Difference between revisions of "ESP32-VGA"

From Land Boards Wiki
Jump to navigation Jump to search
 
(62 intermediate revisions by the same user not shown)
Line 3: Line 3:
 
<video type="youtube">RuGWCMFNtms</video>
 
<video type="youtube">RuGWCMFNtms</video>
  
[[File:ESP32-VGA_P923-72PX.jpg]]
+
[[File:P968-cropped-720pxV.jpg]]
  
 
== Features ==
 
== Features ==
  
 +
* See [[ESP32-VGA Rev 1]] for older rev card
 
* [[ESP32]] Module
 
* [[ESP32]] Module
 +
** 18 Analog-to-Digital Converter (ADC) channels
 +
** 10 Capacitive sensing GPIOs
 +
** 3 UART interfaces
 +
** 3 SPI interfaces
 +
** 2 I2C interfaces
 +
** 16 PWM output channels
 +
** 2 Digital-to-Analog Converters (DAC)
 +
** 2 I2S interfaces
 
* 6-bit VGA color
 
* 6-bit VGA color
 
** 2:2:2 R:G:B
 
** 2:2:2 R:G:B
Line 38: Line 47:
 
[[File:esp32-pinout-chip-ESP-WROOM-32.png]]
 
[[File:esp32-pinout-chip-ESP-WROOM-32.png]]
  
==== ESP32 Pin Usage - Rev 1 ====
+
==== ESP32 Pin Usage - Revs 2, 3 ====
 
 
[[File:ESP-32_VGA_Pinout.PNG]]
 
 
 
==== ESP32 Pin Usage - Rev 2 ====
 
  
 
[[File:ESP-32_VGA_Pinout_Rev2.PNG]]
 
[[File:ESP-32_VGA_Pinout_Rev2.PNG]]
Line 69: Line 74:
 
* Video is 2:2:2 - R:G:B
 
* Video is 2:2:2 - R:G:B
  
=== Summing Resistor DAC ===
+
=== Summing Video Resistor DAC ===
  
* 5% resistors are "good enough"
+
* Best values (1%)
* 1V into 75 Ohm VGA load
+
** 422, 845
 +
** 470, 820 are close/standard values
 +
* 0.7V into 75 Ohm VGA load
 
* 3.3V drive
 
* 3.3V drive
 
* ESP32 has [https://www.esp32.com/viewtopic.php?t=5840 40 mA drive]
 
* ESP32 has [https://www.esp32.com/viewtopic.php?t=5840 40 mA drive]
** Uses 10 mA (max)
+
** Uses 8 mA (max)
** R4 = 1.2 mA to -10 mA
+
* Output in 4 equal voltage steps
** R3 = 1.1 mA to -5.3 mA
 
* Output in 4 steps
 
** 0V
 
** 0.3V
 
** 0.65V
 
** 0.96V
 
  
[[File:VGA_Sim_2R.PNG]]
+
[[File:VGA_Sim_2R_Voltage.PNG]]
 
 
== Headers (Rev 1 board) ==
 
 
 
=== H1 - 3.3V SRC select ===
 
 
 
[[File:H1_3p3V_Select.png]]
 
 
 
* 1-2 = Get 3.3V from ESP32 on-board regulator
 
* 2-3 = Get 3.3V from on-board regulator (Default)
 
 
 
=== H2 - 5V SRC Select Jumper (Rev 1 Board) ===
 
 
 
* 5V power options for the 5V to 3.3V regulator
 
 
 
[[File:H2_5V_Select.png]]
 
 
 
* 2x4 header
 
* Care must be taken to install the correct jumpers
 
* USB jumper sends out 5V when a USB cable is connected to the ESP32 module
 
 
 
==== Power from DC Jack ====
 
 
 
* '''Do not connect USB cable when the DC jack is used'''
 
* 1-2 = VUSB - Install - Power to ESP32
 
* 3-4 = DCIN - Install - Power comes from DC jack
 
* 5-6 = FTDI5V_1 - Do not install
 
* 7-8 = FTDI5V_2 - Do not install
 
 
 
==== Power from USB on ESP32 module ====
 
 
 
* 1-2 = VUSB - Install - 5V comes from USB on ESP32 module
 
* 3-4 = DCIN - Do not install
 
* 5-6 = FTDI5V_1 - Do not install
 
* 7-8 = FTDI5V_2 - Do not install
 
 
 
==== Power from FTDI #1 (Rev 1) ====
 
 
 
