MR495E Advanced Sensor Experimental System Vocational Training Equipment Demonstrator Electrical Automatic Trainer I.Product Overview 1.1 Overview Advanced sensor experimental system is a highly integrated experimental equipment used for research and teaching, which can simulate and detect various physical phenomena and parameters, such as temperature, pressure, humidity, etc. These systems usually include sensors, data acquisition equipment, and data analysis software, which can monitor and analyze the state of the experimental object in real time. In scientific research and teaching, advanced sensor experimental system is of great significance for exploring the mechanism of related fields, developing new detection technology, and improving the performance and safety of equipment. 1.2 Features (1) The training platform adopts an aluminum profile frame structure, and the power supply is integrated and installed, which is safe, convenient and not easy to damage. (2) It integrates a variety of sensors and data processing units, and can measure and analyze a variety of physical quantities on a single platform. (3) Sensor modules can be replaced or added as needed to meet different experimental needs. (4) It is suitable for both teaching demonstrations and scientific research, and can help students and researchers better understand and master sensor technology. (5) The training platform has a good safety protection system. II.Performance Parameter Input power: single-phase three-wire 220V±10%, 50Hz Dimensions: 1400mm*700mm*1660mm Weight: about 200kg Working conditions: ambient temperature -10℃~+40℃, relative humidity <85% (25℃) III.Components List and Detailed Introduction 3.1 Main Part Number Name 1 Frame 2 Temperature and humidity load box 3 Load module 4 Universal wheel 5 Load module 6 Control module 7 Power module 3.2 Power Box Part Number Name 1 MCU system 2 Voltmeter 3 Mode selection module 4 Speaker 5 MCU signal port 6 GND ground terminal 7 USB port type B 8 DC power output terminal 9 DC power output port 10 Four-position switch 11 Analog-to-digital converter 12 Analog-to-digital converter 13 Fixed base 14 Instrument amplifier 15 Differential circuit 16 Comparator 17 Potentiometer 3.3 Accessories Number Name Quantity 1 2mm electrical cable 100CM red 10 2 2mm electrical cable 100CM blue 10 3 2mm electrical cable 100CM black 10 4 European power line two holes, herringbone tail, 16A 3*1.5 square 3500W, 1.8 meters 2 5 Magnet 50*25*5 1 6 Electrician tool kit Contains 17 tools 1 7 Adjustable power supply regulated power supply MCH-K-3203D 32V3A small chassis, input: AC220V, output: 0 to 30V/3A 1 8 Alcohol cotton pads (English packaging) 1 9 K-type thermocouple probe 1 10 PT100 temperature sensor probe 1 11 Humidity sensor probe 1 12 Remote control 1 13 5-core connecting cable 1 14 6-core connecting cable 1 15 7-core connecting cable 1 16 Standard weight set 2×50g, 2×100g, 1×200g, 1×500g, 2×1Kg, 1×2Kg 1 17 USB connecting cable USB + printer square port (type B) 1.5 meters 1 18 Aluminum box for weights 1 19 Software CD 1 20 Sensor connection cable (8-core on one end, sensor on the other end) 1 21 AT microcontroller downloader USB-ISP (download cable USB-ISP with housing) 1 22 AD 590 sensor probe 1 3.4 Control module function introduction 3.5 Execution component function introduction IV. Software Installation Method 4.1 Software Installation Introduction 4.2 Software Interface Introduction V. Experiment List Experiment 1 Measurement and characteristics of photodiodes Experiment 2 Measurement experiment of U-type photoelectric sensors Experiment 3 Measurement experiment of magnetic sensors Experiment 4 Measurement experiment of pyroelectric sensors Experiment 5 Measurement and characteristics of thermistors Experiment 6 Measurement experiment of spring switches Experiment 7 Measurement experiment of tilt sensors Experiment 8 Measurement experiment of limit switches Experiment 9 Measurement experiment of mercury switches Experiment 10 Measurement experiment of vibration switches Experiment 11 Overview and working principle of condenser microphones Experiment 12 Measurement experiment of dynamic speakers Experiment 13 Alcohol sensor test experiment Experiment 14 AD 590 sensor test experiment Experiment 15 K-type thermocouple sensor test experiment Experiment 16 PT100 temperature sensor test experiment Experiment 17 Humidity sensor test experiment Experiment 18 Weighing module test experiment Experiment 19 Light load test experiment Experiment 20 Counter module test experiment Experiment 21 Linear scale module test experiment Experiment 22 Multi-channel remote control module test experiment Experiment 23 Ultrasonic module test experiment Experiment 24 Pressure sensor test experiment Experiment 25 VFC module test experiment Experiment 26 FVC module test experiment Experiment 27 Infrared sensor module test experiment Experiment 28 Smoke sensor test experiment Experiment 29 Software usage Experiment 30 LVDT sensor test experiment
