Acedeck® ESC - Nyx Z1, Ares X1, Ares X3, Nomad N1, Stella S1, Stella S3, Stella Mini
Description
Acedeck's exclusive custom ESC, combined with FOC technology, delivers outstanding performance and control capabilities for electric skateboards. By utilizing advanced vector control algorithms, it achieves an exceptionally smooth power delivery curve, providing a seamless and powerful acceleration and braking experience.

Our custom ESC is also equipped with optimized acceleration and braking logic, making the ride more reliable, and predictable. During acceleration, it delivers a quick and linear power response, allowing riders to swiftly accelerate and reach their desired speed. When it comes to braking, precise feedback control ensures balanced and smooth braking, offering riders a more controlled braking experience. Both the braking and acceleration curves and power level can be customised through the remote menu.

Our ESC also incorporates multiple protection features, including over-current protection, over-temperature protection, and over-voltage protection, ensuring the safe operation of the motor and the system. It also supports intelligent regenerative braking technology, which converts braking energy into electrical energy and stores it, extending the skateboard's range.tures provide riders with a more refined riding experience and enhanced safety performance.

Top Features
  • Smoother power delivery curve
  • Higher current output
  • Enhanced protection mechanisms
  • Improved regenerative braking

    •  

    Specification

     

    50A ESC3.0
  • Maximum continuous current of 50A, capable of sustaining the highest output current for up to 30 seconds.
  • Compatible with XT60 connectors.

    • 60A ESC3.0
  • Maximum continuous current of 60A, capable of sustaining the highest output current for up to 30 seconds.
  • Compatible with XT90 connectors.

    • 90A ESC3.0
  • Maximum continuous current of 90A, capable of sustaining the highest output current for up to 30 seconds.
  • Compatible with XT90 connectors.

    • 120A ESC3.0
  • Maximum continuous current of 120A, capable of sustaining the highest output current for up to 30 seconds.
  • Compatible with XT90 connectors.
    .

    • Package List
  • ESC(with cooling housing )*1


    • About FOC-ESC
    FOC-ESC(Field-Oriented Control Electronic Speed Controller)is a motor controller that utilizes advanced control algorithms to achieve precise and efficient motor control. In terms of hardware, FOC-ESC consists of several essential components:
  • Main Control Unit: The main control unit, often based on a microcontroller (MCU) or a digital signal processor (DSP), is the brain of the FOC-ESC. It performs complex calculations, executes control algorithms, and manages the overall operation of the motor controller.
  • Power Stage: The power stage is responsible for delivering power to the motor. It typically includes power transistors or MOSFETs that act as switches to control the flow of current to the motor windings. The power stage must be capable of handling the motor's voltage and current requirements.
  • Current Sensors: Current sensors are used to measure the motor's current in real-time. They provide feedback to the main control unit, allowing it to accurately regulate the motor's current and torque output. Common types of current sensors include Hall effect sensors and shunt resistors.
  • Voltage Sensors: Voltage sensors are used to monitor the motor's supply voltage. They provide feedback to the main control unit for voltage regulation and protection purposes. Voltage dividers or dedicated voltage measurement circuits are commonly used for this purpose.
  • Position Sensors: Position sensors, such as encoders or Hall effect sensors, provide feedback on the rotor's position and speed. This information is crucial for the FOC-ESC to accurately control the motor's rotation and achieve precise positioning.
  • Gate Drivers: Gate drivers are responsible for controlling the power transistors or MOSFETs in the power stage. They convert the control signals from the main control unit into the appropriate voltage and current levels required to drive the power transistors effectively.
  • Protection Circuitry: FOC-ESC often includes various protection mechanisms to safeguard the motor and the controller itself. These can include overcurrent protection, overvoltage protection, undervoltage protection, thermal protection, and short-circuit protection.
  • Communication Interfaces: Some FOC-ESC designs may incorporate communication interfaces such as UART, CAN, or PWM for external control and monitoring. These interfaces allow for remote control, telemetry, and firmware updates.

