How to Achieve Wireless Data Transmission for Stacker Cranes?
How to Achieve Wireless Data Transmission for Stacker Cranes?
Challenges:
In automated warehouse systems, stacker cranes play a key role in handling goods. To ensure efficient inventory management, stacker cranes need to exchange real-time data with the warehouse management system and other automation equipment. Traditional fieldbus wiring is not only complex to install and maintain but also susceptible to environmental factors such as large equipment spacing and frequent movements. Wireless data transmission technology offers an ideal solution to this issue.
Solution: ST100 Series Optical Data Transmission
The ST100 Series Optical Data Transmission Sensors can effectively enable wireless data transmission between stacker cranes and other systems. By utilizing infrared laser technology, the ST100 series supports an effective transmission distance of up to 200 meters and provides Ethernet data transmission bandwidth of up to 100 Mbit/s, meeting the need for efficient and stable data exchange between stacker cranes and the warehouse management system.
Advantages for You
▪️The ST100 series supports 100M full-duplex data transmission, enabling high-speed, bidirectional communication between the stacker crane and the control system, thereby improving overall warehouse system efficiency.
▪️The ST100 series offers different transmission distance options of 80m, 120m, and 200m, allowing for the selection of the most suitable transmission range based on warehouse layout and crane operating environment, ensuring seamless connectivity between devices.
▪️By using wireless optical transmission technology, the need for traditional fieldbus wiring is eliminated, simplifying installation and subsequent maintenance, while avoiding signal interference or device failures caused by wiring issues.
▪️The high-performance laser data transmission module ensures stable operation in complex environments, allowing stacker cranes to exchange data efficiently and in real-time with other systems during operation, thereby optimizing warehouse processes and reducing errors and delays.
Related Sensors
Eective transmission distance: 200 m
Communication rate: 100 Mbit/s
Communication light divergence angle: 1°
Communication light receiving angle: 1.5°
Measuring frequency: 1000Hz
Data transmission interface: SSl, Ethernet 100 BASE-TX
Measuring distance: 200m
Measurement accuracy: ±2 mm
20m distance, A technique that uses a laser beam to measure distance and create detailed maps of objects and environments.
Output method: PNP+analog+RS485
Resolution: 1mm
Laser type: red semiconductor laser Class II laser 655+10nm<1m
Reaction time: 50-200ms
Measure distance: 0.1-50m
