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collapseos/doc/hw/at28.txt
2020-12-09 20:44:04 -05:00

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# Writing to a AT28 from Collapse OS
# Gathering parts
* A RC2014 Classic
* An extra AT28C64B
* 1x 40106 inverter gates
* Proto board, RC2014 header pins, wires, IC sockets, etc.
# Building the EEPROM holder
The AT28 is SRAM compatible so you could use a RAM module for
it. However, there is only one RAM module with the Classic
version of the RC2014 and we need it to run Collapse OS.
You could probably use the 64K RAM module for this purpose, but
I don't have one and I haven't tried it. For this recipe, I
built my own module which is the same as the regular ROM module
but with WR wired and geared for address range 0x2000-0x3fff.
If you're tempted by the idea of hacking your existing RC2014
ROM module by wiring WR and write directly to the range
0x0000-0x1fff while running it, be aware that it's not that
easy. I was also tempted by this idea, tried it, but on bootup,
it seems that some random WR triggers happen and it corrupts the
EEPROM contents. Theoretically, we could go around that by
putting the AT28 in write protection mode, but I preferred
building my own module.
I don't think you need a schematic. It's really simple.
# Writing contents to the AT28
If you wait 10ms between each byte you write, you can write dir-
ectly to the AT28 with regular memory access words. If you don't
wait, the AT28 writing program will fail. Because it's not very
pratical to insert waiting time between each byte writes, you
need another solution.
To that end, Collapse OS has a "memory write override" mech-
anism. Whenever C! or ! is about to set a byte somewhere in
memory, it checks whether such an override is active. If it is,
it calls it. That override is set with the "~C!" word.
B400 contains an override routine compatible with ~C! called
~AT28. When you're about to write to your AT28, activate that
override with "' ~AT28 ~C!". That overwrite will write the byte,
then poll the AT28 until it indicates that it is finished
writing. This ensures that Collapse OS doesn't try writing
another byte before the AT28 is ready.
When you're done writing to the AT28, unset override with
"0 ~C!". The override routine has a non-negligible speed impact
on all memory writes.
When polling, ~AT28 also verifies that the final byte in memory
is the same as the byte written. If it's not, it will place a
non-zero value in the ~C!ERR 1b variable. Therefore, if you want
to see, after a big write operation to your AT28, whether any
write failed, do "~C!ERR C@ .". Re-initialize to zero before
your next write operation.