DE102005061532A1 - Load isolation circuit for de-energized connection and isolation of electrical contact e.g. between direct current source and electrical device, has switch, which comprises main contact and auxiliary contact - Google Patents

Abstract

The circuit has a switch (3), which comprises a main contact (4) and an auxiliary contact (5), arranged in parallel with the semiconductor switching element (2). The main contact and the auxiliary contact are coupled in such a way that the switching state of the auxiliary contact changes before closing and after opening of the main contact. A controller (6) is provided, which switches the semiconductor switching element on as a function of the switching state of the auxiliary contact before the main contact closes and switches it off after the main contact opens.

Description

The The invention relates to a load disconnecting circuit for currentless connection and separating at least one electrical contact, in particular between a DC power source and an electrical device, wherein the load disconnecting circuit comprises a semiconductor switching element which arranged in series with the at least one electrical contact is.

at electrical connections of particular DC sources with Other electrical equipment may be at a separation of a contact under load to form an arc. This occurs frequently Damage to the Contact elements up to the welding of the contact. For electrical Contacts, which should be separable under load, can therefore be seen in usually an oversizing before, causing possible damage the contact elements are reduced by the arcing. The danger to persons remains however.

There are therefore various systems known to switch off electrical contacts before connecting or disconnecting. This is how the DE 198 38 492 A1 a connector assembly for connecting a power source to a consumer, wherein between the power source and consumer, a switching device is arranged, the control current is also connected via the connector. In this case, the contacts for the main circuits accelerate, while the contacts for the control current lag, so that the main circuits are already closed, before the control circuit is turned on. This prevents current flow in the main circuits when connecting or disconnecting the main circuit contacts. For the connection of, for example, photovoltaic generators to inverters, this arrangement is not suitable because the losses occurring at the transistor circuit deteriorate the efficiency.

Another way to separate a power source under load from an electrical device describes the DE 102 25 259 B3 , In this case, designed as a load disconnector electrical connector is specified, with which an arc should be avoided or at least reduced. This is achieved by a leading in a Russteckvorgang main contact and a parallel-connected lagging auxiliary contact, so that when unplugging the connector of the main contact first and the auxiliary contact last are separated from its mating connector and connected in series with the auxiliary contact semiconductor switching element for arc avoidance or arc extinguishing , In this case, the semiconductor switching element is driven pulsed, so that it is at least once opened during the Aussteckvorgangs between a contact separation of the main contact and the auxiliary contact and prevents or at least reduced an arc.

For a proper function is a precise tuning of the clock frequency of the semiconductor element with the possible Timeout during one Unplugging required. In addition, due to the pulsed control of the semiconductor element an emerging arc again and again deleted, but not entirely avoided. The contact is therefore not de-energized, which continues a danger for Persons exists.

Of the The invention is therefore based on the object, a relation to the State of the art improved solution for disconnecting and connecting an electrical contact.

Is solved This object is achieved by a load disconnecting circuit of the aforementioned Kind, in which arranged parallel to the semiconductor switching element, a switch which comprises a main contact and an auxiliary contact, wherein the main contact and the auxiliary contact are coupled in a manner are that the switching state of the auxiliary contact before closing and after opening of the main contact changes and wherein a controller is provided, which the semiconductor switching element dependent on the switching state of the auxiliary contact before closing the Main contact turns on and off after opening the main contact.

By This circuit gets the power during a connection or separation process of the electrical contact completely switched off, so that arcing is reliably prevented. moreover the main contact is switched without power, which increases the life the switch considerably extended becomes. It flows the load current only during the connection or disconnection process by the semiconductor switching element, this time span being due to the delay between the switching times of the auxiliary contact and the main contact. This delay time results from the design of the switch whose operation either manually or electromagnetically via a relay can be made. The switching position of the auxiliary contact is queried by the controller and leads to switching on or off of the semiconductor switching element.

When connected electrical contact and switch on the load current flows exclusively through the main contact of the switch, because the electrical resistance of the parallel arranged, further switched semiconductor switching element is larger. Accordingly, there are no undesirable losses on the semiconductor switching element, which in addition only has to be dimensioned so large that it withstands the load current during the delay time between the switching times of the auxiliary contact and the main contact plus a safety value.

