When installing a new or upgrading an old panel with a new circuit breaker, it is necessary to install a residual current device. The device protects the line from overloads, short circuits and prevents household appliances from breaking down. Some craftsmen cannot decide whether to install an RCD before or after the machine. Popular diagrams will help you choose the connection method.
Operating principle of RCD, differences from difavtomat
The requirements of the PUE indicate the need to install protective equipment. It provides protection against electric shock and breakdowns of the cable insulation coating. The RCD can be connected to 2 wires in a network with a voltage of 220 V and to 4 wires in a network of 380 V.
The disadvantage of the device is the inability to detect overload or short circuit. An automatic switch will further protect it. The difference between the devices is the response of the RCD to the current imbalance of phase and zero with a nominal value of 10-30 mA. The device does not recognize overcurrents and may even catch fire under their influence.
The difavtomat operates normally at a current of up to 16 A, and turns off the line in case of leaks. Unlike an RCD, it has a time-current characteristic, which determines the speed of shutdown.
A switch with an electromagnetic release trips when the current value exceeds 5-10 times.
Features of integrated operation of protective devices
To understand how to install an RCD - after or before the machine, you need to understand the functionality of the installation. A good example would be a system consisting of a metering device, a residual current device, or a circuit breaker connected to one line.
The voltage from the transformer will pass through the RCD and the meter, supplied to the sockets. If there is no protection, the shutdown device burns out. The absence of a release in front of the meter will also lead to a line fire. The best option is a protective device on both sides.
According to the requirements of the PUE, two-pole modifications of machines are placed before the metering device. There is no need to place it in front of it - it is better to protect the line from the RCD to the consumers.
Installing an RCD before or after the machine
The device responsible for disconnecting the line does not respond to overcurrents, therefore it does not operate in the event of short circuits and overloads. A joint connection with a difavtomat will prevent these situations.
Since the circuit current exceeds the rated current, the internal components of the device are damaged and the contacts burn out. Models without built-in protective elements must be installed together with circuit breakers that will eliminate the effects of overloads and short circuits. In this case, the current of the circuit breaker should not exceed the current rating of the RCD. For example, the latter reacts to 40 A. The optimal switch for it is 36 A.
Connection diagrams for RCD with switch
Protective equipment must be connected using two cables. The first will carry the load current, the second will be directed to the external circuit from the consumers. In order not to think about installing an RCD before or after the machine, you should use popular schemes.
For several groups of difavtomats - one RCD
Clause 7.1.79 of the PUE allows for the protection of several lines using an RCD. The device needs to be placed on top, then the switches on the consumer groups. In case of short circuits, the current passes through the RCD to the group circuit breaker, then to the power cable and to the consumer. If the rating of the devices is selected correctly, none of them will be damaged.
The advantages of implementing the scheme include saving money and space in the distribution panel. The downside of the connection is that all groups are disconnected after the RCD is triggered.
Installation of RCD to the machine
The diagram provides for installation in the following sequence:
- Safety shutdown device.
- Difavtomat.
- Power cord.
- Consumer.
If there is damage, the short circuit current passes through the RCD until the circuit breaker stops.
RCD after the machine
The system is assembled according to the principle;
- switch - two-pole or feeder;
- counter;
- RCD;
- machines depending on the number of lines.
This option is correct, since it is easy to understand how to turn off the machine and apply input to its terminals. Despite the fact that RCDs break more often, they are easier to replace.
At the moment of a short circuit, the current will pass from the switch to the RCD, then to the power wire, then to the consumer. The switch stops and the protective device remains intact.
To prevent overload, a second automatic circuit breaker can be installed between the meter and the RCD.
Connecting an RCD to a group of machines
A similar circuit is assembled in a three-phase switchboard, where there are:
- 3 three-phase difavtomat;
- three-phase RCD;
- 2 single-phase RCDs;
- 4 single-phase single-pole circuit breakers.
From the first input circuit breaker, the voltage will go to the second three-phase circuit through the upper terminals. From the same device, one phase will go to a single-phase RCD, the second to the next one.
Single-phase protection devices have two poles, difautomatic devices have one. In order for the system to work without failures, it is necessary not to connect the working zero after it. For this reason, a zero bus must be installed after each protective device.
If there are two-pole circuit breakers, a separate zero bus is not installed. When two zeros are combined, a false positive may occur.
The first single-pole RCD is connected to differential circuit breakers No. 1 and No. 3, the second - to No. 2 and No. 4. The load is applied to the lower terminals.
The grounding bus is common, but it must be installed separately. Three phases with a working zero are connected to the input device. It is connected to the common zero, and then diverted to all RCDs. After device No. 1 it goes to a three-phase load, after the remaining single-phase loads - to each bus.
The wire into PEN and PE is not separated - ground, zero and 3 phases go to the shield.
Where should the RCD be installed?
To determine where to install the residual current device, you need to remember the speed of current flow through the wires. It is equal to the speed of light - 300 thousand km/sec. In a standard C 16 machine, the turn-on time when passing currents of 5×In (80 A) will be 0.02 seconds. The distance it will cover is 6000 km.
