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Comparison Ninebot KickScooter P65E vs Ninebot KickScooter P100SE

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Ninebot KickScooter P65E
Ninebot KickScooter P100SE
Ninebot KickScooter P65ENinebot KickScooter P100SE
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Main
Intelligent Battery Management System (BMS). Self-healing tyres. Front, rear and side E-MARK reflectors. Built-in turn indicators. USB port for smartphone charging.
Self-healing tyres. Built-in USB Type-C charging port. 10W headlight. Daytime Running Lights. Direction indicators. NFC technology to unlock and lock the scooter.
Max. load120 kg120 kg
Foldable
Performance
Range65 km100 km
Power500 W650 W
Max. power980 W1350 W
Max. speed25 km/h25 km/h
Speed modes
/5, 18, 20 and 25 km/h/
/5, 18, 20 and 25 km/h/
Pedestrian mode
Max. climbing angle12 °13 °
Driverearrear
Wheels
rubber air-filled
10.5 "
rubber air-filled
10.5 "
Front brakediscdisc
Rear brakeelectric (regenerative)disc and electric
Suspensionno suspensionfront and rear
Regenerative
Battery
Battery capacity12 Ah23 Ah
Voltage46.8 V47.2 V
Full charge time4 h7 h
Features
Display
App control
USB charging outputUSB AUSB A
Headlight
Turn signals
Brake lights
Signal / bell
Stand
Dustproof, waterproofIPX5IPX5
General
Frame materialaluminiumaluminium
Size119х63х121 cm118х63х129 cm
Dimensions (folded)119х63х57 cm118х63х64 cm
Weight28 kg33 kg
Color
Added to E-Catalogmarch 2023march 2023

Range

The maximum distance that an electric scooter can travel on a single battery charge.

Usually the range is indicated for a flat road and driving only on an electric motor, without the help of a rider. So this indicator is quite conditional, in practice, the distance of the trip may be either less or more, depending on the characteristics of the road and driving style. Nevertheless, according to the claimed range, it is quite possible to estimate the autonomy of different models and compare them with each other.

Note that a large range (more than 50 km) requires capacious batteries, which affects the dimensions and weight of the device. The real need for such autonomy is not required so often, especially since many electric scooters are quite capable of driving in the usual way, without the use of an electric motor.

Power

The power of the motor installed in the electric scooter. In models with two motors (one per wheel), their total power is usually indicated.

A more powerful motor, on the one hand, has a positive effect on the speed and acceleration characteristics; on the other hand, it affects the cost of the device and requires more capacious batteries, which affect both the price and weight. In addition, at acceleration and low speeds, the scooter can be “helped” by pushing off with your foot. Therefore, in most modern models, the motor power is low — most often in range of 250 W, 300 W, 350 W. Power of 500 W is considered quite high, it allows you to reach speeds of 40 km/h and even higher. In the most advanced models, power is already measured in kilowatts, and the maximum speed can exceed 80 km/h; however, such "monsters" cost accordingly.

However, power also affects the ability to drive a vehicle, because depending on the country, various traffic rules are provided for driving a scooter.

Max. power

The power in watts that the electric scooter motor can develop at maximum speed. In general, for scooters with an electric drive, it is customary to indicate the rated engine power (see above), which ensures efficient operation of the motor for a long time. By maximum we mean power in the “gas to the floor” mode, achieved only in the short term. Using this parameter, you can roughly estimate the capabilities of a particular model, for example, in terms of speed dynamics - the more power, the faster the scooter accelerates.

Max. climbing angle

The maximum climbing angle that an electric scooter can overcome on engine power alone, without the help of legs. Models with engines of the same power may differ in this indicator (due to the difference in torque and wheel size).

Note that in the specifications the angle is usually indicated in degrees, while on road signs it is given as a percentage (1% corresponds to a rise of 1 m for every 100 m of horizontal movement). However, this moment is not particularly critical: if you often have to overcome a certain hill, you can clarify its slope by converting percentages into degrees (and vice versa) according to special tables. In addition, if the angle turns out to be too large, nothing prevents you from helping the scooter with your foot, in extreme cases, to overcome the climb on foot.

