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Motor Driver Boards, Modules

Image Part Number Description / PDF Quantity Rfq
MDDHT5540B01

MDDHT5540B01

Panasonic

ETHERCAT DRIVE

0
MFDLNB3SG

MFDLNB3SG

Panasonic

SERVO DRIVE A6N 200V 5KW 120A

0
DVUS606Y

DVUS606Y

Panasonic

EX TYPE SPEED CONTROLLER

0
DVSD48CL

DVSD48CL

Panasonic

EX TYPE SPEED CONTROLLER

0
MDDHT2412

MDDHT2412

Panasonic

SERVO DRIVER 15A 480V LOAD

0
MEDHT4430LA1

MEDHT4430LA1

Panasonic

LINEAR MOTOR DRIVE

0
DVUS960L

DVUS960L

Panasonic

EX TYPE SPEED CONTROLLER

0
MBDHT2510LA1

MBDHT2510LA1

Panasonic

DRIVE SINGLE OR 3 PHASE

0
MADLN15SE

MADLN15SE

Panasonic

SERVO DRIVE A6N 200V 100W

2
MBEG9A5BCVC

MBEG9A5BCVC

Panasonic

CABLE PWR 240V GV SERIES MOTOR

0
MCDHT3120L04

MCDHT3120L04

Panasonic

SERVO DRIVER 30A 120V LOAD

0
MHDHTB4A2

MHDHTB4A2

Panasonic

SERVO DRIVER 150A 480V LOAD

0
DVUS960Y

DVUS960Y

Panasonic

EX TYPE SPEED CONTROLLER

0
MADLN11NE

MADLN11NE

Panasonic

SERVO DRIVE A6N 100V 100W 8A

0
MBDHT2110

MBDHT2110

Panasonic

SERVO DRIVER 15A 120V LOAD

2
MADLN15SG

MADLN15SG

Panasonic

SERVO DRIVE A6 RS485 8A 200V W/O

5
MGDHTB4A2

MGDHTB4A2

Panasonic

SERVO DRIVER 150A 480V LOAD

0
DVUX825L

DVUX825L

Panasonic

EX TYPE SPEED CONTROLLER

0
MEDHT7364

MEDHT7364

Panasonic

SERVO DRIVER 75A 240V LOAD

0
MEDLT93SF

MEDLT93SF

Panasonic

SERVO DRIVE A6N 200V 2.4KW 80A

0

Motor Driver Boards, Modules

1. Overview

Motor driver boards/modules are electronic devices that act as intermediaries between control systems (e.g., microcontrollers) and motors. They convert low-power control signals into high-power electrical currents to drive motors efficiently. These components enable precise regulation of motor speed, direction, torque, and position. Their importance spans across automation, robotics, industrial machinery, and consumer electronics, where accurate motion control is critical for system performance.

2. Main Types & Functional Classification

Type Functional Features Application Examples
H-Bridge Drivers Bi-directional control using transistor bridges, basic speed regulation DC motor direction control in robotic arms
Stepper Motor Drivers Microstepping, position accuracy, torque control 3D printers, CNC machines
Servo Controllers Feedback loop integration, precise angular positioning RC vehicles, industrial automation
Brushless DC (BLDC) Drivers Electronic commutation, high efficiency, variable speed Drones, HVAC systems
Integrated Smart Modules Embedded control logic, thermal protection, communication interfaces Autonomous vehicles, medical pumps

3. Structure & Components

A typical motor driver contains:

  • Power Transistors: MOSFETs or IGBTs for switching high currents
  • Control IC: Processes PWM signals and manages commutation
  • Heat Sink: Aluminum-based PCB or external fins for thermal management
  • Protection Circuits: Overcurrent, overtemperature, and voltage spike suppression
  • Connectors: Screw terminals for motor wiring and control interfaces (UART/SPI)

4. Key Technical Specifications

Parameter Importance
Max Continuous Current Determines motor power capacity (e.g., 5A for NEMA 23 stepper)
Voltage Range Must match motor supply (e.g., 8-45V for industrial BLDC drivers)
Efficiency (Typical >90%) Impacts thermal performance and energy consumption
Control Resolution Microstepping levels (e.g., 1/16-step for precision engravers)
Protection Features Overcurrent/voltage, thermal shutdown (critical for reliability)
Communication Protocols CAN, Modbus support for industrial IoT integration

5. Application Fields

  • Industrial: CNC machining centers, conveyor belt systems
  • Consumer: Smart home appliances, gaming consoles
  • Medical: MRI scanner positioning, insulin pumps
  • Automotive: Electric vehicle powertrains, EPS systems
  • Robotics: Collaborative robot joint control

6. Leading Manufacturers & Products

Manufacturer Representative Product Key Specifications
TI (Texas Instruments) DRV8825 2.5A RMS, 1/32 microstepping, thermal shutdown
STMicroelectronics L6470 3.0A peak, SPI interface, stall detection
ON Semiconductor MC33926 3.0A continuous, bidirectional control
Maxon Motor EPOS4 Compact 50A peak, EtherCAT interface, encoder feedback

7. Selection Guidelines

  1. Match driver current/voltage ratings to motor specifications
  2. Select control mode (PWM, analog, digital) based on system requirements
  3. Consider environmental factors (temperature, vibration)
  4. Verify required protection features (IP rating for harsh environments)
  5. Evaluate integration needs (footprint, communication protocols)
  6. Balance cost vs. performance for volume production

8. Industry Trends

Emerging trends include:

  • Integration: System-on-Chip (SoC) drivers combining control and power stages
  • Smart Diagnostics: Built-in current sensing and predictive maintenance algorithms
  • Wide Bandgap Semiconductors: SiC/GaN transistors enabling higher switching frequencies
  • Wireless Control: Bluetooth/Wi-Fi-enabled drivers for IoT applications
  • Miniaturization: Chip-scale packaging for space-constrained applications

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