In the event of a short circuit, the current will completely pass through the coupling device - RCD - cable - socket. In this case, the switch does not operate instantly, as a result of which the insulation melts and the socket contacts burn out.
The RCD does not fail, since a short circuit is an inertial reaction. A time of 0.02 seconds is simply not enough to melt the insulating coating and damage the parts. Even taking into account the breaking capacity, the protective devices will work properly regardless of the installation location:
- Automatic - RCD. The phase is supplied using a jumper, and the zero is supplied directly to the protective device. The wire for the sockets is connected to the device and the PE bus.
- RCD - automatic. The wire is connected to the sockets through different paths. The phase one goes to the machine, the zero goes to the protection device or the zero bus.
Thus, there is no difference where the RCD was installed - before or after the automatic device.
Machine denomination
On the body of any device the nominal value is indicated - the value of the maximum continuous current that passes through the device without harm. This parameter is safe for current switching.
To ensure protection of the RCD itself, it is necessary to install a circuit breaker with a rating similar to or 1 more than the rating of the device. If you have a machine with a rating of 16 A, the RCD should be about 25 A. This current reserve will be enough to prevent the flow of energy when the load increases.
The machine is triggered when a current appears 13% higher than the nominal value: a 16 A modification will operate at a current of 18 A. If the RCD rating is equal, the contacts may heat up. To select the rating of a system with several circuit breakers, you need to sum them up and select an RCD with a larger rating.
The nuances of installing a protective device
Connecting an RCD in an apartment or house requires compliance with several rules:
- For several groups of consumers it is necessary to install one RCD and individual circuit breakers.
- If there are several RCDs, each of them will need a zero output bus.
- The TN-C system does not need to be zeroed.
- For “wet groups” it is mandatory to install a protective device with a shutdown rating of 10 mA.
- 30 mA devices are suitable for household appliance outlets that operate with water.
- The zero terminal is located on the right side of the device and is marked with the letter N. It should not be confused with the phase (index L).
- Input can be made to the lower or upper terminals.
- The classic circuit is implemented using a top input and a bottom output.
- Each RCD requires a personal zero block to which all working neutrals are connected.
- For lines with ripple currents, type A devices are required.
You can check the health of the system by pressing the “Test” button.
A protective shutdown device is needed to protect against overloads and short circuits. Due to the lack of response to overcurrents, it is installed in combination with a difavtomat. Connection diagrams allow installation of devices in any order. The only condition is the choice of the appropriate denomination.
How to properly connect machines and RCDs
Before starting work on connecting the machines, it is necessary to prepare all the devices:
- Mounting rail (sometimes it is already included with the finished shield). In other cases, you will need to measure the required length yourself and cut it with metal scissors.
- Screwdriver.
- Wire cutters.
- Wire stripper.
Connecting machines and RCDs - step-by-step instructions
Step 1. To begin, you should attach two buses to a metal DIN rail: neutral and ground. This is easy to do; you just need to insert them at one end and then snap them into place.
This is what the tires should look like after installation.
Step 2. Now you need to secure the machines in series. At the bottom they have a special latch, which you just need to pull down and then secure the machine to the rail.
Each machine must be secured to the rail one by one.
Step 3. Next you need to take a three-core cable. As a rule, the ground wire is yellow, the neutral is blue, and the phase is white or pink (as in our case).
It is important not to mix up the power cable wires
Step 4. First we need to connect the neutral wire to the neutral bus. This is easy to do - you just need to unscrew the bolt with a screwdriver.
There is a hole for cables of different sections
Step 5. Now you need to connect the yellow ground wire to the ground bus.
This is done in the same way as in the previous version.
Step 6. The next step is to secure the power wire (pink). Contrary to many opinions, it should always come from the top. You should connect the wire, but you shouldn’t tighten it right away - the reason is that you will then have to supply the power wire to all other machines.
In this step, the wiring is connected “live”
Step 7. Seventh: you need to insert the power wire into the upper machine, and then insert one end of the additional jumper into the same hole.
Now you need to insert the jumper into the adjacent machine, and then into the other, alternately tightening the screws
Step 8
Now you need to pay attention to the last differential machine. On its body, as a rule, there is a connection diagram. The first input here will be designated by the letter N - this will be zero, the second input will be designated as I (L) - this will be the phase
The first input here will be designated by the letter N - this will be zero, the second input will be designated as I (L) - this will be the phase.
Step 9. Now it has become clear that the phase is at the second input, which means that the other end of the yellow jumper wire should be secured there. We tighten the screw by analogy with the previous options.
Thus, we have completed connecting the power cable that comes from the shield
Step 10. Now you need to connect the wires that come from the room. First, you will need to remove the insulation layer from their ends. A special tool is used to strip the ends of the wires.
Here you can turn the screw and set the wire thickness
Step 11. Here you should also connect the neutral wire to the corresponding bus.
You can unscrew any loose bolt
Step 12: Now you need to secure the ground wire again.
The wire must be tightened carefully, without catching the insulation layer.
Step 13. Now from below we fix the power wire that comes from the electrical device.
