><div class="figure"
+><a
+ id="x1-650097"></a> <a
+ id="x1-65007r1"></a> <img
+src="figures/erc2.png" alt="PIC"
>
- <span
+ <span
class="cmr-9">(a)</span>
- <span
+ <span
class="cmr-9">ERC</span>
- <span
-class="cmr-9">Run</span> <a
- id="x1-65008r2"></a> <img
-src="figures/rc_pwr.png" alt="PIC"
+ <span
+class="cmr-9">Run</span> <a
+ id="x1-65008r2"></a> <img
+src="figures/rc_pwr.png" alt="PIC"
>
- <span
+ <span
class="cmr-9">(b)</span>
- <span
+ <span
class="cmr-9">Power</span>
- <span
+ <span
class="cmr-9">Flag</span>
-<br /> <div class="caption"
-><span class="id">Figure&#x00A0;9.7: </span><span
+<br /> <div class="caption"
+><span class="id">Figure&#x00A0;9.7: </span><span
class="content">ERC check and POWER FLAG</span></div><!--tex4ht:label?: x1-650097 -->
<!--l. 87--><p class="noindent" ></div><hr class="endfigure">
- <!--l. 89--><p class="noindent" >After adding the <span
-class="cmtt-10x-x-109">Power Flag </span>the completed RC circuit is shown in Fig.&#x00A0;<a
+ <!--l. 89--><p class="noindent" >After adding the <span
+class="cmtt-10x-x-109">Power Flag </span>the completed RC circuit is shown in Fig.&#x00A0;<a
href="#x1-65010r1">9.8a<!--tex4ht:ref: rc_schematic --></a> and the
- netlist is generated as shown in Fig.&#x00A0;<a
+ netlist is generated as shown in Fig.&#x00A0;<a
href="#x1-65011r2">9.8b<!--tex4ht:ref: rc_netlist --></a>.
- <!--l. 92--><p class="noindent" ><hr class="figure"><div class="figure"
-><a
- id="x1-650128"></a> <a
- id="x1-65010r1"></a> <img
-src="figures/rc_schematic.png" alt="PIC"
+ <!--l. 92--><p class="noindent" ><hr class="figure"><div class="figure"
+><a
+ id="x1-650128"></a> <a
+ id="x1-65010r1"></a> <img
+src="figures/rc_schematic.png" alt="PIC"
>
- <span
+ <span
class="cmr-9">(a)</span>
- <span
+ <span
class="cmr-9">Schematic</span>
- <span
+ <span
class="cmr-9">of RC</span>
- <span
-class="cmr-9">circuit</span> <a
- id="x1-65011r2"></a> <img
-src="figures/rc_netlistgeneration.png" alt="PIC"
+ <span
+class="cmr-9">circuit</span> <a
+ id="x1-65011r2"></a> <img
+src="figures/rc_netlistgeneration.png" alt="PIC"
>
- <span
+ <span
class="cmr-9">(b)</span>
- <span
+ <span
class="cmr-9">Generating</span>
- <span
+ <span
class="cmr-9">KiCad</span>
- <span
+ <span
class="cmr-9">Netlist</span>
- <span
+ <span
class="cmr-9">of RC</span>
- <span
+ <span
class="cmr-9">circuit</span>
-<br /> <div class="caption"
-><span class="id">Figure&#x00A0;9.8: </span><span
+<br /> <div class="caption"
+><span class="id">Figure&#x00A0;9.8: </span><span
class="content">RC Schematic and Netlist Generation</span></div><!--tex4ht:label?: x1-650128 -->
<!--l. 101--><p class="noindent" ></div><hr class="endfigure">
</li>
<li class="itemize">Convert KiCad to Ngspice: To convert KiCad netlist of RC circuit to NgSpice
- compatible netlist click on KiCad to Ngspice icon as shown in Fig.&#x00A0;<a
+ compatible netlist click on KiCad to Ngspice icon as shown in Fig.&#x00A0;<a
href="#x1-650139">9.9<!--tex4ht:ref: rcki2ng --></a>.
- <!--l. 107--><p class="noindent" ><hr class="figure"><div class="figure"
-><a
- id="x1-650139"></a> <img
-src="figures/rc_ki2ng.png" alt="PIC"
+ <!--l. 107--><p class="noindent" ><hr class="figure"><div class="figure"
+><a
+ id="x1-650139"></a> <img
+src="figures/rc_ki2ng.png" alt="PIC"
>
-<br /> <div class="caption"
-><span class="id">Figure&#x00A0;9.9: </span><span
+<br /> <div class="caption"
+><span class="id">Figure&#x00A0;9.9: </span><span
class="content">Convert KiCad to Ngspice Icon</span></div><!--tex4ht:label?: x1-650139 -->
<!--l. 112--><p class="noindent" ></div><hr class="endfigure">
- <!--l. 114--><p class="noindent" >Now you can enter the type of analysis and source details as shown in Fig.&#x00A0;<a
+ <!--l. 114--><p class="noindent" >Now you can enter the type of analysis and source details as shown in Fig.&#x00A0;<a
href="#x1-65014r1">9.10a<!--tex4ht:ref: rc_analysistab --></a> and
- Fig.&#x00A0;<a
+ Fig.&#x00A0;<a
href="#x1-65015r2">9.10b<!--tex4ht:ref: rc_sourcedetailstab --></a> respectively.
- <!--l. 116--><p class="noindent" ><hr class="figure"><div class="figure"
-><a
- id="x1-6501610"></a> <a
- id="x1-65014r1"></a> <img
-src="figures/rc_analysistab.png" alt="PIC"
+ <!--l. 116--><p class="noindent" ><hr class="figure"><div class="figure"
+><a
+ id="x1-6501610"></a> <a
+ id="x1-65014r1"></a> <img
+src="figures/rc_analysistab.png" alt="PIC"
>
- <span
+ <span
class="cmr-9">(a)</span>
- <span
+ <span
class="cmr-9">RC</span>
- <span
-class="cmr-9">Analysis</span> <a
- id="x1-65015r2"></a> <img
-src="figures/rc_sourcedetailstab.png" alt="PIC"
+ <span
+class="cmr-9">Analysis</span> <a
+ id="x1-65015r2"></a> <img
+src="figures/rc_sourcedetailstab.png" alt="PIC"
>
- <span
+ <span
class="cmr-9">(b)</span>
- <span
+ <span
class="cmr-9">RC</span>
- <span
+ <span
class="cmr-9">Source</span>
- <span
+ <span
class="cmr-9">Details</span>
-<br /> <div class="caption"
-><span class="id">Figure&#x00A0;9.10: </span><span
+<br /> <div class="caption"
+><span class="id">Figure&#x00A0;9.10: </span><span
class="content">RC Analysis and Source Detail</span></div><!--tex4ht:label?: x1-6501610 -->
<!--l. 125--><p class="noindent" ></div><hr class="endfigure">
<!--l. 126--><p class="noindent" >The other tab will be empty as RC circuit do not use any Ngspice model, device library
@@ -2839,47 +2839,47 @@ class="content">RC Analysis and Source Detail</span></div><!--tex4ht:label?: x1-
</li>
<li class="itemize">Simulation: To run Ngspice simulation click the simulation icon in the tool bar
- as shown in the Fig.&#x00A0;<a
-href="#x1-6501711">9.11<!--tex4ht:ref: rcplot --></a>. <hr class="figure"><div class="figure"
-><a
- id="x1-6501711"></a> <img
-src="figures/rc_plot.png" alt="PIC"
->
-<br /> <div class="caption"
-><span class="id">Figure&#x00A0;9.11: </span><span
+ as shown in the Fig.&#x00A0;<a
+href="#x1-6501711">9.11<!--tex4ht:ref: rcplot --></a>. <hr class="figure"><div class="figure"
+><a
+ id="x1-6501711"></a> <img
+src="figures/rc_plot.png" alt="PIC"
+>
+<br /> <div class="caption"
+><span class="id">Figure&#x00A0;9.11: </span><span
class="content">Simulation Icon</span></div><!--tex4ht:label?: x1-6501711 -->
<!--l. 139--><p class="noindent" ></div><hr class="endfigure">
<!--l. 141--><p class="noindent" >In eSim, there are two types of plot. First is normal Ngspice plot and second is
- interactive python plot as shown in Fig.&#x00A0;<a
-href="#x1-65018r1">9.12a<!--tex4ht:ref: rc_ngspiceplot --></a> and Fig.&#x00A0;<a
+ interactive python plot as shown in Fig.&#x00A0;<a
+href="#x1-65018r1">9.12a<!--tex4ht:ref: rc_ngspiceplot --></a> and Fig.&#x00A0;<a
href="#x1-65019r2">9.12b<!--tex4ht:ref: rc_pythonplot --></a> respectively.
