are there any instructions for wiring up the transformer?
There should be something on the retailers site (the DIYaudio sales ). Don't they have a download for how to use there equipment?
Build and use your Mains Bulb Tester to power on.
Crystal clear now. BTW, you did ask about low or high source outputs: so, I have about 0.8v from my FSP phono (0.5mV cart x64dB Gain) and CD player is 0.7V(2V P2P). I assume that is not considered low...
play some music from each and see how much attenuation you have to apply to reach sensible and loud levels.
Tested with my FSP phono. Reach sensible and loud level is at 9 out of 10 on my volume knob. CD player is showing same behave at 8-8.5. Very close to phono behave, but hair-lower position of pot gaveme the same level of loudness. I have about 18k-19k opto-coupler type of volume control based on LightSpeed DYI concept. Volume Max position did not introduce any distortion or discomfort, but it is little bit louder than my comfort listening level.
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the CD @ -9dBfs = 0.7Vac is roughly the same as the RIAA @ 0.5mVac =0.8Vac and both need 9/10 on the vol pot.
That indicates you don't have much excess gain.
You might only need a gain pre-amp when you want louder than your normal, If your amp and speaker can take more power.
Once you know your amp gain you can work out what signal levels should be reaching your speakers. Have you used Pano's digital source to measure your likely maximum signal?
That indicates you don't have much excess gain.
You might only need a gain pre-amp when you want louder than your normal, If your amp and speaker can take more power.
Once you know your amp gain you can work out what signal levels should be reaching your speakers. Have you used Pano's digital source to measure your likely maximum signal?
What is Pano's digital source? I can't find any info on web when I search by that title. I thought I can use my signal generator and I'll test for clipping with 1kHz sine.
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I measured my amp gain. Negative and almost immediately Positive side of 1kHz sine starts clipping at 1.45V So, my Gain is 18.5(outputV)/1.44)InputV)=12.85(DeltaV)=22.2dB.
Please see recorded video on YouTube (could'n find the way to attached video to my post): https://youtu.be/v3Wur7EgI-A
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Please see recorded video on YouTube (could'n find the way to attached video to my post): https://youtu.be/v3Wur7EgI-A
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My speakers are 6r0 and PSU is 30-32VDC (based on house main that fluctuates during day from 116-120VAC).
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18.5Vac into a dummy load is OK for 30Vdc supply rails.
Are your speakers really 6ohms?
or are they 4ohms for the bass/mid and 8ohms for the treble? or similar mixed impedances to correct for baffle step roll-off?
Are your speakers really 6ohms?
or are they 4ohms for the bass/mid and 8ohms for the treble? or similar mixed impedances to correct for baffle step roll-off?
The are 6Ohm Nominal. This is what spec say. Also, that have one input terminal set. No separation for High/Low. It is Acoustic Zen Adagio, floor standing: http://www.acousticzen.com/products/loudspeakers/floorstanding
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BTW, I tested Gain with this speakers connected. Not dummy load was used.
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Either open circuit, or dummy resistor load. NOT speaker.
Worth doing both dummy load and open, to compare the difference in peak voltage available.
Worth doing both dummy load and open, to compare the difference in peak voltage available.
I see. I'll test it again in couple hours with open and 8 Ohm resistor. I'll report soon.
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Measure the DC resistance into the two speaker terminals.
If those two bass/mids are 8ohms each, then you will see ~ 3r resistance.
If they are 12ohms each, then expect to see ~ 4r5 resistance.
You could open her up and measure the DC resistance of the Treble driver, expect anywhere from 6r to 10r, (8ohms to 12ohms driver)
An impedance/phase plot will give some clues to what driver impedances have been used.
I measure DC resistance at speaker cable port and I see 5R2. Can't take tweeter out since they use some lock-tight on its screws. Do not want to apply to much force since I might scratch these screws and speakers still under warranty.
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No much difference when I measured OPEN (NO LOAD) and with 8R1 LOAD. Please see attached images.My load resistor (I used 100R 100W rheostat which I set to 8R1) got hot and resistance bit changed to 9R5 during my short test. So, No LOAD, Gain is 24.8dB, with Load 24.7dB.
Attachments
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I would not expect the gain to change. Your numbers confirm that.
But the maximum unclipped output voltage will be very dependent on the load resistance that is being driven.
Typically I would expect a very good amplifier to show a drop of ~0.5dBv going from open circuit to rated resistance of 8r0.
then drop a bit more ~ 0.7dBv for a 4r0 load and finally to drop a further 0.7dBv changing to 2r67 (one third of the rated speaker impedance).
My targets are set to drop a little bit less than those values.
Open circuit XdBv
8r0 -0.5dBv - rated load.
4r0 -1.2dBv - half rated load.
2r67 -1.9dBv - one third of rated load.
But the maximum unclipped output voltage will be very dependent on the load resistance that is being driven.
Typically I would expect a very good amplifier to show a drop of ~0.5dBv going from open circuit to rated resistance of 8r0.
then drop a bit more ~ 0.7dBv for a 4r0 load and finally to drop a further 0.7dBv changing to 2r67 (one third of the rated speaker impedance).
My targets are set to drop a little bit less than those values.
Open circuit XdBv
8r0 -0.5dBv - rated load.
4r0 -1.2dBv - half rated load.
2r67 -1.9dBv - one third of rated load.
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Don't do that to your rheostat. You will end up damaging it.
If you have a 50W 100ohms rheostat, then the maximum CURRENT is given by
Imax = sqrt(P / R) = sqrt (50/100) = 0.7A
If you were passing (28v5/9r5) 3A through it, then you would require a 1kW rheostat to stand that abuse.
If you have a 50W 100ohms rheostat, then the maximum CURRENT is given by
Imax = sqrt(P / R) = sqrt (50/100) = 0.7A
If you were passing (28v5/9r5) 3A through it, then you would require a 1kW rheostat to stand that abuse.
I assume that my testing already reviled about 22.3dB Gain, 1. 42v input and 18.5V Max, and -0.5bB with 8r load vs. open. The rest of tests will be as a sport that I do not have equipment to run it. So, based on currently known results, what should be safe Gain recommendation for my DCB3?
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