Hum comes from many sources. One quick check is the freq. Power supply ripple is twice the mains freq, so if the hum is 120Hz, or 100Hz for you, then we have ripple currents somewhere. If the hum is at mains freq 60Hz or 50Hz for you, then it is grounding, or radiated or unshielded, etc.

I doubt your hum is from "weak" filter caps. Even if it is power supply ripple, it is more likey a return path sharing copper with a signal ground.


And tubes? I find that having a spare tube is the fastest answer. I could spend a lot of time pondering and measuring, but a quick tube swap tells me instantly if the tube is involved or not.

Thanks Enzo!

I'll go analyse the hum frequency - I just assumed it was PA supply ripple, but you're right it could be induced directly from the unrectified supply. I'll check it out.

I'll go order a couple of spare tubes, easy solution to try!

Great tips, thanks!

Cheers,
Grant

Enzo's right (as usual ) - the ripple on the big power supply caps shouldn't matter. 300mV is quite normal, and it'll get a lot bigger under load. 10V p-p wouldn't be surprising. The power amp is designed to reject it, using the wizardry of negative feedback.

Unless it's some weird design that doesn't use much feedback. Warwick had some hybrid tube/MOSFET amps that might fall into this category, but I think the solid-state SVTs are more conventional.

Does the amp have an effects loop, pre-out/power-in jacks, or something similar where you could break the signal path, and see if the unwanted noises disappear along with the signal?

Hi Guys,

Just wanted to post back with a quick update on this and the fix in case anyone else has a similar issue. After a season of light wedding-style gigging with this amp, the noise issue progressively got worse. Strange and random noises high-frequency and occasionally a rising noise floor culminating in the DC offset protection operating (which is what prompted me to open it up!) and the associated pop. Low-frequency hum sometimes apparent.

Threw the amp on the bench at work and hooked up to an AP2700 (luckily my work have 20 of these bad boys!). I managed to trace the issue down to the power amp stages. Couldn't recreate the pops, but by lifting the corner of the amp with the lid open it was possible to change the THD by around 15dB on one channel (I use the stereo power amp in bridge/BTL mode).

Main board out, got it under a magnifier and carefully analysed. Found broken or stressed solder joints at the MJE15032/15033 power amp pre-driver FETs Q102, Q105, Q202 and Q205. These FETs have clip-on TO-220-style heatsinks and I guess must be subject to thermal stress.

My general comment would be that the standard of the original soldering in the amp is poor. You'll not see this unless you get the PCB out of the can and flipped over. Not at all what I would expect of a £1500 bit of kit! So, I spent an afternoon, carefully re-soldered all the joints on the PCB, cleaned it off and put the amp back in can - working perfectly. THD rock solid, all noise issues eliminated, amazing audio restored!

I have a full set of schematics, anyone wanting talked through this mammoth task is welcome to email me for a guide! Also have a set of AP performance plots for the power amp if anyone is interested. Can PDF.

Thanks to Glen at Mars Amp Repair for the tip to pull the main board out of the can and look specifically at these transistors. To make sure it all gets labelled and bagged to go back in as it came out takes around 3 hours out and 2 hours in so I wouldn't have done it if Glen didn't recommend it in another post!

Cheers,
Grant