Owners of private houses, apartments, cottages or small utility rooms connected to electricity often need to convert amperes to watts or solve the inverse problem. To carry out transfers of units that determine the characteristics of the current, well-known formulas are used, which are based on Ohm's law.
We will talk about how to correctly translate physical units. In addition, the article we presented provides methods for determining the operating power and starting currents of home appliances. The nuances of calculating the cross section of the components of the wiring are analyzed.
Determining the power of connected devices
In order to calculate the value of the maximum possible power on a circuit section, it is necessary to summarize the performance of all connected devices. But not everything is so simple: many of these devices are complex electrodynamic systems, so you need to correctly determine their parameters.
Active and full power components
Active (or consumed) power of the device (P) determines the irrevocable loss of electricity during its operation. It is this indicator that the electric meter will calculate, and, therefore, it affects the amount of resources (money) spent during the operation of the device.
The active component in watts is indicated for all consumers of electricity. However, there is another indicator - power factor (cos (f)), which can be found in the technical documentation, as well as on special plates or labels with the main parameters.
Through it, you can calculate the total power (S) devices according to the following formula:
S = P / cos (f)
The physical meaning of these quantities can be described as follows: current with full power goes from the source (transformer) to the electrical appliance, which converts its active component, and returns the remaining (reactive) back to the network. Thus, the load on the circuit components (wiring and circuit breakers) must be calculated precisely taking into account the full power.
You can calculate the full power according to the data that is present in the technical data sheet of the device or on the nameplate of the electric motor
For most household appliances, the coefficient is unity, therefore, the active and full power are the same. But if the consumer has capacitors (capacities) or an inductor, a reactive component occurs.
You need to pay attention to the following types of equipment:
- refrigerators;
- washing machines;
- air conditioners;
- Pumps
- induction furnaces and stoves;
- fluorescent lights;
- TV sets
- computers and other equipment with electronic filling.
Also, machine tools with electric motors, arc welding machines, and other equipment, whose total power is significantly higher than consumed, are often connected to the electrical system of private houses or households. Therefore, you need to carefully familiarize yourself with the technical characteristics of the devices before connecting them to the network.
Inrush currents of compressors and motors
If the household appliances are equipped with an electric motor, compressor, incandescent filament or a transformer at the entrance to the power supply, then at the beginning of its operation, starting currents occur for a short time (IP) Their value can several times exceed the nominal values (In) specified in the device passport.
These values are related by the following formula:
IP = k * In
Here k - coefficient of multiplicity of starting current.
The documentation for electric motors contains all the data necessary to calculate the starting current, including the coefficient of multiplicity (last column)
The multiplicity index exceeds the value “2” for the following common household appliances:
- submersible pump;
- fridge and freezer;
- powerful vacuum cleaner;
- Washer;
- split system;
- microwave;
- neon lighting;
- some types of power tools (drill, perforator, compressor).
The calculation of the total power in the presence of such devices in the circuit must be carried out taking into account their starting currents. Since the time of increased power consumption is small, and synchronous inclusion is unlikely, it is enough to take one, the most powerful device with respect to the starting currents.
Amperage and wiring parameters
To determine the necessary cross-section of the electrical wiring conductors and the rating of the circuit breakers, the total number of watts is converted into amperes and the maximum continuous current is obtained.
The correlation of the cross-section of the conductors and the maximum current strength acceptable for wiring is performed using tables provided by cable manufacturers. Depending on the manufacturer, the main indicators may differ slightly, but at the same time they must always comply with the current GOST 31996-2012.
An example of a table of correspondence of the section of conductive conductors and the maximum permissible continuous current, depending on the wiring method
Sometimes they choose a wiring not with a minimum acceptable cross-section, but with a slightly larger one. This is justified, since the reserve bandwidth allows you to connect new appliances without expensive dismantling of old and laying new cables.
The parameters of the circuit breakers installed in the switchboard are selected so that it is guaranteed to operate on shutdown if the current exceeds the value determined as the maximum allowable for the wired wiring.
Rated current of the machine (In) are calculated by the current acceptable for the cable (Ip) according to the following formula:
In <= Ip / 1.45
Typically, an automatic machine is selected with a maximum value among the permitted nominal values in order to minimize the likelihood of tripping with a strong, but still permissible load on the circuit.