The following wiring, by the same analogy, will be connected only from below
Step 14. Now you need to take an additional wire, connect it to the zero bus, and then to the first input on the differential machine.
We fix the wire in the first hole of the difavtomat
Connection errors: how to avoid them
The question is often asked: how to connect an RCD correctly so that the circuit works without failures? As an answer, the following are the most typical miscalculations when connecting protective equipment without grounding.
- Interweaving of neutral conductors coming out of the device into a single unit. This provokes unreasonable alarms and makes it difficult to check the correct installation. To make sure that the assembly procedure without grounding is followed, plug the electrical appliance into the socket connected to the RCD. If it works, the circuit is assembled correctly.
- Connecting the grounding wires of sockets to the neutral wire of the RCD or to a homemade grounding circuit. This violates electrical safety standards: an amateur circuit often causes a short circuit. When connecting the grounding switches of the sockets to water supply or heating pipes, an electric shock can strike not only the people living in the apartment, but also their neighbors.
- Neutral and ground connection. In this case, the RCD simply will not operate, since it works due to the difference in current strength in the phase and neutral wires. The connection between zero and ground provokes stable power outages in the apartment. If the grounding circuit does not work, then the grounding wires from the devices coming to the electrical panel should be wrapped with insulating tape: otherwise, the conductive parts of the household appliances may be exposed to dangerous voltage.
How to properly connect an RCD. demonstrates a video clip that details the sequence of all operations - thanks to the visual lesson, even a non-professional can easily cope with installing single-level protection. If the circuit is more complex, requires the coordinated operation of several protective devices, and is associated with a grounding connection, it is better to order installation by a professional electrician - so as not to be constantly without power and to operate electrical appliances safely.
Financial aspect
And the main thing that distinguishes RCDs and RCBOs in cases of private use at home is cost. It demonstrates well what most users will prefer, especially if we consider the device from the point of view of reliability, which is the same among famous manufacturers.
And here's why price will ultimately become the main aspect when choosing:
- the complexity of the connection will cease to bother you over time, as you gain experience and the installation will no longer be something difficult and unknown;
- finding the reasons for the shutdown will also not become a problem over time, when you have to go through about five unforeseen situations;
- reliability and workmanship will be the main aspect, because it will speak about long-term operation more than anything.
And now, when we come to the cost, taking into account all the connections and purchasing a panel with enough space for everything, the difference in price will not even exceed 4,000 rubles. This is not such a large amount that is worth saving in electrical matters, since you can lose much more due to improper power supply.
The choice between an RCD and an RCD is really worth paying attention to, because the life of not only household appliances, but also people depends on electricity.
Negligence and economy can lead to death or fire, which is not worth either one or the other. No tags for this post.
Purpose and operating principle of RCD
First of all, let's consider why this device is needed and for what purpose it is placed in the mains supply line. An unprofessional approach to these issues gives the impression that one circuit breaker is sufficient to reliably protect power lines. But ouzo is required in order to protect humans and animals from electric shock in the presence of its leaks.
A feature of devices of this class is their high sensitivity to very small currents, amounting to fractions of an ampere and always present in places of high humidity or damaged insulation. That is why installing an ouzo is the most reliable way to protect living organisms (including pets) from possible electric shock in a number of hazardous areas, found not only in city apartments, but also in private residential buildings.
The operation of an RCD is based on the principle of comparing currents in a special differential unit with a direct and reverse tap from a single-phase line inserted into it (its inclusion in the supply circuit is shown in the figure below).
Let us consider the essence of the functioning of this device in more detail in the form of the following sequence of its states:
- In normal (standard) operating mode, forward and reverse currents flowing through the differential unit have the same amplitude values. In this case, the protective devices do not react in any way to changes in currents in the line, since the magnetic fields created by the inductive coils are mutually compensated (the currents through them are equal in magnitude);
- If there is a leak through a living organism (its value is measured in microamperes), a current difference appears in the differential or comparing unit, disturbing the balance of magnetic fluxes F1 and F2;
- The consequence of this is the formation of a control pulse supplied to the executive relay, which disconnects the line from the consumer (load).
Note! The speed of such shutdowns or actuation of the executive relay is usually calculated in fractions of seconds (more precisely, microseconds). In such a short time, current processes do not have time to spread throughout the body of a living organism, which means one hundred percent protection from electric shock
In such a short time, current processes do not have time to spread throughout the body of a living organism, which means one hundred percent protection from electric shock.
Getting to know your device
Before connecting the RCD, it would be nice to understand its design, operating principle and main functions.
Why is it necessary?
The main task of an RCD is to protect people from electric shock. A person may accidentally touch exposed live wires. Or touch the body of a household electrical appliance on which potential has appeared due to insulation damage. In any of these cases, the device will work and the voltage supply will stop.
It also protects our home from fire, which can be caused by current leaks or ground faults. The fact is that in these cases, the magnitude of the current is not enough to turn off the circuit breaker, designed to work with overcurrents of overload and short circuit.
Similarities and differences between RCDs and automatic machines
The appearance, design and main parameters of the residual current device are very similar to circuit breakers. Both of these switching devices are used in both single-phase and three-phase network circuits. The main task of both RCDs and automatic devices is to instantly cut off the damaged section of the electrical network in emergency situations.