* '''Do not use this position with "most" FTDI cards since they will drive 5V on the Rx/Tx pins when the FTDI jumper is set to 5V'''
 
 
 
==== Power from FTDI #2 ====
 
 
 
* '''Do not use this position with "most" FTDI cards since they will drive 5V on the Rx/Tx pins when the FTDI jumper is set to 5V'''
 
 
 
== Connectors (Rev 1 board) ==
 
 
 
=== P2/P4 = GVS  - Rev 1 ===
 
 
 
* Ground/Voltage/Signal lines
 
 
 
# GPIO13
 
# GPIO14
 
# GPIO16
 
# GPIO17
 
# GPIO35
 
# GPIO34
 
# VN
 
# VP
 
 
 
=== P3 - VGA - Rev 1 ===
 
 
 
* ESP32 pins
 
 
 
<pre>
 
  HSync => GPIO23
 
  VSync => GPIO15
 
  R0    => GPIO22
 
  R1    => GPIO21
 
  G0    => GPIO19
 
  G1    => GPIO18
 
  B0    => GPIO5
 
  B1    => GPIO4
 
</pre>
 
 
 
=== J2 - FTDI #1  - Rev 1 ===
 
 
 
# GND
 
# RTS (Not used)
 
# 5V (Power in if [[ESP32-VGA#H2_-_5V_SRC_Select_Jumper|H2 is configured]])
 
# RX (from card to External FTDI)
 
# TX (from External FTDI to card)
 
# CTS (Not used)
 
 
 
==== Connect to FTDI card - Rev 1 ====
 
 
 
* Set FTDI jumper to 3.3V (unlike picture below)
 
* Cross-over pins 4 and 5 when connecting to FTDI card (Rev 1 only)
 
 
 
[[File:FTDI_rot.jpg]]
 
 
 
=== J6 - FTDI #2 - Rev 1 ===
 
 
 
* Rev 1 board won't program or boot with FDTI #2 card attached
 
* This interface is in common with the USB-to-Serial interface on the ESP32 module
 
 
 
# GND
 
# RTS (Not used)
 
# 5V (Power in if [[ESP32-VGA#H2_-_5V_SRC_Select_Jumper|H2 is configured]])
 
# RX (from card to External FTDI)
 
# TX (from External FTDI to card)
 
# CTS (Not used)
 
 
 
* Requires a cross-over of the Transmit and Receive pins if directly connecting to an FTDI part
 
* Earlier versions of the FabGL schematics used pin 12 for RX
 
* Most recent (2020-02) ANSI terminal uses pin 34
 
* Board won't boot with an FTDI interface attached and USB cable attached
 
** This is an issue for the ANSI Terminal sketch
 
* Original pins were (Rev 1 matches original)
 
 
 
<pre>
 
  RX2    => 12
 
  TX2    => 2
 
</pre>
 
 
 
Here's why using pin 12 is a bad idea:
 
<pre>
 
GPIO12 (MTDI) is used as a bootstrapping pin to select output voltage of an internal regulator which powers the flash chip (VDD_SDIO). This pin has an internal pulldown so if left unconnected it will read low at reset (selecting default 3.3V operation).</pre>
 
 
 
==== UART2 Rework ====
 
 
 
* The easiest way to do this is to wire the FTDI to GPIO34 instead of pin J6-5
 
* This is what is needed to permanently rework the board
 
* Only needed to run "stock" FabGL code that uses the UART2 port on the ESP32 (like the ansi terminal)
 
* Cut trace/adding jumper to rev 1 board
 
** Route to GPIO34
 
 
 
[[File:GPIO12_Cut.PNG]]
 
 
 
[[File:GPIO34_Add.PNG]]
 
 
 
==== Connect to FTDI card - Rev 1 ====
 
 
 
* Set FTDI jumper to 3.3V
 
* Cross-over pins 4 and 5 when connecting to FTDI card (Rev 1 only)
 
 
 
[[File:FTDI_rot.jpg]]
 
 
 
=== J3 - PS/2 Keyboard - Rev 1 ===
 
 
 
* Purple DIN 6 connector
 
* ESP32 pins
 
  
<pre>
+
== Headers ==
  DAT  => 32
 
  CLK  => 33
 
</pre>
 
  
=== J4 - PS/2 Mouse - Rev 1 ===
+
* The Rev 2 board changes around headers and connectors from the [[ESP32-VGA Rev 1]] board
  
