Skip to content

Commit

Permalink
add ESP32-S3
Browse files Browse the repository at this point in the history
  • Loading branch information
qqqlab committed Feb 22, 2024
1 parent a6f1b9c commit ad7bb08
Show file tree
Hide file tree
Showing 5 changed files with 72 additions and 15 deletions.
File renamed without changes.
6 changes: 3 additions & 3 deletions library.properties
Original file line number Diff line number Diff line change
@@ -1,12 +1,12 @@
name=madflight
version=1.0.2
version=1.0.3
author=qqqlab
maintainer=qqqlab <madflight@qqqlab.com>
license=GNU
sentence=Flight Controller for RP2040 / ESP32 / STM32
paragraph=This is a 1000 line Arduino ESP32 / RP2040 / STM32 flight controller, forked from dRehmFlight. A functional DIY flight controller can be build for under $10 from readily available development boards and sensor breakout boards. Ideal if you want to try out new flight control concepts, without first having to setup a build environment and without having to read through thousands lines of code to find the spot where you want to change something.
paragraph=Flight tested with readily available development boards and sensor breakout boards. Build a quadcopter, helicoper, airplane or VTOL craft. Includes modules for PID control, CRSF/ELRS/DSMX/SBUS receiver and telemetry, AHRS, GPS, barometer, magnetometer, calibration, command line interface, black box data logging.
category=Other
url=https://github.com/qqqlab/madflight
url=https://madflight.com/arduino
architectures=*
depends=
includes=madflight.h
45 changes: 40 additions & 5 deletions readme.md
Original file line number Diff line number Diff line change
Expand Up @@ -32,11 +32,11 @@ Flight tested on ESP32, RP2040, and STM32F405 microcontrollers with the Arduino
## Getting Started

1. Install the Arduino madflight library
2. Open example madflight_Quadcopter.ino in the Arduino IDE.
2. Open example Quadcopter.ino in the Arduino IDE.
3. Setup the USER-SPECIFIED DEFINES section
4. If you're not using a default pinout (see below) then setup your board pinout in the BOARD section.
5. Connect your IMU (gyro/acceleration) sensor as shown below.
6. Compile and upload madflight_Quadcopter.ino to your board. Connect the Serial Monitor at 115200 baud and check the messages. Type 'help' to see the available CLI commands.
6. Compile and upload Quadcopter.ino to your board. Connect the Serial Monitor at 115200 baud and check the messages. Type 'help' to see the available CLI commands.
7. Check that IMU sensor and AHRS are working correctly: use CLI print commands to show gyro, accelerometer, magnetometer and roll/pitch/yaw.
8. Use CLI to calibate the sensor.
9. Connect radio receiver to your development board according to the configured pins.
Expand Down Expand Up @@ -110,7 +110,7 @@ I2C sensor:

## Default Pinout for ESP32 DevKitC (38 pin)

This pinout can be configured as needed in hw_ESP32.h
This pinout can be configured as needed in madflight_board_default_ESP32.h

| Function | GPIO | Board | GPIO | Function |
| --: | :-- | -- |--: | :-- |
Expand Down Expand Up @@ -142,7 +142,7 @@ Note: During boot the input voltage levels (pull up/pull down) on strap pins hav

## Default Pinout for Raspberry Pi Pico (40 pin)

This pinout can be configured as needed in hw_RP2040.h
This pinout can be configured as needed in madflight_board_default_RP2040.h

| Function | GPIO | Board | GPIO | Function |
| --: | :-- | -- |--: | :-- |
Expand Down Expand Up @@ -173,7 +173,7 @@ This pinout can be configured as needed in hw_RP2040.h

## Default Pinout for WeActStudio STM32F411 Black Pill (40 pin)

This pinout can be configured as needed in hw_STM32.h
This pinout can be configured as needed in madflight_board_default_STM32.h

| Function | GPIO | Board | GPIO | Function |
| --: | :-- | -- |--: | :-- |
Expand Down Expand Up @@ -206,6 +206,41 @@ PWM1-6 are connected to timer1, PWM7-8 to timer3 and PWM9-10 to timer4. PWM pins

<img src="doc/img/STM32-STM32F4-STM32F411-STM32F411CEU6-pinout-high-resolution.png" width="45%" />