The only difference is that the circuit breaker operates with large currents (in case of overloads and short circuits, they exceed the operating current of the circuit breaker itself). And to trigger the RCD, a small leakage current is enough.
If you look at the appearance of the RCD and the machine, you will not find any special differences; it seems that they are the same device.
But you just have to take a closer look at the diagrams and numbers drawn on the case, and it will immediately become clear where the device is.
- Their rated operating voltage will be the same - 220 V or 380 V.
- The operating current may also be the same, which is classified according to a special scale (10, 16, 25, 32 A). Operating current is the maximum current at which the device operates normally.
- The fundamental difference will be such a parameter as the magnitude of the leakage current. You won’t find it on the machine, but on the RCD this figure is written and indicated in milliamps. It also has its own standard range - 6, 10, 30, 100 mA.
- An important difference between an RCD and a machine is the “TEST” button. These devices are designed with an additional test circuit that simulates leakage current. Using such a circuit, the serviceable condition of the RCD is checked, and the test is started with the “TEST” button.
The most important difference between automatic machines and RCDs is that the circuit breaker will also work in a two-wire, single-phase network, that is, it only needs a phase and a zero. And in order for the RCD to operate correctly, it is necessary to have a three-wire single-phase network; in addition to phase and zero, there must be a protective grounding.
Connection in an apartment and in a private house
For a washing machine,
the connection diagram in the apartment is carried out only via a single-phase network. For this reason, the connection is made in the following order:
Connection in the apartment
If you have power consumers of electricity in your apartment, for example, a washing machine or an electric oven, then it is recommended to additionally connect an RCD protective device.
As for connecting the machine in a private house, the connection sequence is as follows:
- Introductory machine.
- Electricity meter.
- Automatic from 100 to 300 mA, the choice is made depending on the amount of current consumed by all household appliances.
- Automatic machine for individual current consumption. Typically, 10 to 30 mA is used.
So, we have examined with you some of the features and differences of connecting an RCD in certain circumstances. Most importantly, remember that if you have no idea at all about this system, then it is better not to experiment.
A few words about typical errors when connecting an RCD:
To correctly install the RCD, we suggest that you familiarize yourself with some of its connection diagrams:
Residual current device
Connecting an RCD with automation
Connection to 380V network
Four-pole RCD without zero
Apartment group panel
1. Connecting a four-pole RCD to a three-phase network using a neutral. Your diagram shows a single-phase network. Above the green wire the inscription is blue. This wire should be yellow-green. 2. Connecting a four-pole RCD in a single-phase network. The figure shows a two-pole (single-phase) RCD.
Alexander! Thank you very much for your relevant comments. These shortcomings will be eliminated in the near future. We apologize for any inaccuracies in the illustrations posted.
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Video about installing electrical wiring yourself
Step-by-step wiring diagram
Let's look in detail at how to make electrical wiring in an apartment with your own hands. Proper design and thoughtful wiring diagram is the key to the safety of apartment residents. In the process of developing a circuit, you can optimize the arrangement of internal network elements, correctly calculate the required amount of materials, and select the type of wire. Having a wiring diagram and plan will also protect you in case of future repairs, eliminating the risk of accidental damage during repairs.
For an example of a wiring diagram in an apartment with your own hands, see the photo:
If you lack experience at this stage, it is better to turn to qualified electricians, but it is quite possible to draw up a connection diagram yourself. The plan and calculation of the internal electrical network is subject to approval by the energy inspectorate, so if there are serious errors, it will have to be redone.
How to properly organize electrical wiring in an apartment with your own hands from scratch, watch the video:
To prepare the diagram you will need a drawing and apartment plan. The plan should indicate the expected location of furniture and large household appliances. Guided by the requirements of the PUE, lighting points, sockets and switches are marked on the drawing.
In modern practice, connections are made in groups of points. In each room (except for the kitchen) there are two such groups: lighting and socket. In the kitchen there may be more connection groups, since it is recommended to connect the electric stove and some other powerful electrical appliances as a separate group.
To save materials, connection groups may look different:
- Lighting group of rooms, corridor and kitchen;
- Bathroom lighting group;
- Outlet group of the corridor and rooms;
- Kitchen outlet group;
- Electric stove.
If there is a heated floor system or other stationary heating electrical appliances, a separate connection group is provided for each of them.
At the wiring design stage, the power consumption and expected current in the network are calculated. This is necessary for the correct selection of RCD and wire cross-section. When calculating the total power, absolutely all electrical appliances in the apartment are taken into account, including a hair dryer and electric razor. The wiring must be able to withstand the simultaneous switching on of all current consumers. To determine the calculated current strength, the result obtained is divided by 220.
A residual current device must be installed on the highway to each connection group.
Two-phase electrical network: how to connect an RCD
First, it’s worth understanding why it is necessary to install protection in two-phase circuits. These are primarily observed in apartments located in old buildings, and in such conditions, additional safety is necessary, since more often in such housing there is no grounding, and current leakage in places where it should not exist often leads to a fire.