- <!--l. 143--><p class="noindent" ><hr class="figure"><div class="figure"
-><a
- id="x1-6502012"></a> <a
- id="x1-65018r1"></a> <img
-src="figures/rc_ngspiceplot.png" alt="PIC"
+ <!--l. 143--><p class="noindent" ><hr class="figure"><div class="figure"
+><a
+ id="x1-6502012"></a> <a
+ id="x1-65018r1"></a> <img
+src="figures/rc_ngspiceplot.png" alt="PIC"
>
- <span
+ <span
class="cmr-9">(a)</span>
- <span
+ <span
class="cmr-9">Ngspice</span>
- <span
+ <span
class="cmr-9">Plot</span>
- <span
-class="cmr-9">of RC</span> <a
- id="x1-65019r2"></a> <img
-src="figures/rc_pythonplot.png" alt="PIC"
+ <span
+class="cmr-9">of RC</span> <a
+ id="x1-65019r2"></a> <img
+src="figures/rc_pythonplot.png" alt="PIC"
>
- <span
+ <span
class="cmr-9">(b)</span>
- <span
+ <span
class="cmr-9">Python</span>
- <span
+ <span
class="cmr-9">Plot</span>
- <span
+ <span
class="cmr-9">of RC</span>
-<br /> <div class="caption"
-><span class="id">Figure&#x00A0;9.12: </span><span
+<br /> <div class="caption"
+><span class="id">Figure&#x00A0;9.12: </span><span
class="content">Ngspice and Interactive Python Plotting</span></div><!--tex4ht:label?: x1-6502012 -->
<!--l. 152--><p class="noindent" ></div><hr class="endfigure">
<!--l. 154--><p class="noindent" >In the interactive python plot you can select any node or branch to plot voltage or
@@ -2888,788 +2888,785 @@ class="content">Ngspice and Interactive Python Plotting</span></div><!--tex4ht:l
</li></ul>
<!--l. 160--><p class="noindent" >
- <h4 class="subsectionHead"><span class="titlemark">9.1.2 </span> <a
+ <h4 class="subsectionHead"><span class="titlemark">9.1.2 </span> <a
id="x1-660009.1.2"></a>Half Wave Rectifier</h4>
<!--l. 162--><p class="noindent" >
- <h5 class="subsubsectionHead"><a
+ <h5 class="subsubsectionHead"><a
id="x1-670009.1.2"></a>Problem Statement:</h5>
<!--l. 162--><p class="noindent" >Plot the Input and Output Waveform of Half Wave Rectifier circuit where the input voltage
(Vs) is 50Hz, 2V peak to peak. The value for Resistor (R) is 1k.
<!--l. 164--><p class="noindent" >
- <h5 class="subsubsectionHead"><a
+ <h5 class="subsubsectionHead"><a
id="x1-680009.1.2"></a>Solution:</h5>
-<!--l. 165--><p class="noindent" >The new project is created by clicking the <span
+<!--l. 165--><p class="noindent" >The new project is created by clicking the <span
class="cmtt-10x-x-109">New </span>icon on the menubar. The name of the project
-is given in the window shown in Fig.&#x00A0;<a
+is given in the window shown in Fig.&#x00A0;<a
href="#x1-650011">9.1<!--tex4ht:ref: rc1 --></a>.
<ul class="itemize1">
<li class="itemize">Creating Schematic: To create the schematic, click the very first icon of the left
- toolbar as shown in the Fig.&#x00A0;<a
-href="#x1-650022">9.2<!--tex4ht:ref: rc2 --></a>. This will open KiCad Eeschema.<br
+ toolbar as shown in the Fig.&#x00A0;<a
+href="#x1-650022">9.2<!--tex4ht:ref: rc2 --></a>. This will open KiCad Eeschema.<br
class="newline" />
<!--l. 171--><p class="noindent" >After the KiCad window is opened, to create a schematic we need to place the
- required components. Fig.&#x00A0;<a
+ required components. Fig.&#x00A0;<a
href="#x1-650033">9.3<!--tex4ht:ref: rc_component --></a> shows the icon on the right toolbar which opens
- the component library.<br
+ the component library.<br
class="newline" />
<!--l. 174--><p class="noindent" >After all the required components of the simple Half Wave rectifier circuits are
- placed, wiring is done using the <span
-class="cmtt-10x-x-109">Place Wire </span>option as shown in the Fig.&#x00A0;<a
-href="#x1-650044">9.4<!--tex4ht:ref: rc_wire --></a><br
+ placed, wiring is done using the <span
+class="cmtt-10x-x-109">Place Wire </span>option as shown in the Fig.&#x00A0;<a
+href="#x1-650044">9.4<!--tex4ht:ref: rc_wire --></a><br
class="newline" />
- <!--l. 176--><p class="noindent" >Next step is <span
-class="cmtt-10x-x-109">ERC (Electric Rules Check)</span>. Fig.&#x00A0;<a
-href="#x1-650055">9.5<!--tex4ht:ref: erc1 --></a> shows the icon for <span
+ <!--l. 176--><p class="noindent" >Next step is <span
+class="cmtt-10x-x-109">ERC (Electric Rules Check)</span>. Fig.&#x00A0;<a
+href="#x1-650055">9.5<!--tex4ht:ref: erc1 --></a> shows the icon for <span
class="cmtt-10x-x-109">ERC</span>. After
completing all the above steps the final Half Wave Rectifier schematic will look
- like Fig.&#x00A0;<a
-href="#x1-6800113">9.13<!--tex4ht:ref: hwr_schematic --></a>.<br
+ like Fig.&#x00A0;<a
+href="#x1-6800113">9.13<!--tex4ht:ref: hwr_schematic --></a>.<br
class="newline" />
- <!--l. 178--><p class="noindent" ><hr class="figure"><div class="figure"
-><a
- id="x1-6800113"></a> <img
-src="figures/hwr_schematic.png" alt="PIC"
+ <!--l. 178--><p class="noindent" ><hr class="figure"><div class="figure"
+><a
+ id="x1-6800113"></a> <img
+src="figures/hwr_schematic.png" alt="PIC"
>
-<br /> <div class="caption"
-><span class="id">Figure&#x00A0;9.13: </span><span
+<br /> <div class="caption"
+><span class="id">Figure&#x00A0;9.13: </span><span
class="content">Schematic of Half Wave Rectifier circuit</span></div><!--tex4ht:label?: x1-6800113 -->
<!--l. 183--><p class="noindent" ></div><hr class="endfigure">
- <!--l. 187--><p class="noindent" >KiCad netlist is generated as shown in the Fig.&#x00A0;<a
-href="#x1-6800214">9.14<!--tex4ht:ref: hwr_netlistgeneration --></a> <br
+ <!--l. 187--><p class="noindent" >KiCad netlist is generated as shown in the Fig.&#x00A0;<a
+href="#x1-6800214">9.14<!--tex4ht:ref: hwr_netlistgeneration --></a> <br
class="newline" />
- <!--l. 189--><p class="noindent" ><hr class="figure"><div class="figure"
-><a
- id="x1-6800214"></a> <img
-src="figures/hwr_netlistgeneration.png" alt="PIC"
+ <!--l. 189--><p class="noindent" ><hr class="figure"><div class="figure"
+><a
+ id="x1-6800214"></a> <img
+src="figures/hwr_netlistgeneration.png" alt="PIC"
>
-<br /> <div class="caption"
-><span class="id">Figure&#x00A0;9.14: </span><span
+<br /> <div class="caption"
+><span class="id">Figure&#x00A0;9.14: </span><span
class="content">Half Wave Rectifier circuit Netlist Generation</span></div><!--tex4ht:label?: x1-6800214 -->
<!--l. 194--><p class="noindent" ></div><hr class="endfigure">
</li>
- <li class="itemize">Convert KiCad to Ngspice: After creating KiCad netlist, click on the <span
+ <li class="itemize">Convert KiCad to Ngspice: After creating KiCad netlist, click on the <span
class="cmtt-10x-x-109">KiCad-Ngspice</span>
- <span
+ <span
class="cmtt-10x-x-109">converter </span>button. This will open converter window where you can enter details of
Analysis, Source values and Device library.
