SMPS Transformer Calculator Another Transformer Calculator. Many times I've had to go through old documentation to figure out how to wind a transformer. I decided to put the calculations in a web-based calculator. It is a simple calculator - it just calculates the number of turns. You have to figure out how big the wire needs to be and if it. Here's a full and complex design tool for calculating the SMPS transformer based on a push-pull, half-bridge and full-bridge topology. It has many pop-up tips to help you to use it and correctly paste the values. I think that it'll be very useful for many of you, as for the beginners and so as for the guru of DIY. Wiz:; Enjoy it!
Hello everyone!
I present to you my program for the calculation of transformers and inductors.
One of them ( ExcellentIT(6100) ) Dimonis you presented in your theme SMPS transformer design tool.
The program ExcellentIT(7100) was corrected English translation and added standard AWG wire and the added choice of the desired diameter wire.
selector is not signed due to lack of space, but it is a tool tip.
In other programs, this selector signed 'Use the desired diameter of the wire'
I speak English poorly. I use Google translator.
I would be difficult to answer your questions, but I will try.
I'm not working, I'm retired. So I will be grateful for your financial support for my work on the development of these programs .
- Booster(5000).rar (211.4 KB, 2079 views)
- BoosterRing(2200).rar (193.5 KB, 1611 views)
- ExcellentIT(7100).rar (223.2 KB, 2709 views)
- Flyback(6000).rar (418.5 KB, 1884 views)
- FlybackRing(3000).rar (197.2 KB, 1605 views)
- Inductor(5100).rar (207.9 KB, 1771 views)
- InductorRing(4000).rar (189.2 KB, 1774 views)
When the switching transistor is turn on in a fly-back converter, the primary winding of the transformer is energized, and no energy is transferred to the secondary windings. When the transistor is turned off the field collapses and the energy is transferred to the secondary windings. This differs from a forward converter topology, where energy is transferred to the secondary windings when the switching transistor is turned on. You can tell the difference between the two topologies, by looking at the orientation of the dots on the secondary compared to the primary. For the fly-back converter, the dot's are reversed, and for the forward converter the dots are aligned.
The calculator below calculates the number of turns, the inductance, and the wire gauge for the various windings of a discontinuous mode fly-back converter.