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Our Story

Ievc Technologies was founded with a clear vision: to revolutionize Pakistan’s transportation industry by introducing highly efficient solar-powered electric vehicles. Our goal is to develop and produce affordable, high-tech, and environmentally friendly vehicles that cater to the needs of the local population. Unlike traditional EV imports, which are costly and require frequent charging, our solar EVs provide a sustainable alternative, running for extended periods without a power supply.

Why We Started This Project

We began with a clear mission to bridge the gap between aspiration and reality for eco-friendly transport in Pakistan.

 After years of dedicated research and development, our purpose is to launch the nation's first solar-powered electric vehicle. 

We are a team of engineers, designers, and sustainability experts committed to pioneering clean energy solutions that drive environmental progress and energy independence.

Our Market & Future Goals

We aim to capture 15-25% of Pakistan’s automotive market within the next few years. With Pakistan’s vehicle market growing rapidly, we plan to introduce multiple solar-powered vehicle models, including hatchbacks, sedans, MPVs, and SUVs. Unlike traditional fuel-dependent vehicles, which saw a 54% growth in FY2022, our solar EVs will set a new industry standard. 

Our long-term vision includes localizing production, reducing import dependency, and expanding globally as a leader in solar electric vehicle technology.

Our Prototype Features

01

Advanced Solar Technology for Maximum Efficiency


Our prototype is powered by industry-leading Maxeon® solar cells, selected for their unparalleled durability and record-breaking performance. This ensures efficient energy conversion from sunlight, even in suboptimal conditions, and provides a reliable foundation for real-world use.


Key Technical Advantages:


- Proven Scale: Utilizes technology with over 9 GW of installed solar power worldwide.

- Superior Efficiency: Delivers a higher energy yield per square meter than conventional solar cells.

- Engineered Durability: Built on a solid metal foundation for exceptional resistance to corrosion and micro-cracks.


In parallel with our primary system, we have successfully tested next-generation bifacial solar cells in our research phase, yielding promising results for future iterations and underscoring our commitment to continuous innovation.

 

02

Power and Performance: The 7.5kW AC Motor


At the core of our vehicle lies a high-performance 7.5kW AC motor, engineered for optimal balance between efficiency, powerful torque, and quiet operation. This brushless, maintenance-free system provides superior performance compared to traditional DC motors.


Technical Specifications:


- Rated Power: 7.5kW AC

- Maximum Torque: 200 Nm

- Speed Capacity: Up to 8,000 RPM

- Noise Level: ≤65 dB

- Protection Rating: IP54 (Dust & Water Resistant)


A key advantage of our system is regenerative energy feedback control, which intelligently captures excess kinetic energy during braking or coasting and converts it back to the battery, actively helping to extend the vehicle's driving range.

 

03

Intelligent Battery Management System (BMS)


At the heart of our prototype lies a high-performance lithium battery, monitored and managed by an advanced Battery Management System (BMS). This system is designed for optimal safety, performance, and durability, ensuring reliable operation and long-term battery health.


Key Benefits:

- Comprehensive Protection: Guards against overcharging, deep discharge, overheating, and voltage irregularities.

- Extended Battery Life: Maintains optimal cell balance and operational parameters to preserve battery capacity and lifespan.


Technical Specifications:

- Available Voltage Options: 48V, 60V, 72V, 96V, 108V, 144V

- Available Capacity Options: 105Ah, 210Ah (additional capacities available on request

- Charging Power Range: 300W – 500W

- Configurable Charging Current: 25A, 30A, 35A (other configurations available)


This flexible and robust BMS architecture ensures both reliable daily operation and scalable performance tailored to specific application needs.

 

04

Advanced Prototype Controller


The powertrain of our prototype is governed by a high-performance AC motor controller, engineered to enable precise, efficient, and safe operation during the development and testing phase.


Key Prototype Features:

- Vector Control Algorithm: Provides exacting control over torque and speed for refined calibration.

- Regenerative Braking System: Actively captures kinetic energy to extend test-cycle range and validate energy recovery.

- Anti-Skid Slope Logic: Enhances prototype stability and safety during incline testing.

- CAN Bus Interface: Allows for comprehensive real-time data monitoring, system diagnostics, and iterative firmware adjustments.


This proven controller platform, utilized in production EVs, provides the reliable and adaptable foundation necessary for rigorous prototype development and performance validation.

 

Prototype Testing & Validation

Our functional prototype represents a critical milestone, serving as a real-world proof of concept for solar-powered mobility in Pakistan. The extensive testing phase provided invaluable data, validated our core technology, and charted a clear path for refinement.

Key Performance Achievements

The primary objective was to quantify the solar system's contribution to vehicle range. Our testing yielded promising results:


Extended Solar Range: Under normal sunlight conditions (approximately 4-5 hours), the integrated solar array successfully generated enough energy to provide an additional 25-30 km of driving range.


Dynamic Energy Harvesting: We validated that the system continues to harvest solar energy even while the vehicle is in motion. At an average speed of 35-40 km/h, the panels generated a comparable amount of energy, experiencing only an approximate 10-15% efficiency deficiency compared to when stationary.


Optimized Test Platform: To maximize data collection, we utilized a vehicle platform weighing approximately 1200 kg. This was strategically selected for its optimal weight-to-size ratio, providing a large surface area for custom-fitted solar panels and adequate space to integrate all powertrain, battery, and control systems efficiently.

Learning & Development Pathway

As with any pioneering prototype, the testing phase was instrumental in identifying areas for engineering enhancement. We actively documented and analyzed several challenges to inform our next development iteration:


System Efficiency: We observed losses in the circuitry and wiring that impacted overall energy transfer.


Thermal Management: Issues related to battery temperature and overall vehicle heat management were noted for optimization.


Component Synergy: The interplay between solar panel efficiency, battery performance, and powertrain demand highlighted specific integration points for improvement.

These findings are not setbacks, but rather the essential blueprint for progress. 


This prototype has successfully demonstrated core viability. Our focus is now on rigorously engineering solutions to these challenges, refining every component, and enhancing system-wide synergy.

Our commitment is to translate this proven concept into a reliable, high-efficiency vehicle, delivering on our promise to bring sustainable and practical solar-electric transportation to Pakistan.

Get In Touch

Interested in learning more about our mission or exploring potential opportunities? We welcome inquiries and conversations about collaboration, investment, and the future of sustainable mobility.