- <!--l. 198--><p class="noindent" ><hr class="figure"><div class="figure"
-><a
- id="x1-6800615"></a> <a
- id="x1-68003r1"></a> <img
-src="figures/hwr_analysistab.png" alt="PIC"
+ <!--l. 198--><p class="noindent" ><hr class="figure"><div class="figure"
+><a
+ id="x1-6800615"></a> <a
+ id="x1-68003r1"></a> <img
+src="figures/hwr_analysistab.png" alt="PIC"
>
- <span
+ <span
class="cmr-9">(a)</span>
- <span
+ <span
class="cmr-9">Half</span>
- <span
+ <span
class="cmr-9">Wave</span>
- <span
+ <span
class="cmr-9">Rectifier</span>
- <span
-class="cmr-9">Analysis</span> <a
- id="x1-68004r2"></a> <img
-src="figures/hwr_sourcedetailstab.png" alt="PIC"
+ <span
+class="cmr-9">Analysis</span> <a
+ id="x1-68004r2"></a> <img
+src="figures/hwr_sourcedetailstab.png" alt="PIC"
>
- <span
+ <span
class="cmr-9">(b)</span>
- <span
+ <span
class="cmr-9">Half</span>
- <span
+ <span
class="cmr-9">Wave</span>
- <span
+ <span
class="cmr-9">Rectifier</span>
- <span
+ <span
class="cmr-9">Source</span>
- <span
-class="cmr-9">Details</span> <a
- id="x1-68005r3"></a> <img
-src="figures/hwr_devicemodelingtab.png" alt="PIC"
+ <span
+class="cmr-9">Details</span> <a
+ id="x1-68005r3"></a> <img
+src="figures/hwr_devicemodelingtab.png" alt="PIC"
>
- <span
+ <span
class="cmr-9">(c)</span>
- <span
+ <span
class="cmr-9">Half</span>
- <span
+ <span
class="cmr-9">Wave</span>
- <span
+ <span
class="cmr-9">Rectifier</span>
- <span
+ <span
class="cmr-9">Device</span>
- <span
+ <span
class="cmr-9">Modeling</span>
-<br /> <div class="caption"
-><span class="id">Figure&#x00A0;9.15: </span><span
+<br /> <div class="caption"
+><span class="id">Figure&#x00A0;9.15: </span><span
class="content">Analysis, Source and Device Tab</span></div><!--tex4ht:label?: x1-6800615 -->
<!--l. 210--><p class="noindent" ></div><hr class="endfigure">
<!--l. 212--><p class="noindent" >Under device library you can add the library for diode used in the circuit. If you do not
add any library it will take default Ngspice model.
</li>
<li class="itemize">Simulation: Once the KiCad-Ngspice converter runs successfully, you can run
- simulation by clicking the simulation button in the toolbar. <hr class="figure"><div class="figure"
-><a
- id="x1-6800916"></a> <a
- id="x1-68007r1"></a> <img
-src="figures/hwr_ngspiceplot.png" alt="PIC"
->
-<span
-class="cmr-9">(a)</span>
-<span
-class="cmr-9">Ngspice</span>
-<span
-class="cmr-9">Plot</span>
-<span
-class="cmr-9">of</span>
-<span
-class="cmr-9">Half</span>
-<span
-class="cmr-9">Wave</span>
-<span
-class="cmr-9">Rectifier</span> <a
- id="x1-68008r2"></a> <img
-src="figures/hwr_pythonplot.png" alt="PIC"
->
- <span
+ simulation by clicking the simulation button in the toolbar. <hr class="figure"><div class="figure"
+><a
+ id="x1-6800916"></a> <a
+ id="x1-68007r1"></a> <img
+src="figures/hwr_ngspiceplot.png" alt="PIC"
+>
+<span
+class="cmr-9">(a)</span>
+<span
+class="cmr-9">Ngspice</span>
+<span
+class="cmr-9">Plot</span>
+<span
+class="cmr-9">of</span>
+<span
+class="cmr-9">Half</span>
+<span
+class="cmr-9">Wave</span>
+<span
+class="cmr-9">Rectifier</span> <a
+ id="x1-68008r2"></a> <img
+src="figures/hwr_pythonplot.png" alt="PIC"
+>
+ <span
class="cmr-9">(b)</span>
- <span
+ <span
class="cmr-9">Python</span>
- <span
+ <span
class="cmr-9">Plot</span>
- <span
+ <span
class="cmr-9">of</span>
- <span
+ <span
class="cmr-9">Half</span>
- <span
+ <span
class="cmr-9">Wave</span>
- <span
+ <span
class="cmr-9">Rectifier</span>
-<br /> <div class="caption"
-><span class="id">Figure&#x00A0;9.16: </span><span
+<br /> <div class="caption"
+><span class="id">Figure&#x00A0;9.16: </span><span
class="content">Half Wave Rectifier Simulation Output</span></div><!--tex4ht:label?: x1-6800916 -->
<!--l. 225--><p class="noindent" ></div><hr class="endfigure">
</li></ul>
<!--l. 232--><p class="noindent" >
- <h4 class="subsectionHead"><span class="titlemark">9.1.3 </span> <a
+ <h4 class="subsectionHead"><span class="titlemark">9.1.3 </span> <a
id="x1-690009.1.3"></a>Precision Rectifier</h4>
<!--l. 233--><p class="noindent" >
- <h5 class="subsubsectionHead"><a
+ <h5 class="subsubsectionHead"><a
id="x1-700009.1.3"></a>Problem Statement:</h5>
<!--l. 233--><p class="noindent" >Plot the input and output waveform of the Precision Rectifier circuit where input voltage
-(Vs) is 50<span
-class="cmmi-10x-x-109">Hz </span>, 3<span
+(Vs) is 50<span
+class="cmmi-10x-x-109">Hz </span>, 3<span
class="cmmi-10x-x-109">V </span>peak to peak.
<!--l. 235--><p class="noindent" >
- <h5 class="subsubsectionHead"><a
+ <h5 class="subsubsectionHead"><a
id="x1-710009.1.3"></a>Solution:</h5>
-<!--l. 236--><p class="noindent" >The new project is created by clicking the <span
+<!--l. 236--><p class="noindent" >The new project is created by clicking the <span
class="cmtt-10x-x-109">New </span>icon on the menubar. The name of the project
-is given as shown in the Fig.&#x00A0;<a
+is given as shown in the Fig.&#x00A0;<a
href="#x1-650011">9.1<!--tex4ht:ref: rc1 --></a>.