## Default Pinout for ESP32-S3 DevKitC-1 (44 pin)

This pinout can be configured as needed in madflight_board_default_ESP32-S3.h

| Function | GPIO | Board | GPIO | Function |
| --: | :-- | -- |--: | :-- |
3V3 out | 3V3 | Antenna side | G | GND
3V3 out | 3V3 | | 43 | TX serial debug UART port
reset button | RST | | 44 | RX serial debug UART port
PWM1 | 4 | | 1 | -
PWM2 | 5 | | 2 | -
PWM3 | 6 | | 42 | -
PWM4 | 7 | | 41 | -
PWM5 | 15 | | 40 | -
PWM6 | 16 | | 39 | -
RCIN_TX | 17 | | 38 | LED
RCIN_RX | 18 | | 37 | -
I2C_SDA | 8 | | 36 | -
GPS_RX | 3 | | 35 | -
GPS_TX | 46 | | 0 | boot button
I2C_SCL | 9 | | 45| -
IMU_CS | 10 | | 48 | RGB_LED
SPI_MOSI | 11 | | 47 | -
MISO | 12 | | 21 | -
SCLK | 13 | | 20 | USB_D+ (serial debug alternate)
IMU_EXTI | 14 | | 19 | USB_D- (serial debug alternate)
5V in (*) | 5V | | G | GND
GND | G | USB connector | G | GND

(*) 5V input via diode from BEC. Without a diode take care not connect USB and the battery at the same time!

<img src="doc/img/esp32-S3-DevKitC-1-original-pinout-high.png" width="60%" />


## Changes from dRehmFlight

- Add support for RP2040, ESP32, and STM32
Expand Down
2 changes: 1 addition & 1 deletion src/madflight.h
Original file line number Diff line number Diff line change
@@ -1,4 +1,4 @@
#define MADFLIGHT_VERSION "madflight v1.0.2"
#define MADFLIGHT_VERSION "madflight v1.0.3"

/*==========================================================================================
madflight - Flight Controller for ESP32 / RP2040 / STM32
Expand Down
34 changes: 28 additions & 6 deletions src/madflight_board_default_ESP32-S3.h
Original file line number Diff line number Diff line change
@@ -1,16 +1,38 @@
//This pin layout is optimized for Espressif ESP32 DevKitC 38 pin board, use "ESP32 Dev Module" as board in Arduino IDE
/*This pin layout is optimized for Espressif ESP32-S3-DevKitC-1 - 44 pin pin board
Arduino IDE setup for Espressif ESP32-S3-DevKitC-1 with ESP32-S3-WROOM-2-N32R8V module:
board: ESP32S3 Dev Module
Flash Mode: OPI 80MHz
Flash Size: 32MB (256Mb)
Regular setup with 3 Serial ports (Serial, Serial1 and Serial2)
USB CDC On Boot: Disabled
--> Serial connected to "UART", error 'Serial0' was not declared
Add USB as 4th serial port (Serial, Serial0, Serial1 and Serial2)
USB CDC On Boot: Enabled
USB DFU On Boot: Disabled
USB Mode: USB-OTG (TinyUSB)
--> Serial connected to "USB", Serial0 connected to "UART"
Settings for programming via "UART" micro usb port (programming works without pressing boot/reset buttons)
Upload Mode: UART0 / Hardware CDC
Settings for programming via "USB" micro usb port (need to press boot/reset buttons for programming)
Upload Mode: USB-OTG CDC (TinyUSB)
Programming/debugging:
press boot, press+release reset, release boot, then upload
press+release reset, then open serial monitor
*/

#define HW_BOARD_NAME "DEFAULT ESP32-S3 BOARD - Espressif ESP32-S3-DevKitC-1 - 44 pin"
#define HW_MCU "ESP32-S3" //ESP32-S3 - Most pins can be assigned freely

//NOTE: DON'T USE SAME PIN TWICE. All pins here get configured, even if they are not used. Set pin to -1 to disable.

//Serial Debug
//19,20=USB, 43,44=CP2102
//USB CDC On Boot "Enabled": Serial->USB, Serial0->UART, "Disabled": Serial->UART, Serial1->undefined

//LED:
const int HW_PIN_LED = 38; //Note: ESP32S3 DevKitC has RGB LED on this pin
const int HW_PIN_LED = 38; //Note: plus RGB_LED on pin 48, some versions have RGB_LED on pin 38 and no LED
const int HW_LED_ON = 1; //0:low is on, 1:high is on

//IMU SPI:
Expand Down

0 comments on commit ad7bb08

Please sign in to comment.