ABB NTCF02 Termination Unit - Optic to Electronic

ABB NTCF02 Termination Unit - Optic to Electronic

Features

High conversion accuracy: it can accurately convert optical signals into electrical signals to ensure the accuracy and integrity of data transmission and effectively reduce the BER during signal conversion.

Good compatibility: it can be compatible with a variety of optical communication equipment and electrical signal equipment, supporting different optical wavelengths, optical power and electrical signal protocols, which is convenient for integration and application in complex industrial communication networks.

Strong stability: It adopts high-quality optical and electronic components with good anti-interference ability and temperature stability, which can operate stably for a long time in harsh industrial environments and reduce signal transmission failures caused by environmental factors.

Easy to install and maintain: its compact structural design, small size, flexible and diverse installation methods, can be adapted to different installation space requirements; at the same time, the modular design makes the maintenance and overhaul of the equipment more convenient, reducing maintenance costs and downtime.

Technical Parameters

Optical input interface: usually adopts standard optical interface, such as LC, SC, etc., supports single-mode or multi-mode optical fibre, and the optical wavelength range is generally between 850nm and 1550nm, which can meet the needs of different optical communication systems.

Electrical output interface: RJ45, BNC and other interface types are common, and the output voltage, current and other parameters of the electrical signal can be configured according to the specific application scenarios to adapt to different receiving devices.

Conversion rate: It can support high data conversion rate, generally can meet the requirements of 100Mbps, 1000Mbps or even higher Ethernet transmission rate, to ensure the real-time conversion and transmission of high-speed data.

Operating temperature range: usually between - 40°C and + 85°C, some special models can work in a wider temperature range, able to adapt to a variety of industrial sites in extreme temperature environments.

Application Scenarios

Industrial automation: In the control system of automated production lines, optical signals from the optical fibre communication network are converted into electrical signals to provide reliable data input for PLCs, industrial computers, sensors, actuators and other devices, so as to achieve efficient communication and collaborative work among the devices.

Remote monitoring of power system: in substations, power plants and other places, it is used to convert the equipment operation status monitoring data and fault alarm signals transmitted by optical communication into electrical signals, so as to interface with the existing power monitoring system and achieve remote real-time monitoring and management of power equipment.

Intelligent traffic system communication: in traffic signal control, highway monitoring, urban rail transit and other systems, the traffic flow data and equipment status information in the optical communication network are converted into electrical signals and transmitted to the computer system and related equipment in the traffic control centre to provide data support for traffic scheduling and management.

Energy management system data transmission: In the production monitoring and management system of oil, natural gas, coal and other energy industries, the production data transmitted by on-site instruments and sensors through optical fibre are converted into electrical signals and then connected to the energy management system, so as to realize the fine management and optimal control of the energy production process.

APPLICATIONS

• Simulation 

• Instrumentation 

• Industrial control 

• Process control and monitoring 

• Factory automation 

• Intelligent networked PLC controllers 

• Automated test 

• Data acquisition