MATEKSYS H743-SLIM V3 Flight Controller User Manual
Model: H743-SLIM V3
1. Kupu Whakataki
This manual provides comprehensive instructions for the installation, setup, operation, and maintenance of the MATEKSYS H743-SLIM V3 Flight Controller. Designed for advanced drone and robotics applications, this flight controller offers robust performance and extensive connectivity. Please read this manual thoroughly before use to ensure proper functionality and safety.
2. Nga korero haumaru
Kia mau tonu nga whakaritenga haumaru e whai ake nei:
- Ensure all connections are secure and correct before applying power. Incorrect wiring can damage the flight controller and connected components.
- Mahi i roto i te waahi pai-hau.
- Avoid contact with water or excessive moisture.
- Do not attempt to modify the hardware beyond the scope of this manual.
- Always disconnect power before performing any maintenance or wiring changes.
- This device is intended for users with experience in electronics and drone building.
3. Ihirangi mokete
The MATEKSYS H743-SLIM V3 Flight Controller package typically includes:
- MATEKSYS H743-SLIM V3 Flight Controller board
- Mounting grommets (if included by manufacturer)
- (Note: Additional accessories like cables or connectors may be sold separately.)
4. Hua Neke Atuview
The H743-SLIM V3 is a high-performance flight controller featuring a powerful STM32H743VI microcontroller. It integrates multiple sensors and interfaces for comprehensive control and data logging.
Whakaahua 4.1: Runga view of the MATEKSYS H743-SLIM V3 Flight Controller, showing the main chip, various pads for connections, and the USB-C port. Key labels for UARTs, PWM outputs, and power pads are visible.
Whakaahua 4.2: Koki view of the MATEKSYS H743-SLIM V3 Flight Controller, highlighting the various surface-mounted components, including the STM32H743VI microcontroller, IMUs, and connectors like the JST-SH and JST-GH.
Figure 4.3: Combined top and bottom views of the MATEKSYS H743-SLIM V3 Flight Controller. The top view shows the main connection pads, while the bottom view reveals the microSD card slot and additional components.
Whakaahua 4.4: Taha views of the MATEKSYS H743-SLIM V3 Flight Controller, illustrating the various connectors such as the USB Type-C port, JST-SH1.0_8pin, and JST-GH1.25_4pin connectors.
Āhuatanga matua:
- MCU: STM32H743VIH6, 480MHz, 1MB RAM, 2MB Flash
- IMU: ICM42688P, ICM42605 (V3 update)
- Paepae: Infineon DPS310
- OSD: AT7456E
- Blackbox: MicroSD card socket
- 7x UARTs with built-in inversion
- 13x PWM putanga
- 2x I2C, 1x CAN, 6x ADC
- USB Momo-C (USB2.0)
- Whakawhiti Whakataunga Takirua Kamera
- Power: 6~36V (2~8S LiPo) input, BEC 5V 2A, LDO 3.3V 200mA
5. Tatūnga
5.1 Waea me nga Hononga
Carefully connect your components to the flight controller. Refer to the pinout diagrams (typically available on the manufacturer's website or detailed product pages) for precise connections. Common connections include:
- Power Input (VBAT): Connect your LiPo battery (6~36V, 2~8S) to the VBAT and GND pads.
- Nga ESC: Connect ESC signal wires to the PWM output pads (S1-S13). Ensure correct motor order.
- Kaiwhiwhi (RX): Connect your receiver to one of the UARTs (e.g., RX1, RX2, etc.) and provide 5V power.
- GPS: Connect GPS module to a dedicated UART (e.g., UART4) and I2C for compass.
- Kaituku Ataata (VTX) me te Kaamera: Connect VTX to a 5V or VBAT source and a video output pad. Connect camera to a video input pad. The FC supports dual camera inputs.
- Pikitia: Connect other peripherals like LED strips, buzzers, or external sensors to appropriate pads (e.g., LED pad, Buzzer pad, I2C, CAN).
Important: Double-check all wiring before applying power to prevent damage.
5.2 Firmware Installation and Configuration
The H743-SLIM V3 supports popular flight control firmwares:
- BetaFlight: Download the latest BetaFlight Configurator. Connect the FC via USB-C. Flash the "MATEKSYSH743" target firmware. Configure settings according to your build.
