DFRobot
4015 3-Phase BLDC Motor with AS5600 Encoder
· MPN: FIT1036
This compact 4015 BLDC motor combines a high-torque outer rotor motor with a factory-integrated AS5600 magnetic encoder, making it a neat motion-control pack...
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This compact 4015 BLDC motor combines a high-torque outer rotor motor with a factory-integrated AS5600 magnetic encoder, making it a neat motion-control package for robotics and precision motion projects.
It is designed for Field-Oriented Control (FOC), also known as vector control, to support smooth torque delivery, efficient operation and low-noise motion. At 24V rated operation, it delivers 1100RPM and 3500g·cm (0.35Nm) of rated torque.
The hollow-shaft design provides a 7.5mm aperture through the centre of the motor for routing wires or mechanical parts. The package includes 4015 3-phase brushless DC motor (with encoder) x1, MX1.25-4P to DuPont cable x1 and 3-pin motor cable x1.
The encoder supports I2C, PWM and analogue output options, and the motor is compatible with the open-source SimpleFOC library for projects using Arduino, ESP32 and Raspberry Pi. Documentation includes a product wiki and 3D model.
Features:
- Integrated High-Precision Magnetic Encoder: Factory-integrated AS5600 magnetic encoder with 12-bit resolution.
- Encoder feedback: 0.087 degrees angular measurement accuracy for closed-loop position, speed and torque control.
- Output flexibility: Encoder supports I2C, PWM and analog output interfaces.
- Optimised for Field-Oriented Control (FOC): Designed for smooth torque delivery, high efficiency and low-noise operation.
- Vector control support: Allows independent control of magnetic flux and torque.
- High-torque construction: Neodymium iron boron outer rotor delivers a high torque-to-size ratio.
- Robust housing: Precision CNC-machined aluminium alloy housing supports heat dissipation for sustained performance.
- Hollow-shaft design: 7.5mm aperture allows wires or other mechanical parts to pass through the centre of the motor.
- Open-source support: Fully compatible with the SimpleFOC library.
- Development board compatibility: Supports rapid prototyping on common development boards such as Arduino, ESP32 and Raspberry Pi.
- Application: Robotic Joints (e.g., robot arms, legged robots).
- Application: Camera Gimbals & Pan-Tilt (PTZ) Systems.
- Application: High-Precision Servo Systems.
- Application: FOC Algorithm Development & Learning.
Specifications:
- Applicable Voltage: DC 12-36V
- Rated Voltage: 12V/24V
- Rated Current: 0.65A@12V, 1.4A@24V
- Maximum Current: 4A
- Rated Power: 8W@12V, 33W@24V
- Rated Speed: 610RPM@12V, 1100RPM@24V
- Rated Torque: 0.15Nm@12V, 0.35Nm@24V
- Maximum Torque: 0.12Nm@12V, 0.3Nm@24V
- Number of Slots: 24N22P
- Number of Pole Pairs: 11
- Winding Resistance: 4.8Ω
- Phase Resistance: 7.2Ω
- KV Rating: 61KV
- Phase Inductance: 2.6mH
- Stator Diameter: 40mm
- Stator Height: 15mm
- Shaft Diameter: 10mm
- Hollow Shaft Aperture: 7.5mm
- Winding Turns: 55T/Wire Diameter 0.24mm
- Single Motor Dimensions: 45x26mm
- Operating Temperature: 0-60°C
- Operating Voltage: 3.3V
- Chip Model: AS5600
- Resolution: 12-bit
- Accuracy: 0.087°
- Output Method: I2C, PWM, Analog Output (Default: I2C; grounding the PGO pin enables PWM/analog output)
- Interface: GH1.25-4Pin
A strong choice for robotic joints, camera gimbals, PTZ systems, high-precision servo builds and learning FOC motor control.
Jargon buster
Plain-language definitions for the technical terms used above.
- 12-bit resolution
- 12-bit resolution means a value is represented with 12 binary digits, giving 4096 possible levels. For a sensor, analogue-to-digital converter or similar device, higher resolution divides the measured range into finer steps so smaller changes can be distinguished, provided the device's range and noise allow it.
- BLDC
- BLDC stands for brushless DC motor, a motor type that uses electronic switching instead of brushes to make it spin. It matters because BLDC motors need a suitable driver and control method, especially when you want smooth low-speed movement or precise positioning.
- DC
- DC means direct current, where electricity flows in one constant direction, as supplied by batteries, USB ports and many plug-pack power supplies. When a product specifies DC, it runs from a DC supply rather than mains AC, so you need to provide the correct voltage and polarity.
- encoder
- An encoder is a sensor that converts the rotation or position of a shaft, knob or dial into electrical signals, reporting movement as incremental steps and direction, or as an absolute position. It is used to track how far something has turned, which matters for precise positioning, speed control, repeatable movement, or using a rotary knob as an input.
- ESP32
- ESP32 is a family of low-cost microcontroller chips and modules from Espressif with built-in WiFi and Bluetooth. They support programmable firmware and over-the-air updates, and are commonly programmed with toolchains such as the Arduino core and ESP-IDF.
- Field-Oriented Control (FOC)
- Field-Oriented Control is a motor-control method that carefully controls the magnetic fields inside a brushless motor for smoother and more precise motion. It matters for projects such as robotics, gimbals, and haptics where quiet operation, low-speed control, or accurate torque control is important.
- I2C
- I2C is a two-wire communication bus used by many sensors and small modules. It matters because several I2C devices can share the same two wires, but each device needs a compatible address and your controller must support I2C.
- PWM
- Pulse Width Modulation is a way for a digital pin to simulate variable output power by switching on and off very quickly. It matters for controlling things like LED brightness, motor speed, or servo-style signals from a microcontroller pin.
- servo
- A servo is a motor with built-in position control, usually told to move to a specific angle by a control signal. It matters when you need repeatable movement, such as steering, arms, flaps, or linkages, rather than continuous spinning.
- Torque
- A twisting force that causes something to rotate, usually measured in newton-metres or kilogram-centimetres. It matters when choosing motors, servos, gears, and tools because higher torque is needed to lift heavier loads, turn larger wheels, or move mechanisms without stalling.
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