Categories: Sharing experience, Electrician at home, Automata and RCD
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Automata, difavtomats and ouzo, problems of choice

 


Automata, difavtomats and ouzo, problems of choiceClassification and practical experience of electrical wiring protection systems

Automatic machines or circuit breakers, this is what replaced the usual traffic jams, i.e. fuses in a ceramic case, where a blown wire was a protection against overcurrent.

Unlike plugs, automatic reusable devices and protection functions are separate. Firstly, protection against overcurrents (short circuit currents or short-circuit currents), and secondly, overload protection, i.e. the mechanism of the machine breaks the load circuit with a slight excess of the operating current of the machine.

In accordance with these functions, the machine contains two types of circuit breakers. Magnetic fast-acting circuit breaker for protection against short circuit with an arc extinguishing system (millisecond reaction time) and a slow thermal disconnect with a bimetal plate. Its reaction time is from several seconds to several minutes, depending on the load current.



Automata classification

circuit breakerThere are several typical characteristics of automatic shutdown: A, B, C, D, E, K, L, Z. A – for opening long circuits and for protecting electronic devices. B - for lighting networks; C - for lighting networks and electrical installations with moderate currents (overload capacities in current are twice as much as in V); D - for circuits with inductive load and electric motors; K - for inductive loads; Z - for electronic devices.


RCD classification

Residual current devices RCD protects people from electric shock. The RCD responds to a differential current, i.e. the difference between the currents in the forward and reverse wires. Differential current appears when a person touches a protected circuit and a grounded object. RCDs to protect people are selected for a current of 10-30 mA, fire RCDs for a current of 300 mA protect the entire wiring system, because in a fire, leakage currents usually occur earlier than short-circuit currents.

The choice of an RCD is difficult because it is a more complex device than an automatic machine. For example, there are difavtomats - devices combining an automatic machine and an RCD. RCDs are also divided by type of execution on electronic and electromechanical. Experience has shown that it is better to use electromechanical RCDs. They are better protected against false alarms and breakdowns.

According to the number of poles, RCDs are divided into two-pole, for 220V circuits and four pole, for 380 V.

According to the operating conditions on:

  • AC-reacting only to alternating sinusoidal differential current;
  • A - reacting both to an alternating sinusoidal differential current and to a constant pulsating differential current;
  • B - reacting to an alternating sinusoidal differential current, to a constant pulsating differential current and to a constant differential current.

By the presence of a delay, on an RCD without a delay in general use, and with a time delay of type S. According to the current characteristic (difavtomaty), on B, C, D. And finally, on the rated current. You should be aware that if a conventional RCD and the machine are in series in the same circuit, the machine must be at a lower current than the RCD. Otherwise, the RCD may be damaged, as the machine breaks the load circuit with a delay.

It is important not only to choose the right one, but also to connect an RCD without errors: RCD connection diagram


Experience in the practical use of electrical protection devices

circuit breakers in the electrical panelIn conclusion, it must be said that devices of well-known companies should be chosen.

For example, ABB, GE POWER, SIEMENS, LEGRAND and others, at least certified in Russia. It is better to choose an electromechanical RCD, as they are much more reliable than electronic ones. Instead of a tandem from an RCD and an automatic machine, it is better to choose a difavtomat, this will make the design of the shield more compact and reliable.

The current characteristics must be selected depending on the wiring used. The operating current of automatic machines and diflavtomats must be less than the maximum permissible cable currents.

For copper three-wire cables, the following table of correspondence of the cross-section of cable conductors in square millimeters and currents of machines can be given: 3x1.5-16; 3x2.5-25; 3x4 - 32; 3x6 - 40; 3x10 - 50; 3x16 - 63.

I hope that after reading all the material it will be easier for you to understand the design and construction of electrical wiring.

See also at bgv.electricianexp.com:

  • How to choose a differential machine
  • Main characteristics of RCD and difavtomatov
  • What to choose? RCD or Differential Automatic
  • Characteristics of circuit breakers
  • How is difavtomat arranged and what is it used for
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    Comments:

    # 1 wrote: Paul | [quote]

     
     

    The article is good. Everything is brief and to the point. I would just like to add one point. When choosing and buying electrical protection devices in no case can not be saved. A good machine, an RCD or a differential machine cannot be cheap! Never chase cheapness, it will be more expensive for yourself!

