You should take a look inside :
https://www.diyaudio.com/community/threads/autoranger-for-soundcards.299635/post-7474015
All battery powered. 🤓
Patrick
https://www.diyaudio.com/community/threads/autoranger-for-soundcards.299635/post-7474015
All battery powered. 🤓
Patrick
A pair of 18650 cells are used for the raw supply and regulated down for the 5V supply in the AR, and 4 x 9V Li-ion for the raw supply which is then regulated down to +/-15V for the AR and opamp buffer before the Cosmos. The Cosmos is powered from the USB-C (laptop).
The Viktor is powered from 9v Li-ion as well, there is a 1kHz and 10kHz oscillator in that chassis and you simply flip the power switch one way or the other to activate either.
SE connections are all BNC, and balanced are using Lemo clones.
it is well worth while putting some effort into putting a good cabling setup in place as well, I would factor that in from the start. It won't cost a fortune, but takes some time to make them correctly. One set for SE and one for balanced.
For the Topping D10, it is balanced only and you cannot just tie one side to ground. So dedicated cable with just one phase connected is needed. You might also need standard XLR if your amp has those inputs.
Last thing then is the load.....
The Viktor is powered from 9v Li-ion as well, there is a 1kHz and 10kHz oscillator in that chassis and you simply flip the power switch one way or the other to activate either.
SE connections are all BNC, and balanced are using Lemo clones.
it is well worth while putting some effort into putting a good cabling setup in place as well, I would factor that in from the start. It won't cost a fortune, but takes some time to make them correctly. One set for SE and one for balanced.
For the Topping D10, it is balanced only and you cannot just tie one side to ground. So dedicated cable with just one phase connected is needed. You might also need standard XLR if your amp has those inputs.
Last thing then is the load.....
I have never had my Alert so full before !!!
Thank you for your support & appreciations.
Patrick
Thank you for your support & appreciations.
Patrick
The first picture of post #3 shows on the right hand side of the amplifier the speaker protection module.
This is an improved version of Pavel's excellent but simple circuit with added start-up mute :
https://www.diyaudio.com/community/threads/output-relays.191449/post-2835407
It uses the same power supply as the amplifier.
No auxiliary supplies are required.
Patrick
.
This is an improved version of Pavel's excellent but simple circuit with added start-up mute :
https://www.diyaudio.com/community/threads/output-relays.191449/post-2835407
It uses the same power supply as the amplifier.
No auxiliary supplies are required.
Patrick
.
Attachments
Why did we choose to use Pavel's design, instead of a variety of other alternatives around ?
Advantages
Use amplifier power rails, no extra dual supply needed
MOSFET relay integrated on PCB
Very simpler circuit and easily available components
No opamps or highly integrated circuits
No microprocessor, no firmware
Disadvantages
Supply must share common Gnd as amplifier
MOSFET Relay normally on, activate to turn off = not passively fail safe
If negative rail is lost, relay will turn not turn off automatically
Trigger level predetermined by circuit / components and not adjustable (~+/-2.4V)
Only for SE input, not differential.
No start-up mute
Our modification is aimed at getting round most of the above mentioned disadvantages.
This was done by adding less than 10 primary components.
No ICs (unless you count optocoupler as one).
Patrick
Advantages
Use amplifier power rails, no extra dual supply needed
MOSFET relay integrated on PCB
Very simpler circuit and easily available components
No opamps or highly integrated circuits
No microprocessor, no firmware
Disadvantages
Supply must share common Gnd as amplifier
MOSFET Relay normally on, activate to turn off = not passively fail safe
If negative rail is lost, relay will turn not turn off automatically
Trigger level predetermined by circuit / components and not adjustable (~+/-2.4V)
Only for SE input, not differential.
No start-up mute
Our modification is aimed at getting round most of the above mentioned disadvantages.
This was done by adding less than 10 primary components.
No ICs (unless you count optocoupler as one).
Patrick
In the PDF article, it was mentioned that the HiFi2000 Mini Dissipante is of compatible size.
