Difference between revisions of "Tutorials relevant to Design and Modelling"
Line 13: | Line 13: | ||
[http://www.vlsi.uwaterloo.ca/~manis/ece637/lecture11.pdf Pass Transistor Logic]<br> | [http://www.vlsi.uwaterloo.ca/~manis/ece637/lecture11.pdf Pass Transistor Logic]<br> | ||
[[LTspice has a built in Triangle Wave]]<br> | [[LTspice has a built in Triangle Wave]]<br> | ||
− | [[Parametric plot (plot measurements in relation to a swept parameter)]] | + | [[Parametric plot (plot measurements in relation to a swept parameter)]]<br> |
+ | [[Simulating the MC34063 in Inverter Configuration with an Accurate TL431A Model]] |
Revision as of 15:25, 13 May 2013
Calculating Power Loss in switching MOSFETs
EMI Modelling using LTspice Hints
Pure Inductor and Voltage Source Modelling (and how to speed up simulations with them) using LTspice
IGBT Tutorial
O-device (Lossy Transmission Line) and T-device (Lossless Transmission Line) modelling issues
Erno Borbely JFET Article No. 1 Operation and Practical Considerations
Air Gapped Magnetic Cores - Analysis and why you may want them
Erno Borbely JFET Article No. 2 Operation and Practical Considerations
File:PWM Filters.pdf Jim Wagner's white paper on PWM filtering
The Pulse-Width Modulator with an emphasis on the post-modulator lowpass filter
Loop Gain by Voltage Injection
Fundamental Characteristics of Thyristors
Pass Transistor Logic
LTspice has a built in Triangle Wave
Parametric plot (plot measurements in relation to a swept parameter)
Simulating the MC34063 in Inverter Configuration with an Accurate TL431A Model