<ul class="itemize1">
<li class="itemize">Creating Schematic: To create the schematic, click the very first icon of the left
- toolbar as shown in the Fig.&#x00A0;<a
-href="#x1-650022">9.2<!--tex4ht:ref: rc2 --></a>. This will open KiCad Eeschema.<br
+ toolbar as shown in the Fig.&#x00A0;<a
+href="#x1-650022">9.2<!--tex4ht:ref: rc2 --></a>. This will open KiCad Eeschema.<br
class="newline" />After the KiCad window is opened, to create a schematic we need to place the
- required components. Fig.&#x00A0;<a
+ required components. Fig.&#x00A0;<a
href="#x1-650033">9.3<!--tex4ht:ref: rc_component --></a> shows the icon on the right toolbar which opens
- the component library.<br
+ the component library.<br
class="newline" />After all the required components of the precision rectifier circuit are placed,
- wiring is done using the <span
-class="cmtt-10x-x-109">Place Wire </span>option as shown in the Fig.&#x00A0;<a
-href="#x1-650044">9.4<!--tex4ht:ref: rc_wire --></a>.<br
-class="newline" />Next step is <span
-class="cmtt-10x-x-109">ERC (Electric Rules Check)</span>. Fig.&#x00A0;<a
-href="#x1-650055">9.5<!--tex4ht:ref: erc1 --></a> shows the icon for <span
+ wiring is done using the <span
+class="cmtt-10x-x-109">Place Wire </span>option as shown in the Fig.&#x00A0;<a
+href="#x1-650044">9.4<!--tex4ht:ref: rc_wire --></a>.<br
+class="newline" />Next step is <span
+class="cmtt-10x-x-109">ERC (Electric Rules Check)</span>. Fig.&#x00A0;<a
+href="#x1-650055">9.5<!--tex4ht:ref: erc1 --></a> shows the icon for <span
class="cmtt-10x-x-109">ERC</span>. The
- Fig.&#x00A0;<a
+ Fig.&#x00A0;<a
href="#x1-7100117">9.17<!--tex4ht:ref: pr_schematic --></a> shows the complete Precision Rectifier schematic after removing the
errors.
- <!--l. 246--><p class="noindent" ><hr class="figure"><div class="figure"
-><a
- id="x1-7100117"></a> <img
-src="figures/pr_schematic.png" alt="PIC"
+ <!--l. 246--><p class="noindent" ><hr class="figure"><div class="figure"
+><a
+ id="x1-7100117"></a> <img
+src="figures/pr_schematic.png" alt="PIC"
>
-<br /> <div class="caption"
-><span class="id">Figure&#x00A0;9.17: </span><span
+<br /> <div class="caption"
+><span class="id">Figure&#x00A0;9.17: </span><span
class="content">Schematic of Precision Rectifier circuit</span></div><!--tex4ht:label?: x1-7100117 -->
<!--l. 251--><p class="noindent" ></div><hr class="endfigure">
- <!--l. 253--><p class="noindent" >The KiCad netlist is generated as shown in Fig.&#x00A0;<a
-href="#x1-7100218">9.18<!--tex4ht:ref: pr_netlistgeneration --></a>.<br
+ <!--l. 253--><p class="noindent" >The KiCad netlist is generated as shown in Fig.&#x00A0;<a
+href="#x1-7100218">9.18<!--tex4ht:ref: pr_netlistgeneration --></a>.<br
class="newline" />
- <!--l. 255--><p class="noindent" ><hr class="figure"><div class="figure"
-><a
- id="x1-7100218"></a> <img
-src="figures/pr_netlistgeneration.png" alt="PIC"
+ <!--l. 255--><p class="noindent" ><hr class="figure"><div class="figure"
+><a
+ id="x1-7100218"></a> <img
+src="figures/pr_netlistgeneration.png" alt="PIC"
>
-<br /> <div class="caption"
-><span class="id">Figure&#x00A0;9.18: </span><span
+<br /> <div class="caption"
+><span class="id">Figure&#x00A0;9.18: </span><span
class="content">Precision Rectifier circuit Netlist Generation</span></div><!--tex4ht:label?: x1-7100218 -->
<!--l. 260--><p class="noindent" ></div><hr class="endfigure">
</li>
<li class="itemize">Convert KiCad to Ngspice: After creating KiCad netlist, click on KiCad-Ngspice
- converter button.<br
+ converter button.<br
class="newline" />
<!--l. 266--><p class="noindent" >This will open converter window where you can enter details of Analysis, Source values,
Device library and Subcircuit.
- <!--l. 268--><p class="noindent" ><hr class="figure"><div class="figure"
-><a
- id="x1-7100719"></a> <a
- id="x1-71003r1"></a> <img
-src="figures/pr_analysistab.png" alt="PIC"
+ <!--l. 268--><p class="noindent" ><hr class="figure"><div class="figure"
+><a
+ id="x1-7100719"></a> <a
+ id="x1-71003r1"></a> <img
+src="figures/pr_analysistab.png" alt="PIC"
>
- <span
+ <span
class="cmr-9">(a)</span>
- <span
+ <span
class="cmr-9">Precision</span>
- <span
+ <span
class="cmr-9">Rectifier</span>
- <span
-class="cmr-9">Analysis</span> <a
- id="x1-71004r2"></a> <img
-src="figures/pr_sourcedetailstab.png" alt="PIC"
+ <span
+class="cmr-9">Analysis</span> <a
+ id="x1-71004r2"></a> <img
+src="figures/pr_sourcedetailstab.png" alt="PIC"
>
- <span
+ <span
class="cmr-9">(b)</span>
- <span
+ <span
class="cmr-9">Precision</span>
- <span
+ <span
class="cmr-9">Rectifier</span>
- <span
+ <span
class="cmr-9">Source</span>
- <span
+ <span
class="cmr-9">Details</span>
-<a
+<a
id="x1-71005r3"></a>
-<!--l. 278--><p class="noindent" > <img
-src="figures/pr_devicemodelingtab.png" alt="PIC"
+<!--l. 278--><p class="noindent" > <img
+src="figures/pr_devicemodelingtab.png" alt="PIC"
>
-<span
+<span
class="cmr-9">(c)</span>
-<span
+<span
class="cmr-9">Precision</span>
-<span
+<span
class="cmr-9">Rectifier</span>
-<span
+<span
class="cmr-9">Device</span>
-<span
-class="cmr-9">Modeling</span> <a
- id="x1-71006r4"></a> <img
-src="figures/pr_subcircuitstab.png" alt="PIC"
+<span
+class="cmr-9">Modeling</span> <a
+ id="x1-71006r4"></a> <img
+src="figures/pr_subcircuitstab.png" alt="PIC"
>
- <span
+ <span
class="cmr-9">(d)</span>
- <span
+ <span
class="cmr-9">Precision</span>
- <span
+ <span
class="cmr-9">Rectifier</span>
- <span
+ <span
class="cmr-9">Subcircuit</span>
-<br /> <div class="caption"
-><span class="id">Figure&#x00A0;9.19: </span><span
+<br /> <div class="caption"
+><span class="id">Figure&#x00A0;9.19: </span><span
class="content">Analysis, Source, Device library and Subcircuit tab</span></div><!--tex4ht:label?: x1-7100719 -->
<!--l. 283--><p class="noindent" ></div><hr class="endfigure">
<!--l. 285--><p class="noindent" >Under device library you can add the library for the diode used in the circuit. If you do
- not add any library it will take default Ngspice model for diode.<br
+ not add any library it will take default Ngspice model for diode.<br
class="newline" />
<!--l. 288--><p class="noindent" >Under subcircuit tab you have to add the subciruit used in your circuit. If you forget to
add subcircuit it will throw an error.
