ZE3115P Power Electronics and Drive Technology Training Frame School Training Bench School Laboratory Equipment Educational Electrical Training Equipment
I. Product overview
1.1 overview
The training bench includes typical application circuit units of various types of thyristors. Through relevant experiments, you can be familiar with the electrical characteristics of thyristors, master the control principles and control methods, and cultivate students' corresponding knowledge and skills. As well as the teaching and skills training assessment of related majors in technical schools.
1.2 Features
(1) The training platform adopts aluminum alloy substrate to build the training platform, and the structure is stable. Each actuator module is placed on the base plate, which is easy to use and not easy to be damaged.
(2) The training device is equipped with an electrical control cabinet, the power supply of the system is drawn out through the safety plug, and the wiring of the training device is connected through the terminal block, which is safe and reliable.
(3) The overall structure adopts open type and disassembly type, which can easily replace the modules. The content of the modules is determined according to the principle of having productive functions and integrated learning functions, so that the required modules can be easily selected during teaching or competition.
II. Technical parameters
(1) Input power: single-phase three-wire, 220 v±10% 50Hz
(2) Size: 1600mm×400mm×950mm
(3) Overall capacity: < 2.0 kva
(4) Weight: < 150kg
(5) Working conditions: Ambient temperature: -10℃~+40℃
Relative humidity: < 85%(25℃)
III.Product composition
1. Training platform
2. Power box
1: Three-phase power output module
2: Single-phase power socket
3.1: Fuse 5A
3.2: Three-phase power indicator light
3.3: Three-phase electrical output terminal
4.1: Single-phase power socket
4.2: Socket switch
5.1: Auto-Voltage Regulator Knob
5.2: Auto voltage regulator input terminal
5.3: Auto voltage regulator input terminal
5.4: Auto voltage regulator input fuse 2A
6.1: AC voltmeter reading indication
6.2: AC voltmeter access terminal
6.3: DC ammeter reading indication
6.4: DC ammeter meter access terminal
6.5: DC ammeter fuse 2A
7.1: DC voltmeter reading indication
7.2: DC Voltmeter Access Terminal
7.3: DC ammeter reading indication
7.4: DC ammeter meter access terminal
7.5: DC ammeter fuse 2A
8.1: Single-phase transformer input terminal
8.2: Single-phase transformer input fuse 0.5A
8.3: Single-phase transformer output terminal
9.1: Rectifier bridge output indicator table
9.2: Rectifier bridge input terminal
9.3: Rectifier bridge output fuse 2A
9.4: Rectifier bridge output terminal
IV.Experiment content can be completed
Experiment 1. Simple trigger circuit of transistor
Experiment 2. Trigger circuit experiment of unijunction transistor
Experiment 3. Diode half-wave controllable rectifier circuit experiment
Experiment 4. Experiment of diode bridge fully controlled rectifier circuit
Experiment 5. Three-phase bridge fully controlled rectifier circuit experiment
Experiment 6. Three-phase bridge half-controlled rectifier circuit experiment
Experiment 7. Single-phase half-controlled bridge rectifier circuit
Experiment 8. Single-phase half-controlled bridge rectifier circuit drives the motor experiment
Experiment 9. Frequency converter control experiment
