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Comparison Bosch EasyControl CT 200 vs Salus RT 310i

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Bosch EasyControl CT 200
Salus RT 310i
Bosch EasyControl CT 200Salus RT 310i
from £192.58 
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Main
Proximity sensor activates the touch screen
Suitable for
gas boiler
electric boiler
 
gas boiler
electric boiler
heater / underfloor heating
Specs
Typeelectronicelectronic
Connectionwirelesswireless
Control busEMS / OpenTherm
Mountingon wallon wall
Max. load3600 W
Temp adjustment range5 – 35 °C5 – 35 °C
Hysteresis0.25 – 0.5 °C
Air temp sensor
Outdoor temp sensoroptional
Communication range (indoor)30 m
Timer typeweekly
More features
Features
display
holiday mode
control via Internet
frost protection
 
display
 
control via Internet
frost protection
temp sensor calibration
Power sourcemains
battery /2xAA/
Thermostat dimensions96x96x27 mm
Added to E-Catalogfebruary 2019october 2017

Suitable for

The type of equipment for which the regulator is suitable.

Modern thermostats and automation systems can be used for:

- For different types of boilers — gas, electric, solid fuel.
- For heaters and underfloor heating - for both at the same time: the control features in both cases are very similar, which makes it easy to combine them in one device.
- For pumps — namely for circulation pumps of heating systems.
— For heat pumps. A heat pump provides heat transfer from the environment to the room, providing heating. (Air conditioners work on a similar principle, but their main task is cooling).
— For fancoils. A fancoil is a device that cools or heats air by passing it through a system of pipes with a coolant circulating through them. And for the necessary heating or cooling of the coolant, another component of the system is responsible - a chiller, usually installed outdoors. A feature of such climate systems is that most of them can be used not only for heating in the cold season but also for cooling in the hot season.
— For outdoor system. Regulators for various climatic equipment installed outdoors. These can be, for example, anti-icing systems, devices f...or heating pipelines, chillers for chiller-fan coil systems, etc.

In many models, several options are combined at once; for example, most devices for electric boilers are quite compatible with gas boilers.

In any case, it is the first criterion that one should pay attention to when choosing.

Control bus

The control bus for which the controller is designed.

The control bus can be described as a channel through which thermostats and controlled devices exchange signals. Often such a channel allows you to combine a fairly extensive set of equipment into one system. From a practical point of view, the meaning of this parameter is as follows: for normal operation, the thermostat must use the same bus as the boiler (or other controlled device), otherwise the interaction between them will be impossible. As for specific options, eBus (used mainly by Protherm and Valiant), OpenTherm, EMS and EMS Plus, as well as Bus BridgeNet(Ariston proprietary technology) have become widespread in climate technology. At the same time, among thermostats, you can find devices that support several options at once — usually EMS and OpenTherm. Also, note that the EMS and EMS Plus standards are not mutually compatible (with rare exceptions — such equipment is labelled "EMS / EMS plus").

Max. load

The maximum load in terms of current power that the thermostat can withstand. In other words, the maximum electrical power that it can pass through itself without failures and damage.

The choice for this parameter directly depends on the power consumed by the boiler or heater connected through the thermostat; load limitation is of particular importance when working with electric boilers, the energy consumption of which is measured in kilowatts. When connected directly, the power of the heater should not exceed the maximum load of the thermostat, otherwise the latter will simply fail. However, when using additional protective devices (contactors), many models allow connection to a more powerful load than originally allowed.

Hysteresis

Automatic temperature control hysteresis provided by the device.

Hysteresis can be described as the difference between the on and off temperatures of a system controlled by a thermostat. Usually, the permissible deviations of the actual temperature from the nominal one in one direction or another are half the hysteresis. So, at a set temperature of 22 °C and a hysteresis of 0.5 °C, the controller will turn on the heating as soon as the room temperature drops to 21.75 °C, and turn it off when it rises to 22.25 °C. Accordingly, the lower this indicator, the more carefully the temperature is maintained and the fewer fluctuations. On the other hand, small hysteresis values require accurate and expensive thermal sensors, increase fuel/energy consumption and wear of the entire system, and create an increased risk of false alarms (for example, from a cool draft on the thermal sensor). In addition, relatively small temperature fluctuations are practically imperceptible in terms of human comfort. Therefore, many modern thermostats have a hysteresis of 1 °C — this, usually, is quite enough for domestic use.

Also note that this parameter can be both fixed and adjustable. The first option is simpler and cheaper, and the second provides additional options for setting the thermostat to the specifics of the situation.

Outdoor temp sensor

Features of an outdoor temperature sensor used with a thermostat.

Such a sensor, as the name suggests, monitors the outdoor temperature and provides additional information that contributes to the accurate and efficient operation of the automation. For example, with a significant cold outside, the heating system can turn on in advance, without waiting for the room to become colder and this will be recorded by the internal sensor. It avoids unnecessary temperature fluctuations and increases the overall efficiency of the system.

Thermostats that allow outdoor temp sensor connection may initially have such a sensor in the kit, or optionally supplied with it (in this case, the presence of the sensor should be specified separately and, if necessary, ordered additionally). These details are specified in this paragraph.

Communication range (indoor)

The maximum communication range between the receiver and the transmitter of the wireless thermostat (see "Connection"), ensured when operating indoors.

