IT201800002353U1 - Protective device against electromagnetic disturbances in electrical networks - Google Patents

Description

Protective device against electromagnetic disturbances in electrical networks

DESCRIPTION

The present invention relates to a protection device against electromagnetic perturbations in electrical networks, in particular in single-phase electrical networks.

The invention finds particular, though not exclusive, application in the field of electromagnetic compatibility inherent in protection solutions against electromagnetic perturbations produced by electrical or electronic appliances in electrical networks.

Today, electrical and electronic products must, in fact, comply with numerous national and supranational directives in order to be able to circulate freely in the various markets.

By way of example, the free circulation of electrical and electronic equipment in the European market is governed by Directive 2014/30 / EU (also known as the EMC directive, where EMC is the acronym for "Electro Magnetic Compatibility"), which has as an essential requirement that to ensure that the devices are designed and manufactured in such a way that:

• the electromagnetic disturbances generated do not exceed the limits above which radio and telecommunication equipment or other equipment does not function as intended, and

• have a level of immunity to electromagnetic disturbances required by their intended use, such that they can continue to function without degradation that is unacceptable for what is expected in their intended use

In order to make products of an electrical / electronic nature comply with the regulations on electromagnetic compatibility, as regards electromagnetic disturbances originating from or introduced into the electricity supply network, it is known to equip these products with so-called line EMC filters, i.e. electromagnetic filters designed both for attenuate the influence of disturbances from the power line on the operation of the device under test, which to limit the electromagnetic perturbations generated by the products themselves to a predetermined limit.

The Applicant has however observed that such filters suffer from some drawbacks. In particular, the EMC filters, due to their inductive nature, can cause safety and / or integrity problems of the electrical / electronic devices associated with them when the electrical network to which the EMC filters are connected is in a condition of impulse overvoltage (surge impulse).

In fact, a lightning discharge in the power line can generate a surge pulse, with the possible formation of electric arcs between the components and the tracks of the electronic boards. This effect is usually enhanced by the EMC filter which, in these cases, behaves like a voltage booster. This phenomenon can be destructive (even explosive or incendiary) for the electrical / electronic components of the appliances connected to these filters.

It is known to solve this problem by increasing the distance between the tracks of the appliance's electronic board, or by reducing the inductive part of the EMC filters

However, this solution causes an increase in the size of the printed circuits of the electronic device as well as a decrease in the filtering capacity with consequent difficulty in setting up the electrical or electronic equipment for compliance with the EMC directive.

The object of the present invention is to provide a protection device structurally and functionally designed to overcome the limits indicated above with reference to known solutions.

This object is achieved by means of a protection device against electromagnetic perturbations in electrical networks made in accordance with the independent claim attached to the present description.

Preferred characteristics of the invention are defined in the dependent claims.

Characteristics and advantages of the invention will become clearer from the following detailed description of a preferred embodiment thereof illustrated, by way of non-limiting example, with reference to the attached figure 1 in which:

Figure 1 is a schematic representation of a protection device according to the present invention, and

Figure 2 is a schematic representation of an electrical appliance comprising a protection device according to the present invention.

With initial reference to Figure 1, 100 indicates as a whole a protection device according to the invention for protection against electromagnetic perturbations in electrical networks 200.

The electrical network 200 comprises a first electrical conductor 201 and a second electrical conductor 202.

The electrical network 200 can be identified by a single-phase network fed with alternating current, so that the first and second electrical conductors 201,202 can be identified with a phase conductor and, respectively, with a neutral conductor of this network.

Alternatively, the electrical network 200 can be identified by a three-phase network fed with alternating current, so that the first electrical conductor 201 can be identified with one of the phase conductors of the electrical network 200 while the second electrical conductor 202 can be identified with a neutral conductor of this network.

Alternatively, the electrical network 200 can be identified by a telecommunications network, whereby the first and second electrical conductors 201,202 can be identified respectively with a first and a second cable for the exchange of information.

Alternatively, the electrical network 200 can be identified by a network fed with direct current, so that the first and second electrical conductors 201,202 can be identified with respective electrical current conductors of this network.

In particular, the network 200 can be identified by a low voltage network fed by voltages ranging from 50 to 1000 V in alternating current. The supply voltage between the first electrical conductor 201 and the second electrical conductor 202 can be equal to 120 or 230 V. Preferably, the supply voltage of the electrical network 200 has a frequency equal to 50 or 60 Hz.

According to a first aspect of the invention, the protection device 100 comprises an electromagnetic filter 1 comprising a first and a second input head 2,3 arranged to be connected respectively to the first electric conductor 201 and to the second first electric conductor 202 of the electrical network 200 and a first and a second output ends 4,5 connected, or arranged to be connected, to an electric circuit 301 of an electric appliance 300.

In the context of the present invention, the expression "electrical appliance" can mean both "electrical appliance" and "electronic appliance".

The electrical appliance 300 can be equipped with one or more electronic boards, so the electrical circuit 301 can be made as a printed circuit.

The electromagnetic filter 1 also includes a first electrical path 6 extended from the first input head 2 to the first output head 4, and a second electrical path 7 extended from the second input head 3 to the second output head 5.