Let's talk about a single-level security system
The connection option is too simple at first glance, however, taking into account the nuances is important for complete safety
- The most powerful device is selected;
- The installation must provide for the transfer of current to the machine, and from it to all devices, including light bulbs and sockets;
- The design of this circuit is compact and elementary.
It is customary to install single-level protective devices on one device, too, for example, for a washing machine or water heater. To implement this method, a device with a power of 15 amperes is sufficient.
Scheme for connecting RCDs and automatic machines to the electricity meter
Let's turn to the question, like a machine gun, while implementing multi-level protection.
If a protected shutdown device is installed for individual areas, then we will talk about multi-level protection of a house or apartment. Typically, this diagram is for homes where grounding is present. In terms of price category, this option exceeds previous marks, and the devices are large in size. However, this system has such a significant advantage as the presence of autonomy for each individual household appliance. In the event of a short circuit in one of the devices, the entire living area will not be de-energized, but only the one in which there is a current leak from the network will cease to function. Here the connection to the electrical network changes; now there are as many cables coming out of the reading device as there are protection devices.
Today, RCDs and differential relays are often used, the connection diagram of which differs in that there is an absence of an automatic device. The general principle of connecting a system with a differential device is similar to the previous one, but the installation of additional current protection is provided.
Connection diagrams for RCD with switch
Protective equipment must be connected using two cables. The first will carry the load current, the second will be directed to the external circuit from the consumers. In order not to think about installing an RCD before or after the machine, you should use popular schemes.
For several groups of difavtomats - one RCD
Clause 7.1.79 of the PUE allows for the protection of several lines using an RCD. The device needs to be placed on top, then the switches on the consumer groups. In case of short circuits, the current passes through the RCD to the group circuit breaker, then to the power cable and to the consumer. If the rating of the devices is selected correctly, none of them will be damaged.
The advantages of implementing the scheme include saving money and space in the distribution panel. The downside of the connection is that all groups are disconnected after the RCD is triggered.
Installation of RCD to the machine
RCD in front of the machine
The diagram provides for installation in the following sequence:
- Safety shutdown device.
- Difavtomat.
- Power cord.
- Consumer.
If there is damage, the short circuit current passes through the RCD until the circuit breaker stops.
RCD after the machine
RCD after the machine
The system is assembled according to the principle;
- switch - two-pole or feeder;
- counter;
- RCD;
- machines depending on the number of lines.
This option is correct, since it is easy to understand how to turn off the machine and apply input to its terminals. Despite the fact that RCDs break more often, they are easier to replace.
At the moment of a short circuit, the current will pass from the switch to the RCD, then to the power wire, then to the consumer. The switch stops and the protective device remains intact.
Connecting an RCD to a group of machines
Connecting an RCD to a group of machines
A similar circuit is assembled in a three-phase switchboard, where there are:
- 3 three-phase difavtomat;
- three-phase RCD;
- 2 single-phase RCDs;
- 4 single-phase single-pole circuit breakers.
From the first input circuit breaker, the voltage will go to the second three-phase circuit through the upper terminals. From the same device, one phase will go to a single-phase RCD, the second to the next one.
Single-phase protection devices have two poles, difautomatic devices have one. In order for the system to work without failures, it is necessary not to connect the working zero after it. For this reason, a zero bus must be installed after each protective device.
If there are two-pole circuit breakers, a separate zero bus is not installed. When two zeros are combined, a false positive may occur.
The first single-pole RCD is connected to differential circuit breakers No. 1 and No. 3, the second - to No. 2 and No. 4. The load is applied to the lower terminals.
The grounding bus is common, but it must be installed separately. Three phases with a working zero are connected to the input device. It is connected to the common zero, and then diverted to all RCDs. After device No. 1 it goes to a three-phase load, after the remaining single-phase loads - to each bus.
Machine denomination
On the body of any device the nominal value is indicated - the value of the maximum continuous current that passes through the device without harm. This parameter is safe for current switching.
To ensure protection of the RCD itself, it is necessary to install a circuit breaker with a rating similar to or 1 more than the rating of the device. If you have a machine with a rating of 16 A, the RCD should be about 25 A. This current reserve will be enough to prevent the flow of energy when the load increases.
The machine is triggered when a current appears 13% higher than the nominal value: a 16 A modification will operate at a current of 18 A. If the RCD rating is equal, the contacts may heat up. To select the rating of a system with several circuit breakers, you need to sum them up and select an RCD with a larger rating.
In the apartment
Let's look at the case when the installation of protection equipment takes place in an apartment panel. Some builders, when delivering houses with an open plan, rent out housing without wiring the internal electrical network. This is understandable; it is not known where the partitions and, accordingly, sockets and lighting will be located. Therefore, they only introduce cable into the apartment.
On the floor electrical panel there is an introductory circuit breaker and an electric meter. The future owner enters into a contract with another contractor for internal electrical work. The wiring diagram will vary depending on customer requirements. It will depend on the circuit and the loads which RCD to install. If desired, any man can do this work on his own.
