@foolishman how big is the board that needs to come out to get at the jumpers? It’s hard to see the edges of it in the link picture from your original post. Or is there enough space to solder from the top?
Accuphase E-480
https://onedrive.live.com/?cid=6E164E2EDFDD40F6&id=6E164E2EDFDD40F6%2170585&parId=6E164E2EDFDD40F6%21120&o=OneUp
E-480 isn't like E-650 and E-800. E480 has jumpers of J1, J2, J3, J4, J5 and J6 instead.
From previous experience of Accuphase amplifier voltage conversion, change 100V to 120V only required move two jumpers! I hope some one can posts images of E480 power board (front and back) so I can verify the correct jumper settings.
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My E480 was running great about a year after voltage conversion, till this morning after I left it on overnight, the E480 meter start to flicking after playing music just for few mins, and does not make any more sound. I did turn it off, and on, change power cord, speaker cable it still does same thing it play for few mins, the meter start to flicking, and all sound disappear right after. any idea what may cause this issue? |
@foolishman for these jumper on E480, does it require solder, or it can be just pull out wire, and push it in to other jump position? |
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Congrats! @sp33ls2 One thing I was a little bit surprised by was that some of the rails to the power amp board were raised by a few volts (like 65VDC to 69VDC) when compared with the 100V step down... My AC mains are 122VAC rather than 120, while the stepdown is at exactly 100V -- maybe that's part of explanation of the increase of a few volts?Yes, that's the reason and nothing to worry about. I see one trim pot on each amp board, but not sure if that's for DC offset or bias. Do these units have a self-biasing circuit, I wonder?Most new design Accuphase power amp has no dc offset adj pot. I believe the trim pot is for bias adjustment and the +/- test point should has a reading of 4mV, but I not 100% sure since I don't have a service manual on hand, perhaps you can measure it to confirm. |
I can confirm that the above jumper configuration results in the orange & yellow taps @ 120V, thanks @imhififan One thing I was a little bit surprised by was that some of the rails to the power amp board were raised by a few volts (like 65VDC to 69VDC) when compared with the 100V step down. That being said, the test points for +-5V, 12V, 15V tested correctly. The +130V was previously around 135VDC and is now 139VDC. I see one trim pot on each amp board, but not sure if that's for DC offset or bias. Do these units have a self-biasing circuit, I wonder? That being said, the 5V supply to the IC's remained at just under 5VDC, so I think all is well. There was no impact on the DC offset, and the unit appears to sound the same as before, and the heat output appears similar as well. My AC mains are 122VAC rather than 120, while the stepdown is at exactly 100V -- maybe that's part of explanation of the increase of a few volts? I'd imagine the regulators would clean it up anyhow, right. |
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I don't have any experience on E480 voltage conversion, however, based on previous experience, brown & red wires are 100v windings, and orange & yellow are 120v windings. You need to trace the circuit to connect jumpers for orange & yellow wires and disconnect jumpers for brown & red wires. From the picture, seem like j1, j2 & j3 are jumper for soft-start resistors circuity. Connect j2 and disconnect j1, j3 for 240v main. No change required for 100v and 120v main. |