- ArduPilot (ChiBiOS): Download the appropriate ArduPilot firmware for "MATEKSYSH743" target. Use Mission Planner or QGroundControl for configuration.
- INAV: Download the latest INAV Configurator. Flash the "MATEKSYSH743" target firmware. Configure settings as required.
Refer to the specific firmware documentation for detailed configuration steps, PID tuning, and mode setup.
6. Mahi
Once the flight controller is wired and configured with your chosen firmware, follow these general operating principles:
- Takitaki i mua i te Rererangi: Before each flight, verify all connections, check propeller direction, and ensure battery is fully charged.
- Te patu: Arm the motors using your configured switch or stick command. Ensure you are in a safe environment.
- Aratau Rererangi: Utilize the configured flight modes (e.g., Acro, Angle, GPS Hold) as per your application.
- Aroturuki: Use OSD (On-Screen Display) or telemetry to monitor battery voltage, current, GPS status, and other critical flight data.
- Whakakorea: Disarm the motors immediately after landing or in an emergency.
7. Tiaki
Proper maintenance ensures the longevity and reliability of your flight controller:
- Te horoi: Keep the board clean and free from dust, dirt, and debris. Use a soft brush or compressed air. Avoid liquids.
- Tirotiro: Regularly inspect solder joints for cracks or cold joints. Check connectors for wear or damage.
- Rokiroki: Store the flight controller in an anti-static bag in a dry, cool environment when not in use.
- Whakahōu Firmware: Periodically check for and apply firmware updates to benefit from bug fixes and new features.
8. Te Raru
Ko tenei waahanga e aro ana ki nga take noa ka pa ki a koe:
- Karekau he Hiko/Ara Whakaweto:
- Check battery connection and voltage.
- Verify power input polarity.
- Inspect for short circuits on the board or connected components.
- FC Not Detected by PC (USB):
- Try a different USB cable and port.
- Install necessary VCP (Virtual COM Port) drivers.
- Ensure the FC is powered (either via USB or main battery if required by firmware).
- Sensors Not Working (IMU/Baro):
- Ensure firmware is correctly flashed for the specific board version (V1.0 vs V1.5 IMU).
- Check for physical damage to the sensor chips.
- Kāore ngā Mōta e Hurihuri/Hē ana:
- Verify ESC connections and calibration.
- Check motor output mapping in firmware.
- Ensure arming conditions are met.
For more detailed troubleshooting, consult the specific firmware documentation or online community forums for MatekSys products.
9. Whakatakotoranga
| Kāwai | Whakatakotoranga |
|---|---|
| MCU | STM32H743VIH6, 480MHz, 1MB RAM, 2MB Flash |
| IMU (V1.0) | MPU6000 (SPI1) & ICM20602 (SPI4) |
| IMU (V1.5/V3) | ICM42688P, ICM42605 |
| Barometer | Infineon DPS310 (I2C2) |
| OSD | AT7456E (SPI2) |
| Pouaka pango | MicroSD card socket (SDIO) |
| Nga UART | 7x (1,2,3,4,6,7,8) with built-in inversion |
| Putanga PWM | 13x (including "LED" pad) |
| I2C | 2x |
| KATOA | 1x |
| ADC | 6x (VBAT, Current, RSSI, Analog AirSpeed, Vbat2, Cur2) |
| Nga LED | 3x (FC STATUS: Blue, Red; 3.3V indicator: Red) |
| Tauranga USB | Momo-C (USB2.0) |
| Kaihono | 1x JST-SH1.0_8pin, 1x JST-GH1.25_4pin |
| Ngā Tāuru Kāmera | Whakawhiti Whakataunga Takirua Kamera |
| Whakauru Mana | 6~36V (2~8S LiPo) |
| BEC | 5V 2A cont. (Max.3A) |
| LDO | 3.3V: Max.200mA |
| Pūoko o nāianei | No built-in sensor (ADC Vbat2 pad supports Max. 69V) |
| Whakaeke | 30.5 x 30.5mm, Φ4mm with Grommets Φ3mm |
| Ahu | 36 x 36 x 5 mm |
| Taumaha | 7g |
10. Pūtāhui me te Tautoko
For warranty information and technical support, please refer to the official MatekSys webte paetukutuku, whakapā atu ranei ki to kaihoko whaimana. Puritia to tohu hoko mo nga kereme whakamana.
Official MatekSys Webpae: www.mateksys.com