* DIN 6 connector
+
=== H1 - 5V ===
* ESP32 pins
 
 
 
<pre>
 
  DAT  => 27
 
  CLK  => 26
 
</pre>
 
 
 
=== J5 - Audio Out - RCA Jack - Rev 1 ===
 
 
 
* ESP32 pins
 
 
 
<pre>
 
  AUD  => 25
 
</pre>
 
 
 
=== J15 - 5mm Terminal Block - Rev 1 ===
 
 
 
* 5V
 
* Gnd
 
 
 
== Headers (Rev 2 board) ==
 
 
 
* The Rev 2 board changes around headers and connectors
 
 
 
=== H1 - 5V - Rev 2 ===
 
  
 
* The ESP32-VGA can be powered from either the DC Jack or ESP32 USB power
 
* The ESP32-VGA can be powered from either the DC Jack or ESP32 USB power
Line 267: Line 100:
 
* This could be used for an external power switch
 
* This could be used for an external power switch
  
=== H2/H3 - GVS - Rev 2 ===
+
=== H2/H3 - GVS ===
  
 
* 3x4 header
 
* 3x4 header
Line 277: Line 110:
 
# VP/I36
 
# VP/I36
  
== Connectors (Rev 2 board) ==
+
== Connectors ==
  
=== P1 - PS/2 Mouse - Rev 2 ===
+
=== P1 - PS/2 Mouse ===
  
 
* DIN 6 connector
 
* DIN 6 connector
Line 285: Line 118:
  
 
<pre>
 
<pre>
   DAT   => GPIO27
+
   MSEDAT   => GPIO27
   CLK   => GPIO26
+
   MSECLK   => GPIO26
 
</pre>
 
</pre>
  
=== P2 - PS/2 Keyboard - Rev 2 ===
+
=== P2 - PS/2 Keyboard ===
  
 
* Purple DIN 6 connector
 
* Purple DIN 6 connector
Line 295: Line 128:
  
 
<pre>
 
<pre>
   DAT   => GPIO32
+
   KBDAT   => GPIO32
   CLK   => GPIO33
+
   KBCLK   => GPIO33
 
</pre>
 
</pre>
  
=== P3 - VGA - Rev 2 ===
+
=== P3 - VGA ===
  
 
* ESP32 pins
 
* ESP32 pins
Line 314: Line 147:
 
</pre>
 
</pre>
  
=== P4 - Audio Out - RCA Jack - Rev 2 ===
+
=== P4 - Audio Out - RCA Jack ===
  
 
* ESP32 pins
 
* ESP32 pins
Line 322: Line 155:
 
</pre>
 
</pre>
  
=== J1 - 5V Power - Rev 2 ===
+
=== J1 - 5V Power ===
  
 
* Center +5V
 
* Center +5V
  
=== J2 - FTDI #1 - Rev 2 ===
+
=== J2 - FTDI #1 ===
  
 
* This interface is in common with the USB-to-Serial interface on the ESP32 module
 
* This interface is in common with the USB-to-Serial interface on the ESP32 module
Line 333: Line 166:
 
# GND
 
# GND
 
# RTS (Not used)
 
# RTS (Not used)
# 5V (Not used)
+
# 5V (Not used in Rev 2), Connects to J5 on Rev 3
 
# RX (from card to External FTDI)
 
# RX (from card to External FTDI)
 
# TX (from External FTDI to card)
 
# TX (from External FTDI to card)
Line 343: Line 176:
 
</pre>
 
</pre>
  
==== Connect to FTDI card - Rev 2 ====
+
==== Connect to FTDI card ====
  
 
* Set FTDI jumper to 3.3V
 
* Set FTDI jumper to 3.3V
Line 349: Line 182:
 
[[File:FTDI_rot.jpg]]
 
[[File:FTDI_rot.jpg]]
  
=== J3 - FTDI #2 - Rev 2 ===
+
=== J3 - FTDI #2 ===
  
 
* Most recent (2020-02) ANSI terminal uses pin 34 for Rx
 
* Most recent (2020-02) ANSI terminal uses pin 34 for Rx
Line 366: Line 199:
 
</pre>
 
</pre>
  
==== Connect to FTDI card - Rev 2  ====
+
==== Connect to FTDI card ====
  
 
* Set FTDI jumper to 3.3V (image below shows jumper set to 5V which is wrong)
 
* Set FTDI jumper to 3.3V (image below shows jumper set to 5V which is wrong)
Line 372: Line 205:
 
