I like this music, and congratulation for the recording, but either the switching freq is too small, or the modulation index is not close to maximal.
Its switching in about 260kHz, and i have been unable to get it any higher.
Also the camera doesent really pick up the higher frequencies very well, to my ears it sounds pretty good.
Also the camera doesent really pick up the higher frequencies very well, to my ears it sounds pretty good.
I've now managed to up the frequency to 312kHz by reducing the phase lead network resistors to 100 ohms, the phase lead capacitors are 100pF.
High frequency quality have already improved quite a bit!
High frequency quality have already improved quite a bit!
Hi All,
I face some problem . When this amp is in idle, two mosfets is getting warm ander few minute I feel that it is hot. Is something wrong? It should not be.
This is my schematic.
I face some problem . When this amp is in idle, two mosfets is getting warm ander few minute I feel that it is hot. Is something wrong? It should not be.
This is my schematic.
What voltages are you inputting on the dc buses ? Im running 2x18VDC and driving a 2ohm load with two IRF540 and my heatsink barely even gets warm enough to feel, and most of that is likely from the 15V regulator on the same sink.
In 2 ohms my coil gets warm when i turn the volume up, its a 22µH Wurth Elektronik coil rated 5A. A coilcraft toroid stays cool.
Im gonna try a small modification on this circuit, tie pin 1 on LM311 to ground and use pin 7 as output instead, according to the datasheet, the LM311 would have much shorter rise and fall time with pin 7 as output.
Heres a schematic of what im gonna try:
Heres a schematic of what im gonna try:
Im gonna try a small modification on this circuit, tie pin 1 on LM311 to ground and use pin 7 as output instead, according to the datasheet, the LM311 would have much shorter rise and fall time with pin 7 as output.
Heres a schematic of what im gonna try:
Great. Your common sense is improving. If you reduce the voltage swing required on collector output too, it will be even faster. In the attached picture, pin 7 only has to move a bit more than 2 diode drops up and down (assuming that pin 7 in its low state will be typically half a diode drop and up to one diode drop worst case below ground).
I did it that way in the 2x150W motorbike/car amp, my first serious class D attempt.
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SUCCESSS!!! im above 450kHz!!!😀😀😀😀
It no longer needs a dc offset correction resistor either! 😀 max 30mV offset on the output.
It no longer needs a dc offset correction resistor either! 😀 max 30mV offset on the output.
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Yup it improved alot at higher frequencies. Now i just need some more class d amps for comparison, i have MCD with 1MHz carrier, i want some tripath amp, maybe when the budget allows i'll get som hypex modules again.
That is super. Congratulations. Shows that the circuit works well.
But I'm not sure that higher switching frequency means less distortion and better sound.
I've just made some simulations on my current amp circuit (not the one I published in this thread, and not UcD), and it shows that everything else equal, the higher in freq you go (over a certin freq) the higher the distortion!
Ther seems to be a sweet spot or a dip where the distortion is lowest. This sweet spot freq is not the same for say 2. order and 3. order, so you have to choose a compromise. The best compromise for my circuit seems to be around 250 kHz!
I would guess it goes sort of the same way for UcD .....
But, I think it is very useful to build the circuit so that it could actually switch at a much higher freq ..... think this could have an overall effect on the obtainable distortion level ..... but now I'm guessing 😉
I cannot simulate this circuit since none of my sim proggies have a IR2010 model.
Heres a revised board layout:
Heres a revised board layout:
I found the same compromises as Baldin. My high power full range amplifiers work around 240khz idle. These circuits won't achieve higher THD by oscillating at either higher or lower frequencies. Propagation and current transfer delays are usually the limiting factors (but hey, the power stage does 80A peak).
The optimum oscillation frequency for amplifiers involving "lighter" power stages is higher, like 400khz for the original UcD with discrete low-delay drivers (but even that required a special type of low-gate-charge MOSFET).
But reducing propagation delay by optimizing LM311 connection *will* reduce distortion at high output levels dramatically.
The minimum pulse width a self oscillating amplifier can produce is 2 times propagation delay in length. When duty cycle approaches 100% and 0% a too high delay imposes a limit on how narrow the short pulses can become, forcing the long pulses to be much longer (to obtain the required duty cycle). This results in excess (and premature) frequency drop and increased distortion.
The optimum oscillation frequency for amplifiers involving "lighter" power stages is higher, like 400khz for the original UcD with discrete low-delay drivers (but even that required a special type of low-gate-charge MOSFET).
But reducing propagation delay by optimizing LM311 connection *will* reduce distortion at high output levels dramatically.
The minimum pulse width a self oscillating amplifier can produce is 2 times propagation delay in length. When duty cycle approaches 100% and 0% a too high delay imposes a limit on how narrow the short pulses can become, forcing the long pulses to be much longer (to obtain the required duty cycle). This results in excess (and premature) frequency drop and increased distortion.
Tekko ... Here you go ... I think the IR2110 model is made by analogspiceman ... but not sure ... thanks to him anyway 🙂
... included some IRF Mosfets as well ..... (models are from IRF .... I put them in files) ..... funny thing is I got almost 10 times as much distortion in the sim with the IRFB4227 vs. IRF640NS 😕 ..... but the IRFB's are also harder to drive ......
Just place all files in the same dir as your the sim file you are working on ....
... included some IRF Mosfets as well ..... (models are from IRF .... I put them in files) ..... funny thing is I got almost 10 times as much distortion in the sim with the IRFB4227 vs. IRF640NS 😕 ..... but the IRFB's are also harder to drive ......
Just place all files in the same dir as your the sim file you are working on ....