We will assume that the wiring in the apartment corresponds to the protection installation diagram presented in the previous figure. The input machine and counter are located in the floor panel, and all other elements will be located in the apartment box. To do this, you need to install an electrical panel in the corridor, next to the cable entry point. The sequence of work during installation is as follows:
- the input machine is turned off. A sign “Do not turn on, people are working” is posted;
- An outlet is connected to the cable that was brought into the apartment. It will be needed to connect working tools and lighting;
- the plate is removed, the machine is turned on;
- holes are drilled in the wall using a hammer drill for fastening the box. Dowels are inserted and the shield is attached to the wall with screws;
- after this, a metal strip is inserted and secured to the inner wall of the box with screws.
There shouldn’t be any difficulties if you perform all the steps consistently and carefully.
Simplified diagram of an apartment panel
This scheme is suitable for small one or two room apartments. Where the total length of all wires and cables does not exceed 300-400m.
There is a load switch at the input, not a circuit breaker. If you already have protection installed on the floor switchboard, after or before the meter (check this before assembling this circuit), then it is not necessary to install a machine at the input. The better the load switch from the machine can be found in the article Modular load switch or incoming machine.
The rated current of the input device for apartments with electric stoves and single-phase load should be from 40A and above. Below are group cables feeding certain groups, indicating the cable brand and its cross-section depending on the load. Outgoing lighting circuits made with a 1.5mm2 cable are protected by a 10A circuit breaker, socket groups with a cross section of 2.5mm2 are protected by 16A.
The bathroom is connected to the differential machine, i.e. sockets, lighting and all consumers in the bathroom are combined into one group. Moreover, the leakage current on the diff is selected to be 10 mA.
Some electricians set it to 30mA, citing possible false alarms. There is no specific prohibition in the rules; it stipulates that this protection should not exceed 30 mA. Why it is still better to set it to 10mA can be understood by familiarizing yourself with how a current of a certain magnitude affects your body:
True, in order to purchase 10mA differential automatics in stores, you will most likely have to place an order. Basically, devices with a leakage current of 30 mA predominate on the free market.
The hob and oven are powered in separate groups, implying that these are two different consumers. If you have an electric stove, that is, when the hob and oven are combined, you need to change the power cable and circuit breaker:
If you are concerned about power outages and want to protect your equipment from power surges, then you can slightly increase the cost of the circuit by adding a voltage relay to the input. Here is a schematic representation of a relay of the UZM-51M brand, as the easiest to connect (input-phase + zero and output-phase + zero).
The advantages of these schemes:
- inexpensive
- the best option for small apartments
- easy to install and connect
The big disadvantage of the circuit is that if there is a current leak in lines other than the bathroom, the protection will not work.
This circuit can be improved by placing an RCD at the input. Before doing this, make sure that a circuit breaker is installed in the floor panel where your meter is located, since it is prohibited to install an RCD without a circuit breaker. If there is already an RCD or automatic circuit breaker there, then it makes no sense to duplicate the protection. The circuit with the RCD at the input will be like this:
One caveat - if your total cable consumption in the wiring of an apartment is 400 m or more, then false alarms of the input RCD are possible due to total current leaks. Here it is already advisable to apply the RCD to separate groups, removing the introductory one from the apartment panel diagram.
Connection recommendations
Before connecting the ouzo to the power supply line along with distribution (linear) machines, the user should be reminded of a number of requirements for devices of this class by current regulations.
In general, they come down to instructions according to which the sequence and order of actions when installing an RCD are established
When considering these requirements, it is recommended to pay special attention to the following important points:
- In private houses with power equipment connected to a 380 Volt network, the installation of a three-phase protection device is required;
- To connect a three-phase ouzo, wires of the appropriate cross-section in insulation of different colors must be used;
Note! The color of insulating coatings is selected according to generally accepted standards. A visual representation of the choice of wire colors can be obtained in the figure below;
A visual representation of the choice of wire colors can be obtained in the figure below;
Wire colors by phase
To design the common (ground) terminal of a three-phase circuit, as a rule, a wire in blue insulation is used.
Taking into account all the above conditions, the connection procedure in this case can be represented by a list of recommendations and advice coming from specialists. Below are just a few of them:
- Protective devices are placed in their designated places only after the power line of the apartment or house is completely de-energized;
- Before connecting ouzo and automatic machines into a single electrical circuit, try to decide on the place intended for their installation on the instrument panel;
- It is recommended to choose it as close as possible to the electric meter installed on the input panel;
- The so-called “individual” RCDs, designed to protect a single supply line (bathroom, for example), must be used strictly for their intended purpose. They are not allowed to be installed after the meter as a general protective device for the apartment.
In the final part of the review, which covers the questions: why is an RCD needed, and how should it be connected to already installed equipment, we note the following.
When answering the question whether ouzo should be placed immediately after the counter, there is always a consonant statement. In this article you can also find out which ouzo to choose if the apartment has a given number of machines. We hope that after reading all the material presented, users will be able to independently understand the issues of installing protective devices in power circuits.
