forked from Apple-2-HW/TommyPROM
Update hardware docs for issue #21
This commit is contained in:
Tom Nisbet
parent
2e87e5454b
commit
00f1bd6aa5
|
|
@ -22,48 +22,58 @@ The basic circuit is as follows:
|
|||
* Pins D10..D12 control A16..A18 for chips larger than 64K bytes.
|
||||
|
||||
Note that the existing design uses 74LS164 shift registers, but another 8-bit parallel out
|
||||
shift register, like the 74LS595, could be used instead with some pin changes.
|
||||
|
||||
When using the 74LS595 instead of the 74LS164, there is an additional output latch that
|
||||
needs to be pulsed to put the contents of the shift register on the output lines. The
|
||||
code supports this by uncommenting the _#define SHIFT_REGISTER_IS_595_ line in
|
||||
Configure.h. The D13 line from the Arduino controls the RCLK latch on the '595. The table
|
||||
below shows the connections when using either the 74LS164 or the 74LS595 for the address
|
||||
shift registers. USR refers to the Upper Shift Register (A<sub>8</sub>..A<sub>15</sub>)
|
||||
and LSR refers to the Lower Shift Register (A<sub>0</sub>..A<sub>7</sub>).
|
||||
|
||||
|Arduino |74LS164 |74LS595|
|
||||
|:---: |:---: |:---: |
|
||||
|A0 |ROM WE |ROM WE|
|
||||
|A1 |ROM CE |ROM CE|
|
||||
|A2 |ROM OE |ROM OE|
|
||||
|A3 |USR CLK |USR SRCLK|
|
||||
|A4 |LSR CLK |LSR SRCLK|
|
||||
|A5<sup>1</sup> |LSR+USR A |LSR+USR SER|
|
||||
|D2..D9 |ROM D<sub>0</sub>..D<sub>7</sub> |ROM D<sub>0</sub>..D<sub>7</sub> |
|
||||
|D10..D12<sup>2</sup> |ROM A<sub>16</sub>..A<sub>18</sub>|ROM A<sub>16</sub>..A<sub>18</sub>|
|
||||
|D13<sup>3</sup>|-- |LSR+USR RCLK|
|
||||
|
||||
Notes:
|
||||
1. The data pin on A5 is connected to both the Upper Shift Register (USR) and the Lower Shift Register (LSR).
|
||||
2. The upper address lines are not needed for 28C64 and 28C256 chips, but are used for
|
||||
larger chips like the 27C040.
|
||||
3. The D13 pin controls the output register on the '595 shift registers. The code for
|
||||
this must be enabled in Configure.h. This pin is not connected when using the 74LS164.
|
||||
|
||||
Also note that the 74LS595 has an output enable pin, labeled as either G or OE
|
||||
in the datasheet. This pin must be connected to ground for both chips or else
|
||||
they will not produce any signal on their output lines.
|
||||
shift register, like the 74LS595, could be used instead with some pin changes. See the
|
||||
[74LS595 Shift Registers](#74ls595-shift-registers) section below for details.
|
||||
|
||||
The two shift registers can produce a sixteen bit address, although the 28C256 only needs
|
||||
15 addresses. Chips larger than 64K are supported by using the shift registers for A<sub>0</sub>..A<sub>15</sub>
|
||||
and connecting Arduino pins D10..D12 to the chip's A<sub>16</sub>..A<sub>18</sub>
|
||||
15 addresses. Chips larger than 64K are supported by using the shift registers for
|
||||
A<sub>0</sub>..A<sub>15</sub> and connecting Arduino pins D10..D12 to the chip's
|
||||
A<sub>16</sub>..A<sub>18</sub>
|
||||
|
||||
|
||||
|
||||
**NOTE:**
|
||||
The schematic does not show the Vcc and ground pins for the 74LS164 shift registers.
|
||||
These must be connected to +5 and ground, respectively. It is also good practice to place a decoupling capacitor (0.1uF or 0.01uF is good) on the power rails near the Vcc connections.
|
||||
The schematic does not show the Vcc and ground pins for the shift registers. These must be
|
||||
connected to +5 and ground, respectively. It is also good practice to place a decoupling
|
||||
capacitor (0.1uF or 0.01uF is good) on the power rails near the Vcc connections.
