EEVblog

NOTE: Some studio monitors will have an "auto-mute" function that is designed to make the speaker silent without an input signal, so the background noise isn't heard. This is a different feature to power-on mute. But the noise is still there in the amplifier and returns when you play music and goes out of mute mode.

Did you check the woofer for snakes as a source of hiss? It is Australia after all!

What a way to merge my passions in both electrical engineering and music production together.

well now you have to do a video of actually fixing the noise

Dave, really appreciate your audio-related vids. Thanks!

We from the VoIP department call that comfort noise, so you know the equipment is working.

Most noise issues are due to bad PCB design and self noise.
It's especially a matter of designing the ground properly. I have worked on designs myself were that difference was 6dB or more.
That last one can easily be calculated with the gain aa Dave already mentioned. Don't forget that a tweeter easily has a sensitivity of around 90 dB/W. Maybe people also understand how difficult that's gonna be with super sensitive compression drivers.
A way to fix this for low power studio monitors is to add a resistor divider (called a L-PAD) after the power amp. Obviously you have to compensate for the gain loss in the pre-amp. The value of these resistors are critical because of the impedance. Wrong values will change the frequency response. These resistors barely add extra noise since the values are low (typically < 10 ohm)

Can we have the FINAL conclusion of where the noise comes from, and perhaps what can be done to alleviate it to some extent?

Years ago, and not sure where I read this, but the article I read said that IC amplifiers have more noise to them than using discrete components. My old Mackie HR824's are super quiet. The only use IC's for the OP amp preamplifiers and output is power transistors. Well anyway, one day one of my HR824's went dead, so I went out and bought Mackie MR5MK3 monitors. They were low priced ones, but I just needed something to use while I fix the bad one. I did notice that they had a pretty audible noise floor. Opened one of them up, and sure enough, the power amp section used IC's. I was sure glad to get back to my 824's. Oh, before I forget, I also remember talking about it with my local ham radio group way back in the mid 70's. I'm old.

Notice no roll-off in the room background noise, so the roll-off is likely in the tweeter output.

Waiting on Mr. Carlson Lab input...

I could spend all day listening to Dave say "woofer".

Very interesting, glad to know I'm not crazy for hearing the noise coming through my monitors when nothing is playing. I can't hear it unless I'm really close to it, so thanks for doing this deep dive and tearing everything down with a very thorough explanation.

One possible cause of the hiss is that these and many powered monitors use Class D power amps. So there is an inherent switching oscillator that is part of the power output stage. These are great sources of white noise.

No mention of power supply rejection ratio of the power amp, nor the noise on the power rails... Figure 8 of the TDA2052 data sheet appears to show only -20dB to -40dB PSRR at 5kHz. Any chance we could get a noise measurement on the power rails?

Given your conclusion that the power amp is the culprit,it would be interesting to connect the pre-amp/filter board to a separate amplifier and see if there is any improvement.

I enjoyed this departure from your normal content, it's really cool to see the troubleshooting approach in action even (or maybe especially) when there's no 'fault' - it puts a lot of things in a real world context that's not easy to see (for me at least :)) when doing a 'regular teardown'.

It would be really interesting to have a video done on how noise enters into an otherwise very quiet amplifier circuit, seems like there’s a lot of potential for noise that isn’t obvious.

I wonder if it could be improved by lowering the power amp gain (changing the feedback resistors) and making up for it by increasing the gain of the prior stages?

That is why I bought a pair of ELAC bookshelf speakers and the cheapest crown amp, no noise, sound just as good or better than most powered monitors

I work for the local cable company, and my job lately consists mostly of finding sources of Return Path Ingress (5-65MHz) in the network. Nothing better than coming home from work after a long day to watch dave do the same thing on a much smaller scale :D

Absolutely great video - thanks for taking us into that detailed step-by-step journey, and narrowing it down! :)

I've got similar monitors and I really don't need so much gain on the main amplifiers. Is there a relatively easy resistor to change out there to lower the gain? Lower gain would probably mean less noise I assume.

