I am looking for someone who has more than my novice level of knowledge on Simetrix/simplis Elements software.
I am trying to construct a Bridge rectifier using an ideal transformer at a ratio of 10:1 or any transformer to work at a 10:1 ratio with an AC RMS input of 230V 50hz.
I keep getting 10 individual primary transformers to 1 secondary which is not exactly what I want.
Is there anyone who is competent in the community to point me in the right direction?
Does the waveforms generate when you click the simulate button or do I have to add in probes?
I have to measure:
Load and ripple voltages
Current in the Capacitor
Current in the diode.
The desired Values I have to use are 230V rns @ 50hz, 10:1 ratio Transformer, 25 Ohms Resister and 1000uf Capacitor.
I noticed you added ground points but I do not know if I have set them currently as it didn't produce an error when I ran the simulation.
The software sometimes will complain about floating nodes and convergence, so I usually place large resistances referenced to the circuit GND. You can place fixed probes or probe a device pin or current in wire, etc. You obviously have to set up your transient simulation parameters first.
Be aware that the default diodes are small signal types (IN4148). Better change them to suitable rating diodes as far as voltage and current.
The error message is mentioning two possible reasons, floating nodes or voltage source shorted by inductor. I guess it's the latter due to zero transformer series resistance.
The error message is mentioning two possible reasons, floating nodes or voltage source shorted by inductor. I guess it's the latter due to zero transformer series resistance.
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Consider the tool requirements, add a little bit transformer series resistance.
Hopefully I just need to input some voltage and current probes and it should show the graphs and results or is that within the transient options also?
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I may of sorted it. Am I correct to say, if I use a voltage probe and enough time in the transient during the simulation the voltage graph will appear and if I want current, I need to select current in wire for a current graph to appear also?
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After a bit of messing about, I manage to whittle it down to show the correct graphs! Thank you for your help. I really couldn't of completed it without you!