Portfolio

EV Charging Management System

SachSoft engineered a fully scalable and intelligent EV Charging Management System (EV-CMS) designed to empower charge point operators, EV fleet owners, and energy service providers. The platform integrates advanced energy monitoring, seamless payment processing, and operational automation to deliver a modern, efficient, and future-ready EV charging infrastructure solution.

Project Overview

The system provides a unified interface for managing charging stations, users, sessions, billing, and technical diagnostics. Built using cutting-edge technologies, EV-CMS ensures high performance, reliability, and interoperability with OCPP-enabled chargers. Its modular architecture allows businesses to scale from a single station to hundreds of geographically distributed charging points.

Core Modules & Functionality
πŸ”Œ Charging Station & Hardware Management
  • Single platform to manage multiple EV charging stations across different locations.
  • Real-time connector status: Available, Charging, Occupied, Faulty, Offline.
  • Remote operations: Start/Stop charging sessions, reboot chargers, run diagnostics.
  • Dynamic hardware configuration and firmware update support.
  • Smart alerts for voltage drops, overheating, or hardware faults.
πŸ‘€ User, Vehicle & Subscription Management
  • Secure user onboarding with mobile OTP, email, or social login.
  • Manage EV details including battery capacity, model, and charging patterns.
  • User wallet system for fast and seamless payments.
  • Subscription plans: Hourly, Daily, Monthly, Pay-as-you-go.
  • Complete user charging history and analytics dashboard.
πŸ’³ Payment Gateway & Billing Engine
  • Integrated with major payment gateways (Razorpay, Stripe, PayPal, etc.).
  • Automated invoices generated for every charging session.
  • Flexible pricing rules: kWh-based, Time-based, Flat Rate, Hybrid models.
  • Promotional codes, offers, credits, loyalty rewards.
  • GST/VAT-ready billing engine for international markets.
  • Live energy consumption data with charts and insights.
  • Revenue visualization by day, week, month, or station.
  • Peak load monitoring and energy demand forecasting.
  • Advanced utilization reports: Idle Time, Charging Efficiency, Session Duration.
  • Downloadable reports in CSV, PDF, XLS formats.
🌐 Web Portal & Mobile App Solutions
  • User Mobile App: Book slots, scan QR, make payments, track session in real-time.
  • Admin Dashboard: Manage stations, users, billing, reports, and support requests.
  • Operator Panel: For site managers to track local stations.
  • Vendor Panel: Manage partnered stations and revenue shares.
πŸ“Š Real-Time Monitoring, Analytics & Reporting
⚑ Smart Energy Features
  • AI-based energy optimization & load balancing.
  • Power scheduling to avoid grid overload during peak hours.
  • Predictive maintenance alerts using charger telemetry data.
  • Support for renewable energy integration (solar/wind).
  • OCPP 1.6J & OCPP 2.0 compatible for maximum compatibility.
Design & User Experience
  • Modern, intuitive, and mobile-responsive UI.
  • Custom dashboard widgets for easy navigation and quick system overview.
  • Color-coded statuses for better readability and faster decision-making.
  • Optimized for high performance even on low-bandwidth networks.
Tech Stack
  • Frontend: ReactJS, Angular, Bootstrap/Tailwind.
  • Backend: Node.js, .NET Core, Laravel (as per deployment needs).
  • Database: MySQL, PostgreSQL, MongoDB.
  • Cloud: AWS / Azure / Google Cloud.
  • Mobile: Flutter / React Native.
Business Impact

The EV Charging Management System developed by SachSoft dramatically improves operational efficiency, minimizes downtime, enhances user experience, and allows businesses to scale their charging network with ease. By automating processes and integrating intelligent analytics, the system provides a strong foundation for modern EV infrastructure and sustainable mobility initiatives.

This solution positions SachSoft as a key technology partner in the fast-growing electric vehicle ecosystem.