That hiss isn't a bug, it's a feature! It helps a audio tech quickly determine if the speaker is working and if the problem he's looking for is somewhere else. ;)

I noticed quite a few unpopulated cap positions on PCB, probably bean counters removing "unnecessary" filter caps

As long as the hiss is proportional to output volume, its not too much of a concern. That is, if you're using them at high volume, you're probably standing back a distance from them and the sound will swamp the noise. That might seem like an obvious point, but take for example the EV ETX series of PA speakers - I've found they have a constant, quite loud hiss that is independent of any of the volume controls. So you have to be using them at theater volume levels to make the sound/noise ratio acceptable, but I wan't to use them at lower volumes a lot of the time, and it's very disappointing to have all that hiss there. There's a lot of DSP going on in them, maybe the output circuitry is "full on" all the time.

So its from the amps .. thanks ! I was wondering if this noise is not a ground loop , but its not that loud ...

Did you try cooling the amplifier with some canned air to see if that affected the noise?

These things are not high grade monitors, what they are are a cobbled together car stereo grade output with a active seperation of input frequencies. Those amplifier modules are designed for mobile usage with minimal bias etc to save power, THD and all that audiophile "nonsense" (like low noise) are not parameters of the design. You ask yourself why do all these E-E have all that "expensive equipment" when you can get the same things on Ebay for a lot less. Dave is currently in the grip of the first stages of being an audiophile.

The buzz could be a ground loop. I had the same trouble with my Presonus active monitors. For some reason I had less trouble using passives and a separate amp.

sooo ... you'll follow through and chase down the problem with the power amp section next? or that's that?

Simple answer. Because the built-in amps are always on MAX. All ACTIVE monitors do this. The volume is usually adjusted in the studio before the signal hits the speakers. You can replicate this same noise floor on high-quality PASSIVE HiFi speakers by turning your separate amplifier up to maximum and keeping it there all the time while making all your volume adjustments before the input to the amp. It'll be noisy as FxcK. It's just bad gain structure.
I will now watch the video.
(love your channel by the way)

It's quite easy. Most noise in audio amplifiers comes from the preamp. In the usual preamp + power amp combinations the output of the preamp is attenuated by the volume control.
The volume control attenuates both the signal and the noise before it feeds into the power amp. This is true for separate preamp + power amp stages as well as integrated amplifiers.
But for active speakers like this studio monitor the preamp is not attenuated (let's say the volume control is at 100 all the time), and volume control is done by the user by lowering the signal at the preamp input.
That's why the noise level stays the same, because the output of the preamp has no attenuator and therefore always keeps the same gain level.
If you turn the volume control to 100 on any preamp + power amp combination without a signal at the input, the hiss is just as loud as those studio monitors.
It's just the volume control that turns the hiss down with the audio in that case, which does not apply to active speakers.

I've fixed this issue with my studio monitors. I tried replacing the electrolytic caps, didn't work. I noticed when lifting the center tap of the power transformer from the board the noise went away. Turns out that the system wasn't star grounded. I fixed it by soldering the center tap to the pin of one of the bulk filtering capacitors.
I would try lifting then jumping the rh100/ch102 node to pin 4 direct, and/or lifting the 2 earth grounds on the tweeter output

You could build a mute standby timer with some circuitry! That would be awesome! So that it mutes the amplifier when there's no signal present for a little bit of time, and re-enables the amplifier when signal is detected. I would love to see that.

Hello, Dave could you please test just the output stage of the IC ? If the datasheet is correct you can choose which stage is off by voltage level on the mute control input, in some state only the input is muted (as you have thought originally) with other voltage level output stage is off too if I understood it well. So it would be interesting to know which stage in the power amp is responsible for that noise.

i have to admit that i would like a full course of you on a quest to build the best audio amplifier possible.. :) .. you are the best on the net..

As per your study, maybe not always the HISS is coming from Preamplifiers or Corrections (as you name it FrontEnd). First, yes, ribon cable is really not appropriate for analog signals. Replace with coax. Then, the OpAmps. They used very cheap OpAmps... Maybe in the same range of price they could place LM833, with considerably much better results. Try to extract all of them, place sockets and LM833. See results, make nice measurements. Then replace with LT1678 and come back with some measurements. And then replace the ordinary carbon resistors with metal oxide. And replace the ElCeapo Aluminum capacitors with Tantalum drops of 10u. At least, I am doing this exercise when I optimize commercial audio stuff. Cheers mate!

