symef vers.2
Hi Sr. i'm very interesting about your job and i want to know.
Where can i find the latest pcb and shematic for symef vers.2
Is this pcb free or must buy this?
Best regards.
thimios.
Hi Sr. i'm very interesting about your job and i want to know.
Where can i find the latest pcb and shematic for symef vers.2
Is this pcb free or must buy this?
Best regards.
thimios.
Hi Thimios, the schematic is available at http://www.harrisonaudiolabs.com/Amplifiers/SYMEF/Type2/SYMEFSCHT2.jpg. There is a group buy going on but feel free to etch your own🙂
kind regards,
Harrison.
kind regards,
Harrison.
Thanks for instant replay .
Is it possible to guide me for pcb ?
Which version can i use?
Where can i find it?
I want to etch my own if it's possible to give me the pdf.
If this impossible i can buy it but from where?
Best regards.
Thimios.
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Hi Thimios,
In the history of SYMEF there was drowranger 🙂
http://www.diyaudio.com/forums/solid-state/198500-symef-amplifier-14.html#post2793180
http://www.diyaudio.com/forums/solid-state/198500-symef-amplifier-17.html#post2888180
http://www.diyaudio.com/forums/solid-state/198500-symef-amplifier-22.html#post2907482
http://www.diyaudio.com/forums/solid-state/198500-symef-amplifier-25.html#post2912452
kind regards,
Harrison.
In the history of SYMEF there was drowranger 🙂
http://www.diyaudio.com/forums/solid-state/198500-symef-amplifier-14.html#post2793180
http://www.diyaudio.com/forums/solid-state/198500-symef-amplifier-17.html#post2888180
http://www.diyaudio.com/forums/solid-state/198500-symef-amplifier-22.html#post2907482
http://www.diyaudio.com/forums/solid-state/198500-symef-amplifier-25.html#post2912452
kind regards,
Harrison.
Hi meanman1964,
Assuming that the 10pf has -10% tolerance that brings us close to 9pf. If the 7pf has +10% tolerance that brings us closer to 8pf.
Use the 10pf 😎
kind regards,
Harrison.
Assuming that the 10pf has -10% tolerance that brings us close to 9pf. If the 7pf has +10% tolerance that brings us closer to 8pf.
Use the 10pf 😎
kind regards,
Harrison.
There are 4 free pairs of 1DIFFQC PCBs (total 8) up for grabs for the next four members to post their builds, pictures and reviews of TYPE2 PCB.😉
Looking forward 😎
kind regards,
Harrison.
Looking forward 😎
kind regards,
Harrison.
Working on it. I had to order a selection of new resistors as some of the values you specify in the E24 series I somehow simply don't have on hand 😱
Also, is there a drill template and lead bending radius recommendation available? That would make life easier when prepping the heat sink. If there isn't then I'll just put some easy 'standard' radius bend on the leads and measure.
Also, is there a drill template and lead bending radius recommendation available? That would make life easier when prepping the heat sink. If there isn't then I'll just put some easy 'standard' radius bend on the leads and measure.
Thanks for the update Jason. 🙂
There are several ways to tackle the build. Am looking forward to how each member goes about it 😎
kind regards,
Harrison.
Here is the first mostly stuffed board, just a few items I forgot to get from the local purveyor of electronica.
OK, got the first channel powered up, but not without some minor issue.
One issue I was concerned about directly from the schematic reared its head immediately - a low level (1.8V p-p) HF oscillation at about 7.2MHz. I thought the shunt compensation was a little dubious and ended up having to add miller capacitors to the VAS. Having said that, the issue could have been self induced since I chose (read as had on hand) substantially faster transistors for the drivers and pre-drivers than specified.
Offset was fairly low at about 12mV and noise levels seem to be quite low, we'll see how low when it makes it to my speakers to have a listen.
A few comments about the 'Type 2' design:
1) It is, let's say, interesting to assemble, I spent a fair bit of time measuring and laying out a template in a 2D CAD program to get the drilling accurately done. A bit of a pain if no template is provided.
2) The under board mounting of devices will make alterations / repairs a real pain in the @$$, likely to the point of trashing it if a failure occurs that cant be addressed from the component side.
3) Some holes are so close to one another that I inadvertently allowed solder to flow into holes not yet occupied when stuffing the board. Not a big issue, just something to be aware of.
I will be removing it from the limited supply and giving it a full warm-up shortly to finalize the bias setting, then on to some more serious loading. I will attempt to induce the undesired parasitic oscillation during testing before turning it loose on my system. I'll be curious to hear it against my PeeCeeBee VSSA and the official LC VSSA, amongst a few commercial offerings too.
Will post more as I learn more.
One issue I was concerned about directly from the schematic reared its head immediately - a low level (1.8V p-p) HF oscillation at about 7.2MHz. I thought the shunt compensation was a little dubious and ended up having to add miller capacitors to the VAS. Having said that, the issue could have been self induced since I chose (read as had on hand) substantially faster transistors for the drivers and pre-drivers than specified.
Offset was fairly low at about 12mV and noise levels seem to be quite low, we'll see how low when it makes it to my speakers to have a listen.
A few comments about the 'Type 2' design:
1) It is, let's say, interesting to assemble, I spent a fair bit of time measuring and laying out a template in a 2D CAD program to get the drilling accurately done. A bit of a pain if no template is provided.
2) The under board mounting of devices will make alterations / repairs a real pain in the @$$, likely to the point of trashing it if a failure occurs that cant be addressed from the component side.
3) Some holes are so close to one another that I inadvertently allowed solder to flow into holes not yet occupied when stuffing the board. Not a big issue, just something to be aware of.
I will be removing it from the limited supply and giving it a full warm-up shortly to finalize the bias setting, then on to some more serious loading. I will attempt to induce the undesired parasitic oscillation during testing before turning it loose on my system. I'll be curious to hear it against my PeeCeeBee VSSA and the official LC VSSA, amongst a few commercial offerings too.
Will post more as I learn more.
Very nice Jason 😀. Looking good, the faster transistors may have caused it? Tekko may also have had such an experience. His solution was to terminate c3 and c9 across q1 q17 bases and collectors 😎
You did such a great job with the template am shipping your 2 free 1DIFFQC PCBs.
Looking forward to your review.
kind regards,
Harrison.
You did such a great job with the template am shipping your 2 free 1DIFFQC PCBs.
Looking forward to your review.
kind regards,
Harrison.
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