1. Ifihan
This user manual provides comprehensive instructions for the installation, operation, and maintenance of the Flipsky Electric Speed Controller FSESC6.7. Please read this manual thoroughly before using the product to ensure safe and optimal performance. This device is designed for use in electric skateboards, e-bikes, scooters, and robotics applications.
2. Ọja Ipariview
2.1 Key Awọn ẹya ara ẹrọ
- Awọn ọna Iṣakoso pupọ: Supports Current, Dutycycle, Speed, and Position control modes for versatile applications.
- Imudara Iṣe: Features the latest firmware version and supports a wide range of control interfaces and sensors.
- Advanced Protection Functions: Pẹlu iwọn didun kekeretage, oke voltage, over-current, abnormal temperature, and MOSFET over-temperature protection for increased safety.
- Ibamu gbooro: Suitable for various electric vehicles and robotics, including e-skateboards, e-bikes, and scooters.
- IMU Module Support: Can connect to IMU modules (e.g., MPU9250, MPU9150, MPU6050, LSM6DS3, BMI160) via IIC interface for balancing car functions.
2.2 Product Components and Views
The Flipsky FSESC6.7 comes with the main speed controller unit and necessary connection cables. Below are detailed views of the product and its included accessories.
olusin 2.2.1: Top view of the Flipsky FSESC6.7 Electric Speed Controller, showing the main circuit board, capacitors, and connection ports.
olusin 2.2.2: Isalẹ view of the Flipsky FSESC6.7, highlighting the integrated aluminum anodized heatsink for efficient heat dissipation.
Figure 2.2.3: Contents of the package, including the FSESC6.7 unit, various connection cables (power, signal), and a basic instruction sheet.
Figure 2.2.4: Dimensional drawing of the FSESC6.7, showing its compact size of 67mm x 39mm x 18.7mm (including heatsink).
3. Alaye Aabo
Nigbagbogbo ṣe akiyesi awọn iṣọra ailewu atẹle lati ṣe idiwọ ipalara tabi ibajẹ ọja ati awọn ẹrọ ti a sopọ:
- Voltage Awọn ifilelẹ: Rii daju igbewọle voltage is within the specified range of 14V-60V (4-13S LiPo cells). Do not exceed 60V, as voltage spikes can cause damage. The safe operating range is typically 4S to 12S.
- Awọn opin lọwọlọwọ: Adhere to the continuous current limit of 70A and instantaneous current limit of 200A. Exceeding these limits can lead to overheating and component failure.
- Awọn isopọ to tọ: Always double-check all wiring connections (power, motor, signal) before applying power. Incorrect polarity or loose connections can cause severe damage.
- Isakoso Ooru: Ensure adequate airflow around the ESC, especially during high-load operation, to prevent overheating. The integrated heatsink aids in thermal management, but proper ventilation is crucial.
- Awọn ẹya Idaabobo: The ESC includes low voltage, oke voltage, over-current, and over-temperature protection. Do not bypass or disable these features. Understand their thresholds to avoid unexpected shutdowns.
- Omi ati Ọrinrin: Keep the ESC away from water, moisture, and conductive contaminants. This device is not waterproof.
- Fifi sori Ọjọgbọn: Tí o bá ní iyèméjì nípa àwọn ìgbésẹ̀ ìfisílé, wá ìrànlọ́wọ́ láti ọ̀dọ̀ ògbóǹtarìgì tó ní ìmọ̀.
4. Eto ati fifi sori
Follow these steps for proper installation of your Flipsky FSESC6.7:
- Iṣagbesori: Securely mount the FSESC6.7 in a location that allows for good airflow and protects it from physical damage and moisture.
- Asopọ agbara: Connect the main power cables (12AWG) from your battery pack to the designated power input terminals on the ESC. Ensure correct polarity (red for positive, black for negative).
- Asopọ Motor: Connect the three motor phase wires (12AWG) from your motor to the A, B, and C terminals on the ESC. The order may affect motor direction and can be adjusted in software if needed.
- Sensor Connection (Optional): If your motor has Hall sensors, connect the sensor cable to the corresponding port on the ESC. The FSESC6.7 supports ABI, HALL, AS5047, and AS5048A sensors.
- Control Interface Connection:
- PPM/PWM: Connect your receiver's PPM/PWM output to the designated PPM input on the ESC.
- UART: For communication with external devices or programming, connect via the UART port.
- USB: Connect the ESC to a computer using a USB cable for configuration and firmware updates via VESC Tool software.
- LE: For multi-ESC setups, connect ESCs via the CAN bus.
- SPI/IIC: These interfaces are available for advanced sensor integration, such as IMU modules for balancing applications.
- Iṣeto akọkọ: After all connections are made, connect the ESC to a computer via USB and use the VESC Tool software for initial setup, motor detection, and parameter configuration. Refer to the VESC Tool documentation for detailed instructions.
Figure 4.1: Detailed connection diagram illustrating the various ports and their functions on the FSESC6.7, including battery, motor, receiver, and programming interfaces.
