The synchronous trainer is mainly composed of a power module, an auto-angle machine module (auto-angle transmitter + auto-angle receiver + auto-angle transformer), a voltage module and a current module. The self-aligning machine module (self-aligning transmitter + self-aligning receiver + self-aligning transformer) is a multifunctional independent demonstration system that can be used to study and demonstrate the principles and working principles of AC synchronous transmitters and receivers, and to master Its control principles and control methods cultivate students' corresponding knowledge and skills. 1.2 Features (1) Two or both are required to be used at the same time. (2) When two or two are used at the same time, there is no mechanical connection with each other, only electrical connection. (3) The non-contact self-aligning machine is safe and reliable in operation, has a long life, and is more reliable in environments lacking maintenance and in any system subject to bumps and vibrations. (4) The training platform is made of aluminum industrial column profiles to ensure the stability of the training platform; the bottom universal wheels are equipped with brakes and can be flexibly moved and positioned. The training platform is safe to operate (multiple personal and equipment safety protections), standardized, flexible, solid, durable, beautiful and modern. (5) The experimental circuits and devices are fully configured and can be used in combination to complete practical training content for a variety of subjects. (6) The training platform has a good safety protection system.
2. Technical parameters
Input power: One-way 230V±10%, 50Hz weight: 78KG size : 1240x720x1290mm The altitude does not exceed 1000m Ambient temperature -40℃~+55℃ (humidity is 60%-70%) Relative humidity 95%±3% (air temperature is 20±5%)
4. Experiment list
Experiment 1 Introduction to self-aligning machine Experiment 2 Analysis of Synchronous Transmission System Experiment 3 Voltage measurement of synchronous transmitter and synchronous receiver at different time points Experiment 4 Analysis of the similarities between synchronized transmitters and receivers and phase pairing Experiment 5 Analysis of the differences between synchronized transmitters and receivers and phase pairing Experiment 6 Current of different loads in the circuit Experiment 7 Controlling motor speed and analysis of forward and reverse directions Experiment 8 Control Principle of Closed-Loop Control System
