Skip to content

NXPHoverGames/TropicCommunityVMU

Repository files navigation

Tropic VMU

Tropic VMU (Vehicle Management Unit) is an BSD-3 Licensed Open-Source base board designed around the Teensy 4.1 Development board.

Note

Tropic VMU is a project created by a group of passionate individuals who work on it in their free time. It's important for users to understand that Tropic might not provide the same reliability, features, or support as products from well-established companies. Using Tropic is entirely up to the user's discretion and comes with its own risks.

For a more dependable and professional VMU, we suggest looking into the NXP reference based on Dronecode Pixhawk standard V6X-RT (p/n MR-VMU-RT1176). The NXP V6X-RT offers advanced features, some level of support across multiple autopilots, and is designed towards the needs of professional users, providing a more reliable solution for their requirements.

Tropic

Tropic VMU is capable of running autopilot software for unmanned vehicles such as:

  • Drones
  • Rovers
  • Boats
  • And more

Drone Test flight Video

IMAGE ALT TEXT HERE

Software

The Tropic VMU supports multiple Autopilots, please check the individual guide below

Tropic VMU also supports Zephyr RTOS with most of it's peripherals enabled.

Note

We're still in the process of upstreaming code please check the open pull requests in the corresponding projects

Hardware

Tropic VMU utilizes the Teensy 4.1 consisting of:

  • NXP MIMXRT1062DVJ6B MCU
  • Cortex-M7 600MHz
  • 1024K RAM (512 Tightly coupled)
  • 8MB Flash
  • 100Mbps Ethernet
  • USB HS 480Mbit/s
  • SD Card interface

Tropic Base board consisting of:

  • Bosch BMI088 IMU
  • Bosch BMM150 Magnetometer
  • Bosch BMP388 Barometer
  • TDK InvenSense ICM-42688-P IMU
  • NXP TJA1051TK CAN Transceiver
  • RGB Led
  • Buzzer
  • Button

With connectors for:

  • 10-pin JST-GH GPS connector
  • 6-pin JST-GH UART + Handshake connector
  • 6-pin JST-GH AUX Multi-function connector
    • UART
    • Quadrature decoder
    • PWM
    • Crossbar trigger
  • 6-pin JST-GH Power module connector
  • 6-pin JST-GH Debug UART connector providing system console
  • 4-pin JST-GH I2C connector
  • 4-pin JST-GH CAN bus connector
  • 3-pin DuPont for Digital Receiver i.e. SBUS
  • 6x 3-pin DuPont PWM header (DShot capable)
  • RJ45 Ethernet connector

Some of the JST-GH connectors pinout follows the DS-009 connector specification

Powering the board

The Tropic VMU can be powered in 2 ways

Warning

You should only power the Tropic VMU through either method 1. or 2. For example the current can flow from the power module to your usb potentially damaging your machine. You should to cut the power pad on the Teensy as a precaution if you want to use USB and the Power-module simultaneously, but by doing so you would lose the ability to power the board through USB. For more information see Teensy External Power guide.

  1. Through the micro-USB port on the Teensy 4.1
  2. Through a 6-pin JST-GH power module

Pinout

Teensy Pin Label IMXRT Label Peripheral Alternative mode
35 TX DEBUG B1_12 LPUART5
34 RX DEBUG B1_13 LPUART5
17 TX TELEM AD_B1_06 LPUART3
16 RX TELEM AD_B1_07 LPUART3
41 TELEM RTS AD_B1_05 LPUART3 GPIO1_IO21
40 TELEM CTS AD_B1_04 LPUART3 GPIO1_IO20
14 TX GPS AD_B1_03 LPUART2
15 RX GPS AD_B1_02 LPUART2
8 TX AUX B1_00 LPUART4 XBAR1_XBAR_IN14
7 RX AUX B1_01 LPUART4 XBAR1_XBAR_IN15
20 RC AD_B1_10 LPUART8
19 EXT_SCL AD_B1_00 LPI2C1
18 EXT_SDA AD_B1_01 LPI2C1
24 BARO_MAG_SCL AD_B0_12 LPI2C4
25 BARO_MAG_SDA AD_B0_13 LPI2C4
27 SPI2_SCK AD_B1_15 LPSPI3
26 SPI2_MOSI AD_B1_14 LPSPI3
39 SPI2_MISO AD_B1_13 LPSPI3
38 SPI2_CS AD_B1_12 LPSPI3 GPIO1_IO28
28 DRDY EMC_32 LPSPI3 GPIO3_IO18
13 SPI1_SCK B0_03 LPSPI4
11 SPI1_MOSI B0_02 LPSPI4
12 SPI1_MISO B0_01 LPSPI4
10 SPI1_CS B0_00 LPSPI4 GPIO2_IO00
36 SPI1_CS2 B1_02 LPSPI4 GPIO2_IO18
23 BMI DRDY AD_B1_09 LPSPI4 GPIO1_IO25
6 BMI DRDY2 B0_10 LPSPI4 GPIO2_IO10
4 PWM_1 EMC_06 FLEXPWM2_PWMA00 FLEXIO1_FLEXIO06
33 PWM_2 EMC_07 FLEXPWM2_PWMB00 FLEXIO1_FLEXIO07
5 PWM_3 EMC_08 FLEXPWM2_PWMA01 FLEXIO1_FLEXIO08
9 PWM_4 B0_11 FLEXPWM2_PWMB02 FLEXIO2_FLEXIO11
2 PWM_5 EMC_04 FLEXPWM4_PWMA02 FLEXIO1_FLEXIO04
3 PWM_6 EMC_05 FLEXPWM4_PWMB02 FLEXIO1_FLEXIO05
0 LED_R AD_B0_02 XBAR1_XBAR_IN16 GPIO1_IO02
1 LED_B AD_B0_03 XBAR1_XBAR_IN17 GPIO1_IO03
37 LED_G B1_03 FLEXPWM2_PWMB03 GPIO2_IO19
29 BUZZER EMC_31 FLEXPWM3_PWMA01 GPIO4_IO31
32 ARM B0_12 GPIO GPIO2_IO12
22 ADC_V AD_B1_08 ADC1_IN13 GPIO1_IO27
21 ADC_A AD_B1_11 ADC1_IN0 GPIO1_IO24

Open-source hardware Design

Tropic VMU design is licensed under BSD-3 and all design files are published on this git.

Schematics

Tropic VMU rev.C schematics

PCB Design

The board is designed using EasyEda Std Edition, to import the project you've to create a new project in EasyEda Std edition and select File -> Open -> EasyEda and select the json files available in the zip file.

Tropic VMU rev.C EasyEda zip file

Bill-of-Material (BOM)

Click here for the BOM

Production files

These are the production files used for rev.C of tropic

Printable models/parts

For 3d-printed enclosures and parts checkout the Printable models/parts page

Advanced topics

Some advanced topics regarding Ethernet, RTC and AUX port are explained here

About

Community repo for the Tropic drone FMU VMU based on Teensy

Resources

License

Stars

Watchers

Forks

Releases

No releases published

Packages

No packages published