Solar Power SCADA - 3onedata|Solar Power SCADA|Industrial Ethernet switches|Ethernet|USB|RS485|RS232|media converter|optic fiber modem|protocol converters|video converters
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Product Classification
Product Model
Solar Power SCADA
Background
Solar farms use semi-conductive components to absorb solar radiation and turn it into electric energy Solar energy is becoming common in the glob a energy market because of its endless storage and low cost. Solar energy is developing quickly around the world and is considered an important part of sustainable development in every country. Solar power stations utilize photovoltaic cells combiner boxes, low-voltage DC cabinets, inverter cabinets, low-voltage AC cabinets and step-up transformers.
Project requirements
Photovoltaic power generation monitoring system for photovoltaic power plants in the battery array, bus, inverter, AC and DC power distribution cabinet, solar tracking control system and other equipment for real-time monitoring and control, so as to control the operation of the power plant, to ensure that solar photovoltaic power generation system is completely reliable and stable operation. The field is divided into 15 photovoltaic power generation area, each area access switch is then gathered to the monitoring room. Switch to be able to adapt to the harsh environment of the scene, the device can work safely and reliably, stable transmission data.
SCADA 
SCADA (Supervisory Control and Data Acquisition) system, that is data acquisition and monitoring control system. SCADA system is a computer based DCS and power automation monitoring system; it is widely used in electric power, metallurgy, petroleum, chemical, gas, railway and other fields of data acquisition and monitoring control and process control, and many other areas. Can monitor and control the operation of the field, in order to achieve data acquisition, equipment control, measurement, parameter adjustment and various functions of various signal alarm.
System Diagram
Scheme introduction
The solar power plant is divided into 15 zones. Each region 5MW consists of 5 switches, consisting of a single ring, including 4 IES608-2F and 1 IES608-4F. Finally, the IES608-4F of each region is gathered in IES5024-12F to access the monitoring center, which ensures the stability and reliability of the communication. 
Scheme advantage
Design for industrial Level 4 standard, the working temperature -40 ~ 75℃, to meet a variety of industrial field environment
SW-Ring ring network, network fault self healing time <20ms, guarantee network stability
Dual power input, support power redundancy
Relay alarm, real-time monitoring equipment link status, and timely feedback fault information
Better than IES61850-3 anti electromagnetic interference ability
IES608-2F
·Support 6 RJ45 Ethernet ports and 2 Fiber ports.
·SW-Ring (recovery time < 20 ms at full load)
·Port-based VLAN, IEEE 802.1Q VLAN to ease network planning
·Support IEEE802.1p_QOS
·Support IGMP, Port Trunking and Port mirroring function
·Support WEB management, easy- to-use
·Design for industrial Level 4 standard
IES608-4F
·Support 4 RJ45 Ethernet ports and 4 Fiber ports.
·SW-Ring (recovery time < 20 ms at full load)
·Port-based VLAN, IEEE 802.1Q VLAN to ease network planning
·Support IEEE802.1p_QOS
·Support IGMP, Port Trunking and Port mirroring function
·Support WEB management, easy- to-use
·Design for industrial Level 4 standard
IES5024-12F
·Support 12 RJ45 Ethernet ports and 12 Fiber ports
·SW-Ring (recovery time < 20 ms at full load)
·Port-based VLAN, IEEE 802.1Q VLAN to ease network planning
·Support RSTP, SNMP, IEEE802.1p_QOS
·Support IGMP, Port Trunking and Port mirroring function
·Support WEB management, easy- to-use
·Design for industrial Level 4 standard
·IP 30 protection, rugged high-strength metal case

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