The relationship of basic electrical quantities
Power and amperage can be connected through voltage (U) or circuit resistance (R) However, in practice, apply the formula P = I2 * R is difficult because it is difficult to accurately calculate the resistance in a real area.
Single and three phase connection
Most electrical wiring for household use is single-phase.
In this case, the conversion of the total power (S) and AC power (I) using a known voltage occurs according to the following formulas arising from Ohm's classical law:
S = U * I
I = S / U
Now the practice of bringing a three-phase network to residential, domestic and small industrial facilities has become widespread. This is justified from the position of minimizing the costs of cables and transformers, which are borne by the company supplying electricity.
When summing up a three-phase network, an input three-pole circuit breaker is installed (top left), a three-phase meter (top right), and for each selected circuit - ordinary single-pole devices (bottom left)
The cross-section of the wiring conductors and the rated power when using three-phase consumers is also determined by the current strength, which is calculated as follows:
Il = S / (1.73 * Ul)
Here is the index “l”Means the linear nature of the quantities.
When planning and subsequent wiring indoors, it is better to distinguish three-phase consumers in separate circuits. Devices operating from standard 220 V, try to more or less uniformly disperse in phases, so that there is no significant distortion in power.
Sometimes they allow mixed connection of devices operating both from one and from three phases. This situation is not the easiest, so it is better to consider it with a specific example.
Let a three-phase induction furnace with an active power of 7.0 kW and a power factor of 0.9 be included in the circuit. A microwave oven of 0.8 kW is connected to phase “A” with a coefficient “2” of the multiplicity of inrush current, and to phase “B” - a 2.2 kW electric kettle. It is necessary to calculate the power supply parameters for this section.
Scheme of connecting devices to the network. With this configuration, a three-phase circuit breaker is always installed. It is forbidden to use several single-phase machines for protection
We determine the total power of all devices:
Si = Pi / cos (f) = 7000 / 0.9 = 7800 V * A;
Sm = Pm * 2 = 800 * 2 = 1600 V * A;
Sfrom = Pc = 2200 V * A.
Determine the current strength of each device:
Ii = Si / (1.73 * Ul) = 7800 / (1.73 * 380) = 11.9 A;
Im = Sm / Uf = 1600/220 = 7.2 A;
Ic = Sc / Uf = 2200/220 = 10 A.
We determine the current strength in phases:
IAND = Ii + Im = 11.9 + 7.2 = 19.1 A;
IB = Ii + Ic = 11.9 + 10 = 21.9 A;
IFROM = Ii = 11.9 A.
The maximum current with all the electrical appliances turned on flows through phase “B” and will be equal to 21.9 A. A sufficient combination for the trouble-free operation of all devices in this circuit is a 4.0 mm section of copper conductors2 and circuit breaker on 20 or 25 A.
Typical household voltage
Since power and current strength are connected through voltage, it is necessary to precisely determine this value. Before the introduction of GOST 29322-2014 from October 2015, the value for an ordinary network was 220 V, and for a three-phase network - 380 V.
According to a new document, these indicators are brought into line with European requirements - 230/400 V, but most household power supply systems are still functioning according to the old parameters.
You can get the real voltage value using a voltmeter. If the numbers are much smaller than the reference, then you must connect the input stabilizer
Deviation of 5% of the real value from the reference is permissible for any period, and 10% - no more than one hour. When the voltage decreases, some consumers, such as an electric kettle, an incandescent lamp or a microwave, lose power.
But if the device is equipped with an integrated stabilizer (for example, a gas boiler) or has a separate switching power supply, then the power consumption will remain constant.
In this case, given that I = S / U, a voltage drop will increase the current strength. Therefore, it is not recommended to select the cross-section of the cable conductors “end to end” to the maximum design values, but it is desirable to have a margin of 15-20%.
Multimeter current measurement and subsequent power calculation:
Electronic device for determining voltage, current and automatic power calculation:
Determining the current strength, knowing the network voltage and the total power of the devices in the circuit, is quite simple. The difficulty lies in measuring or calculating the initial parameters.
If there are doubts about the correctness of the solution found, it is better to turn to electricians, as errors in the calculations can lead to serious problems.
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