Power Transmission Line Trainer Model ELTR 025C

High-voltage networks are usually operated with voltages in the region of 110 kV to 380 kV, whereby urban areas and large-scale industrial facilities are supplied with 110 kV, and 380 kV is used for long-distance transmission lines. The line simulation system is designed for operation at model voltages between 110 V and 380 V. Various voltage levels and line lengths can be selected via corresponding overlay masks.

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SKU: 581e0a5407f8 Categories: Electronics Trainer, Trainers

Description
Technical Specification

Examinations with the training system can be performed off-load, in normal operating mode, in the presence of a short-circuit or earth fault, with or without earth-fault compensation. The system also permits assembly of complex networks by connecting the line simulation models in parallel or series. The voltage can be supplied via a fixed grid or synchronous generator.

High-voltage lines
Advantages
• For your safety, the 380-kV transmission lines are investigated and connected at a low-voltage level without detracting from the characteristics of a real high-voltage line.
• Realistic simulation of a 380-kV transmission line with a length of 300 km or 150 km
• Innovative switchover between line lengths by means of over- lay masks
• Earth-fault compensation by means of a Petersen coil
• Ability to simulate symmetric and asymmetric faults

In practice, medium-voltage and high-voltage networks are equipped with protective mechanisms connected via current and voltage transformers. • Use of compact, original relays incorporating cutting-edge digital technology • Use of industrial safety relays from prestigious international manufacturers • Monitoring of protective features by means of SCADA (Supervisory Control and Data Acquisition) • A relay test option permits the relays to be checked individually Investigations on Three-phase Transmission Lines Incudes: - Voltage increases on open-circuit lines - Voltage drop as a function of line length - Voltage drop as a function of cos-phi - Capacitive and inductive power losses on a line as a function of U and I - Phase shift on a line Parallel and Series Connection of Transmission Lines Includes - Distribution of power and current among parallel-connected lines of equal length - Distribution of power and current among parallel-connected lines of unequal length - Distribution of power and current among series-connected lines of equal length - Distribution of power and current among series-connected lines of unequal length - Load distribution, power flow - Voltage distribution - Quantitative and qualitative evaluations of operational relationships Transmission Line with Earth-fault Compensation Includes - Earth fault on a line with an isolated star point - Response to earth faults - Earth-fault compensation Transmission Systems with a Synchronous Generator Overcurrent Time Protection for Lines Auxiliary Line Protection Equipment Protection of Parallel-connected Lines High-speed Distance Protection