</li>
<li class="itemize">Simulation: Once the KiCad-Ngspice converter runs successfully, you can run the
- simulation by clicking the simulation button in the toolbar. <hr class="figure"><div class="figure"
-><a
- id="x1-7101020"></a> <a
- id="x1-71008r1"></a> <img
-src="figures/pr_ngspiceplot.png" alt="PIC"
->
-<span
-class="cmr-9">(a)</span>
-<span
-class="cmr-9">Ngspice</span>
-<span
-class="cmr-9">Plot</span>
-<span
-class="cmr-9">of</span>
-<span
-class="cmr-9">Precision</span>
-<span
-class="cmr-9">Rectifier</span> <a
- id="x1-71009r2"></a> <img
-src="figures/pr_pythonplot.png" alt="PIC"
->
- <span
+ simulation by clicking the simulation button in the toolbar. <hr class="figure"><div class="figure"
+><a
+ id="x1-7101020"></a> <a
+ id="x1-71008r1"></a> <img
+src="figures/pr_ngspiceplot.png" alt="PIC"
+>
+<span
+class="cmr-9">(a)</span>
+<span
+class="cmr-9">Ngspice</span>
+<span
+class="cmr-9">Plot</span>
+<span
+class="cmr-9">of</span>
+<span
+class="cmr-9">Precision</span>
+<span
+class="cmr-9">Rectifier</span> <a
+ id="x1-71009r2"></a> <img
+src="figures/pr_pythonplot.png" alt="PIC"
+>
+ <span
class="cmr-9">(b)</span>
- <span
+ <span
class="cmr-9">Python</span>
- <span
+ <span
class="cmr-9">Plot</span>
- <span
+ <span
class="cmr-9">of</span>
- <span
+ <span
class="cmr-9">Precision</span>
- <span
+ <span
class="cmr-9">Rectifier</span>
-<br /> <div class="caption"
-><span class="id">Figure&#x00A0;9.20: </span><span
+<br /> <div class="caption"
+><span class="id">Figure&#x00A0;9.20: </span><span
class="content">Precision Rectifier Simulation Output</span></div><!--tex4ht:label?: x1-7101020 -->
<!--l. 302--><p class="noindent" ></div><hr class="endfigure">
</li></ul>
<!--l. 309--><p class="noindent" >
- <h4 class="subsectionHead"><span class="titlemark">9.1.4 </span> <a
+ <h4 class="subsectionHead"><span class="titlemark">9.1.4 </span> <a
id="x1-720009.1.4"></a>Inverting Amplifier</h4>
<!--l. 310--><p class="noindent" >
- <h5 class="subsubsectionHead"><a
+ <h5 class="subsubsectionHead"><a
id="x1-730009.1.4"></a>Problem Statement:</h5>
<!--l. 311--><p class="noindent" >Plot the Input and Output Waveform of Inverting Amplifier circuit where the input voltage
-(Vs) is 50<span
-class="cmmi-10x-x-109">Hz</span>, 2<span
+(Vs) is 50<span
+class="cmmi-10x-x-109">Hz</span>, 2<span
class="cmmi-10x-x-109">V </span>peak to peak and gain is 2.
- <h5 class="subsubsectionHead"><a
+ <h5 class="subsubsectionHead"><a
id="x1-740009.1.4"></a>Solution:</h5>
<ul class="itemize1">
<li class="itemize">Creating Schematic: To create the schematic, click the very first icon of the left
- toolbar as shown in the Fig.&#x00A0;<a
-href="#x1-650022">9.2<!--tex4ht:ref: rc2 --></a>. This will open KiCad Eeschema.<br
+ toolbar as shown in the Fig.&#x00A0;<a
+href="#x1-650022">9.2<!--tex4ht:ref: rc2 --></a>. This will open KiCad Eeschema.<br
class="newline" />After the KiCad window is opened, to create a schematic we need to place the
- required components. Fig.&#x00A0;<a
+ required components. Fig.&#x00A0;<a
href="#x1-650033">9.3<!--tex4ht:ref: rc_component --></a> shows the icon on the right toolbar which opens
- the component library.<br
+ the component library.<br
class="newline" />After all the required components of the inverting amplifier circuit are placed,
- wiring is done using the <span
-class="cmtt-10x-x-109">Place Wire </span>option as shown in the Fig.&#x00A0;<a
-href="#x1-650044">9.4<!--tex4ht:ref: rc_wire --></a>.<br
-class="newline" />Next step is <span
-class="cmtt-10x-x-109">ERC (Electric Rules Check)</span>. Fig.&#x00A0;<a
-href="#x1-650055">9.5<!--tex4ht:ref: erc1 --></a> shows the icon for <span
+ wiring is done using the <span
+class="cmtt-10x-x-109">Place Wire </span>option as shown in the Fig.&#x00A0;<a
+href="#x1-650044">9.4<!--tex4ht:ref: rc_wire --></a>.<br
+class="newline" />Next step is <span
+class="cmtt-10x-x-109">ERC (Electric Rules Check)</span>. Fig.&#x00A0;<a
+href="#x1-650055">9.5<!--tex4ht:ref: erc1 --></a> shows the icon for <span
class="cmtt-10x-x-109">ERC</span>.
- <!--l. 321--><p class="noindent" >The Fig.&#x00A0;<a
+ <!--l. 321--><p class="noindent" >The Fig.&#x00A0;<a
href="#x1-7400121">9.21<!--tex4ht:ref: ia_schematic --></a> shows the complete Precision Rectifier schematic after removing
the errors.
- <!--l. 323--><p class="noindent" ><hr class="figure"><div class="figure"
-><a
- id="x1-7400121"></a> <img
-src="figures/ia_schematic.png" alt="PIC"
+ <!--l. 323--><p class="noindent" ><hr class="figure"><div class="figure"
+><a
+ id="x1-7400121"></a> <img
+src="figures/ia_schematic.png" alt="PIC"
>
-<br /> <div class="caption"
-><span class="id">Figure&#x00A0;9.21: </span><span
+<br /> <div class="caption"
+><span class="id">Figure&#x00A0;9.21: </span><span
class="content">Schematic of Inverting Amplifier circuit</span></div><!--tex4ht:label?: x1-7400121 -->
<!--l. 328--><p class="noindent" ></div><hr class="endfigure">
- <!--l. 330--><p class="noindent" >The KiCad netlist is generated as shown in Fig.&#x00A0;<a
-href="#x1-7400222">9.22<!--tex4ht:ref: ia_netlistgeneration --></a>.<br
-class="newline" /><hr class="figure"><div class="figure"
-><a
- id="x1-7400222"></a> <img
-src="figures/ia_netlistgeneration.png" alt="PIC"
->
-<br /> <div class="caption"
-><span class="id">Figure&#x00A0;9.22: </span><span
+ <!--l. 330--><p class="noindent" >The KiCad netlist is generated as shown in Fig.&#x00A0;<a
+href="#x1-7400222">9.22<!--tex4ht:ref: ia_netlistgeneration --></a>.<br
+class="newline" /><hr class="figure"><div class="figure"
+><a
+ id="x1-7400222"></a> <img
+src="figures/ia_netlistgeneration.png" alt="PIC"
+>
+<br /> <div class="caption"
+><span class="id">Figure&#x00A0;9.22: </span><span
class="content">Inverting Amplifier circuit Netlist Generation</span></div><!--tex4ht:label?: x1-7400222 -->
<!--l. 336--><p class="noindent" ></div><hr class="endfigure">
</li>
<li class="itemize">Convert KiCad to Ngspice: After creating KiCad netlist, click on KiCad-Ngspice
- converter button.<br
+ converter button.<br
class="newline" />
<!--l. 342--><p class="noindent" >This will open converter window where you can enter details of Analysis, Source values,
Device library and Subcircuit.
