Comparison Yadea RN vs Maxxter Nova
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|---|---|---|
| Yadea RN | Maxxter Nova | |
| Outdated Product | Outdated Product | |
| TOP sellers | ||
Combined braking system. Informative LCD display. Spacious under-seat storage box. | This model has seats for the convenient location of two passengers. The model is equipped with a display for displaying information about the trip, a USB port and two trunks. Front disc brake, rear - drum. | |
| Product type | electric scooterbike | electric scooterbike |
| Max. load | 200 kg | 200 kg |
Driving performance | ||
| Range | 80 km | 80 km |
| Power | 1.63 hp | 1.35 hp |
| Power | 1.2 kW | 1 kW |
| Max speed | 45 km/h | 45 km/h |
| Speed modes | 3 | |
| Reverse gear |  |  |
| Parking mode | | |
| Max. climb angle | 12 ° | |
| Wheels | rubber inflatable tubeless 16 " | rubber inflatable tubeless 16 " |
| Front brake | disk | disk |
| Rear brake | drum | drum |
Battery | ||
| Battery type | graphene | |
| Battery capacity | 23 Ah | 20 Ah |
| Full charge time | 8 h | |
| Removable battery | | |
| USB output for charging | | |
Functions and features | ||
| Headlight and position lamps | | |
| Turn signals | | |
| Horn | | |
| Anti-theft system | | |
| Passenger seat | | |
| Carrier | | |
| Kickstand | | |
General | ||
| Wheelbase | 1280 mm | |
| Dimensions | 178x75x60 cm | |
| Weight | 105 kg | 105 kg |
| Added to E-Catalog | july 2023 | june 2023 |
Compare Yadea RN and Maxxter Nova
Electric scooters Yadea RN and Maxxter Nova have similar features, such as a maximum load of 200 kg, a range of 80 km, and a maximum speed of 45 km/h. However, the Yadea RN has a motor power of 1.2 kW, while the Maxxter Nova has 1 kW. Yadea's battery has a capacity of 23 Ah and is non-removable, whereas the Maxxter Nova has a capacity of 20 Ah and a removable battery. Both scooters are equipped with a USB port and have two trunks, but the Yadea RN offers a more advanced combined braking system. The choice between them may depend on preferences for power and charging convenience.
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Glossary
Power
The motor power of a vehicle, in horsepower.
In general, the power of electric motors is indicated in watts. However, in electric transport, this designation is also often indicated. This is done for the convenience of comparison with internal combustion engines: for internal combustion engines, especially in vehicles, horsepower is traditionally used, and it is more convenient for some users to evaluate the power of motors by this designation. At the same time, if the need arises, some units are easily converted to others: 1 hp. ≈ 735 W.
For the power value in general, see the relevant paragraph below.
In general, the power of electric motors is indicated in watts. However, in electric transport, this designation is also often indicated. This is done for the convenience of comparison with internal combustion engines: for internal combustion engines, especially in vehicles, horsepower is traditionally used, and it is more convenient for some users to evaluate the power of motors by this designation. At the same time, if the need arises, some units are easily converted to others: 1 hp. ≈ 735 W.
For the power value in general, see the relevant paragraph below.
Power
The motor power of a vehicle, in kilowatts. In addition to them, horsepower is also used (for more details, see above).
Let us clarify that in this case, we are talking about maximum power; the actual power can be adjusted while driving with the help of the accelerator. And in some models, it may even be possible to set a limit on the maximum power.
A more powerful motor allows you to carry more weight, reach higher speeds and/or have more torque. However, the energy consumption from the battery will also be high, and the battery life, with the same battery capacity, will be correspondingly less than when using a less powerful motor. Also note that in many countries, motor power is a criterion for classifying an electric vehicle as one or another variety. For example, according to this criterion, motorcycles and scooters can be formally separated, requiring different driving licences.
Let us clarify that in this case, we are talking about maximum power; the actual power can be adjusted while driving with the help of the accelerator. And in some models, it may even be possible to set a limit on the maximum power.
A more powerful motor allows you to carry more weight, reach higher speeds and/or have more torque. However, the energy consumption from the battery will also be high, and the battery life, with the same battery capacity, will be correspondingly less than when using a less powerful motor. Also note that in many countries, motor power is a criterion for classifying an electric vehicle as one or another variety. For example, according to this criterion, motorcycles and scooters can be formally separated, requiring different driving licences.
Speed modes
Speed modes allow you to limit the maximum speed of an electric scooter or moped for different riding conditions. With 2 modes, there is usually a calm and a faster option, with 3 modes an additional convenient medium level is added for the city, and 4 modes provide more precise customization for the yard, sidewalk area, regular road, or economical riding.
The more modes, the easier it is to balance speed, battery consumption, and safety. For example, the low mode is convenient for parking and moving next to pedestrians, the medium mode is for everyday trips, and the maximum mode is for open road sections.
The more modes, the easier it is to balance speed, battery consumption, and safety. For example, the low mode is convenient for parking and moving next to pedestrians, the medium mode is for everyday trips, and the maximum mode is for open road sections.
Reverse gear
The reverse gear allows you to move backward without turning around and manually rolling the vehicle. This feature is especially useful when parking, leaving a tight space, maneuvering in a courtyard, garage, or near a curb.