|
||||
|
||||
## 74LS595 Shift Registers
|
||||
|
||||
When using the 74LS595 instead of the 74LS164, there is an additional output latch that
|
||||
is pulsed to put the contents of the shift register on the output lines. The code
|
||||
supports the 164s or the 595s by default. No code changes are needed to use either
|
||||
version of the shift register hardware.
|
||||
|
||||
The table below shows the connections when using either the 74LS164 or the 74LS595 for the
|
||||
address shift registers. USR refers to the Upper Shift Register
|
||||
(A<sub>8</sub>..A<sub>15</sub>) and LSR refers to the Lower Shift Register
|
||||
(A<sub>0</sub>..A<sub>7</sub>).
|
||||
|
||||
|Arduino |74LS164 |74LS595|
|
||||
|:---: |:---: |:---: |
|
||||
|A0 |ROM WE |ROM WE|
|
||||
|A1 |ROM CE |ROM CE|
|
||||
|A2 |ROM OE |ROM OE|
|
||||
|A3 |USR CLK |USR SRCLK|
|
||||
|A4 |LSR CLK |LSR SRCLK|
|
||||
|A5<sup>1</sup> |LSR+USR A |LSR+USR SER|
|
||||
|D2..D9 |ROM D<sub>0</sub>..D<sub>7</sub> |ROM D<sub>0</sub>..D<sub>7</sub> |
|
||||
|D10..D12<sup>2</sup>|ROM A<sub>16</sub>..A<sub>18</sub>|ROM A<sub>16</sub>..A<sub>18</sub>|
|
||||
|D13<sup>3</sup> |-- |LSR+USR RCLK|
|
||||
|
||||
Notes:
|
||||
1. The data pin on A5 is connected to both the Upper Shift Register (USR) and the Lower
|
||||
Shift Register (LSR).
|
||||
2. The upper address lines are not needed for 28C64 and 28C256 chips, but are used for
|
||||
larger chips like the 27C040.
|
||||
3. The D13 pin controls the output register on the '595 shift registers. This pin is not
|
||||
connected when using the 74LS164.
|
||||
|
||||
Note that the 74LS595s have two additional pins that need to be connected.
|
||||
* An output enable pin, labeled as either G or OE in the datasheet, must be tied LOW for
|
||||
both chips or else they will not produce any signal on their output lines.
|
||||
* A reset pin, labeled as RESET or SRCLR must be tied HIGH for both chips or else the
|
||||
shift registers will be held in a reset state.
|
||||
|
||||
## Ben Eater EEPROM Programmer
|
||||
|
||||
|
|
@ -72,8 +82,9 @@ Programmer](https://github.com/beneater/eeprom-programmer), note that the design
|
|||
similar, but the TommyPROM code will not run on that hardware without some significant
|
||||
changes. If you just need to unlock the Software Data Protection (SDP) on a chip, then
|
||||
see the
|
||||
[unlock-ben-eater-hardware sketch](https://github.com/TomNisbet/TommyPROM/tree/master/unlock-ben-eater-hardware) for a solution. That sketch is purpose-built to run on the Ben Eater
|
||||
hardware directly and it will not work with the TommyPROM hardware.
|
||||
[unlock-ben-eater-hardware sketch](https://github.com/TomNisbet/TommyPROM/tree/master/unlock-ben-eater-hardware)
|
||||
for a solution. That sketch is purpose-built to run on the Ben Eater hardware directly
|
||||
and it **will not work** with the TommyPROM hardware.
|
||||
|
||||
If you want the functionality of the TommyPROM software on the Ben Eater hardware, the
|
||||
easiest path is probably to modify the hardware to match the TommyPROM software rather
|
||||
|
|
@ -88,7 +99,7 @@ so a random write on boot would be bad.
|
|||
* The OE pin is controlled by the Address shift registers. This doesn't work well with
|
||||
the modular architecture of TommyPROM and it definitely would not work with 74LS164s
|
||||
because it would toggle the OE pin as new addresses are shifted in.
|
||||
* The direct port write software is a bit complicated and is more difficult to change than
|
||||
* The direct port write software is a bit complicated and is more difficult to modify than
|
||||
just renaming a few pin #defines. This was done for performance reasons, particularly
|
||||
for the SDP timing, but it means that the code is not easy to change.
|
||||
|
||||
|
|
|
|||
Loading…
Reference in New Issue