[[File:FTDI_rot.jpg]]
 
[[File:FTDI_rot.jpg]]
  
=== J4 - SD Card - Rev 2 ===
+
=== J3 - FTDI #2 ===
 +
 
 +
* Most recent (as of 2020-02) ANSI terminal uses pin 34 for Rx
 +
* Pinout
 +
 
 +
# GND
 +
# RTS (Not used)
 +
# 5V Connects to J5 on Rev 3
 +
# RX (from External FTDI to ESP32 card)
 +
# TX (from ESP32 card to External FTDI)
 +
# CTS (Not used)
 +
 
 +
<pre>
 +
  RX2    => GPIO34
 +
  TX2    => GPIO2
 +
</pre>
 +
 
 +
=== J4 - SD Card ===
  
 
* Brought to GVS header pins (Rev 1)
 
* Brought to GVS header pins (Rev 1)
Line 384: Line 234:
 
</pre>
 
</pre>
  
== VGA - Ideal Drive 2:2:2 Case ==
+
=== J5 - FTDI Power out (Rev 3+ board) ===
 +
 
 +
* '''Don't install jumpers if an external FTDI interface is used'''
 +
* Powers external 3.3V interfaces
 +
** Useful to power external [[DTE]] or [[DCE]] RS-232 card
 +
* Install shunt/jumper at F1PWR to connect FTDI #1 pin J2-2 to +3.3V
 +
* Install shunt/jumper at F2PWR to connect FTDI #2 pin J3-2 to +3.3V
 +
 
 +
[[File:J5_Rev3.PNG]]
 +
 
 +
== VGA - Resistor Selection ==
  
 
* ESP32 has a 3.3V driver which can drive more than 10 mA
 
* ESP32 has a 3.3V driver which can drive more than 10 mA
 
* Ideal case drive current
 
* Ideal case drive current
** 0.7V into 75 Ohms = 9.33 mA
+
** 0.7V (full scale VGA level) into 75 Ohms = 9.33 mA
 +
** 2/3 of the current or 6.16 mA comes from the lower value resistor (digital most significant bit)
 +
** 1/3 of the current or 3.08 mA comes from the higher value resistor (digital least significant bit)
 
* R-2R values
 
* R-2R values
 
** Ideal resistor values are 417.9 ohms and 835.7 ohms
 
** Ideal resistor values are 417.9 ohms and 835.7 ohms
Line 407: Line 269:
 
[https://github.com/fdivitto/FabGL/blob/master/fabgl%20GPIOs%20assignment.txt From here]
 
[https://github.com/fdivitto/FabGL/blob/master/fabgl%20GPIOs%20assignment.txt From here]
  
 +
<pre>
 +
  VGA
 +
    HSync => 23
 +
    VSync => 15
 +
    R0    => 21
 +
    R1    => 22
 +
    G0    => 18
 +
    G1    => 19
 +
    B0    => 4
 +
    B1    => 5
 +
 +
  Audio
 +
    AUD  => 25
 +
 +
  PS/2 - Keyboard
 +
    DAT  => 32
 +
    CLK  => 33
 +
 +
  PS/2 - Mouse
 +
    DAT  => 27
 +
    CLK  => 26
 +
 +
  SDCard - HSPI
 +
    MOSI  => 17 (12 on TTGO/WROVER)
 +
    MISO  => 16 (2 on TTGO, 35 WROVER)
 +
    CLK  => 14
 +
    CS    => 13
 +
 +
  UART - UART1 (USB)
 +
    RX    => 3
 +
    TX    => 1
 +
 +
  UART - UART2
 +
    RX    => 34
 +
    TX    => 2  (not usable on TTGO/WROVER with SDCard active)
 +
</pre>
  
 
=== I2C (not usable with VGA) ===
 
=== I2C (not usable with VGA) ===
Line 428: Line 326:
 
== Software ==
 
== Software ==
  
=== Arduino Programming ===
 
 
* Board : "DOIT ESP32 DEVKIT V1"
 
 
[[File:Ardino_ESP32.png]]
 
 
=== FabGL ===
 
=== FabGL ===
  
Line 443: Line 336:
 
** Game Engine
 
** Game Engine
 
** ANSI/VT Terminal for the ESP32
 
** ANSI/VT Terminal for the ESP32
 +
 +
<video type="youtube">sCctddhJ8RA</video>
  
 
==== FabGL Libraries ====
 
==== FabGL Libraries ====
Line 448: Line 343:
 