The first and second electric paths 6,7 comprise respectively a first and a second inductor 8,9, in particular a first and a second winding. Preferably, the first inductor 8 and the second inductor 9 are magnetically coupled to each other.

According to one aspect of the invention, the first and second inductors 8,9 are electrically insulated from each other.

According to one aspect of the invention, the electromagnetic filter 1 comprises a common mode blocking coil 10 which includes the first and second inductors 8,9.

According to an aspect of the invention, the electromagnetic filter 1 is configured in such a way as to provide a voltage between the first and second output ends 4,5 substantially equal to that between the first and the second input ends 2,3 when it is powered by the power supply voltage of the electrical network 200 in a normal operating condition thereof, ie in the absence of overvoltages or other phenomena which cause an alteration of the network voltage.

According to one aspect of the invention, the protection device 100 comprises a first and a second voltage suppression bipole 11, 12.

The terminals 13,14 of the first voltage suppression bipole 11 are electrically connected respectively to the first input head 2 and to the first output head 4.

In particular, the first voltage suppression bipole 11 is connected to the electromagnetic filter 1 in parallel with the first inductor 8.

The terminals 15,16 of the second voltage suppression bipole 12 are electrically connected respectively to the second input head 3 and to the second output head 5.

In particular, the second voltage suppression bipole 12 is connected to the electromagnetic filter 1 in parallel with the second inductor 9.

According to one aspect of the invention, each voltage suppression bipole 11, 12 can be made of an electrical component, or of an electrical circuit comprising several electrical / electronic components, characterized by an electrical resistance between its terminals which varies according to the difference in electric potential present between the latter.

In other words, each voltage suppression bipole 11,12 has an electrical resistance which varies according to the voltage at its terminals 13,14, and 15,16.

The electrical resistance of each voltage suppression bipole 11,12 is preferably of the order of tens of MΩ, if the voltage at the terminals of the voltage suppression bipole 11,12 is lower than a predetermined threshold voltage and is preferably of the order of some Ω if the voltage at the terminals of the voltage suppressor bipole 11,12 is greater than or equal to the aforementioned threshold voltage.

Preferably, the voltage suppression bipoles 11, 12 correspond substantially to an open circuit if the voltage at their terminals is less than the threshold voltage.

Preferably, the voltage suppression bipoles 11, 12 correspond substantially to a closed circuit if the voltage at their terminals is greater than or equal to the threshold voltage. In other words, the voltage suppression bipoles 11,12 are characterized by a predetermined threshold voltage, so that if the voltage at their terminals is lower than this threshold voltage the voltage suppression bipoles 11,12 have a relatively high resistance in to act as an open circuit. Otherwise, that is, if the voltage at the terminals of the voltage suppression bipoles 11,12 is greater than or equal to the threshold voltage, the electrical resistance provided by the voltage suppression bipoles 11,12 is abruptly lowered so as to act as a closed circuit.

Preferably, the threshold voltage is greater than the power supply voltage of the network 200 and / or the power supply voltage at the input ends of the electromagnetic filter 1 in a normal working condition. In this way, in a condition of normal operation of the electrical network 200, the electrical potential difference between the terminals of the voltage suppression bipoles 11,12 is lower than the aforementioned threshold voltage and the electrical resistance supplied by these bipoles is therefore preferably of 'order of a few tens of MΩ. On the contrary, in the event of an overvoltage in the electrical network 200, the difference in electrical potential between the terminals of the voltage suppression bipoles 11,12 is greater than or equal to the threshold voltage and the electrical resistance provided by these bipoles is therefore preferably of the order of a few Ω.

These features advantageously allow to protect the electrical appliance 300 associated with the protection device 100, in particular the electrical circuit 301 of the appliance 300, from overvoltages amplified by the electromagnetic filter 1.

In fact, the response of the electromagnetic filter 1 to an input voltage peak (for example due to a filmin discharged into the electrical network 200) is an output voltage of increased amplitude with respect to the input voltage as a consequence of the presence of the first and of the second inductor 8,9, the output voltage can therefore prove to be destructive for the electrical circuit 301 of the electrical appliance 300 associated with the protection device 100.

However, when an overvoltage occurs at the input to the protection device 100, i.e. during an overvoltage between the first and second input ends 2,3 of the electromagnetic filter 1, the first and second suppressor bipoles 11,12 pass from the operating condition in which they have a relatively high resistance to that in which they have a relatively low resistance, thus imposing a voltage between the first and the second output head 4,5 of the electromagnetic filter 1 of an amplitude substantially corresponding to that of the voltage between the first and second entrance leads 2,3.

The overvoltages amplified by the electromagnetic filter 1 are therefore suppressed thanks to the presence of the two voltage suppression bipoles 11,12, ensuring the integrity of the electrical / electronic components of the electrical circuit 310 connected to the protection device100.

According to one aspect of the invention, the first suppressor bipole 11 comprises a varistor. Alternatively or in addition, the first suppressor bipole 11 comprises a transil.

According to one aspect of the invention, the second suppressor bipole 12 comprises a varistor. Alternatively or in addition, the second suppressor bipole 12 comprises a transil.