Klipsch speakers do this as well. Ear to the tweeter, with no audio playing ( connected still ) produces a white-noise

I recently bought a headphone amp that was really noisy no matter what I did. Same kind of thing. The output amplifier had a fixed, somewhat high gain, so the input noise voltage was always amplified by the same amount regardless of the volume setting. As luck would have it, I had another headphone amp that had more/less the same components, but the volume set the gain of the output amp. On that one the noise was inaudible when the volume was down, but was pretty comparable when turned up, but at least it was less obnoxious when running at reasonable volume levels.

How do you find these schematic diagrams?

Very cool video/investigation - so what was the PSRR of the part? Could it be coming up the power lines? Wonder if it gets quieter if you power it off your linear lab supply?

I have some personal findings on high frequency hiss coming as Common Mode noise from the power supply rectifier diodes. It is the recovery spikes - microsecond or less - that by themselves are not audible, but when they get into the amplifier, they cause issues by overloading a stage which has high native gain moderated by feedback. But the feedback has a propagation delay, so it does not attenuate all frequencies alike and some not at all. In fact, the feedback may approach turning the stage into an oscillator.. Or you could relate it to Intermodulation Distortion. Anyway, I would look for ways to add some (lossy) ferrites to certain places, like the emitter or source leads of a few transistors.

At 7:53, you state that the blue AC meter has a BW > 100 kHz, which is fine. But note that En is specified at 3uV when measured over a BW of 20 kHz. To get your meter readings to jibe better with the the datasheet (and your ears), you should have added a lowpass filter to the input of the meter to limit its BW to 20 kHz. Without such limiting, your RMS meter will measure and add more HF noise that your calculations and the datasheet do not assume! However, since all of the measurements were done using the wide BW meter, then the amp's datasheet numbers as well as your thermal noise calculations (11:16) have to be expanded out to this assumed meter BW of 100 kHz (+/-).
I'm pretty sure that the source of your noise is En and the thermal noise of (RH9//RH10//RH100 = 1Kohm). You can't just add these two noise sources. You have to do the square root of the sum of the squares. When you do that, then En dwarfs the resistor noise, so it comes down to just En. First you expand En to a BW of 100 kHz, which you do by multiplying it by sqrt(100kHz/20kHz) = 2.24. En is now 3*2.24 = 6.7uV. This noise gets multiplied by the gain of the amplifier, (RH4/RH3 + 1)=27, giving a noise value of 6.7*27 = 181uV.
This is getting close to the measured value, but now you have to consider the potential error sources in the calculations. The biggest one is the BW of the blue meter. If it is really 180 kHz (Dave said "100kHz-plus bandwidth"), then the calculation bumps up to 245 mV. Then there is the unspecified error of the meter when operating at this frequency. The user manual claims accuracy out to only 5kHz. What happens to signals at 100 kHz? 200 kHz? Let's face it, this meter is being used far beyond its stated calibrated capabilities. Note to Dave: you really need to measure the freq response of this meter out to the frequencies you intend to test with it. You certainly have the calibrated instruments to do it.
Another error source is En itself. It has a very wide tolerance to it (3uV typ, 10uV max). If this particular amplifier's noise is 4uV, a very real possibility, then you also get a 245 uV calculated result.
One last thought: much of the measurements shown here are way too high only because who can hear anything beyond 20 kHz? Why include the noise that is out there beyond 20 kHz? To get a true measure of the voltage that counts, namely "hiss" that we can hear, the measurements should be reduced to about 250uV * sqrt(20kHz/100kHz) = 120uVrms (20kHz-20Hz).
*BOTTOM LINE: the source of the hiss in this video is the power amplifier itself.* These very old TDA amplifiers were well-known in their times for being noise generators. They are obsolete today for good reason!
Is there any possible fix? Some have correctly said to lower the gain of the power amplifier, which would lower the output power by 3dB, which is perceptible. But then you have to raise the gain of the preamp by 2 to get the same total gain you had before. Maybe the design has too much gain as it is? Is there enough headroom in the preamp to do this? I'd disconnect the speakers (to save my ears) and replace them with dummy load resistors, then attach a signal source and start driving the system to its limits. Adjust the gains of the preamp and the power amp such that they both begin to clip at the same time. See how much headroom you have in each subsystem and get them "balanced" this way. Ideally the designers did that in the first place. Such a mod could be an entire video in itself.
Calculating noise is a real black art involving a lot of squares and square roots, combined with recognizing Thevenin equivalent circuits. I understand a little bit about it, but I make no claims to being an ace at it!