* [http://www.fabglib.org FabGL] - ESP32 Display Controller and Graphics Library
 
* [http://www.fabglib.org FabGL] - ESP32 Display Controller and Graphics Library
 
* [https://github.com/fdivitto/fabgl FabGL Github repo]
 
* [https://github.com/fdivitto/fabgl FabGL Github repo]
 +
* [https://hackaday.com/2020/08/20/esp32-altair-emulator-gets-split-personality/ ESP32 ALTAIR EMULATOR GETS SPLIT PERSONALITY] - Hackaday page
 +
** [https://github.com/wd5gnr/FabGL FabGL derived build]
  
 
==== FabGL Arduino library ====
 
==== FabGL Arduino library ====
 +
 +
<video type="youtube">8OTaPQlSTas</video>
  
 
Installing the released library
 
Installing the released library
Line 456: Line 355:
  
 
==== Using Latest FabGL builds ====
 
==== Using Latest FabGL builds ====
 +
 +
*  Fabrizio does a nice job of keeping his Arduino libraries up to date but if you want a bleeding edge experience, you can download [https://github.com/fdivitto/fabgl his code from GitHub]. Note, he's in active development so things often change.
  
 
Here's how I did it
 
Here's how I did it
Line 465: Line 366:
 
# Compile/download/test the new files. You know it works if you now get sound from Space Invaders.
 
# Compile/download/test the new files. You know it works if you now get sound from Space Invaders.
 
# Save as where you would normally save your Arduino sketches.
 
# Save as where you would normally save your Arduino sketches.
 +
 +
=== Arduino Programming ===
 +
 +
* [https://randomnerdtutorials.com/installing-the-esp32-board-in-arduino-ide-windows-instructions/ Installing the ESP32 Board in Arduino IDE (Windows, Mac OS X, Linux)]
 +
* Board : "DOIT ESP32 DEVKIT V1"
 +
** Used Board : ESP32 Dev Module with Tools > Partition Scheme > Huge APP option to run VIC-20 (2022-09)
 +
* DOIT module does not have PSRAM
 +
** Can't run PC Emulator without PSRAM
 +
* If you try to upload a new sketch to your ESP32 and you get this error message “A fatal error occurred: Failed to connect to ESP32: Timed out… Connecting…“. It means that your ESP32 is not in flashing/uploading mode.
 +
* Press the “Upload” button in the Arduino IDE to upload your sketch
 +
* After you see the  “Connecting….” message in your Arduino IDE, release the finger from the “BOOT” button:
 +
 +
[[File:Ardino_ESP32.png]]
  
 
=== MicroPython ===
 
=== MicroPython ===
Line 491: Line 405:
 
* [http://land-boards.com/ESP32-VGA/ESP-32_VGA_Rev1_Schematic.pdf ESP32 VGA Rev 1 Schematic]
 
* [http://land-boards.com/ESP32-VGA/ESP-32_VGA_Rev1_Schematic.pdf ESP32 VGA Rev 1 Schematic]
 
* [http://land-boards.com/ESP32-VGA/ESP32-VGA_Rev2_Schematic.pdf ESP32 VGA Rev 2 Schematic]
 
* [http://land-boards.com/ESP32-VGA/ESP32-VGA_Rev2_Schematic.pdf ESP32 VGA Rev 2 Schematic]
 +
* [http://land-boards.com/ESP32-VGA/ESP32-VGA_Rev3_Schematic.pdf ESP32 VGA Rev 3 Schematic]
 
* [https://www.espressif.com/sites/default/files/documentation/esp32-wroom-32_datasheet_en.pdf ESP32-WROOM-32 Datasheet]
 
* [https://www.espressif.com/sites/default/files/documentation/esp32-wroom-32_datasheet_en.pdf ESP32-WROOM-32 Datasheet]
 
* [https://github.com/land-boards/lb-boards/blob/master/ESP32/ESP32-Hub/Parts_/SchematicsforESP32.pdf ESP32 Module schematic]
 
* [https://github.com/land-boards/lb-boards/blob/master/ESP32/ESP32-Hub/Parts_/SchematicsforESP32.pdf ESP32 Module schematic]
 +
 +
== Rev 3 Changes ==
 +
 +
[[File:ESP32-VGA_CAD_REV3.PNG]]
 +
 +
* Adds J5 header to provide power out on FTDI connectors J2, J3
  
