DE102005040432A1 - Current limiting switch - Google Patents

Abstract

The invention relates to a current-limiting switch with a main current path containing a mechanical switching unit and with at least one commutation path running parallel to the main current path, in which a power electronic switching unit is arranged, a capacitive short-circuit limiting unit being arranged in series with the power electronic switching unit.

Description

The The invention relates to a current limiting switch with a mechanical switching unit containing main current path and with at least a commutation path running parallel to the main current path, in which a power electronic switching unit is arranged.

From the DE 199 53 551 C1 is a current-limiting switch is known, which has a main current path and two Kommutierungspfade as a so-called hybrid switch, wherein the paths each have different switching units. The main current path, through which normally a mains current is conducted, has a mechanical switching unit, which is opened in the event of a short circuit (switching case), whereby an arc is formed. To limit the short-circuit current, the current is commutated in the first and second Kommutierungspfad. For this purpose, the first commutation path has a mechanical switching unit and a power electronic switching unit arranged in series therewith so that the first commutation path can be briefly and impulsively passed through by the commutated current in the event of a short circuit. The second commutation path includes a current limiting resistor whose time delay is sufficient to complete the opening operation in the main current path and in the first commutation path.

adversely on the known current-limiting switch is that the short-circuit current while the shutdown time can continue to increase unhindered. The short-circuit current is only redirected from the main current path to the first commutation path, around the main current path, at the mechanical switching unit itself forms an arc, to relieve. A current limit occurs only after further commutation on the second commutation path. A further disadvantage is that a turn-off semiconductor necessary is.

task It is the object of the present invention to provide a current limiting switch in such a way, in particular, with little component expenditure in the event of a short circuit in high and medium voltage networks limit.

to solution This object is the invention in conjunction with the preamble of claim 1, characterized in that in series with the power electronic switching unit, a capacitive short-circuit limiting unit is arranged.

Of the particular advantage of the switch according to the invention is by providing a capacitive short-circuit limiting unit in a Kommutierungspfad a counter to the mains voltage Counter tension during the Switching is established, which increases the short-circuit current limited. Because the resistance of the commutation path is essential smaller than the resistance of the mechanical switching unit in Main current path, the mains current can commutate relatively quickly on the Kommutierungspfad. The associated relatively short arc time in the main current path allows that mechanical contacts of the mechanical switching unit of the main current path a relatively low wear during learn the shutdown. Due to the fact that the capacitive short-circuit limiting unit reduces the maximum short-circuit current, the short-circuit current faster to a permissible Measure be traced back which reduces the switch-off time of the switch. It forms a relative steeper, but short short circuit current increase, so the possibility is given to switch off short circuits in DC networks of high power.

To a preferred embodiment of Invention includes the capacitive short-circuit limiting unit capacity on, indirectly from the inductance of the network and / or the level of the mains current at the beginning of the shutdown depends. After the power electronic switching unit of the commutation path has been set to a conducting state is, causes the inductance of the network or the arc voltage of the main current path the Charging the capacitive short-circuit limiting unit.

To A development of the invention is the capacitive short-circuit limiting unit formed discharged in an initial state. Consequently, one is opposite charging of the capacitive short-circuit limiting unit not required in the initial state.

To A development of the invention is the capacitive short-circuit limiting unit only by a Kon capacitor and the power electronic Switching unit formed only by at least one thyristor, so that the component cost is relatively low. Becomes advantageous a thyristor and no turn-off semiconductor used.

To a development of the invention is the power electronic Switching unit formed by two anti-parallel connected thyristors, the one pressing the switch according to the invention allow in two opposite directions of flow.

According to a development of the invention another commutation path is provided which has an overvoltage protection unit. The overvoltage protection unit is preferably formed by a varistor whose threshold voltage is greater than the mains voltage. The thyristor of the first commutation path is used for switching off the same and thus for current commutation on the second Kommutierungspfad in which the varistor demagnetizes the inductance of the network. Incidentally, oscillations are avoided by the thyristor of the first commutation path.

embodiments The invention will be explained in more detail with reference to the drawings.

It demonstrate:

1 a block diagram of a current-limiting switch which is connected to a single-phase medium-voltage network or to a DC network,

2 a representation of the currents during the shutdown and

3 a representation of the voltage during the shutdown process.

A current limiting switch 1 can be used in all networks and current forms of the electrical power supply for switching operations and in particular as a short-circuit breaker. When used in AC networks, the advantages of the switch 1 preferably in the area of the reduction of short-circuit currents and the reduced wear of a mechanical switching unit. In DC voltage networks, the advantage is preferably to switch off high currents.

The switch described below 1 can be used in the form of a parallel and / or series connection for different voltage or power classes. Particularly when used in DC networks, the switch according to the invention allows 1 in that relatively high losses of additional inductances for current limitation are avoided. The field of application may preferably be the protection of DC network structures for offshore wind farms.

The current limiting switch 1 comprises according to the embodiment according to 1 on the one hand a mechanical switching unit 2 , which is arranged in a main current path H. The mechanical switching unit 2 may be configured as a fast mechanical switch without the provision of an arc extinguishing device. Normally, the mechanical switching unit 2 in a closed state, so that a mains current I _G (rated current) of a generator, not shown, can flow to a consumer, not shown, exclusively via the main current path H.

In the present case, the switch 1 connected to a 20kV DC mains.

The desk 1 further comprises a first commutation path K ₁ and a second commutation path K ₂ , which are arranged parallel to the main current path H.

