Comparison NAC RLM1800G2-T vs NAC RLM1000-DY

The capture width provided by the unit, in other words, the width of the strip of land cultivated in one pass. In fact, this size corresponds to the width of the working nozzle.

The large working width is useful when processing large open spaces, as it allows you to finish the job in a small number of passes. On the other hand, for hard-to-reach places, relatively narrow tools are better suited, able to go where a wider unit will not fit. In addition, the width of the tool directly affects the weight and price.

In general, it makes sense to compare in terms of working width only units of the same type (see above). However, it is worth noting here that trimmers do not differ so much from each other — most models capture from 25 to 45 cm (and a wide processing band is provided by moving the nozzle from side to side). As for the other types, in the most modest models the capture width does not exceed 40 cm, in the heaviest and most powerful it can be 56 – 60 cm or even more(in mini tractors — up to 1.5 m).

The minimum cutting height provided by the lawnmower — that is, the smallest height of grass that can remain after the passage of the machine. It makes sense to pay attention to this indicator mainly in cases where the lawn is planned to be cut as short as possible. In addition, the lower the minimum height (with the same maximum), the wider the height adjustment range of this model.

The maximum cutting height that the lawn mower can achieve is the maximum height of grass that can be left after the machine has passed.

This parameter is relevant mainly for those cases when you want to leave the grass on the lawn relatively long. In addition, lawn mowers with high cutting heights have a wide range of mowing adjustments.

The highest angle of ascent or descent at which the mower maintains normal operation.

This parameter is indicated mainly for autonomous robotic mowers (see "Type") — it is for them that it is most relevant (in traditional models, everything depends mainly on whether the operator can keep the mower on the slope). In this case, the angle is indicated as a percentage, similar to how it is done on road signs: the number of percent corresponds to how many metres the terrain rises every 100 m of the road. For example, an angle of 25% means an ascent of 25 metres every 100 metres (or 25 cm every metre).

The most advanced modern robots are able to overcome slopes of 50% (that's about 30°) and even more. It is worth choosing according to this indicator, taking into account the characteristics of the area where the unit is planned to be operated: for example, for a flat lawn without ups and downs, you can not look at the permissible slope at all.

The area of the site for which the lawn mower is designed. It cannot be argued that this parameter is critical when choosing a device, these are only manufacturer's recommendations and are very conditional. However, they are more than justified and generally show the available front of work based on the heating of the motor, the capacity of the tank or battery, and other factors that affect the duration of work.

The ability to control the operation of a robotic lawn mower from a smartphone or tablet, and in some implementations, even from a computer. Communication can be established via a wireless Bluetooth channel or via a Wi-Fi network. Features of this control may vary depending on the model of lawn mower. So, in some instances you need to use a proprietary mobile application, for others it is enough to open a special page in an Internet browser. In any case, this function allows you to remotely access the control of the robotic lawn mower using mobile devices. And via a Wi-Fi network, control can be carried out from any corner of the globe where there is Internet coverage. This will come in handy when you are away from home - for example, on vacation or on a business trip.

Maximum number of mowing zones that can be stored in the memory of the robotic lawnmower (see "Type").

The purpose of having multiple mowing zones is that you can set different operating modes for each individual zone. For example, you can mow the grass in front of the house every two to three days to keep it looking neat, while the area behind the house, which is less visible, can be mowed once a week. Similarly, you can set different processing times for different zones — for instance, avoid sending the mower to a play area during the day when children might be playing, and keep it away from bedroom windows at night to avoid disturbing sleepers.

In modern robotic lawn mowers, the number of mowing zones usually does not exceed three — this is typically sufficient in most cases.

Additional sensors included in the design of the robotic lawnmower (see "Type").

— Strike. A sensor that reacts to blows to the body of the device. It is mainly used for fixing collisions and avoiding obstacles: when a collision occurs and the sensor is triggered, the robot changes its direction of movement, trying to bypass the object that triggered the trigger. Such an opportunity will be especially useful for models without a mapping system (see "Functions"), however, it can also be useful if there is a built-in map: after all, in addition to permanent obstacles, other, temporary ones (for example, garden furniture taken out into the yard ). In addition, on some models, data from the collision sensor can be used to correct the built-in map.

— Tilt. A sensor that detects the tilt of the body in one direction or another. Mainly used to prevent rollover: when the angle of inclination reaches critical values, the mower reverses or otherwise changes the driving mode in an attempt to prevent the increase in inclination. This function will be especially useful when used in areas with relatively difficult terrain, with ups and downs.

— Rise. A sensor that reacts to the rise of the body above the ground — for example, if the device was picked up. With such a rise, the mower blades are open, which is fraught with injuries; the sensor prevents this; when it is triggered, the knives automatically stop. And in some models, this function also plays the role...of “anti-theft”: when the case is lifted, an alarm may turn on, warning the owner of an attempted theft.

— Overturning. A sensor that reacts to the flip of the body upside down. The main task of such a sensor is to stop the rotating knives so that they do not injure people who approach the mower (for example, curious children). And some models, when rolled over, can even send a message to the owner, warning him about the incident "state of emergency" and the inability to continue driving.

— Rain. A sensor that reacts to rain — more precisely, to the ingress of moisture on the body of the device, and sometimes to the presence of water under it. Robotic mowers themselves are made moisture resistant, and the main meaning of such a sensor is that lawns are usually not mowed in the rain: wet grass creates excessive resistance to the knives, they can become clogged with wet ground — as a result, the quality of the haircut noticeably deteriorates, and the mower experiences abnormal loads. Usually, when the sensor is triggered, the robot stops working and returns to the charging station.

— Obstacles. A sensor that detects the presence of obstacles in the path of the device. Unlike the shock sensor described above, which performs a similar function, this sensor usually works on a non-contact principle — for example, ultrasonic or infrared. This allows you to reduce to an absolute minimum the likelihood of collisions with various obstacles, which is especially important if there are delicate objects in the cultivated area — for example, fragile garden sculptures.

Nominal voltage of the battery used in the unit with the corresponding engine type (see above). Theoretically, a higher voltage allows you to achieve more power, but in fact there is no direct relationship between these points. In addition, manufacturers choose batteries to deliver the intended power, rotational speed, and other performance. Therefore, in the selection and normal use of the unit, this parameter has a secondary, reference value; it may be needed mainly for some specific tasks, for example, searching for a spare battery or a “non-native” charger, or comparing different batteries by capacity (see below).