Skip to Content

EV CARD REPARING


Course Overview & Core Features

  • Duration: 3 Months (Professional Training).

  • Training Format: Online & Physical classes are available.

  • Core Path: Learn - Practice - Become Professional.

  • Key Benefits: Hands-on practical training, real EV cards practice, project-based learning, certificate after completion, and development of job-oriented skills.

Target Audience & Outcomes

  • Target Audience: Students, Technicians, and Electrical & Electronics Enthusiasts.

  • Key Skills Mastered: EV Card Repairing, Arduino UNO Programming, Sensors Interfacing, BLDC Motor Control, PWM & Speed Control, CAN Bus Communication, Power Supply Circuits, and Component Level Troubleshooting.

  • Tools & Equipment Handled: Soldering Station, Multimeter, Oscilloscope, DC Power Supply, Hot Air Rework Station, Arduino UNO, Jumpers & Breadboard, Sensors & Modules, BLDC Motor Kit, and Programming Cables.

Complete Course Syllabus

Phase 1: Foundations & Electronics Troubleshooting

  • Introduction: EV Card Basics, Types, and Working Principles.

  • EV Card Components: Master MCU, MOSFET, Driver IC, Capacitors, and Connectors.

  • Circuit Diagram Reading: Deep dive into Schematics, Pinouts, Tracing, and Block Diagrams.

  • Fault Finding Techniques: Troubleshoot Short Circuits, Open Circuits, Dead ICs, and No Power issues.

  • Testing & Measurement: Hands-on with Multimeters, Oscilloscopes, ESR Meters, and Signal Checking.

  • Repairing & Reworking: Professional SMD Rework, IC Replacement, Track Repair, and Jumpering techniques.

Phase 2: Arduino Programming & Microcontroller Interfacing

  • Arduino UNO Basics: Board Overview, IDE Setup, Libraries, and Serial Monitor operations.

  • Sensors Interfacing: Connect and code Hall Sensors, Current Sensors (ACS712), Temperature Sensors (NTC), Voltage Sensors, IR Sensors, Ultrasonic Sensors, and Potentiometers.

  • BLDC Motor Control: Learn BLDC Basics, ESC Principles, PWM Control with Arduino, Hall Sensor Feedback, Speed Control, and Direction Control.

  • I/O & Communication: Master Digital I/O, Analog Input, PWM Output, I2C, SPI, and UART protocols.

Phase 3: Advanced Integration & Practical Lab

  • EV Card with Arduino: Read EV Card Signals, implement CAN Communication (MCP2515), Controller Emulation, Data Logging, and LCD Displays.

  • Advanced Projects: Build a BLDC Speed Controller, Fault Detector, Battery Monitor, EV Card Tester with Arduino, and Sensor-Based Protection circuits.

  • Practical Repair Lab: Gain extensive experience with Real EV Cards Repair, Component Level Troubleshooting, and Real-Time Diagnostics Using Arduino.

  • Final Project & Assessment: Complete an intensive EV Card Repair + Arduino-Based Project alongside testing, presentation, and official Certification.



RS 75,000 / 03 month
Start Now
  • Online Session
  •  On Campus Lecture + Practical
  •  Video Lecture Available
  •  Urdu & English