electronics principles & applications 8 th edition charles a. schuler ltspice iv...
TRANSCRIPT
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ElectronicsElectronics
Principles & ApplicationsPrinciples & Applications88thth Edition Edition
Charles A. Schuler
LTspice IV
McGraw-Hill©2013 by The McGraw-Hill Companies, Inc. All rights
reserved
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LTspice IV• A freeware SPICE circuit simulator written by Mike Engelhardt
at Linear Technologies http://www.linear.com/– SPICE I and SPICE II were written using the FORTRAN
programming language. SPICE III was written using the C programming language (U.C. Berkeley, 1985). http://bwrc.eecs.berkeley.edu/Classes/IcBook/SPICE/)
• LTspice was written to support circuit designers who evaluate or use Linear Technology products.– It includes an extensive library of Linear Technology devices.
• It has schematic capture and is much easier to use than traditional text-based SPICE.– Traditional SPICE requires a text file called a netlist that
describes the circuit to be simulated.– With schematic capture, the user can enter a circuit using
schematic symbols via a graphical user interface.
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LTspice IV
• Is powerful and fast, but is not as intuitive for beginners as simulators such as Multisim– Requires more knowledge about SPICE directives
and terminology– Has a limited (mostly proprietary) device library– LTspice has only basic behavioral gates for digital
circuits. It is expandable, but this requires knowledge about SPICE and device behavior.
• Is worth learning about– Since it is free, fast, and powerful, it is one of the
most widely used circuit simulators at this time.– Many professionals consider it to be superior to some
commercial simulators.
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LTspice IV is a free download and can be found on the Linear Technology website:
http://www.linear.com/designtools/software/switchercad.jsp
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Get started by clicking File and then New Schematic, or holddown the Control key and then press the “N” key (Ctrl+N).
It’s easy to “draw” a circuit.
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Drawing a circuit …
is easier if the grid is active. Click on View and then Show Grid. Or, you can type Ctrl+G.
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Delete tool
It is easy to place grounds and basic components. Click on the desired component and then move the mouse to position it and then left click to place it. You will find that the connectors (square blue boxes above) snap to the nearest grid points. To place another component of the same type, move to the next location and click the left mouse button again. To cancel or quit a component type, click the right mouse button. It is often more time efficient to place all of the resistors, then the capacitors, and so on. Use the scissors (delete tool) to remove components and wires.
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After a component has been selected, it can be rotated by holding down the Control key and then pressing the R key. Here, D1 was placed first (by left-clicking in the desired location on the schematic) followed by Control+R and then D2 was placed followed by Control+R again and so on.
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Control+E was used here before placing Q2 on the above schematic. Note that Q2 is the mirror image of Q1. Control+E is the mirror command. Control+R and Control+E are keyboard shortcuts.
Rotated components
Mirrored components
Rotated and mirrored
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The menu command Tools→Control Panel→Drafting Options→Hot Keys allows you to define your own keyboard shortcuts.
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Additional components are available by clicking on the gate symbol or by pressing the F2 key. Suppose you need a voltage source. Choose “voltage” from the component symbol list and then place the source on the drawing area with a left click. Right click the source to specify the voltage. To specify a sinusoidal voltage source, select Advanced after right clicking.
or
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Specifying a SINE ac voltage source
Amplitude and Frequency
(V1, as shownhere, is a 44-V
dc source.)
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Use the pencil tool to connect the components. Left click a terminal (blue box) and then move the mouse to the connecting terminal and left click again. The crosshairs below are positioned to connect R4 to R5.
The blue boxes disappear after they are connected.
Unconnected nodes can cause Netlist errors.
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Tool BarSummary
Place Circuit Element
Draw Wire
Place Ground
Label Node
Place Resistor
Place Capacitor
Place Inductor
Place Diode
Move
Drag
Undo
Redo
Rotate
Mirror
Place Comment
Place SPICE Directive
Zoom In
Pan
Zoom OutAuto Scale
Delete
Copy
Paste
Find
Simulate
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Or, click Select Resistorto view a Standard list.
Place a resistorand right click it
to enter its values.
You must specify component values.
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Right click the resistor label to enter a new reference designator. You can specify vertical text.
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Models are required.
• Missing models will generate error messages.– The next slide shows an example.– LTspice does not have a model for the
1N4001 diode.
• There are several ways to add models.
