ZM2121A Solar Power Generation System Trainer Didactic Equipment Vocational Training Equipment Renewable Training Equipment
1.Equipment Introduction
1.1.Overview
The training equipment system can simulate and demonstrate the process of solar power generation. To enable students to have a preliminary and intuitive understanding of solar power generation systems. It can cultivate students' homologous knowledge and skills, and is suitable for the teaching and skill training examinations of higher vocational colleges and junior students.
1.2.Features
(1) The training platform adopts the aluminum profile column frame structure, the measuring instrument and the training power supply are built-in and integrated, and the bottom has universal wheels. The units are flexible, easy to use, and not easy to damage.
(2) The experimental circuit and devices are fully configured and can be used in combination to complete the training content of various courses.
(3) The training platform has a good safety protection system.
2.Technical Parameters
Training platform size: profile frame structure, each unit is in the form of modules, with universal wheels at the bottom, and the overall size is 1400mm×700mm×1500mm (length×width×height)
working environment:
Temperature -10~+40℃ Temperature≤80℃
Ambient air: no corrosive, combustible gas, no large amount of conductive dust
power supply:
Power consumption: ≤5000W,
Working power supply: AC220±10%,
Power supply: single-phase three-wire AC220±10%, 50/60Hz
Working method: continuous
Overall weight: <200Kg
3.Components List And Introduction
3.1.Workbench
This part includes a variety of hanging boxes, which can be matched with each other to complete a variety of experimental operations.
3.2.Power Box Desktop
1: Circuit breaker
2: Power indicator light
3: Emergency stop button
4: Ground terminal
5: Battery insurance
6: Battery transfer output terminal
7: Battery insurance
8: Battery transfer output terminal
9: Photovoltaic panel insurance
10: Photovoltaic panel transfer Connect to output terminal
11: photovoltaic panel insurance
12: photovoltaic panel transfer output terminal
13: DC voltmeter 30V
14: DC voltmeter 30V terminal
15: DC voltmeter 30V
16: DC voltmeter 30V terminal
17: DC ammeter 30A
18: DC Ammeter 30A terminal
19: DC ammeter 30A insurance
20: socket
3.3.Solar Controller Module
3.4.inverter module
3.5.Fan Load Module
3.6.Voltmeter and Ammeter Modules
3.7.Bulb Load Module
3.8. Analog control unit
1: Circuit breaker
2: A-axis stepping motor driver
3: C-axis stepping motor driver
4: B-axis stepping motor driver
5: Emergency stop button
6: Power indicator light
7: Running indicator light
8: Analog light source switch
9: Lighting controller relay
10: Lighting control AC contactor
11: Siemens PLC
12: DC24V switching power supply
13: C-axis motion control switch
14 : B-axis motion control switch
15: A-axis motion control switch
16: Manual/automatic module
3.9. Solar tracking unit
1: Solar panel
2: Light source sensor
3: A-axis stepping motor
4: B-axis stepping motor
5: Battery
4.0. Analog light source motion unit
1: Analog light source
2: C-axis motor
3: Angle sensor
4.1.Accessory bag
Accessory Kit Includes Fuses, K4 Test Leads, and Components CD
Multimeter
Charger
Toolbox
4.Experiment list
Experiment 1 Battery Characteristic Test
Experiment 2 Charge Controller Experiment
Experiment 3 Photovoltaic cell open circuit voltage test experiment
Experiment 4 Photovoltaic cell short-circuit current test experiment
Experiment 5 Photovoltaic battery working power test experiment
Experiment 6 Different maximum test experiments of photovoltaic cells under different light conditions
Experiment 7 Photovoltaic cell output characteristics experiment
Experiment 8 Photovoltaic battery charging control principle experiment
Experiment 9 Basic principle experiment of inverter
Experiment 10 software monitoring use
Experiment 11 Software curve chart use
Experiment 12 Software Data Recording
Experiment 13 software data export
