Is there a big difference in range between 72V, 60V, and 48V?

48V mainstream electric vehicles have a theoretical range of about 40-68km, 60V mainstream electric vehicles have a theoretical range of about 70-110km, and 72V mainstream electric vehicles have a theoretical range of about 72-115km. The following is a detailed introduction to the range of 72V, 60V, and 48V: 1. 72V: The mainstream battery models for 72V include 72V20Ah and 72V32Ah, with a motor power generally around 1000W and an average speed of about 50km/h. Through related calculations, the theoretical range of a 72V20Ah electric vehicle can reach 72km, while the theoretical range of a 72V32Ah electric vehicle can reach 115km. 2. 60V: The mainstream battery models for 60V include 60V20Ah and 60V32Ah, with a motor power generally around 600W and an average speed of about 35km/h. Through related calculations, the theoretical range of a 60V20Ah electric vehicle can reach 70km, while the theoretical range of a 60V32Ah electric vehicle can reach 112km. 3. 48V: The mainstream battery models for 48V include 48V12Ah and 48V20Ah, with a motor power generally around 350W and an average speed of about 25km/h. Taking 48V12Ah as an example, through related calculations, the average current at constant speed is about 7.3A (motor power/voltage), the theoretical driving time is 1.6h (battery capacity/average current), and the theoretical range can reach 40km (theoretical driving time * average speed). Similarly, the theoretical range of a 48V20Ah electric vehicle can reach 68km.

I often ponder about electric vehicles, and the differences in range between 72V, 60V, and 48V voltage levels are quite noticeable. Higher voltage means the battery can store more energy at the same capacity. For example, a 48V system has a smaller battery power, typically covering only about 50 to 60 kilometers on a full charge. The 60V system is moderate, usually lasting 60 to 70 kilometers. The 72V system is much stronger, easily exceeding 70 kilometers, and with a high-capacity battery, it might even surpass 80 kilometers. In real-world driving, many factors affect the range, such as lower temperatures reducing battery efficiency, or faster consumption when using air conditioning in summer or climbing hills. However, the core difference lies in the energy storage capacity of the voltage itself. If you frequently ride an electric motorcycle for long-distance travel, the advantage of a 72V system is particularly significant—offering an extra 20 to 30 kilometers of range and reducing the need for frequent charging. When choosing, consider your personal needs: a 48V system is sufficient for short commutes, but if you prioritize comfort and convenience, the difference in higher voltage is worth the investment.