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You can expand the component data base (add models).
• For example, suppose that you want to simulate a circuit using a BFR540 transistor and that you have the SPICE model saved in text format via Windows Notepad (go to Start, Programs, Accessories to launch this basic text editor).– Load the SPICE model into Windows Notepad and then Copy it to the
clipboard using Control+A followed by Control+C.– Use Windows Notepad with File Type set to All Files to open the file
C:\Program Files\LTC\SWCADIV\lib\cmp\standard.bjt, scroll to the end of that file, and then paste the model from the clipboard (Control+V) and then Save the file.
– The next time that you run LTspice, the BFR540 will be available as a choice when selecting an NPN BJT transistor as shown on the next slide.
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CMRR
Here it is!
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A SPICE model for the BFR540.MODEL BFR540 NPN+ IS = 1.04516E-015+ BF = 1.84359E+002+ NF = 9.81774E-001+ VAF = 4.16981E+001+ IKF = 1.00000E+001+ ISE = 2.32436E-013+ NE = 2.02825E+000+ BR = 4.39917E+001+ NR = 9.92532E-001+ VAR = 2.09773E+000+ IKR = 1.66296E-001+ ISC = 1.29849E-016+ NC = 1.06486E+000+ RB = 5.00000E+000+ IRB = 1.00000E-006
+ RBM = 5.00000E+000+ RE = 3.53552E-001+ RC = 1.34000E+000+ EG = 1.11000E+000+ XTI = 3.00000E+000+ CJE = 1.97895E-012+ VJE = 6.00000E-001+ MJE = 3.32695E-001+ TF = 7.45719E-012+ XTF = 1.14072E+001+ VTF = 3.15854E+000+ ITF = 1.56917E-001+ CJC = 7.93745E-013+ VJC = 1.85522E-001+ MJC = 8.41656E-002.ENDS
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Also, a SPICE model can be added directly to the schematic.
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• Copy the model to the clipboard.– Left click and hold and drag over the model and then capture it
with Control+C. e.g. .MODEL 1N4001 D IS=29.5E-9 RS=73.5E-3 N=1.96 CJO=34.6P VJ=0.627 +M=0.461 BV=60 IBV=10U
• Click on .op on the toolbar• Paste the model into the window.
– Control+V.• Click OK.• Place the model on your schematic with a left click.• This method is often preferred when sharing circuits with
others.– The necessary model or models are imbedded in the circuit
file.
Adding a model to a schematic
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Including a model from a file
1/ Click on .op.2/ Enter the following text: .include filename.txt (where filename is the name of your model file, such as zener6, or 2N3055 and has been saved as a .txt file).3/ Click OK.4/ Place the SPICE-directive on your schematic where you want it to appear with a left-click.
Note: It is advisable to save the model file to the same folder as your circuit file. The same applies for model files including sub-circuits.
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Where does one obtain SPICE models?
• Search the Internet … many are available as free downloads or can be copied to the clipboard and then pasted into Windows Notepad (or onto your schematic via .op on the toolbar). Some links are provided at the end of this presentation.
• Search device manufacturers’ websites.• Modify an existing model.• Create your own.
– Software is available. http://www.intusoft.com/spicemod.htm
• Or, you can use a subcircuit.
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Subcircuits (.SBCKT)
• Are often used when repetition occurs.– Better than cluttering the schematic with redundant
information
• Also can be used to replace a complicated device such as an OP-AMP, a DIAC or a TRIAC.
• The next slide shows a common dimmer circuit where the DIAC and TRIAC functions are defined by subcircuits.– LTspice has pre-defined schematic symbols for
DIACS and TRIACS, but no corresponding models.
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More about models and subcircuits
Models given as .MODEL statements are for intrinsic SPICE devices such as diodes and transistors. The .MODEL statement gives the parameters for the specific component. The general behavior of the device is already known by SPICE … only the parameters need to be given to finish specifying the component's electrical characteristics. On the other hand, models given by .SUBCKT statements define the modeled component by a collection of intrinsic SPICE devices. For example, the SPICE model of an opamp would be given as a subcircuit. In the previous slide, the SPICE models of a DIAC and a TRIAC were specified as subcircuits.
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LTspice is useful for analyzing circuits designed by others.
• It is sometimes only necessary to use it to review and experiment with circuit files that have already been created.– Many can be found in the LTspice
subdirectories.– Some examples are available for download.
