Hi everyone. I want to make a transformer myself. I using the following application note
my input voltage is similar that is in this application note, that is 130VDC to 800VDC.
output voltage = 12VDC 2Amp.
i tried to make myself by using the calculation, and it is working too but the problem i m facing is in snubber circuit. i have used 300 ohms and 20 Watts and they are heating like hell. i m sure there is leakage inductance. but how to reduce it? any one plz help.
Attachments
Fly back Converter 850Vin-12Vout 0.75A Circuit notes.pdf
i tried to make myself by using the calculation, and it is working too but the problem i m facing is in snubber circuit. i have used 300 ohms and 20 Watts and they are heating like hell.
This is somehow different from the reference design. You are talking about the same RCD snubber topolgy? How did you arrive at this nearly absurd value? Which leak inductance related primary overvoltage do you admit?
Here in Pakistan, not every desired component is available. There i m using MOSFET "IRFBG30" in place of MTB.... both have almost similar operating characteristics but different input to output capacitance. There i just tried hit-and-trial method to get better waveform at Mosfet's Drain.
This is the waveform at default snubber components.
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This is the waveform at my replaced snubber-components.
R(R16)=3 X 100ohm (20W); Cap(C9)= 68Pf 3KV //68Pf 3KV//68Pf 3KV
I have also replaced MUR1100E by BYW51200 because at the time of trial when input increased upto 400V, this diode including primary winding burned. i thought that the Ampere rating is below. therefore i tried to replace with a higher rating. But circuit topology is same.
**broken link removed**
A RCD snubber has the purpose to limit the transistor peak voltage. There may be still oscillations after commutation of the snubber diode.
The RCD dimensioning rules are
- select C so that it limits the peak voltage to a safe level
- select R to allow C to discharge at least partly before the next pulse, e.g. RC ≈ PWM-period.
Your low R value effectively contradicts the RCD operation principle. To damp oscillations, you can try with an (addional) RC series snubber.
Flyback converters for high input voltage are a bit problematic. It may be better to go for a two-switch forward or flyback topology that has built-in clamping of leakage inductance overvoltage.
Looking at the schematic, R16 (in snubbing network) shows a value of 100k ohms.
You state your R16 value as 300 ohms.
Even at 100k, this resistor must dissipate 1W of heat. The reason is that the transformer generates -190V during switch-Off period (according to my simulation).
Dear Bradthered, U have applied 20 KHz frequency on both input voltages while in the document and in my circuit too, its working on 70KHz to 140KHz variable frequency. secondly your primary inductance is different than in document. so do these changes values put some effects on your observations?
Dear Bradthered, U have applied 20 KHz frequency on both input voltages while in the document and in my circuit too, its working on 70KHz to 140KHz variable frequency. secondly your primary inductance is different than in document. so do these changes values put some effects on your observations?
In the pdf the OP posted in his first post, on page 7 of 12 there is a schematic. On the bottom of R13 and R14 there is a semi circle drawn. Does anyone know what that means.
In the pdf the OP posted in his first post, on page 7 of 12 there is a schematic. On the bottom of R13 and R14 there is a semi circle drawn. Does anyone know what that means.