5. Awọn ilana Iṣiṣẹ
The Flipsky FSESC6.7 offers flexible control options. Once configured via VESC Tool, the ESC operates based on the selected control mode:
- Current Control Mode: The motor current is directly controlled by the input signal (e.g., throttle). This mode provides direct torque control.
- Duty Cycle Control Mode: Awọn motor voltage is controlled by the input signal as a percentage of the battery voltage. This is a basic and common control method.
- Speed Control Mode: The ESC attempts to maintain a target motor RPM based on the input signal. This mode requires accurate motor parameters and sensor feedback.
- Position Control Mode: For applications requiring precise motor positioning, the ESC controls the motor to reach and hold a specific angular position. This typically requires an encoder.
The ESC supports both sensored (with Hall sensors) and sensorless operation, as well as DC, BLDC, and FOC (sinusoidal) motor control modes. Regenerative braking capability is also supported, allowing energy to be returned to the battery during deceleration.
For detailed operation and advanced settings, refer to the VESC Tool software documentation and community resources.
6. Itọju
To ensure the longevity and reliable performance of your Flipsky FSESC6.7, follow these maintenance guidelines:
- Ayẹwo igbagbogbo: Periodically inspect the ESC for any signs of physical damage, loose connections, or corrosion. Check the heatsink for dust or debris buildup.
- Ninu: Gently clean the exterior of the ESC with a soft, dry cloth. Avoid using liquids or solvents. Ensure no dust or foreign objects accumulate in the ports or on the circuit board.
- Iduroṣinṣin asopọ: Verify that all power and signal cables are securely connected and free from fraying or damage. Loose connections can lead to intermittent operation or component failure.
- Isakoso Ooru: Ensure the heatsink remains clear of obstructions and that the ESC has adequate ventilation during operation. Overheating can significantly reduce the lifespan of electronic components.
- Awọn imudojuiwọn famuwia: Check the official Flipsky website or VESC Tool community for available firmware updates. Keeping the firmware updated can improve performance, add features, and fix bugs.
- Ibi ipamọ: When not in use for extended periods, store the ESC in a dry, cool place, away from direct sunlight and extreme temperatures.
7. Laasigbotitusita
This section addresses common issues you might encounter with the Flipsky FSESC6.7. For more complex problems, consult the VESC Tool community forums or Flipsky support.
| Isoro | Owun to le Fa | Ojutu |
|---|---|---|
| ESC not powering on. | Incorrect power connection, low battery voltage, faulty power cable. | Verify power cable polarity and secure connection. Check battery voltage. Ensure battery is charged. |
| Motor not spinning or erratic behavior. | Incorrect motor wiring, improper motor detection in VESC Tool, sensor issues, incorrect control mode. | Check motor phase wire connections. Rerun motor detection in VESC Tool. Verify sensor connections if applicable. Ensure correct control mode is selected. |
| ESC shuts down during operation. | Over-current protection, over-temperature protection, low/high voltage Idaabobo. | Reduce load. Check for obstructions to airflow. Verify battery voltage is within safe operating range. Inspect motor and connections for shorts. |
| No communication with VESC Tool via USB. | Faulty USB cable, incorrect drivers, VESC Tool not recognizing port. | Try a different USB cable and port. Reinstall VESC Tool drivers. Ensure only one VESC Tool instance is running. |
| Motor runs in wrong direction. | Motor phase wire order incorrect. | Swap any two of the three motor phase wires (A, B, C). Alternatively, reverse motor direction in VESC Tool software. |
8. Awọn pato
Detailed technical specifications for the Flipsky FSESC6.7:
| Paramita | Iye |
|---|---|
| Firmware | Latest Version (VESC compatible) |
| Ilọsiwaju lọwọlọwọ | 70A |
| Instantaneous Current | 200A |
| Voltage Ibiti | 14V-60V (4-13S LiPo, safe for 4S to 12S) |
| Ijade ti BEC | 5V @ 1A |
| ERPM | 150000 |
| Control Interface Ports | USB, CAN, UART, SPI, IIC |
| Awọn sensọ atilẹyin | ABI, HALL, AS5047, AS5048A |
| Input Set Support | PPM, ADC, NRF, UART |
| Awọn ọna Iṣakoso | DC, BLDC, FOC (sinusoidal) |
| Regenerative Capacity | Bẹẹni |
| Eto siseto | Yes (via VESC Tool) |
| MOSFETs | 6pcs NVMFS5C612NL (60V 235A) |
| Motor Waya won | 12AWG |
| Power Cable Gauge | 12AWG |
| Awọn iwọn (L x W x H) | 67mm x 39mm x 18.7mm (Including heatsink) |
| Iwọn | 40g |
| Ohun elo | Aluminum (Heatsink) |
9. Atilẹyin ọja ati Support
Flipsky products are manufactured to high quality standards. For warranty information and technical support, please refer to the official Flipsky website or contact their customer service directly. Ensure you have your product model number (VESC-Single-Mini-V6.7) and purchase details available when seeking support.
Olupese: FLIPSKY
Webojula: www.flipsky.net (Eksample ọna asopọ, ọna asopọ gangan le yatọ)