This is an outstanding example: http://cmosedu.com/cmos1/book.htm
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How to run an existing circuit file• From the File menu, select Open. Make sure the file type
is set to Schematics.• Some good examples are available in C:\ProgramFiles\
LTC\SwCADIV\examples\Educational (created on your hard drive when you install LTspice).
• Some appropriate examples for the McGraw-Hill basic skills series are available on the website: http://highered.mcgraw-hill.com/sites/0073106941/student_view0/lt_spice_instructions_and_support_files.html (You probably have these files if you obtained this presentation from the McGraw-Hill site.)
• The next slide shows a circuit from Schuler’s book. To view the dc voltages and currents, a dc analysis is selected by first clicking on Simulate, then Edit Simulation Cmd.– The SPICE directive is .op.
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CMRR
SPICE directivefor dc analysis
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The DC operating point selection provides all node voltages and device currents.
When you click OK, the SPICE directive .op is placed on the schematic.
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A ground is required for simulation.
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-24V
-12V
40W
28.8W
9.6W
1.2W
12W
-88W
-3.6W
After a DC operating point analysis, moving the cursor over the schematic reveals the various node voltages, currents, and the dissipations in each component. These values are displayed in the lower left portion of the screen.
DC operating point (I(R5) = 200 mA Dissipation = 1.2 W
Placing the cursor here shows the current and the dissipation in R5, as shown below.
Summing the dissipations in this circuit produces zero. The negative signs at V1 and V2 indicate that they are power sources.
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It is also possible to display the dc voltage at one or more nodes on the schematic. Run the simulation and then right-click any empty area on the schematic and select View Place .op Data Label as shown below.
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Then, move the rectangular cursor to the desired node and click it. The dc voltage at that node will be displayed on the schematic. Repeat the procedure to add nodes.
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After you have one or more nodes selected, you can change circuit values and re-run the simulation to see the effect on the selected dc node voltages.
R2 has been changed from 20 ohms to 10 ohms.
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You can choose horizontal orientation for voltage labels by placing the small square at the bottom of the selection rectangle on a horizontal wire.
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Waveforms
• Waveforms are what one sees on an oscilloscope (graphs of instantaneous voltages versus time).
• Waveforms can be viewed via the transient analysis option. Click on Simulate, Edit Sim Command, and then select the Transient tab.
• The next three slides show the procedure.
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Load the circuit from the file menu.
Then, click run.
Reference: Schuler, 7th edition, page 247 … the stiff current source has been replaced with a resistor. Probe both the base and the collector of Q2. Without the stiff current source, the CMRR is notably poorer.
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Move the cursor to the desired node. When the cursor changes to a probe, click the left mouse button to view the waveform.
A small differential signal plus a large common-mode signal
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Move the cursor to the collector. Left click and now two waveforms are shown.
Can you see the 60 Hz common-mode component at the collector of Q2?
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The next slide demonstrates the value of simulation when evaluating
circuit performance.
• The differential amplifier circuit is much improved with a stiff current source.
• The common-mode rejection ratio (CMRR) is remarkably better.– The common mode signal cannot be seen in
the output.
• Circuit simulators make it easy and fun to investigate issues such as this.
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Stiff current source
The 60 Hz common-mode signal is too small to be seen here.
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Remember, waveforms are available via transient analysis.
• You must specify the time duration of a transient analysis by specifying a Stop Time.– Often, this is all that is required.
• You can also specify the Time to Start Saving Data.– Useful in circuits where the start-up period is not
important.
• You can also specify the Maximum Timestep.
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CMRR
Go to Simulate and then click on Edit Simulation Cmd.
The time duration of a transient analysis is like choosing the time base setting on an oscilloscope.
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For a basic analysis, this is often all that needs to be specified.
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In this circuit, the common-mode signal is 60 Hz. A 60 Hz signal has a period of roughly 17 milliseconds. Thus, a Stop Time of 20 milliseconds is a reasonable choice.
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Expanded waveform measurements are easy. Hold the left mouse button down and drag a box around the area of interest. Before you release the button, the measurements are available here: dx = 500 us (2 kHz) dy = 4.7 V
Box
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When you release the mouse button, the area inside the box will be zoomed to fill the waveform display. Restore the original waveform by right-clicking in the waveform area and then selecting Zoom to Fit or simply press Ctrl+E.
