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SPICE-Simulation using LTspice IV

1 SPICE-Simulation usingLTspice IV Tutorial for successful simulation of electronic circuits with the free full version of LTspice IV (before named SwitcherCAD ), available at Linear Technologies ( ). Version by Gunthard Kraus, Elektronikschule Tettnang, Germany,Guest Lecturer at the DHBW (Duale Hochschule Baden-Wuerttemberg), Friedrichshafen, Germany Email: or ~krausgDecember 15th, 2010 2 Contents Page1. Introduction 5 2. Installation 5 3.

b) Press F5 and the cursor will change to scissors. c) Move the scissors to the name of the undesired curve -- e. g. “V(n001)” above the diagram and click on it. The curve will disappear at once. Important: To measure another voltage in the schematic, please press at …

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Transcription of SPICE-Simulation using LTspice IV

1 1 SPICE-Simulation usingLTspice IV Tutorial for successful simulation of electronic circuits with the free full version of LTspice IV (before named SwitcherCAD ), available at Linear Technologies ( ). Version by Gunthard Kraus, Elektronikschule Tettnang, Germany,Guest Lecturer at the DHBW (Duale Hochschule Baden-Wuerttemberg), Friedrichshafen, Germany Email: or ~krausgDecember 15th, 2010 2 Contents Page1. Introduction 5 2. Installation 5 3.

2 Exercises with the included Example Astable Multivibrator 5 using Schematic and simulation 5 Presentation of simulation Results 7 Deleting Curves 8 Changing Curve Colours 9 Changing the simulation Time 10 Changing Current- or Voltage Ranges 12 using Cursors 14 Working with one Cursor 14 Working with two Cursors 14 Differential Measurements 15 Current Measurements

3 16 Changing Part Values 174. Project 1: RC Lowpass Filter 18 Drawing the Circuit Diagram with the Editor 18 Changing Part Values 19 Time Domain simulation : non-repetitive Signals at the Input 20 Step Response 20 Switching ON and OFF 22 Impulse Response 23 Time Domain simulation .

4 using Periodic Signals at the Input 26 Sine Wave (f = 1591 Hz) 26 Square Wave (f = 1591 Hz) 27 Triangle Wave (f = 1591 Hz) Frequency Domain simulation : AC Sweep 29 5.

5 FFT (= Fast Fourier Transform) 316. Project 2: Rectifiers 34 Simple Rectifier without Transformer 34 Important: creating SPICE Model and Symbol for a Transformer 35 The easiest Solution: a simple ideal Transformer Creation of the SPICE Model for a real Two Windings Transformer 35 Creation of the Symbol for a Two Windings Transformer 35 One Pulse Rectifier with Transformer 38 Rectifier with Diode 1N4007 40 Two Pulse

6 Rectifier with Transformer 42 7. Project 3: Three Phase AC-system Schematic and simulation 44 Rectifier Bridge for Three Phase AC Systems (= dynamo in a modern car or motorcycle) 45 38. Project 4: U-I-Curves of Parts 47 Resistor 47 Diode 48 NPN Transistor 49 N Channel junction FET 519.

7 Project 5: Transistor Circuits 52 One Stage Amplifier 52 Time Domain simulation 52 Frequency Domain simulation : AC Sweep Two Stage Broadband Amplifier with Feedback 55 Task Circuit Diagram for simulation 55 Time Domain simulation 56 DC Bias 57 Frequency Domain

8 Dimulation: AC Sweep 59 Parametric Sweep 6010. Project 6: OPA Circuits 62 Starting with an Inverting Amplifier 62 Preparing a SPICE Model from the Internet 62 Gainblock for 1kHz to 30 MHz with OPA355 64

9 simulation using the selfmade OPA355 Subcircuit Model 64 Usage of Labels 67 11. Project 7: DC-DC Converters 69 Model for the Power-MOSFET IRFZ44N 69 The Step Up Converter 71 The Flyback Converter 73 The Step

10 Down Converter 7512. Project 8: Thyristor Circuits Thyristor Model 77 Switching Resistive Loads 78 Switching Inductive Loads 79 Circuit with Gate-Transformer 80 13.


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