Comprehensive training device for microcomputer protection of power system

Short Description:

Type: BF-HYDLS-02A

1. Rated voltage: three-phase five-wire~380V±10% 50Hz

2. Working environment: the ambient temperature range is -5℃~+40℃, relative humidity<85% (25℃), altitude<4000m

3. Rated capacity: 3.0kVA

4. Dimensions: 1240mm×500mm×2000mm


Product Detail

Product Tags

Comprehensive training device for microcomputer protection of power system

Type: BF-HYDLS-02A

1. Rated voltage: three-phase five-wire~380V±10% 50Hz

2. Working environment: the ambient temperature range is -5℃~+40℃, relative humidity<85% (25℃), altitude<4000m

3. Rated capacity: 3.0kVA

4. Dimensions: 1240mm×500mm×2000mm

-Intelligent-Equipment-Products-(3)

Feature

1. The core equipment of the training device-microcomputer line measurement and control device, microcomputer transformer measurement and control device, and a physical simulation primary system, so that students can intuitively understand the changes in power parameters when various short-circuit faults occur in the power system.

The training device has an upgrade interface, and users can expand the relay protection and secondary circuit training projects based on the simulated primary system.
2. Communication network: The training device has an RS-485 bus interface, which can realize the power system SCADA based on the microcomputer measurement and control device.

3. Laboratory remote management system software (in order to avoid intellectual property disputes, the bidding site needs to provide computer software copyright certificates and demonstration videos)

The system integrates the remote laboratory bench power management system, and monitors the power switch status of the student laboratory bench through mobile phone or other mobile terminal system monitoring; individually turns on and off the student laboratory bench power supply; fully turns on or all off the laboratory bench power supply function; regularly turns on and off the power supply function .

Training Contents

Microcomputer line protection experiment
Experiment 1: Normal, maximum and minimum operation mode of analog circuit system
Experiment 2 Simulation system short-circuit training
Experiment 3 Microcomputer no-time limit current quick-break protection
Experiment 4 Microcomputer with time limit current quick-break protection
Experiment 5 Microcomputer time-limited overcurrent protection
Experiment 6 Microcomputer time limit overload protection
Experiment 7 Staged current protection
Experiment 8 Current and voltage chain protection
Experiment 9 Inverse time current protection
Experiment 10: Staged overcurrent protection and acceleration before automatic reclosing
Experiment 11: Staged overcurrent protection and acceleration after automatic reclosing
Experiment 12 The influence of operation mode on protection sensitivity
Experiment 13: Line protection extension experiment
Microcomputer transformer protection experiment
Experiment 14 Normal operation of the system and measurement of unbalanced current
Experiment 15 Simulating Transformer Gas Protection
Experiment 16 Transformer zero sequence overcurrent protection
Experiment 17: Transformer with time-limited current quick-break protection
Experiment 18: Transformer overcurrent protection training
Experiment 19: Transformer overload protection training
Loop fault setting and elimination
Experiment 20 Troubleshooting of Microcomputer Line Protection
Experiment 21 Troubleshooting of Microcomputer Transformer Protection

zhi-yang-she-bei

Equipment

Photo Wall

zhi-yang-he-zuo

Signing Ceremony

zhi-yang-yan-fa

R&D

zhi-yang-he-zuo1

Signing Ceremony

zhi-yang-shi-zi

Teachers


  • Previous:
  • Next:

  • Write your message here and send it to us