- <!--l. 344--><p class="noindent" >Subcircuit of Op-Amp is shown in Fig.&#x00A0;<a
-href="#x1-74006r4">9.23d<!--tex4ht:ref: ia_sub --></a> <hr class="figure"><div class="figure"
-><a
- id="x1-7400723"></a> <a
- id="x1-74003r1"></a> <img
-src="figures/ia_analysistab.png" alt="PIC"
->
-<span
-class="cmr-9">(a)</span>
-<span
-class="cmr-9">Inverting</span>
-<span
-class="cmr-9">Amplifier</span>
-<span
-class="cmr-9">Analysis</span> <a
- id="x1-74004r2"></a> <img
-src="figures/ia_sourcedetailstab.png" alt="PIC"
->
- <span
+ <!--l. 344--><p class="noindent" >Subcircuit of Op-Amp is shown in Fig.&#x00A0;<a
+href="#x1-74006r4">9.23d<!--tex4ht:ref: ia_sub --></a> <hr class="figure"><div class="figure"
+><a
+ id="x1-7400723"></a> <a
+ id="x1-74003r1"></a> <img
+src="figures/ia_analysistab.png" alt="PIC"
+>
+<span
+class="cmr-9">(a)</span>
+<span
+class="cmr-9">Inverting</span>
+<span
+class="cmr-9">Amplifier</span>
+<span
+class="cmr-9">Analysis</span> <a
+ id="x1-74004r2"></a> <img
+src="figures/ia_sourcedetailstab.png" alt="PIC"
+>
+ <span
class="cmr-9">(b)</span>
- <span
+ <span
class="cmr-9">Inverting</span>
- <span
+ <span
class="cmr-9">Amplifier</span>
- <span
+ <span
class="cmr-9">Source</span>
- <span
+ <span
class="cmr-9">Details</span>
-<a
+<a
id="x1-74005r3"></a>
-<!--l. 355--><p class="noindent" > <img
-src="figures/ia_subcircuitstab.png" alt="PIC"
+<!--l. 355--><p class="noindent" > <img
+src="figures/ia_subcircuitstab.png" alt="PIC"
>
-<span
+<span
class="cmr-9">(c)</span>
-<span
+<span
class="cmr-9">Inverting</span>
-<span
+<span
class="cmr-9">Amplifier</span>
-<span
-class="cmr-9">Subcircuit</span> <a
- id="x1-74006r4"></a> <img
-src="figures/ia_sub.png" alt="PIC"
+<span
+class="cmr-9">Subcircuit</span> <a
+ id="x1-74006r4"></a> <img
+src="figures/ia_sub.png" alt="PIC"
>
- <span
+ <span
class="cmr-9">(d)</span>
- <span
+ <span
class="cmr-9">Sub-Circuit</span>
- <span
+ <span
class="cmr-9">of</span>
- <span
+ <span
class="cmr-9">Op-Amp</span>
-<br /> <div class="caption"
-><span class="id">Figure&#x00A0;9.23: </span><span
+<br /> <div class="caption"
+><span class="id">Figure&#x00A0;9.23: </span><span
class="content">Analysis, Source, and Subcircuit tab</span></div><!--tex4ht:label?: x1-7400723 -->
<!--l. 360--><p class="noindent" ></div><hr class="endfigure">
<!--l. 363--><p class="noindent" >Under subcircuit tab you have to add the subciruit used in your circuit. If you forget to
- add subcircuit, it will throw an error.<br
+ add subcircuit, it will throw an error.<br
class="newline" />
</li>
<li class="itemize">Simulation: Once the KiCad-Ngspice converter runs successfully, you can run
- simulation by clicking the simulation button in the toolbar. <hr class="figure"><div class="figure"
-><a
- id="x1-7401024"></a> <a
- id="x1-74008r1"></a> <img
-src="figures/ia_ngspiceplot.png" alt="PIC"
->
-<span
-class="cmr-9">(a)</span>
-<span
-class="cmr-9">Inverting</span>
-<span
-class="cmr-9">Amplifier</span>
-<span
-class="cmr-9">Ngspice</span>
-<span
+ simulation by clicking the simulation button in the toolbar. <hr class="figure"><div class="figure"
+><a
+ id="x1-7401024"></a> <a
+ id="x1-74008r1"></a> <img
+src="figures/ia_ngspiceplot.png" alt="PIC"
+>
+<span
+class="cmr-9">(a)</span>
+<span
+class="cmr-9">Inverting</span>
+<span
+class="cmr-9">Amplifier</span>
+<span
+class="cmr-9">Ngspice</span>
+<span
class="cmr-9">Plot</span>
-<a
+<a
id="x1-74009r2"></a>
-<!--l. 374--><p class="noindent" > <img
-src="figures/ia_pythonplot.png" alt="PIC"
+<!--l. 374--><p class="noindent" > <img
+src="figures/ia_pythonplot.png" alt="PIC"
>
-<span
+<span
class="cmr-9">(b)</span>
-<span
+<span
class="cmr-9">Inverting</span>
-<span
+<span
class="cmr-9">Amplifier</span>
-<span
+<span
class="cmr-9">Python</span>
-<span
+<span
class="cmr-9">Plot</span>
-<br /> <div class="caption"
-><span class="id">Figure&#x00A0;9.24: </span><span
+<br /> <div class="caption"
+><span class="id">Figure&#x00A0;9.24: </span><span
class="content">Inverting Amplifier Simulation Output</span></div><!--tex4ht:label?: x1-7401024 -->
<!--l. 376--><p class="noindent" ></div><hr class="endfigure">
</li></ul>
<!--l. 386--><p class="noindent" >
- <h4 class="subsectionHead"><span class="titlemark">9.1.5 </span> <a
+ <h4 class="subsectionHead"><span class="titlemark">9.1.5 </span> <a
id="x1-750009.1.5"></a>Half Adder Example</h4>
<!--l. 388--><p class="noindent" >
- <h5 class="subsubsectionHead"><a
+ <h5 class="subsubsectionHead"><a
id="x1-760009.1.5"></a>Problem Statement:</h5>
<!--l. 388--><p class="noindent" >Plot the Input and Output Waveform of Half Adder circuit.
<!--l. 390--><p class="noindent" >
- <h5 class="subsubsectionHead"><a
+ <h5 class="subsubsectionHead"><a
id="x1-770009.1.5"></a>Solution:</h5>
<ul class="itemize1">
<li class="itemize">Creating Schematic: To create the schematic, click the very first icon of the left
- toolbar as shown in the Fig.&#x00A0;<a
-href="#x1-650022">9.2<!--tex4ht:ref: rc2 --></a>. This will open KiCad Eeschema.<br
+ toolbar as shown in the Fig.&#x00A0;<a
+href="#x1-650022">9.2<!--tex4ht:ref: rc2 --></a>. This will open KiCad Eeschema.<br
class="newline" />After the KiCad window is opened, to create a schematic we need to place the
- required components. Fig.&#x00A0;<a
+ required components. Fig.&#x00A0;<a
href="#x1-650033">9.3<!--tex4ht:ref: rc_component --></a> shows the icon on the right toolbar which opens
- the component library.<br
+ the component library.<br
class="newline" />After all the required components of the Half Adder circuit are placed, wiring is
- done using the <span
-class="cmtt-10x-x-109">Place Wire </span>option as shown in the Fig.&#x00A0;<a
-href="#x1-650044">9.4<!--tex4ht:ref: rc_wire --></a>.<br
-class="newline" />Next step is <span
-class="cmtt-10x-x-109">ERC (Electric Rules Check)</span>. Fig.&#x00A0;<a
-href="#x1-650055">9.5<!--tex4ht:ref: erc1 --></a> shows the icon for <span
+ done using the <span
+class="cmtt-10x-x-109">Place Wire </span>option as shown in the Fig.&#x00A0;<a
+href="#x1-650044">9.4<!--tex4ht:ref: rc_wire --></a>.<br
+class="newline" />Next step is <span
+class="cmtt-10x-x-109">ERC (Electric Rules Check)</span>. Fig.&#x00A0;<a
+href="#x1-650055">9.5<!--tex4ht:ref: erc1 --></a> shows the icon for <span
class="cmtt-10x-x-109">ERC</span>.
