In modern urban life, electric scooters are favored by more and more people as a convenient means of transportation. Especially for people who commute short distances, a low or medium-range electric scooter is undoubtedly an ideal choice. It not only allows us to get rid of crowded public transportation but also allows us to enjoy a free and easy riding experience. In this article, we will recommend several cost-effective electric scooters for short-distance commuting, which will hopefully help you choose and buy more wisely. Let’s explore these wonderful electric scooters together!
Advantages of Low and Medium-Range Electric Scooters
- Convenient: electric scooters are compact and lightweight and can be easily carried and parked, making them suitable for short-distance trips in the city.
- Cost saving: Compared with cars, electric scooters are less expensive to use, do not require fuel, and have relatively low charging costs and single charging time.
The “range” of an electric scooter basically depends on its rechargeable battery. However, how far your electric scooter can travel on a single charge also depends on other key factors such as battery type and cell, tires, total weight, your riding style, and riding conditions.
Battery
Analysis
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Voltage (V)
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Voltage is analogous to water pressure; the higher the voltage, the greater the “pressure” in the current.
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Amp-hours (Ah)
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Battery capacity refers to the amount of charge a battery can store, typically measured in ampere-hours (Ah).
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Watt-hours (Wh)
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Battery energy is the total amount of energy stored in the battery, typically measured in watt-hours (Wh). Wh = V x Ah
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To determine the capacity of a battery, it’s best to use watt-hours (Wh) as the unit. Watt-hours provide a more accurate representation of the energy stored in the battery, taking into account both voltage and current. Unlike ampere-hours (Ah), watt-hours offer a comprehensive and standardized measurement of energy. The energy of a battery is determined by its voltage and ampere-hours, calculated using the formula Wh = V x Ah.
- A 48V 8.8Ah battery is actually much larger than a 24V 12Ah battery and provides a longer range.
- 48Vx8.8Ah = 422Wh; 24Vx12Ah = 288Wh
Common Battery Specifications for Electric Scooters
Battery Energy
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Range
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Charging Time
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Applicable Models
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130 Wh- 650 Wh
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10-25 miles (16-40 km)
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2.5-6 hours
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Entry-Level / Economy / Commuter Scooters
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650-1000 Wh
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15-30 miles (24-48 km)
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4-9 hours
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Mid-Range Scooters, Commuter Scooters
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1000 Wh-3000 Wh
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30-90 miles (48-144 km)
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10 hours or more
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High-Performance Electric Scooters
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These are just average estimates, and some models may fall below or above the given ranges. Test conditions: smooth road surface, temperature 23°C, 65 kg rider in low gear at constant speed.
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Comparison of Electric Scooter Parameters with a Range of up to 30 Kilometers
Images
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Product Name
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iScooter i9 Pro
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iScooter i9S
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Atomi E20
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Recommended Reasons
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Portable
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Powerful
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Cost-effective choice
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Top Speed
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30km/h (18.64 mph)
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35km/h (21 mph)
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25km/h(15.53 mph)
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Motor Power
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350W
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500W
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250W (Max Output 500W)
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Battery
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42V 7.5Ah
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42V 10AH
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36V 7.5Ah
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Weight
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13.5kg(29.76lbs)
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17.4kg(38.36 lbs)
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16kg(35.27 lbs)
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Max Range
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25km (15.53 miles)
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25-30km (15-18.64 miles)
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30km (18.64 miles)
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iScooter i9 Pro–Portable
- Motor Power: 350W
- Battery: 42V 7.5AH
- Brakes: E-ABS Electric Brake + Rear Disc Brake
- Max Load: 120kg (264 lbs)
- Max Range: 25km (15.53 miles)
- Max Speed: 30km/h (18 mph)
The iScooter i9 Pro electric scooter features switchable energy-saving comfort and sports modes. In Comfort Mode, speeds of up to 15 mph (24.14 km/h) can be achieved, while in Sport Mode, speeds of up to 18 mph (30 km/h) can be achieved. Equipped with a powerful 350W motor that maximizes the distance of each ride and can handle inclines of up to 20°. 7,500mAh high-capacity battery with a maximum range of up to 25km (15.53 miles) and a charging time of 4-5 hours. Built-in dual braking system and anti-vibration device provide a high-speed and stable riding experience. Weighs only 13.5kg (29.76 lbs), easy to carry and store, folds in 3 seconds. Fits in most car trunks, easy to carry.8.5 inch (21.59 cm) honeycomb tires no need to worry about air leakage. Waterproof rating up to IP54 can be ridden on rainy days. The control panel displays speed, gear, mileage and battery information. Suitable for commuting and short trips, and an ideal gift for friends and family.
iScooter i9S–Powerful
- Motor Power: 500W
- Battery: 42V 10AH
- Brakes: E-ABS Electric Brake + Drum Brake
- Max Load: 120kg (264 lbs)
- Max Range: 25-30km (15-18 miles)
- Max Speed: 35km/h (21 mph)
The iScooter i9S electric scooter is equipped with a powerful 500W motor for a smooth and efficient ride. It allows you to ride up to 30 kilometers (18 miles) of maximum range, so you can enjoy longer journeys and faster commutes. The scooter is equipped with E-ABS electric brakes and drum brakes for more responsive and reliable braking and improved safety. The front shock system and 10-inch pneumatic tires allow for a smooth and stable ride even on uneven surfaces. It also has three gear adjustments, so you can choose the speed that suits you. It is also equipped with LED lights, including a front light and a tail light, to make you safer and more visible when riding at night.
