Omoda 9 Description OMODA 9 is a modern premium-class SUV with plug-in hybrid drive, introduced to the market in 2025. It's equipped with a 34.5 kWh battery that allows driving up to 145 km in electric mode (WLTP). In the top version with all-wheel drive, the hybrid system generates 395 kW of system power and accelerates the car from 0 to 100 km/h in approximately 4.9 seconds. The onboard AC charger supports up to 6.6 kW, and fast DC charging reaches up to 70 kW, allowing the battery to charge from 30 to 80 percent in approximately 25 minutes. Table of Contents Charging Options What Do You Gain with AmperePoint Portable Chargers? Suitable Models for OMODA 9 How Fast Can I Charge the OMODA 9? Summary (FAQ) - Frequently Asked Questions Charging Options Charging the OMODA 9 is done using the built-in onboard charger with a maximum power of 6.6 kW. This means the car uses single-phase AC charging, making it work best with portable electric chargers or public stations offering alternating current in 1-phase mode. What Do You Gain with AmperePoint Portable Chargers? Since the OMODA 9 supports AC charging up to 6.6 kW, our portable chargers Q74 (7.4 kW), P72 (7.2 kW), and P35 (3.7 kW) or Q37 (3.7 kW) provides convenient solutions for home use. The Q74 set to 6.6 kW allows full battery charging in approximately 6 hours, which is ideal for overnight charging cycles. The P35 model (3.7 kW) works with standard outlets and is excellent for daily, relaxed charging, though full charging takes approximately 11 hours. The Q74 offers power adjustment, charging scheduling in the Tuya Smart app, and integration with smart home systems via Wi-Fi and Bluetooth. The P35 features a simple control panel with current adjustment and delayed start function. Both devices have comprehensive safety features, including protection against overload, overvoltage, and overheating, and thanks to IP65/66 protection class, they can be safely used both outdoors and in the garage. Suitable Models for OMODA 9 Option A: Charging with Industrial Socket (EE) and 230V Socket Q74 (7.4 kW Portable Charger) Features: Power: 7.4 kW (single-phase 32A, CEE socket) Full charging: ~6 hours (at 6.6 kW setting) Integrated cable Mobile app control Price: Link to Q74 P72 (7.2 kW Portable Charger) Features: Power: 7.2 kW (single-phase 32A, CEE socket) Full charging: ~6 hours Simpler operation, solid construction Price: Link to P72 Option B: Charging with 230V Socket P35 (3.7 kW Portable Charger) Features: Power: 3.7 kW (single-phase 16A, Schuko socket) Full charging: ~11 hours Works with standard 230V outlets Price: Link to P35 Q37 (3.7 kW Portable Charger) Features: Power: 3.7 kW (single-phase 16A, Schuko socket) Full charging: ~11 hours Mobile app control Price: Link to Q37 How Fast Can I Charge the OMODA 9? Using a 6.6 kW AC charger, replenishing energy from 30 to 100 percent takes approximately 5.5 hours. At lower power (e.g., around 3.3 kW), it takes approximately 11 hours and works best for lighter, daily use energy top-ups. On the road, fast DC charging with up to 70 kW allows energy replenishment from 30 to 80 percent in approximately 25 minutes, ensuring even long trips run smoothly without unnecessary breaks. Charging Method Power Number of Phases 0-100% Time 230 V (Schuko) 2.3 kW 1-phase ≈ 15 h 3.7 kW Charger 3.3 kW 1-phase ≈ 10.5 h 7.4 kW Charger (max AC) 6.6 kW 1-phase ≈ 5.5 h 22 kW Charger (max AC) 6.6 kW 1-phase ≈ 5.5 h DC (fast charging stations) up to 70 kW DC 30-80% in ≈ 25 min Summary The OMODA 9 Super Hybrid is equipped with a 34.46 kWh gross battery that provides solid range for daily use. The car supports AC charging up to 6.6 kW, and during trips, fast DC charging up to 70 kW significantly reduces downtime. For home use, charging from a 230 V outlet (2.3 kW) works as a simple and reliable energy source, while a wallbox at 3.3 kW provides noticeably shorter charging times. Full utilization of the onboard charger's capabilities are achieved with a 6.6 kW wallbox, allowing the battery to be replenished in approximately 5.5 hours. On the road, fast DC charging allows energy replenishment from 30 to 80 percent in approximately 25 minutes, guaranteeing smooth and comfortable travel even on longer routes. (FAQ) Frequently Asked Questions Which charger should I choose for my electric or plug-in hybrid vehicle? The choice of charger depends on your vehicle's specifications, such as maximum AC power supported, number of phases (single-phase or three-phase), and connector type (usually Type 2 in Europe). A single-phase vehicle will only use one phase of a three-phase charger. Before purchasing, check your car's maximum AC charging or contact us - we'll be happy to help you select the right equipment. Can I charge an electric car using a standard electrical outlet? Yes, but this method has limitations. Charging from a standard 230 V outlet allows a maximum current of 16A, which corresponds to approximately 3.7 kW. Some vehicles, especially plug-in hybrids, don't support faster charging (sometimes they may support 32A, which gives 7.4 kW). How long does it take to charge an electric car? Charging time depends on battery capacity, charger power, and current type (AC/DC). Typically, a car with a 50 kWh battery and an 11 kW charger will charge in approximately 50 ÷ 11 = 4.5 hours. This is an estimate that may vary based on factors such as the car's onboard charger efficiency, battery condition, and ambient temperature. Is home charging cheaper than charging at public stations? Yes, home charging is typically more economical. The average cost of electricity in Poland ranges from 0 (e.g., solar panels) to 1 PLN/kWh, resulting in a cost of driving 100 km at approximately 0-15 PLN. Public station costs can range from 1.50 PLN/kWh to 3.50 PLN/kWh or more, depending on the operator and charging method. Do I need special permission to install a charger at home? In single-family homes, special permission is usually not required, but it's a good idea to consult with an electrician to ensure compliance with regulations and home safety. In multi-family buildings, consent from the housing cooperative or building manager may be required. Can I use an extension cord to charge an electric car? Using extension cords for charging electric cars is not recommended. Standard extension cords may not support high loads, which can lead to overheating or even fire. If you must use an extension cord, it should be specifically designed for high power and should meet appropriate quality standards and be approved by the charger manufacturer.