Rear brake

Like a handbrake, the rear brake can be drum, electric, or disc. In addition, there may still be a classic foot brake, as in ordinary scooters, or not at all.

— Disk. The disc brake on the rear wheel ensures a quick stop of the scooter. These brakes have a short-stroke friction clutch. Due to the small distance between the pads and the disc, the friction clutch very quickly comes into contact with the working surface of the brake disc. In this case, the friction clutch is pressed against the disk with a sufficiently large force. The disc brake allows the scooter to stop extremely efficiently. But when using a disc brake on the rear wheel, you should be careful, because when braking hard, especially when cornering, the scooter can skid to the side.

- Drum. The drum type brake has above average efficiency. The drum brake makes the rear wheel massive and heavy. This type of brake has a closed design. The pads are inside the wheel. Friction linings rub against the inner surface of the rim. Access to the drum brake is closed by a protective cover. Thanks to the closed design, neither moisture nor other blockages get inside the brake drum, which makes the brake operation more reliable and trouble-free. Among the shortcomings can be noted: an increase in the dimensions and weight of the wheel, the complexity of maintenanc...e.

- Foot. The simplest kind of clamping type brakes, which involves slowing down and stopping the scooter by pressing your foot on the fender of the rear wheel. Note that this is the least efficient braking system of the existing options.

- Electric - braking with the help of recuperation. The brake system of this type makes the stop extremely soft, slowing down occurs when the speed of the electric motor decreases. The rear location of the electric brake assumes that the electric motor is mounted on the rear wheel. The presence of an electric motor makes the wheel massive. The electric type brake system is highly reliable and durable, it does not require maintenance. But if the battery pack on the scooter runs out, the electric brake will not work. For such cases, an additional mechanical (hand or foot) brake is usually provided.

- Absent. The rear wheel is not equipped with a brake. In this case, the braking system is provided at the front. The advantage of scooters without a rear brake is that the vehicle will not skid to the side when braking actively when cornering.

Suspension

The electric scooter has a shock absorption system – it makes the ride more comfortable, smoothing out vibrations and shocks when moving on uneven road surfaces, but reduces the rolling ability and control accuracy.

Only front. In models with such shock absorption, the corresponding device for damping irregularities is installed only on the front wheel, while the rear wheel is fixed rigidly. Electric scooters with a front shock absorber combine good handling and provide comfortable movement on bad roads or over rough terrain.

Only back. Electric scooters in which only the rear wheels are shock-absorbed, while the front wheels are rigidly fixed. The rear shock absorber is designed to provide additional comfort when encountering various uneven road surfaces, but it is often inferior in efficiency to the front one.

Front and rear. An advanced type of shock absorption system on both wheels of an electric scooter. Dual-shock models are best at dampening vibrations felt by the rider and providing adequate traction on rough trails. At the same time, double depreciation reduces the rolling of the scooter to the greatest extent.

No Suspension. In electric scooters without shock absorption, the wheels are rigidly attached to the frame. This design is simple, and the corresponding models have a...good roll. However, the rider feels the entire terrain of the road in full.

Battery capacity

Battery capacity installed in the electric scooter.

Theoretically, a higher battery capacity allows for a longer range, but in fact, not everything is so clear. Firstly, motors of even the same power can differ in efficiency; secondly, the actual amount of energy stored in the battery depends not only on the capacity in amp-hours but also on the voltage in volts. So this parameter is secondary, and when choosing, it is worth focusing not so much on the battery capacity, but on the directly claimed range. You can compare capacity only for models with similar characteristics and the same supply voltage.

Voltage

In general, this parameter is of secondary importance; in fact, it is needed mainly when looking for a spare / replacement battery or a third-party charger. When choosing, it is worth paying attention to characteristics that are closer to practice - in particular, directly claimed speed and power reserve.

Full charge time

Time to fully charge the battery from zero to 100%.

The more powerful the device, the more capacious batteries it needs and, as a rule, the longer the charging time. In the heaviest models, it can reach 20 hours. However, such indicators are rare - most electric scooters are charged for a maximum of 8-9 hours, which allows you to put the device on charge “from evening to morning”.
Ninebot KickScooter P65E often compared
Ninebot KickScooter P100SE often compared