Here is the sketch with the IC. Injecting 3.3V to 0V pins, i have 0.03A drawn from the power supply. for me is a litle high curent.
Also, injecting 5V to 7 and 8 pins, the IC is getting hot instantly. with a lower voltage the IC still get hot, but not so much
Any ideas? Thanks

Hi Guys. I am also trying to fix a Bose Sound Touch 30 with the same issue of it not powering on. In my case the fuse is blown, and my theory of what could have happened, is that a spike in the AC from the input caused the positive and negative lines of the two very thin rectified lines of 320VDC coming from the 2 varistors located over the two 450V caps and going through the J402 plug out to the Altair05T IC on the other board to short - there is a black short mark just right next to the J402 plug where the two lines comes closest. In the process the two SMA components, one each in series of the two 320VDC lines had blown. They are located just right next to the C404 X input line cap on the large component side of PSU board. Photo attached.

If you can indicate to me what those 2 components are (or what their board numbers are supposed to be), I will be so glad. I did obtain the service manual for Touch 30, but nowhere on the internet I could find a schematic to show the locations of the component items as listed in the manual - so I cannot pair them as only the largest items are marked on the board. I did find the service manual and very detailed schematic and explanation of how the system works for every section of the process of a Bose Sounddock 10 of which the PSU part is almost exactly the same as for this item - BUT this part of the circuit is handled totally different on the 2 systems. I can share if you want it.

I tested the boards with a 220VAC globe connected over the broken fuse and everything in terms of voltages on the PSU board is working fine with the correct voltages of 320VAC and 24VDC on the 3300uf large cap. Of course, the 2 exploded components were not able to pass the 320VDC to the other board to confirm that everything is working over there.

As a return favour for your help, I believe I would be able to give you feedback on your issue as soon as I replaced those 2 components and being able to test everything on the IO board.

Hi, I tried my best to reflect the content of my previous post into a schematic of the immediate area of my issue. I made a few mistakes in my original explanation, but at least I think they are now more correct on the schematic. Capleaker, I think you are 100% correct in that those 2 components are there as fail items to prevent a catastrophic explosion of the tracks when a short happens alongside that 320vdc line - the slow burn fuse is just too slow to prevent that, although it did fail in any case. Apart from the fuse, one of the tracks on the negative line, inside the layers of the board also did fail. I can see the black part and a blister in the board where it happened by shining a sharp light from behind, but that I can easily fix with a wire and luckily there are no other components around there. Everything else around tests good and I do get the stable 24v over the 3300uf cap, so now I'm just going to fix that track, bridge the 2 components with a strand of wire each and test it with a 220v globe over the fuse. Whish me luck, I will report back on either my success or failure. PS. the 16pin IC is the Altair05C.

Is there anyone out there that might be able to help me to find test points for other voltages if this fails.

Success!! Wow, was I glad when starting it with the 220VAC globe in place and it giving just that one blink. No explosions happened and the next moment the download bar started building in the display. So yes, thanks a lot CapLeaker, your suggestions worked, and I was able to run some music through the AUX with no interference. I must say, I did test most of any surrounding components, and I could not find a single anomaly.

I decided my next best step is trying to get it back to as close as I can to the original state, especially due to the system being able to protect itself during that original explosion on the 320VDC line. I have to order the correct slow blow fuse online in any case, so I decided to order some SMD ceramic inductors as well, as I agree that is what I think the original ones were. I just first want to measure the DC amps running through each line when playing music at top volume. If I pick inductors with an Amp ratings slightly higher than measured, I feel it may give the same level of protection as original. Taking the schematic in consideration, do you agree that inductance in the nH range should not be an issue in this situation?

So, my wife asked what caused the original explosion of those 2 components in the first place. My latest theory is that it was a bug. Meaning a real physical bug! I found the remains of a small bug about 2cm from where I found that black spot between the incoming 220VAC incoming plug and the outgoing 320VDC plug where the two lines comes closest together (about 2 mm) and where there is an open vias cylinder hole in each line. I think the bug actually walked over that death trap and got violently electrocuted by the 320VDC! RIP bug! Photo attached of the bug remains and the exploded items after cleaning.