     
    Comments:

    # 2 wrote: | [quote]

     
     

    The heating tank for parsing hot water of 30 liters (Ariston) failed RCD LBY-16. What device can I replace it with? Can I put instead of an RCD, a difavtomat? Power tank! 5kv + 1kv total 2,5kv.

    Forgot to thank, thank you very much!

     
    Comments:

    # 3 wrote: | [quote]

     
     

    A differential circuit breaker is a circuit breaker + protected against leakage currents.

     
    Comments:

    # 4 wrote: Michael | [quote]

     
     

    In the norms of Austria, when choosing an RCD, it is required to increase the rated current of the RCD by one step relative to the rated current of the protection device connected in series. So at a rated current of a circuit breaker of 16 A, it is necessary to provide an RCD with a rated current of 25 A. In electrical projects, it is advisable to fulfill this requirement.

     
    Comments:

    # 5 wrote: Valera | [quote]

     
     

    Replaced electrics in the apartment ...
    Now, with an increase in load, a ringing appears in the difavtomat. Installers say this is normal.
    Is this really normal?

     
    Comments:

    # 6 wrote: | [quote]

     
     

    I will amend the last paragraph of the article:
    According to the PUE, Table 1.3.4. Permissible continuous current for wires and cords with rubber and polyvinyl chloride insulation with copper conductors. We proceed from the permissible current when laying one three-core cable and we obtain:
    For copper three-wire cables, the following table of correspondence of the cross section of cable conductors in square millimeters and currents of machines can be given: 3x1.5-10; 3x2.5-16; 3x4 - 25; 3x6 - 32; 3x10 - 40; 3x16 - 63.
    I’ll explain why I recommend installing on a 3x2.5 cable - a 16A circuit breaker, such circuits most often power outlet groups, the current of a conventional outlet (written on the chassis - 16A), to exclude the possibility of melting the cable, select the circuit breaker rating for the device with the lowest bandwidth ; 3x4 cable - automatic machine with a nominal value of 25 A, such cable networks are used to connect electric stoves in the kitchen, the used sockets are designed for 25 A, we also choose the rating of the circuit breaker for the device with the lowest throughput - 25 A.

     
    Comments:

    # 7 wrote: | [quote]

     
     

    In the practice of operating an electromechanical RCD, another valuable property was discovered - RCD (with a certain degree of probability, but still!) Protects against low-power short circuits. For example, a short circuit occurred in a device plugged into an outlet and having a rated current of 0.5 amperes. With a short circuit or just a sharp increase in load, let's say up to 7-8 amperes, the electromechanical RCD still disconnects the emergency consumer. RCD generally reacts sensitively to sharp surges of capacitive current. What is the value of this property of RCD? The outlet group is protected by a 16 amp circuit breaker and has a 2.5 millimeter square cross-section of the supply line.An electric heater with 10 amperes and charging a mobile phone with 3 amperes and some device with 0.5 amperes or less can be included in such a socket. Guaranteed operation of the circuit breaker within a few seconds - 48 amperes. The low-current device is actually not protected against short-circuit and overloads, and a fire can start even from a regular telephone with an answering machine or fax, if they are connected to the network. In an electromechanical RCD, the polarized relay disconnecting it is powered from the midpoint of the voltage divider made on two capacitors, this prevents the differential current from flowing through the coil of the polarized relay at a constant load at the consumer, which is why a sharp surge in load current, capacitive or active, at a speed above a certain limit, leads to the operation of the RCD. So, for example, the UZO worked when touching the insulation of the wire when trying to fix its laying under a suspended ceiling (to improve the connection of corrugated hoses), using an ordinary cast-iron bath (standing on its walls) as a bridge, it would be necessary to relieve tension in advance, but in the bath it’s dark and in the light of carrying, not everything worked out properly.