Standards for connecting the machine in the panel according to the PUE
Government authorities have requirements for shields and their installation that are specified in the PUE and must comply with GOST 51778-2001:
- the installed shield must comply with the documentation, which clearly reflects the number of machines and their power, as well as the class and degree of protection;
- the voltage symbol should be installed on the lid - 380V or 220V;
- the phase must be connected to a fixed contact;
- material of manufacture – metal or plastic coated with non-flammable paint;
- make markings on the wires indicating the devices that are connected;
- install jumpers from bus drives between the machines;
- There must be grounding of the box body. The case must have ears so that the electrical inspector can install the necessary seals.
Selection of RCD by parameters
After the RCD connection diagram is ready, it is necessary to determine the parameters of the RCD. As you know, it will not save the network from overloads. And from a short circuit too. These parameters are monitored by the circuit breaker. To ensure the safety of all wiring, an input machine is installed at the entrance. After it there is a meter, and then they usually install a fire protection RCD. It is chosen specifically. The leakage current is 100 mA or 300 mA, and the rating is the same as that of the input circuit breaker or one step higher. That is, if the input circuit breaker is set at 50 A, the RCD after the meter is installed at either 50 A or 63 A.
The fire protection RCD is selected according to the rating of the input circuit breaker
Why a step higher? Because automatic protective switches operate with a delay. They can carry a current that exceeds the rated current by no more than 25% for at least an hour. The RCD is not designed for prolonged exposure to high currents, and is likely to burn out. The house will be left without electricity. But this applies to determining the rating of a fire protection RCD. Others are chosen differently.
Rated current
How to choose the RCD rating? It is selected according to the method for determining the rating of the machine - depending on the cross-section of the wire on which the device is installed. The rated current of the protective device cannot be greater than the maximum permissible current for a given wire. To make selection easier, there are special tables, one of them is below.
Table for selecting the rating of the circuit breaker and RCD
In the leftmost column we find the wire cross-section; to the right there is the recommended rating of the circuit breaker. The RCD should have the same. So choosing the rating of the leakage current protective device is not difficult.
Trip current value
When determining this parameter, you will also need an RCD connection diagram. The rated breaking current of the RCD is the value of the leakage current at which the power is turned off on the protected line. This parameter can be 6mA, 10mA, 30mA, 100mA, 500mA. The lowest current - 6 mA - is used in the USA, in European countries, and we don’t even have them for sale. Devices with a maximum leakage current of 100 mA or higher are used as fire protection. They are standing in front of the entrance machine.
For all other RCDs, this parameter is selected according to simple rules:
- Protection devices with a rated shutdown current of 10 mA are installed on lines that go into rooms with high humidity. In a house or apartment, this is the bathroom; there may also be lighting or sockets in the bathhouse, swimming pool, etc. The same shutdown current is set if the line powers one electrical appliance. For example, a washing machine, electric stove, etc. But if there are sockets on the same line, more leakage current is needed.
- An RCD with a leakage current of 30 mA is placed on group power lines. When more than one device is connected.
This is a simple algorithm based on experience. There is another method that takes into account not only the number of consumers, but also the rated current in the protection zone, or rather, the cross-section of the wire, since the rated current of the power supply line depends on this parameter. This is more correct, since it explains how to select the value of the leakage current for a general RCD, for example, and not just for devices that are installed on consumers.
Table for selecting the rated shutdown current for RCDs
It is also necessary to take into account the individual leakage currents of each device. The fact is that on every more or less complex device some small current “leaks away”. Responsible manufacturers indicate it in the specifications. Let’s say there is only one device on the line, but its own leakage current is more than 10 mA, install an RCD with a leakage current of 30 mA.
Monitored leakage current type and selectivity
Different instruments and devices use current of different forms, accordingly, the RCD must control leakage currents of different types.
- AC — alternating current (sinusoidal shape) is monitored;
- A - variable + pulsating (pulses);
- B - constant, pulsed, smoothed variable, variable;
- Selectivity. S and G - with a shutdown time delay (to exclude accidental operations), the G-type has a shorter shutter speed.
Selecting the type of leakage current to be monitored
The RCD is selected depending on the type of load being protected. If digital equipment is connected to the line, either type A is required. The lighting on the line is AC. Type B is, of course, good, but too expensive. It is usually installed in areas with increased danger in production, and very rarely in the private sector or in apartments.
RCDs of class G and S are installed in complex circuits if there are RCDs of several levels. This class is chosen for the “highest” level, then when one of the “lower” ones is triggered, the input protective device will not turn off the power.
Why install an RCD?
An RCD machine needs to be installed - this is understandable, you can’t do without it in the house, but why install a separate machine on the washing machine, what’s the point? First, let's understand the concepts. For electricians, every working electrical appliance is called a consumer, and a washing machine is a fairly large consumer, creating a significant load on the wiring. Therefore, it is advisable to lay separate electrical communications for it, not forgetting to protect the circuit by installing a machine.
Consumers such as a computer and TV do not require a separate RCD, since they operate in a normal environment and create less load on the network. The washing machine operates in a humid environment, that is, such equipment is, by definition, at risk, which means its energy supply must be approached with all responsibility. And if we are talking about a modern expensive washing machine with a drying function, then in this case not a single machine should protect such equipment.
