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Registered Member #120
Joined: Fri Feb 10 2006, 07:07AM
Location: Westchester New York
Posts: 83
I am currently making a h-bridge that will be used as a flyback driver. I have made everything, but I can't seem to make a gate transformer. I've used material 77 ferrite, with 100 turn windings, this failed. I tried using iron core toroid with 50 windings and that failed too. I've also tried an audio transformer, the signal output is terrible, but they're radioshack brand. The output of my driver circuitry is clean. I just can't quite get the transformer part. My circuit basically runs anywhere from 5kHz to 40kHz. I also tried looking for suitable gate drive transformers and I can't seem to find any online. Does anyone know of any decent ones I could buy or what material to use? Steve what was your gate drive setup for your flyback driver?
EDIT: Oh wait I'm sorry i'm using the bootleg ferrite toriods from all-electronics
Registered Member #15
Joined: Thu Feb 02 2006, 01:11PM
Location:
Posts: 3068
You can download the student version of PSPICE and actually model the transformers before building them. Much easier. I have PSPICE simulation gate drive transformers on my website.
Registered Member #120
Joined: Fri Feb 10 2006, 07:07AM
Location: Westchester New York
Posts: 83
I made another transformer, this time with less turns. I used around 18. This is the same amount of turns I use for my SSTCs. However, I don't get the same preformace as I do at 100kHz - 300kHz. I get a nastly looking waveform that looks like dead-time at around 5 - 10kHz and at around 20kHz I just get some noise and the voltage is only 8 volts. The input is 15V, so i'm lossing quite a bit of power here. EVR I will try the program you recomended, however, I must first look for either a linux version or mac. But should I try oh say maybe 30 turns.
Registered Member #89
Joined: Thu Feb 09 2006, 02:40PM
Location: Zadar, Croatia
Posts: 3145
What driver are you using? What wire thickness and type (enameled, PVC) and HOW did you wind the GDT? You want to reduce leakage inductance to minimum, all windings must be wrapped tight together. What frequency you generally intend to run at? What device (MOSFET/IGBT) are you driving with the GDT? How does the output look without load? Have you checked for shorts in the GDT?
Saturation is unliketly to be a problem at 20-40kHz, and there really isn't need to use monster amounts of turns.
Registered Member #103
Joined: Thu Feb 09 2006, 08:16PM
Location: Derby, UK
Posts: 845
I've used a GDT at 13Khz to drive a halfbridge for a flyback.
For the core, I just used one of those ferrites from a monitor cable, and the primary and secondaries on the transformer were wrapped tightly together, total about 15 turns for a 1:1 transformer. It performed ok. How are you driving the gate drive transformer? This could be where the problem lies. I think you'd need to drive it with AC for best results (i.e. a small fullbridge, or 2 driver chips - 1 inverting, 1 non-inverting).
Registered Member #15
Joined: Thu Feb 02 2006, 01:11PM
Location:
Posts: 3068
Thomas wrote ...
I made another transformer, this time with less turns. I used around 18. This is the same amount of turns I use for my SSTCs. However, I don't get the same preformace as I do at 100kHz - 300kHz. I get a nastly looking waveform that looks like dead-time at around 5 - 10kHz and at around 20kHz I just get some noise and the voltage is only 8 volts. The input is 15V, so i'm lossing quite a bit of power here. EVR I will try the program you recomended, however, I must first look for either a linux version or mac. But should I try oh say maybe 30 turns.
Thanks, Tom
A gate drive transformer designed for low frequency will not work well at high frequency. A gate drive transformer designed for high frequency will not work very well at low frequency.
There is a balance between leakage inductance and magnetizing inductance which must be made for proper operation at the desired frequency. Get the PSPICE. You'll save yourself lots of time.
Registered Member #162
Joined: Mon Feb 13 2006, 10:25AM
Location: United Kingdom
Posts: 3140
I have found a few problems using transformer drive; 1) Primary Inductance The change of current in an inductor dI = (1/Inductance)xintegral(V.dT) for squarewave drive that's Ipk = V.T/L
Core saturation is determined by amp.turns, N.I
The nett result is, core size is INVERSELY proportional to frequency so a very large core is required at low frequencies.
Changing to a laminated steel core for low frequencies (low audio) is good but steel is very lossy at high frequencies (above audio)
2) "Flux walking" (google it) As above, the change in the current in an inductor is (1/L) x integral(V.dT) With squarewave drive When the transformer is ON dI=Von.Ton/L When the transformer is OFF dI=Voff.Toff/L IF these two are not IDENTICAL then each cycle will see a nett change in current in little 'steps' until the current in the winding causes core saturation. For push/pull at 50% duty this 'flux walking' can be compensated for with a little primary resistance.
With a Fluback where Ton >> Toff the only way to 'reset' the core flux to zero is to allow Von.Ton/L <= Voff.Toff/L
Voff >= Von x (Ton/Toff)
e.g. A flyback driven from 12V with Ton=45 us, Toff=5us (20kHz, 90% duty) Voff >= 12 x 45/5 = 108 Volts. so to drive a transformer with a high duty, you must allow for a very large "flyback' spike If you supress/catch/snub this spike then you will cause the transformer to saturate. This 'flyback' spike also appears at the output of the transformer This reverse voltage will damage bjt junctions or MOS barriers so is unsuitable for ALL transistors !!!!
SO, for a drive other than 50/50 squarewave OR sinewave, DON'T use transformer drive
EDIT: If you simply MUST use transformer drive thare are a few 'tricks' for getting around these problems, but it's better to use either direct-drive or optical-drive.
Registered Member #120
Joined: Fri Feb 10 2006, 07:07AM
Location: Westchester New York
Posts: 83
Thanks EVR, but I don't really know what type of material I'm using. The package never said. I only bought them because I heard that they are a good substitute for material 77 ferrite. I never used material 77 on any of my designs. Now that I think about it even my SSTC mosfet chip drivers run pretty hot and require heatsinking to run. Maybe these toroids are not a good choice for these applications after all. For my flyback driver, it's pretty much a sstc circuit but instead of driving the oscillator at 200kHz it's being driven at around 20kHz. I'm using a TL494 for the oscilator and a TC4422 to 10uF cap to primary to ground on my flyback driver. I'm now actually using a audio transformer and it works fine, but I just series a 10 ohm resistor to dissipate some heat. I'm also running at 15V. Back to my sstc I think I'll aquire some M77 toroids and rewind them at at 18 turns. Also try driving a M77 toroid at low frequencies typical to a flyback, since I'd imagine it being better then a lower current audio transformer.
EDIT: I've done some reseach and I like the fair-rite toroids part number: 5977006401 these are material 77 though. I want to bulk pack some for future sstcs and drsstcs plus flyback related things. EVR what do you think of material 77 over 78, the difference is just an extra 300ui does it make much of a difference? (I can't seem to find 5978006401) PS: i'm gonna get a win xp version from my school (MSDN) so I can run pspice. THanks for the software suggestion
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