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To obtain an accurate frequency measurement, draw a box around several cycles and then draw a second box to capture one cycle.
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1.572 kHz
This box captures one cycle. (The peaks are easier to
identify than the zero crossings.)
The output frequency of this Wien bridge oscillator is predicted by 1/(2πRC), thus we can expect an output at 1.59 kHz.
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To obtain the voltage difference across two nodes, move the cursor to the first node and left click when it changes to a red voltage probe and then without releasing the mouse button, move to the second node and when the cursor changes to a black voltage probe, release the mouse button.
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To determine the Average and RMS values of a waveform, hold down the Control key and left click the waveform’s label.
Ctrl+Left Click here
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The Fourier transform• Converts from the time domain to the frequency
domain (the signal spectrum)– Schuler, 7th edition, page 500
• The FFT (fast Fourier transform) is available in LTspice.– After a waveform is plotted, right click in the
waveform window and select FFT. Choose the node of interest and then click OK. Left click the node label in the FFT window and then use the keyboard arrow keys to make accurate measurements of frequency and amplitude for the various spectral components. Left click and hold to draw a box around a part of the graph to expand it.
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FFT (frequency domain) display
Time domain display
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Expanded FFT display
Note: you can increase the simulation time for
better frequency resolution.
Resolution = 1/Time
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Simulation time = 0.001 secondsResolution = 1 kHz
Simulation time = 0.01 secondsResolution = 100 Hz
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In addition to increasing the simulation time, you can turn off data compression for better resolution (Tools Control Panel Compression). The next slide shows a significant improvement in dynamic range with data compression turned off.
Default data compression No data compression
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FFT with default data compression (90 dB range)
FFT with no data compression (approaching a 120 dB range)
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The option plotwinsize determines the number of data points to compress in one window. Set plotwinsize to zero to disable compression. Data compression will always be turned off, regardless of the control panel settings (an advantage when sharing circuits with others).
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Individual waveforms can be placed onto different plot panes.
• Right click in the waveform pane and then select Add Plot Pane.
• The next slide shows the usefulness of this feature.– With all five waveforms on one plot pane, the
display is confusing. – Separate plot panes make it easy to see the
divide-by-two action of each flip-flop.
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There are three important waveforms here.
Three plot panes add clarity.
555 one-shot
Input (TRIG)
Threshold waveform
Output
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A dc offset is also available.• The next slide shows a D/A converter.• The input waveforms were separated by right-
clicking on the node name, e.g. V(b1), as shown below, and adding a dc offset of +2 volts.
• It also shows how colors can be chosen by using Tools→Color→Preferences→Selected Item→Waveform→Background→Grid→Axis
dc offsetV(b1)+2
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0 dc offset
+2 dc offset
+4 dc offset
+6 dc offset
Separate plot plane
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Current waveforms
• Moving the cursor to the inside area of a component, after a transient analysis has been run, displays the current waveform in that component.
• When the cursor morphs to a current probe:– left click to see the current waveform.
• This is illustrated in the next slide.
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Current waveforms can be obtained after a transient analysis by moving the cursor to the inside of a device. When the cursor changes to a current probe, left click the mouse to obtain the current waveform. To display the current in a wire, Alt-left click the wire.
The current probe, like the voltage probe, shows time variations after a transient analysis. Here, the current in R1 averages 2 mA (which was measured earlier in a dc analysis) and the current fluctuations in R1 are easy to see.
Current probe icon
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The current in Q1 is constant.
The constant current source is doing its job!
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To display a power waveform (instantaneous power), hold down the Alt key and left click on the component of interest (after the cursor has changed to a thermometer).
e.g., Alt+click here.
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To determine the average power dissipation, Control+left-click on the label.
Ctrl+left-click
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AC Analysis
• Provides the frequency response of a circuit– Both the amplitude and the phase angle are graphed
as a function of frequency (Bode plot).
• Go to Simulate, Edit Simulation CMD, and then click on the AC Analysis tab.– You must enter the Number of points per sweep
interval, the Start Frequency and a Stop Frequency.– You can also choose various sweep intervals.
• Octave, Decade, or Linear
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Output
Input
AC Analysis provides the frequency response of a circuit. One of the signal sources must be designated as the input by specifying an AC Amplitude for Small signal AC analysis. Run the simulation and then probe the output for the Bode plot.