According to one aspect of the invention, the electromagnetic filter 1 is an EMC filter.

With reference to Figure 2, the electrical appliance 300 can comprise the electrical circuit 301 and the protection device 100 connected to the electrical circuit 301. The protection device 100 and the electrical circuit 301 can be made in the same electronic board.

In an embodiment of the invention not shown in the figures, the electromagnetic filter of the protection device can comprise a third and a fourth input head designed to be connected to respective electrical conductors of the electrical network and a third and a fourth head of output connected, or designed to be connected, to an electrical circuit of an electrical appliance.

This protection device is particularly suitable for use in three-phase electrical networks, in which the first, second and third input heads are intended to be connected to respective phase conductors of this network while the fourth input head it is intended to be connected to the neutral conductor.

In this embodiment of the invention, the electromagnetic filter comprises a third electrical path extended from the third input head to the third output head, and a fourth electrical path extended from the fourth input head to the fourth output head.

Preferably, the third and fourth electrical paths have the same characteristics as the first and second electrical paths described above. It follows that each electrical path comprises a respective inductor. The inductors are preferably magnetically coupled to each other, more preferably they are isolated from each other.

Also in this embodiment of the invention, the electromagnetic filter preferably comprises a common mode blocking coil comprising the aforementioned inductors. According to one aspect of the invention, the protection device comprises a third and fourth voltage suppression bipoles in addition to the aforementioned first and second voltage suppression bipoles. The terminals of the third voltage suppression bipole are electrically connected respectively to the third input head and to the third output head of the electromagnetic filter while the terminals of the fourth voltage suppression bipole are electrically connected respectively to the fourth input head and to the fourth head of exit. The third and fourth voltage suppression bipoles have the same characteristics as the first and second voltage suppression bipoles described above. Preferably, the third and fourth voltage suppression bipoles comprise a respective varistor and / or transil.

In particular, the third and fourth voltage suppression bipoles are connected to the electromagnetic filter in parallel to the third inductor and, respectively, to the fourth inductor.

The invention thus achieves the intended aim and objects by achieving the aforementioned advantages with respect to known solutions.

Claims (10)

CLAIMS 1. Protection device against electromagnetic disturbances in electric networks (200), said protection device (100) comprising: • an electromagnetic filter (1) comprising: • a first and a second input head (2,3) designed to be connected respectively to a first electrical conductor (201) and a second electrical conductor (202) of an electrical network (200), • a first and a second output head (4,5) connected, or designed to be connected, to an electrical circuit (310) of an electrical appliance (300), • a first electrical path (6) extending from said first input head (2) to said first output head (4), and a second electrical path (7) extended from said second input head (3) to said second output head (5), said first and second electrical path (6,7) comprising respectively a first inductor (8) and a second inductor (9), characterized by comprising a first and a second voltage suppression bipole (11,12), in which the terminals (13,14) of said first voltage suppression bipole (11) are electrically connected respectively to said first input head (2) and to said first output head (4) and the terminals (15,16) of said second voltage suppression bipole (12) are electrically connected respectively to said second input head (3) and to said second exit (5). Protection device according to one of the preceding claims, wherein said protection device (100) further comprises: • a third electrical path extending from a third input head to a third output head of said electromagnetic filter (1) and a fourth electrical path extended from a fourth input head to a fourth output head of said filter electromagnetic (1), each electrical path comprising a respective inductor, e • a third and a fourth voltage suppression bipole, in which the terminals of said third voltage suppression bipole are electrically connected respectively to said third input head and to said third output head and the terminals of said fourth voltage suppression bipole are electrically connected to said fourth input head and said fourth output head respectively. Protection device according to one of the preceding claims, wherein said electromagnetic filter (1) is an EMC filter. Protection device according to one of the preceding claims, wherein said electromagnetic filter (1) comprises a common mode blocking coil (10) which includes said inductors. 5. Protection device according to one of the preceding claims, wherein each of said voltage suppression bipoles (11,12) is connected to the respective electrical path (6,7) of said electromagnetic filter (1) in parallel to the inductor (8 , 9) present in said electrical path (6,7). 6. Protection device according to one of the preceding claims, wherein each of said voltage suppression bipoles (11,12) has an electrical resistance which varies according to the voltage at its terminals (13,14; 15,16). 7. Protection device according to claim 6, wherein said electrical resistance of said suppressor bipole (11,12) is of the order of a few tens of MΩ if the voltage at the terminals of said voltage suppressor bipole (11,12) is less than a predetermined threshold voltage and is of the order of a few Ω if the voltage at the terminals of said voltage suppression bipole (11,12) is greater than or equal to said threshold voltage. 8. Protection device according to claim 7, in which said threshold voltage is greater than the power supply voltage of the network (200) and / or the power supply voltage at the input ends of said electromagnetic filter (1). Protection device according to one of the preceding claims, wherein at least one of said voltage suppression bipoles (11,12) comprises a varistor and / or a transil. Electric apparatus (300) comprising an electric circuit (310) and a protection device (100) according to one of claims 1 to 9 connected to said electric circuit (310).