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    • No force at all, hot glue is not strong enough to bother you.
    • Thanks. I'll find a video on the suction cap... I've seen some 8-bit Guy videos where does it but it's been a while. I'm mostly concerned about the neck board, given that the neck is the weakest part of the tube and thus the most prone to breaking.   I recall seeing what appears to be hot glue around the area the neck board connects to the tube. Would I need to do anything with that prior to attempting to remove the board?   Also,  how much force does it take to remove the neck board? This computer (as far as I know) has never been serviced before I purchased it, so it's likely the neck board has never been removed from the CRT since the computer was manufactured.
    • For me, it’s just a matter of minutes.    If you never had done it before, the tricky moment is removing the suction cap.    The board and neck board are easy to remove with just one or two screws for the AB and nothing for the neck one. 
    • As for other options, the whole reason that Newer never made these G3 cards in the first place is that the molds for the processor card's connectors were destroyed. I think this was mentioned previously. Anyway because of this the only source for these connectors is old daughter cards. In order to build a new board you'd have to receive an old daughter card and harvest its connectors. Shouldn't be a big deal since there are so many dead 500 series machines and/or loose daughter cards as a result of PPC upgrades. I probably have 10 of them sitting around, mostly 25MHz modules.    Anyway if you're going to build an entirely new card, I'd suggest scrapping the PBX and just going with an FPGA: program it to interface the 60x bus to the '030 bus and to provide a RAM controller that can use more than 32MB. You could probably program or buy the FPGA with a built-in DDR(2) memory controller, then solder on a RAM chip or four to end up with at least 128MB RAM without having to worry about a RAM slot and the associated connector for it. Use a socketed Flash chip to store the ROM and FPGA program. You could maybe run the CPU at a higher speed and wider bus to interface to the RAM but the '030 bus is sadly going to be stuck at the original 16 or 20MHz or whatever it is, so you'd definitely want the extra RAM to help the thing work without wasting too many of your CPU cycles waiting on the '030 bus. I'd recommend using a 750fx or gx since they're both very fast and relatively efficient (in addition to pin-compatible with one another). You could try a 7447 but you'd have to build a different board (it has a different BGA) and reprogram the FPGA to use the MaxBus instead of the 60x bus. Unfortunately this approach wouldn't do much good for the 1400 since only the CPU is on the removable card; everything else is permanently affixed to the logic board, so no DDR(2) or anything for you.   Of course I say this, but the hard part is in software and you'd need people who were literate in the '030 bus, 60x bus, and/or with whatever FPGA family was chosen. Tall order there and I am not one of those guys. Unless everyone who still owns a working member of the 500 series opts in to buy one of these I don't think it would be worth the investment required.
    • It ist not difficult to pull the neck board off. Just pull it straight away and do not wiggle on the board too much.  
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