ISLAMABAD – Pakistan is moving quickly into electric mobility. Electric vehicles (EVs) are showing up more often on city roads and major routes. With tens of thousands already in use, the need for dependable EV charging infrastructure keeps rising. National goals also push this shift forward, so reliable, efficient, and smart charging is becoming a priority.
Under the National Electric Vehicle Policy (NEVP), Pakistan targets a 30% EV share in new vehicle sales by 2030. That equals about 2.21 million cumulative vehicles. In the long run, the policy points to a 100% zero-emission fleet by 2060.
Because of that, the EV transition depends on more than selling vehicles. It also depends on rolling out charging networks that can scale and attract investment. Livoltek is positioned to support that need.
A national EV charging plan is taking shape.
To support EV growth, the government has set a goal of installing 3,000 EV charging stations by 2030. A phased roadmap guides the rollout. The first year includes 240 stations, and Islamabad is planned as a model EV city.
On major motorways, planners expect Level 3 fast chargers every 15 to 30 kilometers. This includes routes such as M1 to M5, M9, and N5. In cities, DC fast chargers are planned at 3 by 3 km intervals. That spacing helps drivers find chargers without long detours.
Still, challenges remain. Infrastructure gaps, slow grid connections, and import-related costs can slow progress. However, recent steps have improved the outlook. A reduced 1% customs duty on EV charging equipment helps lower entry costs. At the same time, NEECA’s onboarding of internationally compliant brands supports a clearer path for investors and technology providers.
Livoltek offers chargers for home, business, and public networks
Livoltek provides a broad lineup of smart EV chargers, from 7.3 kW AC units to 240 kW high-power DC fast chargers. This range fits Pakistan’s mixed needs, from home charging to highway corridors. The product ecosystem supports residential users, commercial property developers, fleet operators, fuel station networks, and public infrastructure projects.
For AC charging, Livoltek offers 7.3 kW single-phase chargers for homes and small businesses. These units include IP65 protection, plus RFID and app-based access. For workplaces and commercial sites, 11 kW and 22 kW three-phase chargers add PV-ready support and dynamic load management. As a result, operators can manage power use better and prepare for future grid integration.
When faster charging matters, Livoltek’s DC lineup covers several use cases. A compact 30 kW DC charger suits urban parking areas and mid-sized commercial locations. It delivers over 95% efficiency, which helps lower energy losses.
For larger projects, Livoltek provides DC fast charging systems from 60 kW to 240 kW. These units fit highway charging stations, fleet depots, and high-traffic public hubs. They support rapid turnaround charging that matches motorway expansion plans.
With dual CCS2 outputs and a 10.1-inch smart display, the systems focus on higher throughput, stable operations, and strong revenue potential. Those factors matter for public-private partnership (PPP) projects and infrastructure investors.
Smart controls that help users and operators
Livoltek stands out through its connected software and control features. Using the My Livoltek App, drivers and operators can schedule charging, track real-time energy use, and shift charging to off-peak tariff hours. That helps reduce costs and supports grid stability.
Connectivity options include Wi-Fi, Bluetooth, Ethernet, and 4G. Over-the-air (OTA) updates keep systems current and support cybersecurity needs. Livoltek also includes several operating modes.
Fast Mode provides maximum output, Dynamic Mode balances loads based on available grid capacity, and ECO Mode supports 100% solar PV integration. Together, these features strengthen the case for renewable-powered EV charging.
Livoltek designs its chargers with safety and durability in mind. The products comply with IEC 61851 standards and carry CE and RoHS certifications. Protection features include RCD protection (30 mA AC plus 6 mA DC), surge protection, and overload safeguards. Chargers also meet strong durability ratings, including IP65 and IK10.
The hardware is built for tough conditions. Livoltek chargers operate from minus 30°C to 50°C. They also work at altitudes up to 3,000 meters and humidity levels up to 95%. That range makes them suitable across Pakistan’s varied climates and terrain.
Global deployments support credibility.
Livoltek’s international presence adds confidence for long-term projects. With installations in more than 30 countries, the company has experience across both mature and growing EV markets. In Belgium, Livoltek chargers support commercial charging operations.
In Hangzhou, China, dense urban fast-charging stations handle heavy daily use. In Italy, residential users pair Livoltek chargers with solar PV systems for better home energy control. In Turkey, OEM collaborations show compatibility with local EV manufacturers.
These examples provide real-world validation. They also show that Livoltek can scale deployments while maintaining technical reliability.
Livoltek aligns well with Pakistan’s EV policy direction and charging station expansion plans. Its internationally certified products meet NEECA compliance requirements. They also benefit from the 1% import duty incentive. Because the solutions work for PPP-style rollouts, they can support both public goals and private investment needs.
With smart, investment-ready charging options, Livoltek positions itself as a technology partner for Pakistan’s 2.2 million EV target by 2030.
Charging infrastructure in Pakistan will define the next phase of EV growth.
As EV adoption rises, charging must keep pace. That means networks need to be dependable, scalable, and connected. Livoltek’s portfolio covers both ends of the market, from 7.3 kW home AC chargers to 240 kW commercial DC fast chargers.
In practice, this helps close the gap between EV growth and charging readiness. Livoltek supports the shift with hardware, software, and energy features designed for reliability, business viability, and long-term sustainability.