 
== Rev 2 Changes ==
 
== Rev 2 Changes ==
Line 499: Line 420:
  
 
* '''Rev 1 board won't program or boot with FDTI #2 card attached'''
 
* '''Rev 1 board won't program or boot with FDTI #2 card attached'''
* Swap FTDI pins 4 and 5 (J2 and J6)
+
** Earlier FabGL had GPIO12 instead of GPIO34
 +
** Move FTDI Rx line (GPIO12 to GPIO34)
 +
* Swap FTDI pins 4 and 5 (FTDI connectors)
 
** Allow direct connect to FTDI card (no swap)
 
** Allow direct connect to FTDI card (no swap)
* Move FTDI Rx line (GPIO12 to GPIO34)
 
** Earlier FabGL had previos connection
 
 
* Add SD Card connector
 
* Add SD Card connector
 
** MISO => GPIO 16
 
** MISO => GPIO 16
Line 509: Line 430:
 
** CS  => GPIO 13
 
** CS  => GPIO 13
 
** Remove I/O pins from GVS connector
 
** Remove I/O pins from GVS connector
* Replace H1/H2 with 1x2 to select/remove DC jack power
+
* Replace H1/H2 with 1x2 to select/remove DC jack power\
* Change ESP32 silkscreen
+
* Remove Polysilicone fuse
** SD card
+
* Change ESP32 board name silkscreen
* VGA High/Low lines backwards on silkscreen
+
* Add SD card connector
  
 
== Prototype ==
 
== Prototype ==
Line 529: Line 450:
 
== Assembly Sheet ==
 
== Assembly Sheet ==
  
* [[ESP32-VGA Rev 2 Assembly Sheet]]
+
* [[ESP32-VGA Rev 3 Assembly Sheet]] (Tindie board)
 +
* [[ESP32-VGA Rev 2 Assembly Sheet]] (older Tindie board)
 
* [[ESP-32-VGA Rev 1 Assembly Sheet]]
 
* [[ESP-32-VGA Rev 1 Assembly Sheet]]

Latest revision as of 11:26, 4 September 2024

Tindie-mediums.png

P968-cropped-720pxV.jpg

Features

  • See ESP32-VGA Rev 1 for older rev card
  • ESP32 Module
    • 18 Analog-to-Digital Converter (ADC) channels
    • 10 Capacitive sensing GPIOs
    • 3 UART interfaces
    • 3 SPI interfaces
    • 2 I2C interfaces
    • 16 PWM output channels
    • 2 Digital-to-Analog Converters (DAC)
    • 2 I2S interfaces
  • 6-bit VGA color
    • 2:2:2 R:G:B
  • 2 x PS-2 DIN connectors
    • 5V mouse/keyboard
    • 3.3V to 5V level shifters
      • Better than 5V keyboard with series resistors
    • 10K pull-ups on both sides
  • 2 x FTDI connectors
  • 5V DC Jack
  • 3.3V regulator (optional)
  • GVS pins for extra ESP32 pins
  • 95x95mm form factor
  • 6-32 mounting holes

ESP-32 Module

ESP32 MODULE-720PX.jpg

ESP-32 Module Pinout

ESP32-Pinout.jpg

"Chip" on the module

Esp32-pinout-chip-ESP-WROOM-32.png

ESP32 Pin Usage - Revs 2, 3

ESP-32 VGA Pinout Rev2.PNG

Module Features

  • Architecture: Xtensa Dual-Core 32-bit LX6
  • CPU frequency: up to 240MHz
  • Total RAM available: 528KB (part of it reserved for system)
  • BootROM: 448KB
  • Internal FlashROM: none
  • External FlashROM: code and data, via SPI Flash; usual size 4MB
  • GPIO: 34 (GPIOs are multiplexed with other functions, including external FlashROM, UART, etc.)
  • UART: 3 RX/TX UART (no hardware handshaking), one TX-only UART
  • SPI: 4 SPI interfaces (one used for FlashROM)
  • I2C: 2 I2C (bitbang implementation available on any pins)
  • I2S: 2
  • ADC: 12-bit SAR ADC up to 18 channels
  • DAC: 2 8-bit DACs
  • RMT: 8 channels allowing accurate pulse transmit/receive
  • Programming: using BootROM bootloader from UART - due to external FlashROM and always-available BootROM bootloader, the ESP32 is not brickable