It should be noted, however, that this has a heatsink with 30mm fins, while the BZ3213 has 40mm fins.
One can expect roughly 33% higher temperature rise for the same power.
Here a NatSink simulation for the heatsink of the Mini Dissipante.
Patrick
It should be noted, however, that this has a heatsink with 30mm fins, while the BZ3213 has 40mm fins.
One can expect roughly 33% higher temperature rise for the same power.
Here a NatSink simulation for the heatsink of the Mini Dissipante.
Patrick
A link for the BZ3213 case.
https://www.ebay.com/itm/295542655383
Disclaimer :
Have no experience with this vendor.
But the case seems to have a blank rear panel, which is what we want.
Patrick
https://www.ebay.com/itm/295542655383
Disclaimer :
Have no experience with this vendor.
But the case seems to have a blank rear panel, which is what we want.
Patrick
The F5Pi had another audition Wednesday evening .
Speakers were Ruark accolades.
I'll leave Fran to give you the details.
Patrick
I think a lot of people here are like me - when you are thinking of what to build, generally everyone wants something that sounds good. The comments you have seen above, well they come from me only, in my room, my speakers etc.
So I thought it would be a good idea to get some impressions from other experienced listeners within reach. I brought the amp to a friend for a demo. He has a nice system, and many years of listening under his belt. He is using an AD1862 DAC with SRPP output stage, and Ruark accolade speakers you can see in the image. The amp sounded great when I set it up and spent a while with him, but I wanted to get his own opinion after using it for a little while. So I left it with him for a few days and I will post his opinion here shortly. Mind you, from what he has told me so far, he really likes it, so I don't think his comments will be that different to mine. But I won't put words in his mouth, and will post shortly. I will repeat this again with another friend maybe just after Christmas.
Fran
This looks like a mighty fine amp, well thought out and tested, bravo. In my experience a very good integrated can sometimes sound better than separate pre and power amps. I have a Pass INT-25 which just sounds very right and natural, very hard to beat across the board. I will give my pre-power amps a chance by investing in more cables, hope they get the edge then or I will have to sell them 😀
Might be interested in making one of these once kits become available.
Might be interested in making one of these once kits become available.
I have since Mai a AVM Ovation A6.3 and it´s unbeaten .....
.... but to check what is possible with some PCB And love....to come closer -is DIY 😉
.... but to check what is possible with some PCB And love....to come closer -is DIY 😉
You speak about the A8.3 with chrome.....
I have A6.3 black-got it use from a german dealer with great discount 🙂
I have A6.3 black-got it use from a german dealer with great discount 🙂
Still 11 grand.
And they must have a very compact 1000VA transformer.
Scaling from photos, it is about 150mm diameter fully enclosed.
A Toroidy Supreme 1000VA is 210x90mm !
Also heatsink about same size as the 3213 ?
~340x50x130mm ?
Patrick
And they must have a very compact 1000VA transformer.
Scaling from photos, it is about 150mm diameter fully enclosed.
A Toroidy Supreme 1000VA is 210x90mm !
Also heatsink about same size as the 3213 ?
~340x50x130mm ?
Patrick
The F5 Preamp as shown in post #29 was measured by Fran today.
It has a gain of 3, using 2SK246BL + 2SJ103BL, and FQP3N30 + FQP3P20.
H2 -92dB, H3 -97dB at 2Vrms, 1kHz.
Pretty much the same as the F5Pi at 2.8Vrms 1kHz.
Quite OK. 🤓
Patrick
It has a gain of 3, using 2SK246BL + 2SJ103BL, and FQP3N30 + FQP3P20.
H2 -92dB, H3 -97dB at 2Vrms, 1kHz.
Pretty much the same as the F5Pi at 2.8Vrms 1kHz.
Quite OK. 🤓
Patrick
Attachments
- Home
- Amplifiers
- Pass Labs
- The F5Pi -- F5P Voltage Gain Stage + M2 Output Stage = Perfectly Integrated