I had a pair of Genelec (8040A's), and they had a very faint hum. Then I down graded to M-Audio, and they have a much more noticeable hum. So apparently it is something that can be improved if you give the engineers more money to work with. The currently available verson of that speaker is the 8040B, which costs $1,200/each (US).

I had the exact same "problem" with my new Adam Audio T7V. At first, I thought something was wrong with it, cause the noise seemed too loud (while not playing anything), I could hear it from like arm's length, but it turns I just have too sensitive hearing 😂 I actually went back into a store and tried like 10 different studio monitors, from cheaper to more expensive ones, and yes, they all have it, while the guy from the shop was looking at me like something was wrong with me 😂

"And the [hiss], that was planted in my brain... still remains
Within the sound of silence"

I've mucked around with the TDA2030A for my active speakers. I found that the noise is very voltage dependent. I dropped mine from 12V to 9V now the noise is OK. Perhaps this is also a thing with the TDA2052.

The number in the title is funny, because the LT1118 was the only linear regulator on the market that I could find, match the specs I needed, and could SINK current. Nice. :)

Have you done any testing with the the input terminated with a resistor.

Idea - what if you cool down whole board? I saw even webpage of guy, who put peltier cell into DSLR camera to reduce noise. Would be interesting to see how noise of semiconductors changes with temperature.

Had some good like adding snubber caps (x4) to the bridge rectifier in custom studio monitors back in the late 90's & early 2000s, as well as making sure any analog circuitry decoupling/power-bypass was sufficient. Had thought most of the noise floor was johnson/thermal, until the improvements dropped the noisefloor below isolated recording studio ambient, though that may be because we were running 600 ohm balanced, so didn;t have the regular 10k-100k input impedances involved

all class D amplifiers have a great deal of HF switchmode noise in the output!
that is part of the design, but clearly some are noisier than others ...

Great job of chasing the noise through the system Dave. One thought, I've always considered a multimeter the wrong tool for chasing AC noise in a system... not enough visual clues in just seeing a number. whilst you mentioned that your multimeter has the bandwidth, does it's ADC really have the granularity to be measuring down in the uV's of noise?

Made total sense. I have the KRK 10/3's and the noise floor in those is a real shocker have thought about changing out the mid and hi amps for something far less noise inherent but finding a match is difficult. The only tri-amped monitors I have heard of in this price point are the "Keli 8"v2" ...they are VERY quiet. ;)

My Rokit 5s had a noise problem due to a nearby plasma TV. With the TV on there was a noticeable buzz in the woofers. Wasn't a ground loop or mains power. The buzz got louder the closer the speakers were to the TV. Eventually worked out an aluminium foil "shield" wrapping the speaker and attached to ground removed 99% of the buzz.
I fixed the speakers by disassembling them and lining the inside with adhesive copper foil then attaching a ground wire to the amplifier board using lugs and screws. The buzz is now completely gone.

Any chance this is like on phones where they add a faint background noise during calls because people would think the call dropped if the speakers were allowed to go all the way to full silence during a call?

BTW, thank you Dave for doing videos like this. Very very informative for people like myself who are far more mechanical than electrical but wish they were. :-)

I have rp8 g4 and no matter what socket they plugged in round the house they both have the same level of white noise no matter what gain you set, connecting this to interface does not help.
Faulty units? White noise is annoyingly loud tbh. u can hear it from 2-3m away

Remember those huge (and doubtless prohibitively expensive) extremely high value resistors in the Keithley 617? That's what it takes to eliminate this kind of noise.
If it's white noise in an audio amplifier, 99.44% that's thermal noise through a resistor. Since it's still there with the preamp disconnected, it's gotta be the feedback resistor. Heavily over-spec'd resistors help cut that down, which is why you'll often find 1/2W or higher rated metal film resistors throughout boutique amplifiers, including the preamp signal path where the current is naff-all. Some passive component choices in higher-end amps aren't entirely due to juju or woo.
Tried using 1/4W Wun Hunlo carbon film resistors in a few dirt boxes (guitar distortion pedals) a while ago. They sounded even worse than you'd expect.