Video DAC LTSpice Simulation

Summing Video Resistor DAC

  • Best values (1%)
    • 422, 845
    • 470, 820 are close/standard values
  • 0.7V into 75 Ohm VGA load
  • 3.3V drive
  • ESP32 has 40 mA drive
    • Uses 8 mA (max)
  • Output in 4 equal voltage steps

VGA Sim 2R Voltage.PNG

Headers

  • The Rev 2 board changes around headers and connectors from the ESP32-VGA Rev 1 board

H1 - 5V

  • The ESP32-VGA can be powered from either the DC Jack or ESP32 USB power
  • Warning: Do not power from 5V Power jack and connect USB cable to the ESP32 module at the same time
    • The ESP32 module has blocking diode to protect the module
      • If the 5V DC jack has a power supply attached with lower voltage it could result in the supplied being shorted between the USB 5V and the DC power jack
      • This is not an issue if the DC power jack is disconnected
  • This could be used for an external power switch

H2/H3 - GVS

  • 3x4 header
  • Ground/Voltage/Signal lines
  1. GPIO35
  2. GPIO12
  3. VN/I39
  4. VP/I36

Connectors

P1 - PS/2 Mouse

  • DIN 6 connector
  • ESP32 pins
  MSEDAT   => GPIO27
  MSECLK   => GPIO26

P2 - PS/2 Keyboard

  • Purple DIN 6 connector
  • ESP32 pins
  KBDAT   => GPIO32
  KBCLK   => GPIO33

P3 - VGA

  • ESP32 pins
  HSync => GPIO23
  VSync => GPIO15
  R0    => GPIO22
  R1    => GPIO21
  G0    => GPIO19
  G1    => GPIO18
  B0    => GPIO5
  B1    => GPIO4

P4 - Audio Out - RCA Jack

  • ESP32 pins
  AUD   => GPIO25

J1 - 5V Power

  • Center +5V

J2 - FTDI #1

  • This interface is in common with the USB-to-Serial interface on the ESP32 module
  • Pinout
  1. GND
  2. RTS (Not used)
  3. 5V (Not used in Rev 2), Connects to J5 on Rev 3
  4. RX (from card to External FTDI)
  5. TX (from External FTDI to card)
  6. CTS (Not used)
  RX    => GPIO3
  TX    => GPIO1

Connect to FTDI card

  • Set FTDI jumper to 3.3V

FTDI rot.jpg

J3 - FTDI #2

  • Most recent (2020-02) ANSI terminal uses pin 34 for Rx
  • Pinout
  1. GND
  2. RTS (Not used)
  3. 5V (Power in if H2 is configured)
  4. RX (from External FTDI to ESP32 card)
  5. TX (from ESP32 card to External FTDI)
  6. CTS (Not used)
  RX2    => GPIO34
  TX2    => GPIO2

Connect to FTDI card

  • Set FTDI jumper to 3.3V (image below shows jumper set to 5V which is wrong)

FTDI rot.jpg

J3 - FTDI #2

  • Most recent (as of 2020-02) ANSI terminal uses pin 34 for Rx
  • Pinout
  1. GND
  2. RTS (Not used)
  3. 5V Connects to J5 on Rev 3
  4. RX (from External FTDI to ESP32 card)
  5. TX (from ESP32 card to External FTDI)
  6. CTS (Not used)
  RX2    => GPIO34
  TX2    => GPIO2

J4 - SD Card

  • Brought to GVS header pins (Rev 1)
  • Brought to SD Card (Rev 2)
  MOSI  => GPIO17
  MISO  => GPIO16
  CLK   => GPIO14
  CS    => GPIO13

J5 - FTDI Power out (Rev 3+ board)

  • Don't install jumpers if an external FTDI interface is used
  • Powers external 3.3V interfaces
    • Useful to power external DTE or DCE RS-232 card
  • Install shunt/jumper at F1PWR to connect FTDI #1 pin J2-2 to +3.3V
  • Install shunt/jumper at F2PWR to connect FTDI #2 pin J3-2 to +3.3V

J5 Rev3.PNG

VGA - Resistor Selection

  • ESP32 has a 3.3V driver which can drive more than 10 mA
  • Ideal case drive current
    • 0.7V (full scale VGA level) into 75 Ohms = 9.33 mA
    • 2/3 of the current or 6.16 mA comes from the lower value resistor (digital most significant bit)
    • 1/3 of the current or 3.08 mA comes from the higher value resistor (digital least significant bit)
  • R-2R values
  • Voltage steps are:

