MG4010E-i10v3 Dual Encoders Motor Instruction Manual

1. Įvadas

The K-TECH MG4010E-i10v3 is a high-performance dual encoders motor designed for advanced robotic applications such as mechanical arms, legged robots, AGV cars, and wearable robots. This motor features high power, large torque, and high precision, making it suitable for demanding tasks. It integrates an 18-bit single-turn absolute magnetic motor encoder and a 14-bit single-turn absolute magnetic reducer encoder, ensuring accurate position feedback even after power loss.

MG4010E-i10v3 Dual Encoders Motor Front View — 1 pav.: priekis view of the MG4010E-i10v3 motor, displaying the model number and K-TECH branding.

MG4010E-i10v3 High Standard Design — Figure 2: Promotional image highlighting the high standard design, power, torque, and precision of the MG4010E-i10v3.

2. Saugos informacija

Please read and understand all safety instructions before installing, operating, or maintaining the motor. Failure to follow these instructions may result in personal injury or equipment damage.

Prieš atlikdami bet kokius montavimo ar techninės priežiūros darbus, įsitikinkite, kad maitinimas yra atjungtas.
Do not expose the motor to moisture, extreme temperatures, or corrosive environments.
Handle with care to avoid damage to internal components, especially the encoders.
Only qualified personnel should perform wiring and configuration.
Patikrinkite teisingą ttage and current ratings before applying power.

3. Specifikacijos

The MG4010E-i10v3 motor boasts robust specifications for various robotic applications.

3.1 Bendrosios specifikacijos

Atributas	Vertė
Modelio numeris	MG4010E-i10v3
Tipas	Servo variklis
Statyba	Nuolatinis magnetas
Komutavimas	Be šepetėlių
Protect Feature	Visiškai uždara
Efektyvumas	IE 2
Spalva	juodas
Sertifikavimas	CE
Kilmė	Žemyninė Kinija

3.2 Veikimo parametrai

Gaminio parametrų lentelė — Figure 3: Detailed product parameters for the MG4010E-i10v3 motor, reducer, and recommended drive.

Prekės pavadinimas	Vertė
Įvertintas ttage	24 V
Maksimalus greitis	320 aps./min
Vardinis sukimo momentas	2.5 Nm
Įvertintas greitis	260 aps./min
Nominali srovė	3.5 A
Maksimali galia	140 W
Max torque	4.5 Nm
Pastovus greitis	108.3 aps./min./V
Sukimo momento pastovus	0.07 N.m/A
Posūkiai	14
Winding Type	Y
Fazinis atsparumas	604 Ω
Fazinis induktyvumas	0.28 mH
Motoriniai lenkai	26
Inercijos rotorius	202 gcm²
variklio temperatūros	TAIP

3.3 Reducer Specifications (PG4210)

Prekės pavadinimas	Vertė
Sumažinimo koeficientas	1:10
Atsparumas	≤8 arcmin
Bearing Rated Load	1000 N
Variklio svoris	250 g

3.4 Drive Specifications (DG40)

Prekės pavadinimas	Vertė
Įvesties garsumastage	7.4-32 V
Bendravimas	RS485 OR CAN
Bendravimo dažnis	RS485: 500Hz (115200bps) / CAN: 2KHz (1Mbps)
Encoder	18bit (motor) + 14bit (reducer) Magnetic Encoder
Encoder Baudrate (RS485)	9600, 19200, 57600, 115200, 230400, 406800, 1M, 2M bps
Baudrate (CAN)	100K, 125K, 250K, 500K, 1M
Valdymo režimas	Torque Loop (24KHz) / Speed Loop (8KHz) / Position Loop (4KHz)
Acceleration curve	Trapezoid acceleration

Motor Characteristic Curve — Figure 4: Motor characteristic curves showing Input DC Current, Efficiency, Output Power, and Output Torque versus Speed (rpm).

4. Diegimas ir sąranka

4.1 Matmenys ir montavimas

Refer to the installation drawing for precise dimensions and mounting hole patterns. Ensure adequate clearance for wiring and heat dissipation.