- <!--l. 399--><p class="noindent" >The Fig.&#x00A0;<a
+ <!--l. 399--><p class="noindent" >The Fig.&#x00A0;<a
href="#x1-7700125">9.25<!--tex4ht:ref: ha_schematic --></a> shows the complete Half Adder schematic after removing the
- errors. <hr class="figure"><div class="figure"
-><a
- id="x1-7700125"></a> <img
-src="figures/ha_schematic.png" alt="PIC"
+ errors. <hr class="figure"><div class="figure"
+><a
+ id="x1-7700125"></a> <img
+src="figures/ha_schematic.png" alt="PIC"
>
-<br /> <div class="caption"
-><span class="id">Figure&#x00A0;9.25: </span><span
+<br /> <div class="caption"
+><span class="id">Figure&#x00A0;9.25: </span><span
class="content">Schematic of Half Adder circuit</span></div><!--tex4ht:label?: x1-7700125 -->
<!--l. 405--><p class="noindent" ></div><hr class="endfigure">
- <!--l. 407--><p class="noindent" >The KiCad netlist is generated as shown in Fig.&#x00A0;<a
-href="#x1-7700226">9.26<!--tex4ht:ref: ha_netlistgeneration --></a>.<br
-class="newline" /><hr class="figure"><div class="figure"
-><a
- id="x1-7700226"></a> <img
-src="figures/ha_netlistgeneration.png" alt="PIC"
->
-<br /> <div class="caption"
-><span class="id">Figure&#x00A0;9.26: </span><span
+ <!--l. 407--><p class="noindent" >The KiCad netlist is generated as shown in Fig.&#x00A0;<a
+href="#x1-7700226">9.26<!--tex4ht:ref: ha_netlistgeneration --></a>.<br
+class="newline" /><hr class="figure"><div class="figure"
+><a
+ id="x1-7700226"></a> <img
+src="figures/ha_netlistgeneration.png" alt="PIC"
+>
+<br /> <div class="caption"
+><span class="id">Figure&#x00A0;9.26: </span><span
class="content">Half Adder circuit Netlist Generation</span></div><!--tex4ht:label?: x1-7700226 -->
<!--l. 413--><p class="noindent" ></div><hr class="endfigure">
</li>
<li class="itemize">Convert KiCad to Ngspice: After creating KiCad netlist click on KiCad-Ngspice
- converter button.<br
+ converter button.<br
class="newline" />
<!--l. 420--><p class="noindent" >This will open converter window where you can enter details of Analysis, Source values,
Ngspice model and Subcircuit.
- <!--l. 422--><p class="noindent" ><hr class="figure"><div class="figure"
-><a
- id="x1-7700727"></a> <a
- id="x1-77003r1"></a> <img
-src="figures/ha_analysistab.png" alt="PIC"
+ <!--l. 422--><p class="noindent" ><hr class="figure"><div class="figure"
+><a
+ id="x1-7700727"></a> <a
+ id="x1-77003r1"></a> <img
+src="figures/ha_analysistab.png" alt="PIC"
>
- <span
+ <span
class="cmr-9">(a)</span>
- <span
+ <span
class="cmr-9">Half</span>
- <span
+ <span
class="cmr-9">Adder</span>
- <span
-class="cmr-9">Analysis</span> <a
- id="x1-77004r2"></a> <img
-src="figures/ha_sourcedetailstab.png" alt="PIC"
+ <span
+class="cmr-9">Analysis</span> <a
+ id="x1-77004r2"></a> <img
+src="figures/ha_sourcedetailstab.png" alt="PIC"
>
- <span
+ <span
class="cmr-9">(b)</span>
- <span
+ <span
class="cmr-9">Half</span>
- <span
+ <span
class="cmr-9">Adder</span>
- <span
+ <span
class="cmr-9">Source</span>
- <span
+ <span
class="cmr-9">Details</span>
-<a
+<a
id="x1-77005r3"></a>
-<!--l. 432--><p class="noindent" > <img
-src="figures/ha_ngspicemodeltab.png" alt="PIC"
+<!--l. 432--><p class="noindent" > <img
+src="figures/ha_ngspicemodeltab.png" alt="PIC"
>
-<span
+<span
class="cmr-9">(c)</span>
-<span
+<span
class="cmr-9">Half</span>
-<span
+<span
class="cmr-9">Adder</span>
-<span
+<span
class="cmr-9">Ngspice</span>
-<span
-class="cmr-9">Model</span> <a
- id="x1-77006r4"></a> <img
-src="figures/ha_subcircuitstab.png" alt="PIC"
+<span
+class="cmr-9">Model</span> <a
+ id="x1-77006r4"></a> <img
+src="figures/ha_subcircuitstab.png" alt="PIC"
>
- <span
+ <span
class="cmr-9">(d)</span>
- <span
+ <span
class="cmr-9">Half</span>
- <span
+ <span
class="cmr-9">Adder</span>
- <span
+ <span
class="cmr-9">Subcircuit</span>
- <span
+ <span
class="cmr-9">Model</span>
-<br /> <div class="caption"
-><span class="id">Figure&#x00A0;9.27: </span><span
+<br /> <div class="caption"
+><span class="id">Figure&#x00A0;9.27: </span><span
class="content">Analysis, Source, Ngspice Model and Subcircuit tab</span></div><!--tex4ht:label?: x1-7700727 -->
<!--l. 437--><p class="noindent" ></div><hr class="endfigure">
- <!--l. 439--><p class="noindent" >Subcircuit of Half Adder in Fig.&#x00A0;<a
-href="#x1-7700828">9.28<!--tex4ht:ref: ha_sub --></a> <hr class="figure"><div class="figure"
-><a
- id="x1-7700828"></a> <img
-src="figures/ha_sub.png" alt="PIC"
->
-<br /> <div class="caption"
-><span class="id">Figure&#x00A0;9.28: </span><span
+ <!--l. 439--><p class="noindent" >Subcircuit of Half Adder in Fig.&#x00A0;<a
+href="#x1-7700828">9.28<!--tex4ht:ref: ha_sub --></a> <hr class="figure"><div class="figure"
+><a
+ id="x1-7700828"></a> <img
+src="figures/ha_sub.png" alt="PIC"
+>
+<br /> <div class="caption"
+><span class="id">Figure&#x00A0;9.28: </span><span
class="content">Half Adder Subcircuit</span></div><!--tex4ht:label?: x1-7700828 -->
<!--l. 445--><p class="noindent" ></div><hr class="endfigure">
</li>
<li class="itemize">Simulation: Once the KiCad-Ngspice converter runs successfully, you can run
- simulation by clicking the simulation button in the toolbar. <hr class="figure"><div class="figure"
-><a
- id="x1-7701129"></a> <a
- id="x1-77009r1"></a> <img
-src="figures/ha_ngspiceplot.png" alt="PIC"
->
-<span
-class="cmr-9">(a)</span>
-<span
-class="cmr-9">Half</span>
-<span
-class="cmr-9">Adder</span>
-<span
-class="cmr-9">Ngspice</span>
-<span
-class="cmr-9">Plot</span> <a
- id="x1-77010r2"></a> <img
-src="figures/ha_pythonplot.png" alt="PIC"
->
- <span
+ simulation by clicking the simulation button in the toolbar. <hr class="figure"><div class="figure"
+><a
+ id="x1-7701129"></a> <a
+ id="x1-77009r1"></a> <img
+src="figures/ha_ngspiceplot.png" alt="PIC"
+>
+<span
+class="cmr-9">(a)</span>
+<span
+class="cmr-9">Half</span>
+<span
+class="cmr-9">Adder</span>
+<span
+class="cmr-9">Ngspice</span>
+<span
+class="cmr-9">Plot</span> <a
+ id="x1-77010r2"></a> <img
+src="figures/ha_pythonplot.png" alt="PIC"
+>
+ <span
class="cmr-9">(b)</span>
- <span
+ <span
class="cmr-9">Half</span>
- <span
+ <span
class="cmr-9">Adder</span>
- <span
+ <span
class="cmr-9">Python</span>
- <span
+ <span
class="cmr-9">Plot</span>
-<br /> <div class="caption"
-><span class="id">Figure&#x00A0;9.29: </span><span
+<br /> <div class="caption"
+><span class="id">Figure&#x00A0;9.29: </span><span
class="content">Half Adder Simulation Output</span></div><!--tex4ht:label?: x1-7701129 -->
<!--l. 459--><p class="noindent" ></div><hr class="endfigure">
</li></ul>
- <h2 class="likechapterHead"><a
- id="x1-780009.1.5"></a>References</h2><a
+ <h2 class="likechapterHead"><a
+ id="x1-780009.1.5"></a>References</h2><a
id="Q1-1-166"></a>
<div class="thebibliography">
<p class="bibitem" ><span class="biblabel">
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- id="Xsedra"></a>A.&#x00A0;S. Sedra and K.&#x00A0;C. Smith, <span
+ [1]<span class="bibsp">&#x00A0;&#x00A0;&#x00A0;</span></span><a
+ id="Xsedra"></a>A.&#x00A0;S. Sedra and K.&#x00A0;C. Smith, <span
class="cmti-10x-x-109">Microelectronic Circuits - Theory and</span>
- <span
+ <span
class="cmti-10x-x-109">Applications</span>. Oxford University Press, 2009.