Hi :) do you also make repairs for customers?

Oh, the calculator sitting there on the bench at the start - that was my calculator all the way through secondary school. Fond memories, and I wonder if I still have it somewhere..

One issue is that many of these monitors have very sensitive drivers. If you look at specs on most pro audio drivers, they are much more efficient than home theatre speakers.

Where did you get the schematic?

I won't pretend I understood the entire video, maybe I understood 50% or so but I really don't understand how in the beginning it's said that the noise is 100hz coming from the ps rectifier, and then near the end it's said the noise is just inherent noise from the amplifier? Does that mean the amplifier is just amplifying the noise of the power? If so, wouldn't filtering the power better lower the noise? I must've missed/not understood something. Thank you for the video.

Looking at amplifier noise numbers, those 2uV are specified for A-weighted, 20Hz-20KHz. If your meter has a 100kHz bandwidth, then you should divide the output voltage by a factor of roughly 3 (sqrt(5) for the badwidth, and around 1.4 (3dB) for the A-weighting). That makes the measured value much more plausible from the amp specs.

me at 0:00 : it's the power amplifier
me at 23:28 : it's the power amplifier

Grab a pair of Genelec monitors and you'll experience a very different result.

Thanks, this video makes me feel better. Just got a pair of Adam Audio T5Vs and was hearing this low hiss from the tweeter.
Perhaps it's very difficult to get rid of that from active monitors at cheaper prices. Considering the competition between them, if they could, someone would.

My 1997 Mackie HR824 Gen 1 are absolutely full quieting. No hiss, no buzzing, no nothing except music. This is with pre-amp mixing connected.

Are these things that are called "monitors" any different from a normal set of usual PC speakers? I keep hearing this "monitor" thing and all I see is the same speaker boxes I have on my desk from the local IT store... well not exactly the same make and model, but you get the idea...

Not much to improve by having a pre amplifier, because the TDA2052 also has a 30Db minimum gain requirement. All these kind of integrated power amplifiers seem to be in the same "noise category", even OPAxxx power op amps, hard to find something 20Db better, this is why all studio monitors are the same. You would have to do a discrete power amplifier with a good low noise op amp to get better.

The power amp is coupled as a inverting opamp with a gain of 1+ RH104 / RH103: 12k / 456 ohms = 27, that's a lot of gain, what I learned in Audio design class, was never leave feedback resistor unbypassed, have not read the data sheet the amp might not like it, but a small feedback cap over RH104 to cut down on the power amp, frequency response could be a good idea, I know that there is some parasitic capacitance in the PCB, but Add 330pF over the 12k resistor, would cut down the frequency response to 40Khz 1/(2 x PI x 12k x 330p ) = 40,2Khz This could lead to instability of would properly do with a good read of the data sheet before doing this :)

Would've enjoyed some more measurements, maybe a scope or spectrum analyser on the internal speaker connections.
Or don't they have sufficient amplification or too high a noise floor themselves?

Hack the thing. Attach an audio detector that'll switch on or switch off the power amp board.

You have to use one of those isolation transformers with these. Tweeters can get yeast infections if there is a toaster on the same circuit.

hi thanks fo the video! I just got a pair of genelec 1029a's and they seems to seem to have this same broadband noise but it is totally audible from .5 m/ 1.5 ft away. I cant tell if I am being neurotic or if this is an acceptable amount of noise from monitors. What do you think?

First of all, you did not mention any of the "top brands", you mentioned affordable home studio monitors which are different animals all together. Genelec, PSI, Barefoot are some of the top brands. And two, what kind of AC line conditioner are you using? IF you run those KRK's through a Furman with L>I>F>T> that noise goes away because the problem is the filthy hydro power and no one who values their recordings at all would plug anything to do with recording into a wall socket! That will give you 3Db of noise that could be used for music or what ever you are recording. But I would think someone like you would know that, pretty surprised that you don't.