Atomi E20–Cost-effective
- Motor Power: 250W (Max Output 500W)
- Battery: 36V 7.5Ah
- Brakes: Front Electric Brake, Rear Disc Brake
- Max Load: 120kg (264 lbs)
- Max Range: 30km (18.64 miles)
- Max Speed: 25km/h (15.53 mph)
The Atomi E20 electric scooter has a powerful 250W motor (with a maximum output of 500W) and a 36V 7.5Ah battery, allowing you to ride more reliably and efficiently. It has three speeds to choose from, 10km/h (6.21 mph), 20km/h (12.43 mph), and 25km/h (15.53 mph), allowing you to enjoy a comfortable riding experience in different environments. With a maximum range of up to 19 miles (30 km) on a single charge, you can commute or explore without worrying about running out of battery. The Atomi E20 is equipped with front electric brakes and rear disc brakes to ensure that you have reliable braking power when you ride, so you can feel more confident and secure. The LED display and smart apps make it easy for you to monitor your speed and battery life and allow for even more functionality and control. The aluminum frame is durable and the IPX4 waterproof rating ensures protection against light rain and splashes. May you enjoy your ride!
FAQ
What is range?
The range of an electric scooter is how far it can travel on a single battery charge.
At present, most of the industry’s nominal range is inflated, a lot of water, a small number of credible or close to the nominal value, but the range is affected by the individual’s riding habits and the environment, and each person’s measured data are almost different.
Factors affecting the range of electric scooters
Only from the aspect of hardware and software, excluding the user himself and the factors of the use environment. Four key points that affect the range: battery capacity, motor power, motor control mode, and tires.
Factors affecting range
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Overview
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Analyze
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Battery capacity
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Batteries have the biggest impact on range.
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Scooters with higher-capacity batteries typically have greater range than smaller batteries.
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Motor power
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The efficiency of the motor greatly affects the range of the electric scooter.
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A more efficient engine can travel longer distances.
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Motor control mode
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Square wave control and sine wave control. Products with sine wave control are generally recommended (Ausom scooters).
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Sine wave control, comfortable handling, linear acceleration, higher cost, power saving at the start, low sound. Square wave control is simple and rough, cheap and stable, accelerating linearly, starting to rush, and cruising power saving.
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Wheel type
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The active and driven wheels work together for more efficient driving and maneuvering.
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Higher friction on the driving wheel and lower friction on the driven wheel result in a higher range and vice versa.
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Tire pressure
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Improper tire pressure can affect the range of an adult electric scooter.
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Under-inflated and over-inflated tires shorten driving distance.
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Tire Type
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Better quality and wider tires can help keep the electric scooter on stable ground more firmly, preventing slippage and reducing the range of motion.
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Wide and wire run-proof tires can drain batteries quickly compared to electric scooters equipped with standard tires. However, wider tires are of much better quality and longevity.
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Weight
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The heavier you are, the less range you have.
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It is recommended to keep your weight below the maximum carrying capacity of the scooter; otherwise, you may damage the electric scooter. If you are a lightweight rider, you will accelerate faster, use less battery power, and have a better range. Also, if you are heavier, your riding range may be reduced.
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Terrain
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Riding on rough terrain drains more battery power than riding on smooth surfaces.
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Electric scooters require more power to propel you up hills than down them. If it doesn’t have hill-climbing capabilities, it will consume more power and battery life.
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Wind
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Riding against the wind also drains more battery power.
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The effect of wind on the range of an electric scooter depends on the strength and direction of the wind. In a headwind, the electric scooter’s range may suffer because the vehicle needs to expend more energy to overcome wind resistance. Whereas, in downwind conditions, the electric scooter’s range may increase because the wind can help propel the vehicle forward and reduce energy consumption.
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Temp
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Cold weather reduces battery range.
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Riding a scooter when it’s too cold may reduce your mileage by as much as 50 percent, which won’t provide you with the energy you need.
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Riding style
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Avoid frequent starts and stops, try to move slowly.
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Frequent starts and stops can be particularly taxing on the brakes and put a lot of strain on the battery.
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Riding speed
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There should be a balance between your control and speed as you traverse different terrains.
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When you approach a curve quickly, the possibility of falling is high. It’s best to ride gently and avoid sudden stops or sharp turns. When you ride hard, you tend to exert more power and your distance traveled is reduced.
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Range, Battery Capacity, Number of Charges
Comparison of range, battery capacity and number of charges (x times/week).
Test conditions: Smooth road surface, temperature 23°C, 65KG rider riding at constant speed in low gear.
How Battery Affects the Range of an Electric Scooter
The range of an electric scooter is the distance it can travel on a single charge.
The voltage of an electric scooter has a direct impact on range. Electric scooters with a higher voltage usually have a larger battery capacity, allowing them to store more energy and travel a longer distance before recharging.
The performance of electric scooters is affected by the different batteries used in them. Examples include lithium-ion batteries and lead-acid batteries, which have a higher energy density than lead-acid batteries, and lithium-ion batteries can hold more power at the same volume, are lighter, and have a longer lifespan. So lithium-ion batteries can often provide higher voltage and improve scooter performance.
But consumers must also consider that factors such as body weight, rider weight, terrain and riding style can affect the actual range of an electric scooter.
How to Calculate the Range of an Electric Scooter Based on Its Battery?
The formula to calculate the range of an electric scooter is:
Range (km) = Battery Energy (Wh) ÷ Energy Consumption (Wh/km)
First, you need to determine the average amount of energy consumed per kilometer (energy consumption) by your electric scooter. This can vary based on your weight, terrain, wind resistance, and other factors.
For example, let’s assume your electric scooter has a battery energy of 360Wh and an energy consumption of 18Wh/km.
Range = 360Wh ÷ 18Wh/km = 20 km
This means your electric scooter can travel 20 kilometers on a single charge under ideal conditions.
Is the Size of the Electric Scooter’s Battery Related to its Range?