</p>
<p class="bibitem" ><span class="biblabel">
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+ [2]<span class="bibsp">&#x00A0;&#x00A0;&#x00A0;</span></span><a
id="Xkmm11-csi"></a>K.&#x00A0;M. Moudgalya, &#8220;Spoken Tutorial: A Collaborative and Scalable Education
- Technology,&#8221; <span
+ Technology,&#8221; <span
class="cmti-10x-x-109">CSI Communications</span>, vol.&#x00A0;35, no.&#x00A0;6, pp. 10&#8211;12, September 2011,
- available at <a
+ available at <a
href="http://spoken-tutorial.org/CSI.pdf" class="url" >http://spoken-tutorial.org/CSI.pdf</a>.
</p>
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- id="Xscilab"></a>(2013, May). [Online]. Available: <a
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+ id="Xscilab"></a>(2013, May). [Online]. Available: <a
href="http://www.scilab.org/" class="url" >http://www.scilab.org/</a>
</p>
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id="XGARUDA"></a>(2013, May). [Online]. Available:
- <a
+ <a
href="http://scilab-test.garudaindia.in/scilab_in/, http://scilab-test.garudaindia.in/cloud" class="url" >http://scilab-test.garudaindia.in/scilab_in/,http://scilab-test.garudaindia.in/cloud</a>
</p>
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id="XT10KT"></a>D.&#x00A0;B. Phatak. (2013, May) Teach 10,000 teacher programme. [Online].
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+ Available: <a
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</p>
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+ [6]<span class="bibsp">&#x00A0;&#x00A0;&#x00A0;</span></span><a
id="XT10KT-kal"></a>K.&#x00A0;Kannan and K.&#x00A0;Narayanan, &#8220;Ict-enabled scalable workshops for engineering
- college teachers in india,&#8221; in <span
+ college teachers in india,&#8221; in <span
class="cmti-10x-x-109">Post-Secondary Education and Technology: A Global</span>
- <span
+ <span
class="cmti-10x-x-109">Perspective on Opportunities and Obstacles to Development (International and</span>
- <span
+ <span
class="cmti-10x-x-109">Development Education)</span>, R.&#x00A0;Clohey, S.&#x00A0;Austin-Li, and J.&#x00A0;C. Weldman, Eds.
Palgrave Macmillan, 2012.
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id="XT10KT-kgp"></a>(2013, May) Teach 10,000 teacher programme on analog electronics. [Online].
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+ Available: <a
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- id="Xaakash"></a>(2013, May). [Online]. Available: <a
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+ id="Xaakash"></a>(2013, May). [Online]. Available: <a
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id="Xeda"></a>(2013, May). [Online]. Available:
- <a
+ <a
href="http://en.wikipedia.org/wiki/Electronic_design_automation" class="url" >http://en.wikipedia.org/wiki/Electronic_design_automation</a>
</p>
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+ [10]<span class="bibsp">&#x00A0;&#x00A0;&#x00A0;</span></span><a
id="Xsynaptic"></a>(2013, May) Synaptic Package Manager Spoken Tutorial. [Online]. Available:
- <a
+ <a
href="http://www.spoken-tutorial.org/list_videos?view=1&foss=Linux&language=English" class="url" >http://www.spoken-tutorial.org/list_videos?view=1&amp;foss=Linux&amp;language=English</a>
</p>
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+ [11]<span class="bibsp">&#x00A0;&#x00A0;&#x00A0;</span></span><a
id="Xeeschema"></a>(2013, May). [Online]. Available:
- <a
+ <a
href="http://www.kicad-pcb.org/display/KICAD/KiCad+EDA+Software+Suite" class="url" >http://www.kicad-pcb.org/display/KICAD/KiCad+EDA+Software+Suite</a>
</p>
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- id="Xngspice-web"></a>(2013, May). [Online]. Available: <a
+ [12]<span class="bibsp">&#x00A0;&#x00A0;&#x00A0;</span></span><a
+ id="Xngspice-web"></a>(2013, May). [Online]. Available: <a
href="http://ngspice.sourceforge.net/" class="url" >http://ngspice.sourceforge.net/</a>
</p>
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- id="Xscilab-in"></a>(2013, May). [Online]. Available: <a
+ [13]<span class="bibsp">&#x00A0;&#x00A0;&#x00A0;</span></span><a
+ id="Xscilab-in"></a>(2013, May). [Online]. Available: <a
href="http://scilab.in/" class="url" >http://scilab.in/</a>
</p>
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- id="Xspice"></a>S.&#x00A0;M. Sandler and C.&#x00A0;Hymowitz, <span
+ [14]<span class="bibsp">&#x00A0;&#x00A0;&#x00A0;</span></span><a
+ id="Xspice"></a>S.&#x00A0;M. Sandler and C.&#x00A0;Hymowitz, <span
class="cmti-10x-x-109">SPICE Circuit Handbook</span>. New York:
McGraw-Hill Professional, 2006.
</p>
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+ [15]<span class="bibsp">&#x00A0;&#x00A0;&#x00A0;</span></span><a
id="Xkicad"></a>J.-P. Charras and F.&#x00A0;Tappero. (2013, May). [Online]. Available:
- <a
+ <a
href="http://www.kicad-pcb.org/display/KICAD/KiCad+Documentation" class="url" >http://www.kicad-pcb.org/display/KICAD/KiCad+Documentation</a>
</p>
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+ [16]<span class="bibsp">&#x00A0;&#x00A0;&#x00A0;</span></span><a
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+ <a
+href="http://bazaar.launchpad.net/~kicad-developers/kicad/doc/files/head:/doc/tutorials/" class="url" >http://bazaar.launchpad.net/<span
class="cmsy-8">&sim;</span>kicad-developers/kicad/doc/files/head:/doc/tutorials/</a>
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+ [17]<span class="bibsp">&#x00A0;&#x00A0;&#x00A0;</span></span><a
id="Xngspice"></a>P.&#x00A0;Nenzi and H.&#x00A0;Vogt. (2013) Ngspice users manual version 25plus. [Online].
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+ Available: <a
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</p>
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-class="E">E</span>X</span></span>&#x00A0;Training through Spoken Tutorials,&#8221; <span
+ [18]<span class="bibsp">&#x00A0;&#x00A0;&#x00A0;</span></span><a
+ id="Xkmm11-TUGboat"></a>K.&#x00A0;M. Moudgalya, &#8220;<span class="LATEX">L<span class="A">A</span><span class="TEX">T<span
+class="E">E</span>X</span></span>&#x00A0;Training through Spoken Tutorials,&#8221; <span
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- id="Xst"></a>(2013, May). [Online]. Available: <a
+ [19]<span class="bibsp">&#x00A0;&#x00A0;&#x00A0;</span></span><a
+ id="Xst"></a>(2013, May). [Online]. Available: <a
href="http://www.spoken-tutorial.org/" class="url" >http://www.spoken-tutorial.org/</a>
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+ id="Xoscad"></a>(2013, May). [Online]. Available: <a
href="http://oscad.in/" class="url" >http://oscad.in/</a>
</p>
</div>
-
-</body></html>
-
-
+</body></html>