Parking mode
The electronic motion lock mode allows temporarily disabling the throttle response to prevent accidental movement of the vehicle. The parking mode is useful during stops, boarding, short breaks at a store, or when the scooter is near people. Unlike a complete power shutdown, parking mode usually allows for a quick return to the ride without restarting the entire system.
Max. climb angle
The maximum incline that the vehicle can overcome.
Most vehicles, even the most inexpensive ones, can cope with angles of 10 – 12 ° without problems. So you should pay special attention to this parameter only if you have to deal with very steep slopes.
It is also worth mentioning that on road signs the angle of elevation is usually indicated not in degrees, but as a percentage. This means that to evaluate the capabilities of a particular unit, it may be necessary to convert degrees to percentages or vice versa. For this, there are special tables and calculators.
Most vehicles, even the most inexpensive ones, can cope with angles of 10 – 12 ° without problems. So you should pay special attention to this parameter only if you have to deal with very steep slopes.
It is also worth mentioning that on road signs the angle of elevation is usually indicated not in degrees, but as a percentage. This means that to evaluate the capabilities of a particular unit, it may be necessary to convert degrees to percentages or vice versa. For this, there are special tables and calculators.
Battery type
— Lead-acid. The most popular type today. Their design is based on a combination of electrodes made of lead compounds and an electrolyte, the role of which is played by sulfuric acid diluted with water. It is the classic type of batteries that use a conventional liquid electrolyte. Their widespread use is due to their simple design and low cost, combined with good capacity and starting currents characteristic of all lead-acid batteries, as well as resistance to low temperatures (compared to other types of batteries).
— Lithium-ion (Li-Ion). Lithium-ion technology was originally used in batteries for portable gadgets such as mobile phones, but such batteries are being used more and more recently in vehicles. Among the advantages of such batteries, one can note smaller dimensions and weight, the ability to deliver high starting currents and the ability to be charged with high currents (the latter significantly reduces the charging time), as well as numerous charge-discharge cycles. In addition, such batteries contain a minimum of harmful substances, do not use acids and heavy metals, and some models are even directly positioned as absolutely harmless to the environment. The main disadvantage of lithium-ion models is the high price.
— Gel. A type of lead-acid battery in which the electrolyte is not liquid, but condensed to a gel state. This design prov...ides several advantages compared to the classic version (see above): more charge-discharge cycles (which means longer service life); minimum leakage of electrolyte and associated gases; no need for maintenance; resistance to deep discharges and temperature fluctuations, etc. On the other hand, such batteries cost significantly more.
— Lithium-ion (Li-Ion). Lithium-ion technology was originally used in batteries for portable gadgets such as mobile phones, but such batteries are being used more and more recently in vehicles. Among the advantages of such batteries, one can note smaller dimensions and weight, the ability to deliver high starting currents and the ability to be charged with high currents (the latter significantly reduces the charging time), as well as numerous charge-discharge cycles. In addition, such batteries contain a minimum of harmful substances, do not use acids and heavy metals, and some models are even directly positioned as absolutely harmless to the environment. The main disadvantage of lithium-ion models is the high price.
— Gel. A type of lead-acid battery in which the electrolyte is not liquid, but condensed to a gel state. This design prov...ides several advantages compared to the classic version (see above): more charge-discharge cycles (which means longer service life); minimum leakage of electrolyte and associated gases; no need for maintenance; resistance to deep discharges and temperature fluctuations, etc. On the other hand, such batteries cost significantly more.
Battery capacity
The capacity of the battery installed in the vehicle, in ampere-hours.
Theoretically, the battery life of the vehicle directly depends on this parameter: a more capacious battery can supply the electric motor longer. However, the actual amount of stored energy depends not only on the capacity in amp-hours but also on the nominal voltage of the battery. A more correct unit in this sense is watt-hours, taking into account the difference in nominal voltages; see "Battery capacity" below for details on this designation. Additionally, the operating time on a charge will depend not only on the characteristics of the battery but also on the power consumption of the vehicle itself — and it is determined by the motor power and several other parameters.
Theoretically, the battery life of the vehicle directly depends on this parameter: a more capacious battery can supply the electric motor longer. However, the actual amount of stored energy depends not only on the capacity in amp-hours but also on the nominal voltage of the battery. A more correct unit in this sense is watt-hours, taking into account the difference in nominal voltages; see "Battery capacity" below for details on this designation. Additionally, the operating time on a charge will depend not only on the characteristics of the battery but also on the power consumption of the vehicle itself — and it is determined by the motor power and several other parameters.
Full charge time
The time needed to charge the vehicle battery from 0 to 100%.
This parameter allows you to estimate what breaks you will have to take between trips to charge the vehicle. But keep in mind that a short charging time may mean a low battery capacity.
Separately, we note that in modern battery technology, “emergency” charging technologies can be used, which make it possible to partially replenish the energy supply in a very short time — for example, to charge a battery by 40% in an hour, which in normal mode would be fully charged in 8 hours.
This parameter allows you to estimate what breaks you will have to take between trips to charge the vehicle. But keep in mind that a short charging time may mean a low battery capacity.
Separately, we note that in modern battery technology, “emergency” charging technologies can be used, which make it possible to partially replenish the energy supply in a very short time — for example, to charge a battery by 40% in an hour, which in normal mode would be fully charged in 8 hours.