    • Acedeck® Electric Skateboards

    Acedeck® ESC - Nyx Z1, Ares X1, Ares X3, Nomad N1, Stella S1, Stella S3, Stella Mini

    Description
    Acedeck's exclusive custom ESC, combined with FOC technology, delivers outstanding performance and control capabilities for electric skateboards. By utilizing advanced vector control algorithms, it achieves an exceptionally smooth power delivery curve, providing a seamless and powerful acceleration and braking experience.

    Our custom ESC is also equipped with optimized acceleration and braking logic, making the ride more reliable, and predictable. During acceleration, it delivers a quick and linear power response, allowing riders to swiftly accelerate and reach their desired speed. When it comes to braking, precise feedback control ensures balanced and smooth braking, offering riders a more controlled braking experience. Both the braking and acceleration curves and power level can be customised through the remote menu.

    Our ESC also incorporates multiple protection features, including over-current protection, over-temperature protection, and over-voltage protection, ensuring the safe operation of the motor and the system. It also supports intelligent regenerative braking technology, which converts braking energy into electrical energy and stores it, extending the skateboard's range.tures provide riders with a more refined riding experience and enhanced safety performance.

    Top Features
  • Smoother power delivery curve
  • Higher current output
  • Enhanced protection mechanisms
  • Improved regenerative braking

    •  

    Specification

     

    50A ESC3.0
  • Maximum continuous current of 50A, capable of sustaining the highest output current for up to 30 seconds.
  • Compatible with XT60 connectors.

    • 60A ESC3.0
  • Maximum continuous current of 60A, capable of sustaining the highest output current for up to 30 seconds.
  • Compatible with XT90 connectors.

    • 90A ESC3.0
  • Maximum continuous current of 90A, capable of sustaining the highest output current for up to 30 seconds.
  • Compatible with XT90 connectors.

    • 120A ESC3.0
  • Maximum continuous current of 120A, capable of sustaining the highest output current for up to 30 seconds.
  • Compatible with XT90 connectors.
    .

    • Package List
  • ESC(with cooling housing )*1


    • About FOC-ESC
    FOC-ESC(Field-Oriented Control Electronic Speed Controller)is a motor controller that utilizes advanced control algorithms to achieve precise and efficient motor control. In terms of hardware, FOC-ESC consists of several essential components:
  • Main Control Unit: The main control unit, often based on a microcontroller (MCU) or a digital signal processor (DSP), is the brain of the FOC-ESC. It performs complex calculations, executes control algorithms, and manages the overall operation of the motor controller.
  • Power Stage: The power stage is responsible for delivering power to the motor. It typically includes power transistors or MOSFETs that act as switches to control the flow of current to the motor windings. The power stage must be capable of handling the motor's voltage and current requirements.
  • Current Sensors: Current sensors are used to measure the motor's current in real-time. They provide feedback to the main control unit, allowing it to accurately regulate the motor's current and torque output. Common types of current sensors include Hall effect sensors and shunt resistors.
  • Voltage Sensors: Voltage sensors are used to monitor the motor's supply voltage. They provide feedback to the main control unit for voltage regulation and protection purposes. Voltage dividers or dedicated voltage measurement circuits are commonly used for this purpose.
  • Position Sensors: Position sensors, such as encoders or Hall effect sensors, provide feedback on the rotor's position and speed. This information is crucial for the FOC-ESC to accurately control the motor's rotation and achieve precise positioning.
  • Gate Drivers: Gate drivers are responsible for controlling the power transistors or MOSFETs in the power stage. They convert the control signals from the main control unit into the appropriate voltage and current levels required to drive the power transistors effectively.
  • Protection Circuitry: FOC-ESC often includes various protection mechanisms to safeguard the motor and the controller itself. These can include overcurrent protection, overvoltage protection, undervoltage protection, thermal protection, and short-circuit protection.
  • Communication Interfaces: Some FOC-ESC designs may incorporate communication interfaces such as UART, CAN, or PWM for external control and monitoring. These interfaces allow for remote control, telemetry, and firmware updates.

    • Sale price :
    Sale price$399.00 USD
    Version: 120A | Nyx Z1 2023

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