There are walls between the thermostat and the remote unit that impede the passage of the signal. Therefore, the communication range indoors will inevitably be less than outdoors (see below). It is also worth noting that this parameter is indicated based on a certain average number and thickness of walls. In fact, in some cases (in particular, if the walls are thick), the communication range can be noticeably less. Therefore, it is worth choosing according to this parameter with a significant margin. Nevertheless, it is quite possible to compare different models with each other in terms of the communication range indoors.

Timer type

The type of timer provided in the design of the thermostat. In this case, a timer means a scheduler that allows you to programme different operating modes for different periods (for example, lower the temperature at night and increase it by the time you get up). Such schedulers are divided into types depending on the time covered.

Daily. The timer allowing to set the programme within 24 h; then the programme will be repeated every day. This variety is the simplest and, as a result, inexpensive. On the other hand, for most users, the daily routine on weekdays and weekends are noticeably different, and, most likely, the timer will have to be reprogrammed at least twice every week — before the weekend and at the end of the weekend.

Weekly. A timer that allows you to set a work programme for certain days of the week. The simplest varieties of such schedulers work according to the “5 + 2” scheme: one programme is set for 5 working days, the other for 2 days off. However, there are more advanced options — up to the ability to programme each day of the week separately. Anyway, weekly timers are more convenient and require less reprogramming than daily timers but they are much more expensive.

Features

Display. The presence of its own screen in the design of the regulator. Such a screen is usually a simple LCD matrix with segment digits. However, even on such a screen, very diverse data can be displayed (including temperature with an accuracy of fractions of a degree), and this function significantly expands the capabilities of the thermostat and makes it more convenient. Note that it makes sense to install the display primarily in electronic models (see "Device type"), for such thermostats it is almost mandatory (but in mechanical ones, on the contrary, it is almost never used).

Protection of the pump from "souring". During non-working hours — for example, between heating seasons — deposits can form on the parts of the circulation pump of the heating system, which can make it difficult to rotate the impeller, reduce the efficiency of the pump, or even disable it altogether. This phenomenon is called "souring". To avoid it, automatic regulators may provide protection against acidification: periodically (once every few weeks) the pump is turned on for a short time, which prevents the formation of deposits (and removes those that have already formed).

Holiday function. A special regime provided for in case of a long absence of people in the house (for example, during a vacation — hence the name). In holiday mode, you can set a certain temperature to...be maintained for several days (for example, a week; the maximum duration depends on the thermostat model). At the same time, in some models, this function is combined with frost protection (see below) and allows you to set only the minimum temperature (usually 5 °C); in others, the holiday temperature can be programmed.

— Random mode. A mode that provides for the inclusion of various heating functions in a random order (but without causing critical loads on the heating system). The most popular use of this feature is to simulate that someone is at home; this can stop intruders planning a theft in the absence of the owners.

— Management via the Internet. Ability to control the controller via the Internet. The device itself is usually connected to the network via Wi-Fi, and the control features may be different. For example, in some models you need to use a proprietary application installed on a smartphone or tablet, in others it is enough to open a special page in any browser. However, anyway, this function allows you to control the heating system remotely, from anywhere in the world. This can be extremely convenient in unforeseen situations — for example, if during the absence of the owner on the street it gets warmer. In addition, additional features such as advanced timer programming may be available with Internet control.

— Frost protection. A function that prevents freezing of the coolant in heating systems. Freezing water expands, which can lead to mechanical damage and depressurization of the system. To avoid this, regulators with this function are able to "monitor" that the temperature of the coolant does not fall below 5 °C, and, if necessary, turn on the heating to maintain the temperature. This function is relevant primarily for cases when the disconnected heating system must be left unattended for a long time during the cold season.

— Protection from children (blocking). The ability to lock the control panel of the regulator so that a curious little child cannot knock down its settings. The lock, usually, is turned on and off in such a way that an adult, but not a child, can easily do it — for example, by simultaneously pressing certain keys.

— Heater operating hours counter. Built-in counter that tracks the total heating time. This feature makes it much easier to keep track of the operating mode and heat costs, eliminating the need for the user to keep records manually and allowing you to track working hours even when there is no one nearby.

— Sensor calibration t. Possibility to calibrate the temperature sensor of the thermostat. In fact, situations may arise when the readings of the temperature sensor for one reason or another differ from the actual temperature in the room — for example, the controller is installed near an electrical appliance that generates heat and knocks down the setting, and neither device can be moved. For such cases, calibration is provided — an amendment to the readings of the temperature sensor. For example, if the thermometer in the middle of the room reads 20°C and the regulator's sensor reads 22°C, you can correct the thermostat to -2°C and the temperature displayed on the regulator will correspond to the true temperature. Of course, the correction can also be taken "in the mind" without reconfiguring the device; however, most often it is easier to set the necessary parameters in advance and not get confused in the calculations.

Power source

The type of power source used in the thermostat.

— Mains. Powered by a conventional 230 V power grid. A device connected to such a power supply can operate without interruption for almost unlimited time, which is especially important for thermostats and automatic regulators — during working hours they must be constantly turned on, otherwise, the very meaning of such devices is lost. In addition, the mains connection is suitable for controllers of almost any power consumption. The only drawback of this option is the need to run the wire to the device, but this moment is hardly critical.

— Battery. Powered by its own battery or a disposable battery, in this case, both options are allowed. This type of power supply is found in wireless thermostats (see "Connection"); its main advantage is its complete independence from sockets, which greatly simplifies installation and makes the outdoor unit completely wireless. In some models, it can even be removed from the mount and carried with you. At the same time, the power consumption of thermostats is small, and a small battery may well last for a year or even more.
Bosch EasyControl CT 200 often compared
Salus RT 310i often compared