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GE 8851-LC-MT
Technical Specifications
Model: GE 8851-LC-MT
Interface Type: LC1
Transmission Rate: 10/100/1000Mbps
Working Wavelength: 1310nm
Transmit Power: -9.5dBm to 0dBm
Receive Sensitivity: -20dBm
Maximum Transmission Distance: 10km
Operating Temperature: -40°C to 85°C
Power Supply: 3.3V or 12V DC (depending on specific application)
Detailed content
Compatibility: IEEE 802.3z standard
Safety Certifications: SIL 2 safety application certification, compliant with IEC 61508 standard
Dimensions: 57mm x 14.5mm x 13.4mm
Functional Features
High-Speed Data Transmission: Capable of transmitting data at speeds up to 1000Mbps, ensuring real-time communication for critical applications.
Multi-Channel Input/Output: Supports multiple independent input and output channels, allowing simultaneous monitoring and control of multiple signal sources.
Programmable Functionality: Offers programmable features, enabling users to customize module behavior and operations to suit various application requirements.
High Reliability and Stability: Designed with high-quality electronic components and advanced circuitry, ensuring reliable operation in harsh industrial environments.
Redundancy Design: Supports dual redundancy for high-speed fault-tolerant Ethernet LANs, with seamless failover for increased availability.
Modular Design: Facilitates easy expansion and maintenance, allowing for the selection of different input/output modules and functional modules based on actual needs.
Online Configuration: Enables online configuration and reconfiguration, allowing for seamless integration with standard controllers and point-to-point communication.
Application Scenarios
Industrial Automation: Widely used in industrial automation systems for connecting and controlling sensors, actuators, and other devices, ensuring efficient and reliable production processes.
Process Control: In industries such as chemicals and manufacturing, the 8851-LC-MT can be used to monitor and control process parameters like liquid levels, temperatures, and pressures.
Power System Monitoring: Used in power systems to connect to digital and analog signals, enabling the monitoring and control of system operations.
Equipment Health Monitoring: Integrates with equipment health monitoring systems to track vibration, temperature, and current parameters, helping to detect potential issues before they occur.
Automated Production Lines: Monitors and controls the status of production equipment in automated lines, ensuring optimal efficiency and product quality.
Traffic Control: Applicable in traffic signal systems, railways, and other transportation infrastructure for monitoring and controlling traffic signals and vehicle detectors.
Environmental Monitoring: Connects to various sensors in environmental monitoring systems, allowing for the tracking of parameters like humidity and gas concentrations.
Security Systems: Integrates into security systems, providing monitoring and protection for critical equipment and processes.
