Difference between revisions of "Serial Terminal"
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[[File:Searle-DisplayProc.gif]] | [[File:Searle-DisplayProc.gif]] | ||
| − | == Video controller specification == | + | === Video controller specification === |
* Very easy to interface to, fast and requires no host/external memory | * Very easy to interface to, fast and requires no host/external memory | ||
Revision as of 11:09, 17 April 2020
This is an inexpensive and small serial terminal design. This design can drive 80x25 text and graphics displays.
This design is based on Grant Searle's Monitor and keyboard controllers. This design has been implemented on two cards, the Display Processor and Serial I/O Processor.
Contents
Display Processor
Here's Grant's schematic:
Video controller specification
- Very easy to interface to, fast and requires no host/external memory
- Character set
- Full "CGA" (8x8) character definitions as used on the IBM PC (DOS).
- Screen size
- Text - 80x25, 40x25, 80x12, 40x12, Graphics 160x100 or ANY mix (defined per 1 of 25 rows)
- Resolution
- 640x200 for 80 char text
- 160x100 for graphics
- Fonts
- Font sizes are defined for each line
- All chars on the same line have the same font size and style
- Graphics
- Any part of the active screen, up to 160x100 pixels
- Each pixel individually addressable
- Defined on any of the 25 screen lines
- Video output
- Standard composite monochrome video
- PAL or NTSC timing
- Non-interlaced so no flicker
- Display memory
- 2000 chars internal + 25 line attributes - no host memory needed
- Very fast update and scrolling whichever interface is used
- Interface
- 8 bit data bus (requires 10 I/O pins)
- 4 bit data bus (requires 6 I/O pins)
- two-wire (I2C) uses only 2 pins
- I2C (thanks to Dave Curran for his guidance and code on this) supports low (100KHz) and high (400KHz) speed clocks or higher (1MHz or more easily achievable).
- Hardware
- Very low cost - two chips - ATmega328 and 74HCT166 (Shift Register)
- Connectors
- J1 - Video Connector
- RCA Jack
- Center is signal
- Outside is ground
P1 - Card Interconnect
- 2x8 header, 0.1" pitch
- Pinout
- VCC
- VCC
- ID0
- ID1
- ID2 - MOSI for ISP Download cable
- ID3 - MISO for ISP Download cable
- ID4 - SCK for ISP Download cable
- ID5
- ID6
- ID7
- Unused
- RESET*
- ACK/SDA (R4 terminator for I2C interface)
- AVAIL/SCL (R3 terminator for I2C interface)
- GND
- GND
ISP Cable
P1 Pin Description ISP Pin Description Color 1 VCC 2 VCC Red 2 3 4 5 MOSI 4 MOSI Green 6 MISO 1 MISO Grey 7 SCK 3 SCK Yellow 8 9 10 11 12 RESET 5 RST White 13 14 15 GND 6 GND Black 16 <pre>
Configuration Resistors
- Configuration Resistor values can also be set through soft switches in the code
- R5 - Two-wire interface (I2C)
- R6 - 4-bit interface
- R7 - 10K for NTSC, open for PAL
- R3, R4 - I2C Termination resistors - Install for I2C termination - typical = 2.2K
Software
- Source Code
- Atmel AVR Studio Download
- In C:\Program Files (x86)\Arduino\hardware\tools\avr\bin
- Type
avrdude -U lfuse:w:0xc6:m -U hfuse:w:0xd9:m -e -F -v -patmega328p -carduino -PCOM8 -b19200 -D -Uflash:w:"C:\Users\doug_000\Documents\GitHub\lb-Arduino-Code\LBCards\DisplayProc\AssemblerApplication1\AssemblerApplication1\Debug\AssemblerApplication1.hex":i -C"C:\Program Files (x86)\Arduino\hardware\tools\avr\etc\avrdude.conf"
Checkout
- Saw a blinking cursor
Serial I/O Processor
- This is an inexpensive and small serial terminal design. This design can drive 80x25 text and graphics displays. This design is based on Grant Searle's Monitor and keyboard controllers. This design has been implemented on two cards, this card and Display Processor - which is the other half of this terminal.
- Here's Grant's schematic:
Features
- Serial interface
- Fully buffered 115200 baud, handshake on receive, TTL levels.
- Keyboard interface
- PC PS/2 standard keyboard connector, accepts standard keyboards made for PCs. Keyboard LED illumination implemented, and allows for caps lock and num lock.
Hardware
- Two cards
- 8-bit interface connector for card-to-card connections
Connectors
P1 - Card Interconnect
- 2x8 header, 0.1" pitch
- Connector matches the pinout of the other card so it can be mated directly to the other card via 1:1 cable or a female header on this card
- Pinout
- VCC
- VCC
- ID0
- ID1 - CS* for ISP Download cable
- ID2 - MOSI for ISP Download cable
- ID3 - MISO for ISP Download cable
- ID4 - SCK for ISP Download cable
- ID5
- ID6
- ID7
- Unused
- RESET*
- ACK/SDA (R4 terminator for I2C interface)
- AVAIL/SCL (R3 terminator for I2C interface)
- GND
- GND
P2 - PS/2 Keyboard
- 1x4 header, 0.1" pitch
- GND
- VCC
- KBCLK
- KBDAT
- PS/2 Adapter Cable
- Ordered this cable from ebay.
- Replaced 5 pin connector with 4 pin 0.1" pitch "Dupont" connector
- Pinout of cable after re-wiring with new connector
PS/2 Pin P2 Pin Description Color 1 4 Data TBD 2 N/C N/C N/A 3 1 GND TBD 4 2 +5V TBD 5 3 Clk TBD 6 N/C N/C N/A
P3 - 5V FTDI/Power Connector
- 1x6 header, 0.1" pitch
- Pinout
- GND
- RTS
- VCC (+5V)
- TX
- RX
- N/C
P4 - In-System Programmer (ISP) Connector
- Cable for use with ArduinoISP programmer
- 0.1" pitch "Dupont" connector
- 2x3
- MISO
- VCC
- SCK
- MOSI
- RESET*
- GND
Configuration Resistors
- Configuration Resistor values can also be set through soft switches in the code
- R1, R2 - I2C termination - install to terminate - typically 2.2K
- R5 - Two Wire Interface output (I2C)
- R6 - 4-bit Interface
Software
- Source Code
- Copy of the Serial I/O Processing Code in my GitHub Repository - any changes are located here
- Atmel AVR Studio Download
avrdude -U lfuse:w:0xc6:m -U hfuse:w:0xd9:m -e -F -v -patmega328p -carduino -PCOM8 -b19200 -D -Uflash:w:"C:\Users\doug_000\Documents\GitHub\lb-Arduino-Code\LBCards\SIOProc\GccApplication1\GccApplication1\Debug\GccApplication1.hex":i -C"C:\Program Files (x86)\Arduino\hardware\tools\avr\etc\avrdude.conf"
Rev X1 Issues
- FTDI handshake moved from P3-6 to pin P3-2
- Cut etch at FTDI connector P3-6
- Add wire U1-26 to P3-2
