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124 lines
5.3 KiB
Markdown
124 lines
5.3 KiB
Markdown
# ASCII Interface - Atmega328p
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This is is a key scanner module with parallel output, and optional serial
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output, supporting keyboards of up to 16 rows X 8 columns.
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The ATMega 328P was selected for the sole reason that it is an architecture
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familiar to many hobbyists, with an accessible programming environment and
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ecosystem, in a DIP format that fits the retro look and is easy to solder for
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most hobbyists. All of the ICs, other than the microcontroller, are only present
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to compensate for the limited number of GPIO lines on this small 28-pin
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microcontroller. Using a bigger chip would greatly simplify the hardware and
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even slightly simplify the hardware layer of the firmware.
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<img alt="Assembly Rendering" src="images/PCB-assembly-rendering.png" height=75% width=75%>
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## Features
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- Parallel or serial output
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- Up to 8 configuration settings via an up-to-8 position DIP switch
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- Apple 1, Apple 2, and SOL-20 compatible outputs. Other configurations can be
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supported by making a custom cable.
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- Can decode arbitrary keyboards up 16 rows by 8 columns.
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- Supports up to 3 keyboard LEDs
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- Supports up to 3 "special" host outputs, such as RESET, SCREEN_CLEAR, BREAK, etc.
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## Overview
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- The keyboard rows are driven by a pair of 74LS138 decoders, allowing 4 GPIO
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lines to drive 16 rows.
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- The columns are read in via an 8-bit shift register, controlled by 3 GPIO lines.
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- One 8-bit port is used for the parallel ASCII output.
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- Three GPIO lines are used to generate special outputs to the host. These could
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be RESET, BREAK, CLEAR, etc. Two of these may be configured as emulated
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open-collector drivers.
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- Three GPIO lines are used to control keyboard LEDs.
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- The DIP switch is wired into row 8 (of 0-15) to reduce RAM usage and speed up
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key scanning.
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- The top two parallel I/O bits can also be configured as UART I/O. This could
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be used to provide serial output instead or parallel output, to support a
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bootloader, or even to accept a serial input stream from another computer to
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send to the host as parallel ASCII data. This last application would require
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careful timing to avoid conflicts.
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## Assembly Notes
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A typical build includes:
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1. the Microcontroller (U1)
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1. the 74LS166 shift register (U2)
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1. both 74LS138 decoder (U3)
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1. Diodes D17-D24 and D25-D27.
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1. The two resistors R3 and R4. If you are using the keyboard in only a parallel
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configuration or only a serial configuration, then you can jumper these
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resistors with a piece of wire.
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1. The resistor network RN1
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1. The DIP switch SW1
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1. The 40-pin keyboard connector (2x20 0.1" pin header)
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1. At least one output connector (Apple 1, Apple 2, or Sol-20)
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1. The 6-pin programming header J5.
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The MINIMUM functioning circuit includes
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1. the Microcontroller (U1)
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1. the 74LS166 shift register (U2)
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1. One 74LS138 decoder (U3). Without the second decoder, the DIP switch is not
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supported, so only one keymap must be assigned as keymap 0 at compile time.
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1. The resistor network RN1
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1. The two resistors R3 and R4. If you are using the keyboard in only a parallel
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configuration or only a serial configuration, then you can jumper these
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resistors with a piece of wire.
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1. Any connectors required.
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## Optional components
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### Diodes D1-D16
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NOT NORMALLY POPULATED.
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These diodes are intended to prevent conflicts between
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high and low keyboard driver outputs. They allow the row drivers to pull rows
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low, but not high, emulating open collector outputs.
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If you are attaching a keyboard with no diodes, then you only need to populate
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the diodes corresponding to rows on the keyboard. If the keyboard has 8 rows,
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then you may want to install 8 diodes corresponding to those rows.
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Note that the footprints for these diodes include a copper jumper on the TOP
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copper layer. If you install any of these diodes, you should cut the jumpers for
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those diodes. Otherwise the diodes would do nothing.
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If you are attaching a keyboard with a diode per key, then the diodes on the
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keys perform the same function, in addition to preventing "ghosting", so the
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per-row diodes do not need to be installed.
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### DIP switch and associated diodes
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TYPICALLY INSTALLED.
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If you don't want to select keymaps or options via the DIP
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switch, then you may omit the DIP switch and diodes. If you do this, then you
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will have to set the keymap and all preferences in the firmware. DIP switches,
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you can set all your preferences in the firmware, or just accept the default
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behavior, and skip the DIP switch and Diodes D17-D20 and D24-D27.
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### Second 74LS138 multiplexer (U4)
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TYPICALLY INSTALLED.
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You may omit this if
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1. your keyboard matrix has 8 rows or fewer
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1. AND you don't want any DIP options
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1. AND you only want one pre-compiled keymap.
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### The 74LS07 hex buffer (U5) and pullup R6
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TYPICALLY INSTALLED.
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The 74LS07 is needed if you are using LED2 or LED3 on the keyboard, or the OUT2
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open collector output. If OUT2 is not open collector, then use a 74LS04 instead.
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### Diodes D21, D22, D23
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TYPICALLY INSTALLED.
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Some keyboards may not wire all keys into the matrix. For example, some other
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interface modules may assign special hardware functions to certain keys. Those
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keys are brought directly to the keyboard connector. For the classic keyboard,
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the POWER key, the '@' key, and the RUBOUT key are not directly wired. This
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module wires them into the matrix via D21, D22, and D23, respectively. For
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keyboards with no separately wired keys, these diodes may be omitted.
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