Difference between revisions of "ZX81plus38 simple to build ZX-81 clone"
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|Name=ZX81plus38 | |Name=ZX81plus38 | ||
|Picture=plaatje dat je geupload hebt op de wiki | |Picture=plaatje dat je geupload hebt op de wiki | ||
| − | |Omschrijving=Most people I showed my ZX-81 clone (ZX81+35) said they liked it, but with such a tiny board and with so many "difficult" surface mount components, they they doubted whether they would be able to build this kit, so I restarted my effort. | + | |Omschrijving=Most people I showed my ZX-81 clone (ZX81+35) said they liked it, but with such a tiny board and with so many "difficult" surface mount components, they they doubted whether they would be able to build this kit, so I restarted my effort, to try to build a 100% ZX-81 clone that anybody could build. |
|Status=Initializing | |Status=Initializing | ||
|Contact=mahjongg | |Contact=mahjongg | ||
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For now I will call it ZX81+38, but I doubt it will be finished in 2019, so it will probably be renamed to ZX81plus39... :-) | For now I will call it ZX81+38, but I doubt it will be finished in 2019, so it will probably be renamed to ZX81plus39... :-) | ||
| − | I started | + | I started analyzing my current schematic, to see whether it contains components that are not available in PTH, and unfortunately there are some, for example "unbuffered inverters" (74HCU04) used in the crystal oscillator, are no longer available in DIP. Also some other logic isn't available in DIP, 13MHz crystals are hard to get in PTH versions, and 6.5MHz are not available at all. |
I decided to switch from 128K flash ROM to 32K OPT ROM's because the latter are available in DIP-28, while for the former I MUST use a PLC-32 socket. I also found cheap 32K x 8 static RAMs, also in DIP-28, which will be easier to layout for. | I decided to switch from 128K flash ROM to 32K OPT ROM's because the latter are available in DIP-28, while for the former I MUST use a PLC-32 socket. I also found cheap 32K x 8 static RAMs, also in DIP-28, which will be easier to layout for. | ||
I will design it with KiCad unlike the older version which was designed using Ulticap and Ultiboard. | I will design it with KiCad unlike the older version which was designed using Ulticap and Ultiboard. | ||
Revision as of 13:05, 18 September 2019
| Project ZX81plus38 | |
|---|---|
| 350px | |
| Most people I showed my ZX-81 clone (ZX81+35) said they liked it, but with such a tiny board and with so many "difficult" surface mount components, they they doubted whether they would be able to build this kit, so I restarted my effort, to try to build a 100% ZX-81 clone that anybody could build. | |
| Status | Initializing |
| Contact | mahjongg |
| Last Update | 2019-09-18 |
September 18, 2019 I started the design
For now I will call it ZX81+38, but I doubt it will be finished in 2019, so it will probably be renamed to ZX81plus39... :-)
I started analyzing my current schematic, to see whether it contains components that are not available in PTH, and unfortunately there are some, for example "unbuffered inverters" (74HCU04) used in the crystal oscillator, are no longer available in DIP. Also some other logic isn't available in DIP, 13MHz crystals are hard to get in PTH versions, and 6.5MHz are not available at all. I decided to switch from 128K flash ROM to 32K OPT ROM's because the latter are available in DIP-28, while for the former I MUST use a PLC-32 socket. I also found cheap 32K x 8 static RAMs, also in DIP-28, which will be easier to layout for.
I will design it with KiCad unlike the older version which was designed using Ulticap and Ultiboard.