Installation Drawing with Dimensions — Figure 5: Detailed installation drawing with dimensions for mounting the MG4010E-i10v3 motor.

4.2 Wiring and Interface Definition

The motor supports RS485 or CAN bus communication. Connect the motor to your control system using the defined interfaces. The drive board includes dual temperature sensor interfaces for real-time monitoring of motor and driver temperature.

Interface Definition and Drive Board — Figure 6: Interface definition table and an image of the drive board, highlighting dual temperature sensor interfaces.

Sąsaja	Pastaba
A/H	RS485-A Or CAN-H
B / l	RS485-B arba CAN-L
V-	Neigiamas maitinimo šaltinis
V+	Teigiamas maitinimo šaltinis
T	UART siųstuvas
R	UART imtuvas
G	Signalas GND

5. Operacija

5.1 valdymo režimai

The MG4010E-i10v3 supports multiple control modes, including Torque Control, Speed Control, Multi Loop Angle Control, Single Loop Angle Control, and Increment Angle Control. These modes can be configured via the dedicated motor tool software.

Multi Control Mode Software Interface — Figure 7: Software interface demonstrating various control modes and protection features.

5.2 Software Tool and Firmware Upgrade

A dedicated motor tool software is available for parameter adjustment, testing, and firmware upgrades. This software supports open-source development platforms such as PC, MCU, PLC, ICP, and RPI.

Motor Tool Software Interface — Figure 8: Screenshots of the motor tool software for parameter adjustment, testing, and firmware updates.

5.3 Apsaugos funkcijos

The motor drive incorporates several protection features to ensure reliable operation and longevity, including Under Voltage apsauga (UVP), virš ttage Protection (OVP), Driver Temperature Protection (DTP), Motor Temperature Protection (MTP), Over Current Protection (OCP), Short Circuit Protection (SCP), Motor Stall Protection (MSP), and Low Input Power (LIP).

6. Priežiūra

Regular maintenance helps ensure the longevity and optimal performance of your MG4010E-i10v3 motor.

Valymas: Keep the motor housing clean and free from dust and debris. Use a soft, dry cloth. Avoid using solvents or harsh chemicals.
Patikra: Periodically inspect all wiring connections for tightness and signs of wear or damage.
Temperatūros stebėjimas: Utilize the dual temperature sensors to monitor motor and driver temperatures, ensuring they remain within operational limits.
Aplinkos sąlygos: Ensure the motor operates within its specified environmental conditions (temperature, humidity) to prevent premature wear.

7. Problemų sprendimas

If you encounter issues with your MG4010E-i10v3 motor, consider the following common troubleshooting steps:

Variklis nereaguoja:
- Patikrinkite maitinimo šaltinio jungtis ir įsitikinkite, kad įėjimo įtampatage yra 7.4–32 V diapazone.
- Verify communication bus (RS485/CAN) wiring and baud rate settings in the software.
- Ensure the motor is not in a protected state (e.g., due to overcurrent or overtemperature). Check software diagnostics.
Netiksli padėtis / greitis:
- Confirm encoder connections are secure.
- Recalibrate the zero point using the motor tool software if necessary.
- Check for mechanical obstructions or excessive load.
Perkaitimas:
- Reduce the motor load or operating speed.
- Užtikrinkite tinkamą ventiliaciją aplink variklį.
- Check for short circuits or incorrect wiring.

8. Vartotojo patarimai

Software Familiarization: Spend time exploring the motor tool software. Understanding its features for parameter adjustment, testing, and diagnostics can significantly enhance your experience and help in fine-tuning performance.
Encoder Advantage: Leverage the dual encoders (18-bit motor and 14-bit reducer) for precise control and position memory. This is particularly useful in applications requiring high accuracy and reliable homing after power cycles.
Ryšio protokolas: Choose between RS485 and CAN communication based on your system's requirements for speed and network complexity. Ensure consistent baud rates across all connected devices.

9. Garantija ir palaikymas

For warranty information, technical support, or service inquiries, please contact the seller or manufacturer directly. Keep your purchase records for reference.