PRODUCTS
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EVA01a: One Stop Solution BYD Atto 3 EVA01b: One Stop Solution BYD E5 EVA01c:One Stop Solution BYD Dolphin EVA01d: One Stop Solution-Customized EVB01 - Powertrains System EVB02 - Energy Management EVB04B - Intelligent Power Battery EVB05B - BMS Training Bench EVB06 - Vacuum Pump Brake EVB07 - Drive Control System EVB09 - Battery Energy Recovery EVB10 - Charging Training Bench EVB11 - Drive System Connection EVB14 - Drive System Disassembly EVC01 - Drive System Disassembly EVC02 - Drive System Components EVC03 - Drive Motor Cutaway EVC04 - Gearbox & Axle Cutaway EVC05 - Battery Cutaway Model
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CL-EP-001: Panoramic perception car CL-EP-002:Panoramic perception panel CL-EP-003: Millimeter Wave Radar Kit CL-EP-004: Vision Perception Kit CL-EP-005: Lidar Portable Kit CL-EP-006:Combined Positioning Kit CL-EP-007: Ultrasonic Sensors Kit CL-EP-008:Automotive Electronics Kit CL-EP-009:Millimeter Wave Radar Stand CL-EP-010: Vision Perception Stand CL-EP-011: LiDAR Training Stand CL-EP-012: Inertial Navigation Stand CL-EP-013: Ultrasonic Snesors Stand CL-DC-001: Chassis Bench CL-DC-002: Brake Integration Stand CL-DC-003: Steering Technology Stand CL-IC-001: Algorithm & Simulation CL-IC-002: Smart Cockpit Stand CL-IC-003: ADAS Assisted Driving Stand CL-IC-004: Parallel Cockpit and Remote Driving Vehicle Kit CL-IT-001: Connected Training Microcar CL-IT-002:Connected Logistics Microcar CL-IT-003:Sightseeing Mini Bus CL-IT-004:Car Basic Development CL-IT-005: Car Advanced Development CL-IT-006:Sightseeing Cart CL-IT-007: Roaming Cart CL-IT-008: Training Microcar-Educar CL-VC-001: Miniature Vehicle CL-VC-002: Miniature Vehicle Parallel Driving System CL-VC-003: Vehicle-Road Cooperation Sandbox and Cloud Control Platform CL-VC-004: V2X Vehicle-Road Cooperation
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CL-A01 Gasoline Engine System Trainer CL-A02 Engine with Automatic Gearbox CL-A03 Engine with Air Conditining CL-A05 Engine Disassembly Trainer CL-A06 Engine Cutaway Stand Trainer CL-A07 Ignition System Panel Trainer CL-A08 Startup System Panel Trainer CL-A09 Charging System Panel Trainer CL-A10 Fuel Injection System Trainer CL-A17 Engine Parts & Components CL-B01 Automatic Transmission Trainer CL-B02Automatic Gearbox Disassembly CL-B03 Automatic Gearbox Cutaway CL-B04 Manual Gearbox Disassembly CL-B05 Manual Transmission Cutaway CL-B06 CVT System Trainer CL-B07 CVT Disassembly Trainer CL-C01 Clutch Stand Trainer CL-C02 Clutch Parts & Components CL-D01 Powertrains Cutaway Stand (FR) CL-D02 Powertrains Cutaway Stand (FF) CL-D03 Differentials, Axles, Drum CL-D04 Differentials Section Model CL-E01 Hydraulic Braking Trainer CL-E02 Pneumatic Braking Trainer CL-E03 Anti-Lock Brake System CL-E04 Braking Parts & Components CL-F01 Power Steering & Suspension CL-F02 Electric Power Steering Trainer CL-F03 Steering & Suspension Parts CL-G01 Chassis System Trainer CL-H01 Vehicle Cutaway Stand Trainer CL-I01 Automatic AC System (Cool) CL-I02 Automatic AC Trainer (H & C) CL-I03 Manual AC Trainer (Cool Only) CL-I04 Manual AC System Trainer (H&C) CL-I05 Air-Conditioning Component CL-I06 CAN-BUS Panel Trainer CL-I07 Air Bag and Seat Belt Panel CL-I08 Electrical / Electronics Stand CL-I09 Electrical / Electronics Panel CL-I10 Single Display Driving Simulator
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Category:CL-EP-008:Automotive Electronics Kit
CL-EP-008: Basic Automotive Electronics Experiment KitI.Experiment Box OverviewThe Automotive Basic Electronics Experiment Box is crafted based on the design principles of intelligent networked vehicl···
CL-EP-008: Basic Automotive Electronics Experiment Kit
I. Experiment Box Overview
The Automotive Basic Electronics Experiment Box is crafted based on the design principles of intelligent networked vehicles, specifically for embedded system teaching. This experiment box contains multiple independent functional modules, each centered around an embedded chip, supporting modular teaching and experimental operations. This design not only facilitates students' understanding of electronic principles but also allows for the combination of modules to achieve new functions, fostering students' innovation consciousness and capabilities. Moreover, the experiment box introduces the use and programming basics of embedded chips, laying a solid foundation for students' future in-depth learning in software and hardware development fields.
I. Main Functional Modules
· Embedded Main Control Module: Serves as the core of the experiment box, coordinating and controlling various modules.
· Traffic Light LED Module: Simulates traffic signals for teaching traffic control logic.
· Button Module: Provides user input for controlling experimental operations.
· Digital Tube Module: Displays numeric information, such as timing and counting.
· Relay Module: Executes circuit switching control.
· DC Motor Drive Module: Demonstrates the principle of motor driving.
· Voltage Speed Control Module: Explores the impact of different voltages on motor speed.
· H-Bridge Module: Realizes motor reversal and speed control.
· Steering Servo Module: Learns about servo angle control.
· Millimeter-wave Radar Module: Conducts high-precision distance measurement experiments.
· Ultrasonic Sensor Module: Used for distance measurement and obstacle detection.
· IMU Module: Acquires posture and acceleration data.
· Infrared Distance Measurement Module: Conducts distance detection experiments.
· Serial Communication Module: Implements data communication between modules.
II. Main Course Tasks
· Embedded Development Environment Deployment: Setting up and configuring the development environment.
· Introduction to Development Language: Introducing the basics of the programming language used.
· Chip I/O Control: Learning how to control the chip's input and output.
· Traffic Light Simulation: Using the LED module to simulate real traffic lights.
· Motor Drive Implementation: Learning how to implement motor driving.
· Motor Speed Reading: Experimenting with how to read motor speed.
· Motor Speed Control Methods: Exploring different speed control techniques.
· Servo Angle Control: Experimenting with how to control the angle of a servo.
· Radar Distance Measurement Experiments: Using millimeter-wave and Ultrasonic Sensors for distance measurement.
· Infrared Distance Measurement Experiment: Using infrared sensors for distance measurement.
· Posture and Acceleration Acquisition: Acquiring related data through the IMU module.
· Serial Communication Experiment: Learning the principles and applications of serial communication.
This Automotive Basic Electronics Experiment Box is an ideal tool in the field of education and experimentation, combining theoretical knowledge with practical operations. It enables students to master the basics of automotive electronics while gaining an in-depth understanding of the electronic control systems of intelligent networked vehicles. Through these comprehensive course tasks, students will actively participate in various stages of embedded system development, laying a solid foundation for further learning and research in autonomous vehicle technology in the future.
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