The first commutation path K ₁ has a power electronic switching unit 3 and a capacitive short-circuit limiting unit connected in series with the same 4 ,

The second commutation path K ₂ has an overvoltage protection unit 5 which preferably comprises a voltage-dependent resistor (varistor). According to an embodiment of the invention, not shown, the second commutation K ₂ omitted.

The power electronic switching unit 3 comprises two antiparallel connected thyristors T, which initiate by ignition the current commutation of the main current path H to the first Kommutierungspfad K ₁ in the event of a short circuit. According to an embodiment of the invention, not shown, the power electronic switching unit 3 also have only a single thyristor T, so that the switch 1 can only be used unidirectionally.

The following is the turn-off behavior of the switch 1 based on 2 and 3 explained. The desk 1 is connected to a 20kV DC mains. The rated current I _G is 2 kA; the rated power is 40 MW. Upon reaching a current of 3 kA, the mechanical switching unit detects 2 an overcurrent and conducts by opening the switching unit 2 the shutdown process. At a first commutation time t _K1 , at which the current has risen to 3.4 kA, there is a first current commutation from the main current path H to the first commutation path K ₁ . The delay of the current commutation between the current value 3 kA and 3.4 kA results from the detection time and the tripping delay of a measuring device in the mechanical switching unit 2 integrated measuring device and the actual switch of the switching unit 2 ,

After the current commutation from the main current path H to the first commutation path K ₁ , a further increase of the current I _S , wherein the consisting of a capacitor C capacitive short-circuit limiting unit 4 gradually charged. The thereby increasing voltage U _C on the capacitor C corresponds to the voltage at the mechanical switch U _M. The capacitor C is charged in the direction of the mains voltage U _M and thereby provides for a reverse voltage, which leads to a reduced voltage across the network inductance and thus limits the current increase.

How out 3 can be seen, the increase of the voltage drop U _M exceeds the fast mechanical switching unit 2 never a value of 80 V / μs, so that the reconsolidation of the air gap is always faster than the voltage increase. A re-ignition of the arc in the main current path H can be avoided. The increase in the voltage drop U _{M of} the mechanical switching unit 2 can be influenced by the capacitance of the capacitor C. By increasing the capacitance of the capacitor C, an arbitrary value can be set, in particular also for slow mechanical switches. It is accepted that the maximum value of the current is increased.

The capacitor C allows a current limiting, wherein at the time t _{MAX of} the maximum I _{MAX of} the current I _S, the voltage drop U _C on the capacitor C exactly the mains voltage U _N , ie 20 kV corresponds. With further charging of the capacitor C increasingly negative voltage U _C above the line inductance drops so that it is already being used at this time to reduce the short-circuit current.

In a further current commutation of the first Kommutierungspfad K ₁ to the second Kommutierungspfad K ₂ , the voltage drop across the mechanical switching unit 2 30 kV. A falling on the anti-parallel thyristors T voltage U _T is approximately during the current flow through the first commutation path K ₁ and K ₂ second commutation zero.

How out 2 it can be seen, the current commutation is carried out from the first Kommutierungspfad K ₁ to the second Kommutierungspfad K ₂ at a time t _U2 , in which the short-circuit current I _S has fallen below its maximum value again. The current commutation on the Kommutierungspfad K ₂ takes place as soon as the capacitor voltage U _C above the threshold voltage of the varistor 5 lies. The voltage U _M has reached the voltage value 30 kV at time t _K2 , which corresponds to the threshold value of the varistor 5 equivalent. The further falling short-circuit current I _V now flows solely through the second Kommutierungspfad K ₂ until it drops to zero. The firing signal for the thyristor T is deactivated in order to prevent the oscillations between the mains inductance and the capacitor C which occur after the mains current has become zero. The shutdown process is completed when the zero current value is reached.

Claims (10)

Current-limiting switch with a main current path containing a mechanical switching unit and with at least one commutation path running parallel to the main current path, in which a power electronic switching unit is arranged, characterized in that in series with the power electronic switching unit ( 3 ) a capacitive short-circuit limiting unit ( 4 ) is arranged. Switch according to Claim 1, characterized in that the capacitive short-circuit limiting unit ( 4 ) due to the operation of the power electronic switch unit ( 3 ) of the main current path (H) in the commutation path (K ₁ ) commutated electric current (I _S ) is rechargeable. Switch according to Claim 1 or 2, characterized in that the capacitance of the capacitive short-circuit limiting unit ( 4 ) is dependent on the inductance of the network and / or the amount of the useful current at the beginning of a shutdown process. Switch according to one of claims 1 to 3, characterized in that the capacitive short-circuit limiting unit ( 4 ) is discharged in an initial state. Switch according to one of Claims 1 to 4, characterized in that the capacitive short-circuit limiting unit ( 4 ) comprises only one capacitor (C). Switch according to one of claims 1 to 5, characterized in that the power electronic switching unit ( 3 ) comprises at least one thyristor (T). Switch according to one of claims 1 to 6, characterized in that the power electronic switching unit ( 3 ) comprises two anti-parallel connected thyristors (T). Switch according to one of claims 1 to 7, characterized in that a parallel to the first Kommutierungspfad (K ₁ ) arranged second commutation path (K ₂ ) is provided, which is an overvoltage protection unit ( 5 ) having. Switch according to claim 8, characterized in that the overvoltage protection unit ( 5 ) has a varistor whose threshold voltage is greater than the mains voltage. Switch according to one of claims 1 to 9, characterized in that the power electronic switching unit ( 3 ) is in the blocking state as soon as the current commutates from the first commutation path (K ₁ ) to the second commutation path (K ₂ ).