VGA Sim 2R Voltage.PNG

  • Current steps are:

VGA Sim 2R Current.PNG

FabGL GPIOs assignment summary - fabgl dev board rev2

From here

  VGA
    HSync => 23
    VSync => 15
    R0    => 21
    R1    => 22
    G0    => 18
    G1    => 19
    B0    => 4
    B1    => 5

  Audio
    AUD   => 25

  PS/2 - Keyboard
    DAT   => 32
    CLK   => 33

  PS/2 - Mouse
    DAT   => 27
    CLK   => 26

  SDCard - HSPI
    MOSI  => 17 (12 on TTGO/WROVER)
    MISO  => 16 (2 on TTGO, 35 WROVER)
    CLK   => 14
    CS    => 13

  UART - UART1 (USB)
    RX    => 3
    TX    => 1

  UART - UART2
    RX    => 34
    TX    => 2  (not usable on TTGO/WROVER with SDCard active)

I2C (not usable with VGA)

  SDA   => GPIO4  (conflicts with VGA B1)
  SCL   => GPIO15 (conflicts with VGA VSync)

SPI Display - VSPI (not usable with VGA)

  CLK   => GPIO18 (conflicts with VGA G1)
  MISO  => GPIO19 (conflicts with VGA G0)
  MOSI  => GPIO23 (conflicts with VGA HSync)
  CS    => GPIO5  (conflicts with VGA B0)
  D/C   => GPIO22 (conflicts with VGA R0)
  RESET => GPIO21 (conflicts with VGA R1)

Software

FabGL

  • Display Controller features/applications
    • VGA
    • SSD1306
    • PS/2 Mouse and Keyboard Controller
    • Graphics Library
    • Sound Engine
    • Game Engine
    • ANSI/VT Terminal for the ESP32

FabGL Libraries

FabGL Arduino library

Installing the released library

FabGL Library.PNG

Using Latest FabGL builds

  • Fabrizio does a nice job of keeping his Arduino libraries up to date but if you want a bleeding edge experience, you can download his code from GitHub. Note, he's in active development so things often change.

Here's how I did it

  1. Install drivers via Arduino from the Library Manager. These are not the latest files. Space Invaders should run but not have sound (as of now because it's the older version).
  2. Move the FabGL from the Arduino libraries file folder to the desktop.
  3. Copy the FabGL from the GitHub download to the Arduino files folder (where you removed the other folder).
  4. Examples will now be the latest.
  5. Compile/download/test the new files. You know it works if you now get sound from Space Invaders.
  6. Save as where you would normally save your Arduino sketches.

Arduino Programming

  • Installing the ESP32 Board in Arduino IDE (Windows, Mac OS X, Linux)
  • Board : "DOIT ESP32 DEVKIT V1"
    • Used Board : ESP32 Dev Module with Tools > Partition Scheme > Huge APP option to run VIC-20 (2022-09)
  • DOIT module does not have PSRAM
    • Can't run PC Emulator without PSRAM
  • If you try to upload a new sketch to your ESP32 and you get this error message “A fatal error occurred: Failed to connect to ESP32: Timed out… Connecting…“. It means that your ESP32 is not in flashing/uploading mode.
  • Press the “Upload” button in the Arduino IDE to upload your sketch
  • After you see the “Connecting….” message in your Arduino IDE, release the finger from the “BOOT” button:

Ardino ESP32.png

MicroPython

ESP-IDF

Operating Systems

Schematic

Rev 3 Changes

ESP32-VGA CAD REV3.PNG

  • Adds J5 header to provide power out on FTDI connectors J2, J3

Rev 2 Changes

ESP32-VGA CAD REV2-bw.PNG

  • Rev 1 board won't program or boot with FDTI #2 card attached
    • Earlier FabGL had GPIO12 instead of GPIO34
    • Move FTDI Rx line (GPIO12 to GPIO34)
  • Swap FTDI pins 4 and 5 (FTDI connectors)
    • Allow direct connect to FTDI card (no swap)
  • Add SD Card connector
    • MISO => GPIO 16
    • MOSI => GPIO 17
    • CLK => GPIO 14
    • CS => GPIO 13
    • Remove I/O pins from GVS connector
  • Replace H1/H2 with 1x2 to select/remove DC jack power\
  • Remove Polysilicone fuse
  • Change ESP32 board name silkscreen
  • Add SD card connector

Prototype

FabGL P905-512pxV.jpg

Assembly Sheet