Note! A washing machine with a dryer with the “Wash - Rinse - Spin - Dry” program on creates approximately one and a half times more load on the electrical wiring than a conventional automatic machine.
What kind of magic RCD machine is this, what does it consist of and how does it work? First, let's define the components of the RCD; it consists of:
- transformer;
- housings;
- chain breaking mechanism;
- self-testing mechanism;
- electromagnetic cut-off (for the latest devices).
The RCD is triggered if there is an excessive load on the electrical wiring. In this case, the machine forcibly breaks and de-energizes the circuit. A similar situation can arise due to the fact that a person touches exposed wiring or water gets on the wire, the machine will work and prevent a tragedy. The RCD is designed for repeated use, so it does not need to be changed if a surge occurs (unlike fuses). The machine is an absolutely necessary protection for a washing machine.
Connection diagrams for RCDs in a single-phase network
Most household consumers are powered by a single-phase circuit, where one phase and neutral conductor is used to supply them with electricity.
Depending on the individual characteristics of the network, single-phase power supply can be provided according to the following scheme:
- with a solidly grounded neutral (TT), in which the fourth wire acts as a return line and is additionally grounded;
- with combined neutral and protective conductor (TN-C);
- with separated zero and protective grounding (TN-S or TN-CS; when connecting devices indoors, you will not find any difference between these systems).
It should be noted that in the TN-C system, in accordance with the requirements of clause 1.7.80 of the PUE, the use of differential circuit breakers is not allowed, except for the protection of individual devices with the obligatory combination of zero and ground from the device to the RCD. In any situation, when connecting an RCD, the characteristics of the supply network should be taken into account.
Without grounding
Since not all consumers can boast of having a third wire in their wiring, residents of such premises have to make do with what they have. The simplest circuit for connecting an RCD is to install a protective element after the input circuit breaker and the electric meter. After the RCD, it is important to connect circuit breakers for different loads with the corresponding shutdown current. Please note that the operating principle of RCDs does not provide for disconnecting current overloads and short circuits, so they must be installed together with circuit breakers.
Rice. 1: Connecting an RCD in a single-phase two-wire system
This option is relevant for apartments with a small number of connected devices. Since if there is a short circuit in any of them, shutting down will not bring any noticeable inconvenience, and finding the damage will not take much time.
But, in cases where a sufficiently branched power supply circuit is used, several RCDs with different operating current values can be used.
Rice. 2: connecting an RCD in a branched single-phase two-wire system
In this connection option, several protective elements are installed, which are selected according to the rated current and operation current. As general protection, an incoming 300 mA fire protection RCD is connected here, followed by a neutral and phase cable to the next 30 mA device, one for sockets, and the second for lighting; a pair of 10 mA units are installed for the bathroom and nursery. The lower the response rating is used, the more sensitive the protection will be - such RCDs will operate at a significantly lower leakage current, which is especially important for two-wire circuits. However, it is also not worth installing sensitive automation on all elements, since it has a high percentage of false positives.
With grounding
If there is a grounding conductor in a single-phase system, the use of an RCD is more appropriate. In such a scheme, connecting the protective wire to the device body creates a path for current leakage if the insulation of the wires is broken. Therefore, the protection will operate immediately in the event of damage, and not in the event of electric shock to a person.
Rice. 3: Connecting an RCD in a single-phase three-wire system
Look at the figure; the connection in a three-wire system is made in the same way as a two-wire system, since only a neutral and phase conductor are required for the device to operate. The grounding device is connected only to the protected objects through a separate grounding bus. Zero can also be connected to a common zero bus; from the zero contacts it is routed by wires to the corresponding devices connected to the network.
As in a two-wire single-phase circuit, with a large number of consumers (air conditioner, washing machine, computer, refrigerator and other amenities of civilization), an extremely unpleasant option is the freezing of all of the above electronic circuits with loss of data or disruption of their functionality. Therefore, several RCDs can be installed for individual devices or entire groups. Of course, connecting them will result in additional costs, but will make finding damage a more convenient procedure.
The nuances of installing a protective device
Connecting an RCD in an apartment or house requires compliance with several rules:
- For several groups of consumers it is necessary to install one RCD and individual circuit breakers.
- If there are several RCDs, each of them will need a zero output bus.
- The TN-C system does not need to be zeroed.
- For “wet groups” it is mandatory to install a protective device with a shutdown rating of 10 mA.
- 30 mA devices are suitable for household appliance outlets that operate with water.
- The zero terminal is located on the right side of the device and is marked with the letter N. It should not be confused with the phase (index L).
- Input can be made to the lower or upper terminals.
- The classic circuit is implemented using a top input and a bottom output.
- Each RCD requires a personal zero block to which all working neutrals are connected.
- For lines with ripple currents, type A devices are required.
You can check the health of the system by pressing the “Test” button.
A protective shutdown device is needed to protect against overloads and short circuits. Due to the lack of response to overcurrents, it is installed in combination with a difavtomat. Connection diagrams allow installation of devices in any order. The only condition is the choice of the appropriate denomination.