Greetings, I just bought a brand new JBL 305p MK2 and it was playing very great first 2 days but today Its just playing at an insanely low level that i can barely hear. It's also making popping sounds here and their. Im still hearing bass but im hearing a loud Hiss noise when i put my hear close to the tweeters. Sometimes when i turn the volume knob at the back of the speakers up and down, after a while it will just start playing fine for a few minutes and then a pop and it start playing low again... Which makes me to believe maybe their is a loose wire of something inside the speaker? Im not an audio technition but I would appreciate your advice. Thank you

Useful video 👍 👍

Wasn't it obvious that the mute function on the TDA would also kill the output stage?

yeah ive turned down like top of the line monitors in the music shop because of the hiss. my research deals in hiss. so you can bet it was a show stopper. i believe they want to keep the power amp constantly loud in order to profile its nonlinearities. now i just wish i had more desk space.

Kinda related but I own Logitech x-530s and if I turn the volume up to 90%+ I can hear my local airport ATC tower. I took them apart recently and found no antenna. What could possibly be picking up the signal.

Often minor HF instability reveals itself as hiss/noise A 100 PF(?) in // with feedback resistor may help. It is unusual for a power amp to generate that much noise , even with a sensitive driver connected. Though most of those studio monitors are horrible - just like these....

but what is finally the reason for the noise ?
Maybe that would make an interesting follow-up.

Thank you so much. This is really useful. I almost recapped my Event 20/20 BAS monitors because of this low level noise that I've had for many many years. I'm glad I didn't, because it probably wouldn't have done a thing to help! I wonder if passive monitors with better amplifiers will fare better on average for noise.

Do the Adam a7x and Focal studio monitors have that noise as well?

have you tested if the 100Hz humming is because of bad power filtering or if is magnetic induction because the transformer is near to the speaker? did it go away when the take it apart?

Hoping to get some info from this... my monitors have a small hiss... but I can hear its character back in distortion when it’s been driven moderatly... they are EVE SC307’s... i expect them to sound good, but it’s pretty horribly messing with the sound... so hope there are some fixes for this

I have both these (8 years old, haven't been affected by the black gunk of death yet), and a pair of JBL305 (which has class D amps), and the hiss from the JBL305 is really awful (but no low freq humm), still audible when playing music at a normal volume. I was really disappointed with them because so called audiophiles recommended them. I dealt with it by inserting a 2 watt 40ohm resistor inline with the tweeters, then used eq to boost it back to more or less flat response, sounds great now. Might do the same with both the woofer and tweeters in the RP6s next.

The equivalent input noise spec for the power amp chip would be with the input shorted. Leaving the input open presents a high impedance to the power amp chip's bipolar input stage, making the BJTs' current noise the dominant noise source. Try shorting the inputs and you'll be measuring the EIN voltage.
Also, notice that the EIN spec says "A curve", which means that their measurement was done with an "A weighted" filter on the input of their analyzer (basically a band reject filter intended to replicate the human ear's partiality to the 2 - 4 kHz range). If your measuring instrument is measuring at a wide bandwidth and doesn't have an "A weighted" filter, then the readings will be higher.

Is it from the black gunk stuff again?

Please please, explain how to get rid of the 50/100hz humming noise coming from the monitors which is caused by the emf generated by the transformer. I could move the transformer outside the box what would eliminate that noise completely, but maybe there is some more elegant solution for this? Would a toriodal transformer help?

Thanks for the good content. My issue is that one of my HS8 monitors sounds punchier and more open than the other and i switched both to test if it’s the positioning that caused the issue but it still the same. Could that be the fact they need to broken in?

Could you have skipped all the testing by just shorting the input of the power amp (and I suppose preamp’s) to ground? Just moving along the chain to see if the noise ever stopped?

Wow, did they cut that board with a pair of garden cutters?! Or what?! Looks like they took out a supply or ground trace in the process... At 18:50ish.

I wonder if you could add a filter that is active to the input (such as a type of noise floor circuit) that is reduced along with the preamp channel and tuned to filter the hiss out only when needed?

So what about lowering the loop gain of the amp ic... how much impact does that have?

If I remember the times 30 years ago the TDA2030 was available and one feature was the hissing noise while the TDA2020, a more expensive amp had no or much less noise. Perhaps it is a "feature of quality" of the TDA2052.

The 100hz in the woofers comes from using cheap Chinese caps in the power supply, they need to be lower ESR and higher ripple rejection Japanese types. And perhaps use slightly larger capacity ones.