Amplitude
Phase
Spice directive
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Ctrl+left-click the label to measure bandwidth.
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Here, the only change is the transistors. This illustrates the need for proper SPICE models when investigating issues such as bandwidth. The BFR540 is a high-frequency transistor.
BFR5402N3904
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The .measure directive
• Is useful to find instantaneous values and values over intervals
• The next slide shows an example of an instantaneous measurement.
Keyword Operation performed over interval
AVG Compute the average value of <expr>
MAX Find the maximum value of <expr>
MIN Find the minimum value of <expr>
PP Find the peak-to-peak value of <expr>
RMS Compute the root mean square value of <expr>
INTEG Integrate <expr>
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vi: v(exponential_a)=0.632013 at 0.001
Run->View->View SPICE Error Log will show the instantaneous value at 1 ms.
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The SPICE .STEP directive has been added to show the charge and discharge curves for capacitor values from 0.2 microfarads to 1.2 microfarads in 0.2 microfarad steps.
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Here, bandwidth is
measured.
(8.5 Hz to 2.8 MHz)
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Configuring LTspice
• There are many user options.– SPICE options (e.g. integration method)– Drafting options including font properties– Data saving defaults– Compression
• Hint: turn compression off for the least distortion for analog circuit simulations.
– Most options are available via the control panel.
• The next two slides illustrate some configuration choices.
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Tools Control Panel Operation
LTspice generates several kinds of files. To save disk space and avoid clutter, these files can be deleted automatically.
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Tools Color Preferences
LTspice allows color choices for waveform plots and the background on which they are plotted. Also, the axes and grid colors are selectable
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Support for LTspice
• The next slide shows an example of the built-in help system.
• The help file is a downloadable and printable document: http://ltspice.linear.com/software/scad3.pdf
• There are numerous other resources. Check the Links slide at the end of this presentation.
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Press F1 for the Help System. You can download the User’s Manual from: http://ltspice.linear.com/software/scad3.pdf
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The help files explain many things: for example, how to model transformers.
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Some “gotchas” and hints
• “M” and “m” are interpreted the same by SPICE. Thus, a resistor value of 10M is the same as 10m (ten milliohms or 10-3).– Use 10MEG (or 10E6) to specify ten megohms.
• Do not enter “1F” or “1f” as the capacitance for a one-farad capacitor (enter “1”). “F” and “f” designate the prefix femto (10-15).
• SPICE will not allow voltage sources in parallel, even when of the same value.– Add series resistances.
• SPICE will not allow current sources in series, even when of the same value.– Add parallel resistances.
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Prefixes are case insensitive: T = t, G = g, and so on
• T = terra = 1012
• G = giga = 109
• MEG = meg = 106
• K = kilo = 103
• M = milli = 10-3
• U = micro = 10-6
• N = nano = 10-9
• P = pico = 10-12
• F = femto = 10-15
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LTspice leading characters• A special functions device• B arbitrary behavioral source• C capacitor• D diode• E voltage dependent voltage
source• F current dependent current
source• G voltage dependent current
source• H current dependent voltage
source• I independent current source• J JFET transistor• K mutual inductance
• L inductor• M MOSFET transistor• O lossy transmission line• Q bipolar transistor• R resistor• S voltage controlled switch• T lossless transmission line• U uniform RC-line• V independent voltage source• W current controlled switch• X subcircuit invocation• Z MESFET transistor• * comment• + continuation of prior line• . simulation directive
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LTspice IV final notes
• Like many modern software tools– it is relatively easy to begin using but one must spend
some time to discover and then master the most powerful features.
• As freeware goes, it is outstanding!– It is relatively bug-free.– It is compact and very fast.– It is regularly updated.
• A tip for students:– Knowing how to use a professional level circuit
simulator looks great on your resume!
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Linkshttp://www.intusoft.com/models.htm#freemodels
http://www.penzar.com/links.htm
http://ee.cleversoul.com/simulation.html
http://cmosedu.com/videos/videos.htm
http://cmosedu.com/cmos1/book.htm
http://www.onsemi.com/site/support/models
http://www.coilcraft.com/modelsswcad.cfm
http://tech.groups.yahoo.com/group/LTspice/
http://ltspice.linear.com/software/scad3.pdf
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I would like to acknowledge
Helmut Sennewald for making many helpful suggestions that have significantly improved this presentation.