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3HAC029818-001/10 DSQC663

¥3,256.00

Uses

 

  1. Industrial Automation
    • In manufacturing plants, the 3HAC029818 – 001/10 DSQC663 can be used to monitor and control the operation of production lines. For example, it can detect the presence of workpieces on a conveyor belt through digital inputs and control the movement of robotic arms or the start/stop of processing machines via digital outputs.
  2. Robotics
    • When integrated with industrial robots, it can serve as an interface between the robot controller and external sensors and actuators. It can receive signals from sensors attached to the robot’s end – effector, such as force sensors or vision sensors, and send control signals to the robot’s joints or grippers.
  3. Material Handling Systems
    • In warehouses and distribution centers, it can be used to control the operation of conveyor systems, palletizers, and automated guided vehicles (AGVs). By monitoring the position and status of materials and equipment through digital inputs, it can control the movement and operation of these systems via digital outputs.

Weight and Dimensions

 

  1. Weight
    The 3HAC029818 – 001/10 DSQC663 weighs approximately 1.2 – 1.5 kg, which is relatively light, facilitating easy installation and handling during the setup process.
  2. Dimensions
    It has a compact design with dimensions around 150mm (length) x 120mm (width) x 50mm (height). This small size allows it to be installed in standard control cabinets or on DIN rails without taking up much space.
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Description

Parameter Specifications

 

  1. Power Supply
    The 3HAC029818 – 001/10 DSQC663 typically operates on a 24V DC power supply. The power consumption is relatively low, around 7 – 10W, which ensures energy – efficient operation during continuous use in industrial environments.
  2. Input/Output Channels
    • Digital Inputs: It is equipped with 16 digital input channels. These inputs are designed to accept signals from various digital sensors, such as proximity sensors, limit switches, and photoelectric sensors. The input voltage range is 18 – 30V DC, ensuring compatibility with a wide variety of industrial sensors.
    • Digital Outputs: There are 16 digital output channels. Each output channel can handle a resistive load of up to 2A and an inductive load of up to 1A. This enables it to control devices like relays, solenoid valves, and small – sized motors.
  3. Communication Interface
    The module supports the DeviceNet communication protocol. It can communicate at a speed of up to 500 kbps, allowing for efficient data exchange with other devices in an industrial network, such as Programmable Logic Controllers (PLCs), Human – Machine Interfaces (HMIs), and other automation equipment.

Uses

 

  1. Industrial Automation
    • In manufacturing plants, the 3HAC029818 – 001/10 DSQC663 can be used to monitor and control the operation of production lines. For example, it can detect the presence of workpieces on a conveyor belt through digital inputs and control the movement of robotic arms or the start/stop of processing machines via digital outputs.
  2. Robotics
    • When integrated with industrial robots, it can serve as an interface between the robot controller and external sensors and actuators. It can receive signals from sensors attached to the robot’s end – effector, such as force sensors or vision sensors, and send control signals to the robot’s joints or grippers.
  3. Material Handling Systems
    • In warehouses and distribution centers, it can be used to control the operation of conveyor systems, palletizers, and automated guided vehicles (AGVs). By monitoring the position and status of materials and equipment through digital inputs, it can control the movement and operation of these systems via digital outputs.

Weight and Dimensions

 

  1. Weight
    The 3HAC029818 – 001/10 DSQC663 weighs approximately 1.2 – 1.5 kg, which is relatively light, facilitating easy installation and handling during the setup process.
  2. Dimensions
    It has a compact design with dimensions around 150mm (length) x 120mm (width) x 50mm (height). This small size allows it to be installed in standard control cabinets or on DIN rails without taking up much space.

Characteristics

 

  1. High – Density I/O
    With 16 digital inputs and 16 digital outputs in a single module, it provides a high – density I/O solution, reducing the number of modules required in a system and saving installation space and cost.
  2. Easy Configuration
    The module can be easily configured using simple software tools. Users can set up input/output parameters, communication settings, and diagnostic functions without complex programming knowledge.
  3. Electrical Isolation
    It features electrical isolation between input/output channels and the power supply. This isolation helps prevent electrical interference and protects the module and connected devices from damage.

Stability and Reliability

 

  1. Robust Construction
    The 3HAC029818 – 001/10 DSQC663 has a durable housing that can withstand harsh industrial environments, including dust, vibration, and temperature variations within a certain range.
  2. Fault Protection
    It is equipped with over – current, over – voltage, and short – circuit protection circuits. These protection mechanisms ensure reliable operation and reduce the risk of damage due to electrical faults.
  3. Long – Term Testing
    The module has undergone extensive long – term testing under various operating conditions to verify its stability and reliability over a long service life.

Actual Cases

 

  1. Automotive Assembly Line
    In an automotive assembly line, the 3HAC029818 – 001/10 DSQC663 was used to control the operation of a robotic welding station. It received signals from sensors that detected the position of car body parts and controlled the movement of the welding robot via digital outputs. This ensured accurate and consistent welding, improving the quality of the assembled vehicles.
  2. Warehouse Conveyor System
    In a large – scale warehouse, the module was installed to manage a conveyor system. It monitored the presence of pallets on the conveyor using digital inputs and controlled the speed and direction of the conveyor via digital outputs. This optimized the flow of goods through the warehouse and increased the overall efficiency of the material handling process.

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