EEVblog Electronics Community Forum
Electronics => Repair => Topic started by: 128ITSH on November 04, 2019, 02:22:06 pm
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Hello everyone
My father likes collecting vinyl records and we have an old turntable the we like listening to sometimes.
We used to have a good preamp for it, but it stopped working properly so my father ordered this preamp (https://www.ebay.com/itm/Nobsound-T1-Phono-Stage-Turntable-Preamp-MM-RIAA-Record-Player-Pre-Amplifier-5V/133121230149?ssPageName=STRK%3AMEBIDX%3AIT) .
We plugged it in and listened to some records and the music just didn't sound good. The treble was very low and that created a feeling of a muffled sound.
So I checked the frequency response with my PicoScope 2205A (would recommend) USB oscilloscope and wave generator and the result is as follows:
Input (5mV sine) | Output(Avarage RMS)
20Hz----------------441mV
100Hz---------------730mV
200Hz---------------735mV
500Hz---------------683mV
1kHz----------------565mV
2kHz----------------385mV
5kHz----------------190mV
10kHz--------------115mV
20kHz--------------72mV
The eBay page claims "Frequency response: 20Hz-20KHz", but according to my measurements at 20Khz the voltage is amplified 10 times less than the maximum at around 200Hz, and the -3db point seems to be at around 2.2kHz. :palm:
My questions are:
-Is there any way to "fix" such bad preamp by replacing low quality or wrong value components?
-Do you think it is possible to get a refund? (i.e. do you have experience with returning similar items to sellers on ebay?)
Thanks in advance!
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whats the betting its some cheap piece of chineese crap?
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We plugged it in and listened to some records and the music just didn't sound good. The treble was very low and that created a feeling of a muffled sound.
So I checked the frequency response with my PicoScope 2205A (would recommend) USB oscilloscope and wave generator and the result is as follows:
Are you aware of the RIAA curve? A phono preamplifier should NOT measure linear. Start reading here (https://en.wikipedia.org/wiki/RIAA_equalization).
Graham Slee makes nice RIAA preamps. I own one.
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Thanks for the replay.
What I understand from this curve is that the record is played with low bass and high treble and to compensate the preamp boosts the bass and lowers the treble.
In What way can I measure the quality of this? Maybe looking at FFT spectrum of the input and output while the record is played?
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Yes, the compensation curve does two things, mainly:
1. By padding the high frequencies, reduces treble noise that comes from playback procedure. This is compensated with a corresponding gain before cutting.
2. This is more about the cutting procedure, but still, of course requires compensation. By reducing low frequency amplitude, the pitch (how much the needle is moved inwards per revolution) of the engraving machine can be reduced, and more program material can be fitted onto one side of the disc, without sacrificing maximum level. This is then restored at playback.
You need to do a couple of things:
Using the RIAA curve as guide, measure gain at the neutral point, 1KHz. Then, measure at octave bands up and down from that and calculate if gain is correct. That will tell you if the compensation curve is b0rked.
Buy a better RIAA amplifier!
Edit: Or build one. Google tells me there are several reference designs that seem reasonably good.
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What type of pickup are you using?
If I recall correctly (as it has been several decades since I last played a vinyl record), magnetic type pickups require a proper termination.
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Thanks for the replay.
What I understand from this curve is that the record is played with low bass and high treble and to compensate the preamp boosts the bass and lowers the treble.
In What way can I measure the quality of this? Maybe looking at FFT spectrum of the input and output while the record is played?
to test the frequency response of your phono preamp, you feed it with an "inverse RIAA"-signal. here you go:
https://web.archive.org/web/20170821083136/http://www.hagtech.com/pdf/riaa.pdf (https://web.archive.org/web/20170821083136/http://www.hagtech.com/pdf/riaa.pdf)
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If you plot the response of your amp against the desired RIAA equalisation, it's not too far off above 1kHz, but miles out below that.
Note that RIAA equalisation is intended only for magnetic cartridges. If you have a ceramic cartridge fitted to your turntable then no equalisation should be applied, and this pre-amp would cut the high frequencies considerably.
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Hi,
Maybe asking the obvious, but is your player element indeed a MM (moving magnet) and not a MC ( Moving coil) ?
gr. John.
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Hi,
Maybe asking the obvious, but is your player element indeed a MM (moving magnet) and not a MC ( Moving coil) ?
gr. John.
doesn't matter, equalization is same for both MM and MC, just different gain requirements. MC needs approx. 20 dB more gain at 1 kHz than MM to get same volume level.
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What type of pickup are you using?
If I recall correctly (as it has been several decades since I last played a vinyl record), magnetic type pickups require a proper termination.
Irrc, it was 47k || 220pF, although some Ortofon MM cartridges required 470pF. Different for MC.
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We used to have a good preamp for it, but it stopped working properly
Perhaps the best answer is to talk to us about your original preamp. We can probably help you fix it.
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Here's the response curve of a Pyle PP555 preamp I recently acquired:
(http://www.paladinmicro.com/TestEquipment/PylePP555/PP555FreqResponse-01.png)
Note that it's pretty close to the measurements you made (here are your numbers converted to ΔdB v 2 kHz)
(http://www.paladinmicro.com/TestEquipment/PylePP555/EEVBlogPreamp.jpg)
ik.e. pretty much what I'd expect from a lower cost RIAA preamp, with a teeper "rumble" cut than the Pyle (which could benefit from a bit more)...
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From the eBay ad pic, it seems to be a 4-transistor circuit with a boost-converter.
I would find another preamp, Walt Jung's two op-amp circuit works OK.
Problem is many phono-preamps are in the "audiophool" zone so they charge crazy high prices or get silly esoteric. There is a lot of junk out there.
Better off to fix the old one.
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Might look at some other simple possibilities.
Maybe too much gain in new pre-amp and clipping is happening. You can use your Picoscope to look at the outputs for this. This would be almost surely true if the cartridge is ceramic, and adding the RIAA curve would further foul up the sound.
The old preamp was failing before it quite completely, and you got used to the sound. The new amp may be sort of correct, but not meeting your preferences.
Frequency response of amplifier may depend on load impedance. Typical audio inputs are a few tens of kohms. Picoscope is 1 Mohm.
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From the eBay ad pic, it seems to be a 4-transistor circuit with a boost-converter.
It's must be ok since it's a reasonable circuit layout :-DD Then again it says it's lossless, which doesn't bode (see what I did there?) well for a filter.
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Thank's for all of your responses!
As some suggested I went and checked the old "failed" preamp.
Surprisingly, it just works really well. I don't even remember what was the exact issue with it at the first place. :palm:
Anyways thanks for the help, I learned a few things in this process.