Versions Compared

Key

  • This line was added.
  • This line was removed.
  • Formatting was changed.

https://github.com/RomeroPablo/Pre-reqs:

Electrical General Documentation

Make a branch on the following GitHub:

DataAcq-StarterProject

Name it lastfirst-DAQSTARTER

The Data Acquisition System for Longhorn Racing Solar can be divided into the following subsystems:

...

Even if your role focuses on just one of these technologies, it's crucial to have a solid grasp of the overall system. This knowledge not only enhances collaboration with your teammates but also allows you to integrate your work with theirs, ensuring a cohesive design.

Development Environment

Ensure you have properly setup the following software packages before continuing:

...

https://projectchrono.org/pychrono/

If you are unfamiliar or want to get more comfortable working within a Linux environment, check out: https://missing.csail.mit.edu/

Objective

Develop a real-time telemetry system that captures, transmits, and analyzes data from an Inertial Measurement Unit (IMU) connected to an STM32 microcontroller, visualizes the data through a web dashboard, and performs dynamic simulations using the PyChrono library for mechanical analysis.

Acquisition

Hardware

The first step in the data acquisition pipeline is digitizing the target signal—in our case, vehicle positional information. We use the LSM6 IMU, an always-on 3-axis accelerometer and 3-axis gyroscope to achieve this. Since there are several revisions of this IMU, it’s essential to ensure that the datasheet you reference corresponds to the specific version you're working with. Below is the link to the datasheet for the IMU you are likely using for this project:

...

We will be using KiCad for our PCB prototyping/design, and I have provided a KiCad project folder in the starter project GitHub. The project already contains the appropriate symbols for the design. Using the data sheets, it is your job to make the correct electrical connections on the schematic and PCB between the different peripherals. (Clue: we are using SPI to communicate from the IMU to STM32, and UART to communicate from the STM32 to the USB).

Checkout page 38 for tips on reading a datasheet:

https://drive.google.com/file/d/1ncT20jXJit8rNf8lYBwRSi9BwHNnSHLV/view?usp=drive_link

Some helpful pages:

...

image-20240927-190240.png

image-20240927-190832.png

image-20240927-191009.png

Firmware

...

main.h / main.c - initializes and calls drivers

setup stm

generate hal

dev firmware

output to terminal

done with this part

Display

https://github.com/astrolancing/lhr-svt-da-bootcamp-2024

WIP

setup npm, setup next.js …

we are feeding the imu data to a terminal, now take this data and display it on a locally hosted website (smile)

...

At this point, I recommend making sure your program can compile by running:

Code Block
$ make

in the “DAQStarterProjectMCU” directory.

Reading and writing to the serial terminal

Code Block
  /* USER CODE BEGIN WHILE */
  uint8_t msg[] = "Test 0x01 :: UART COMMUNICATION\n\r";
  while (1) {
    HAL_UART_Transmit(&huart1, (uint8_t *)msg, sizeof(msg), 100);
    /* USER CODE END WHILE */
  
    /* USER CODE BEGIN 3 */
  }
  /* USER CODE END 

Make sure you have an appropriate program to read from devices, such as PuTTY (Windows) or Minicom (Linux). Bind the program to the appropriate port, maintaining the same baud rate and formatting you configured using the STM32Cube IDE.

Once you confirm this works, try modifying the code to send a different text message, and then try sending a counter.

Reading and writing to the IMU

Your job is to modify the accelerometer, gyroscope, and imu drivers to properly interface between the STM32 and the LSM6.

The following is a code snippet found in the lsm6.c file:

Code Block
uint8_t LSM6DSL_AccReadID(void)
{  
  /* IO interface initialization */
  SENSOR_IO_Init();
  /* Read value at Who am I register address */
  return (SENSOR_IO_Read(LSM6DSL_ACC_GYRO_I2C_ADDRESS_LOW, LSM6DSL_ACC_GYRO_WHO_AM_I_REG));
}

However, the SENSOR_IO_Read is a generic function, and it is your responsibility to replace it with the proper STM SPI communication function.

Make sure you understand what the function is doing, and verify you are sending the correct packages to the IMU. Check out section 9. Register Mapping to verify the packages.

Want some more practice or another introduction to electrical work?

check out: PCB Starter Project - Fan Board

Display

10/05/24

Ahead of Schedule?

Check out:

https://missing.csail.mit.edu/

https://github.com/astrolancing/lhr-svt-da-bootcamp-2024

WIP

setup chrono

https://apidrive.projectchrono.org/pychrono_installation.html

Use Python script to simulate the motion of a mechanical system

Display/Analysis BootCamp: google.com/file/d/1WcelXRpiBJWYGkKvwAVdFLVyTp6dLY5V/view

Analysis

10/12/24

Ahead of Schedule?

Check out:

https://missing.csail.mit.edu/

https://github.com/astrolancing/lhr-svt-da-bootcamp-2024

Reference Text: https://drive.google.com/file/d/1WcelXRpiBJWYGkKvwAVdFLVyTp6dLY5V/view

...