In an advantageous form The invention is for enhancement the security provided that the at least one electric Contact is secured by a mechanical locking device and that the mechanical locking device coupled to the switch in the manner is that disconnecting the at least one electrical contact only after opening of the main contact possible is and that connecting the at least one electrical contact only when open Main contact is possible. People can prevented in this way, the connection or disconnection process wrong perform.

For training it is the main contact and the auxiliary contact in a switch advantageous if a contact element of the main contact and a contact element the auxiliary contact with an actuating element of the switch are coupled. The contact elements can thereby be fixed or movable relative to each other, wherein from the switching path of the actuating element the delay times between the switching times of the main contact and the auxiliary contact result.

When mechanical locking device for securing the at least one electrical contact then, for example, the switch can be designed so that the actuating element the switch the at least one electrical contact when closed Main contact shields and / or fixed and so the electrical contact can not be disconnected or connected. The at least one electrical Contact is convenient designed as plug and / or screw in the manner and through the actuator the switch held that disconnecting the contact by a train on a cable connected to the contact is prevented.

Advantageous it is when a resistance in series with the semiconductor switching element is arranged. This resistance acts in addition to the electrical resistance of the semiconductor switching element and prevents that when closed Main contact Current flows through the semiconductor switching element.

Around upon failure (e.g., alloying) of the semiconductor switching element to prevent from being separated by the electrical contact electricity continues to flow, it is advantageous if in series with the semiconductor switching element an electrical fuse is arranged. This backup is included as lethargic Fuse is formed, which triggers only when the load current is longer than the provided up to the shutdown of the semiconductor switching element Delay Time flows.

When Polarity reversal protection, it is also advantageous if in series with the semiconductor switching element a diode is arranged. This will work with the blocking diode Prevents a connected with swapped poles Power source to an electrical device current flows.

additional Security offers a character the invention, in series with the semiconductor switching element the contact of a relay is arranged and at which the coil of the Relay is connected to the controller. It is due to the galvanic isolation the power safely shut off. The operation of the relay takes place by means of control during a connection process before switching on of the semiconductor switching element and in a separation process after the Switch off the power semiconductor.

by virtue of the low losses with connected electrical contact and closed main contact is the load disconnecting circuit according to the invention advantageously for Suitable installations in which the direct current source is used as a direct current generator, in particular as a photovoltaic generator and the electrical device is designed as an inverter. Such systems require a solution for the Load separation without arcing when sunlit Solar panels must be disconnected from the inverter. moreover is for an economical operation of photovoltaic systems a high Efficiency required. This is due to the intended for continuous operation Contacting via Ensures the main contact its electrical resistance is much lower than that of the semiconductor switch is.

The Invention will now be described by way of example with reference to FIG on the attached figures explained. In a schematic representation:

1 : Non-current load disconnecting circuit when connecting electrical contacts

2 : Load disconnecting circuit with current during the switch-on process

3 : Load-disconnector circuit with current profile in continuous operation

4 : Load disconnecting circuit with current during the first switch-off step

5 : Load disconnecting circuit with current characteristic during the second shutdown step

6 : Load disconnecting circuit with switched off current

7 : Load isolation circuit with additional diode as polarity reversal protection and additional relay for galvanic isolation

8th : Time course of current and control signal at power up

9 : Time history of current and control signal when switching off

In 1 is a possible circuit variant for a load-disconnecting circuit according to the invention for connecting a photovoltaic generator 9 to an inverter 10 shown. The electrical contacts 1 are connected in such a way that the positive pole directly to the inverter 10 and the negative pole via the elements of the load disconnecting circuit to the inverter 10 are switched.

The elements of the load disconnecting circuit form a switch 3 with a main contact 4 and an auxiliary contact coupled thereto 5 and a semiconductor switching element arranged parallel thereto 2 , In series with the semiconductor switching element 2 can be a resistance 7 and an electrical fuse 8th be arranged. There is also a controller 6 provided that the switching state of the auxiliary contact via a control circuit 5 reads. The desk 3 For example, it may be configured such that the main contact 4 as normally open and the auxiliary contact 5 acts as an opener. With the main contact fully open 4 is the auxiliary contact 5 then closed, as in 1 shown. Upon actuation of the switch 3 the auxiliary contact opens 5 and after a delay time resulting from the switching path of the switch 3 results, the main contact closes 4 , The control circuit with the auxiliary contact 5 is then, for example, switched so that when open auxiliary contact 5 a control voltage U _K to the controller 6 is applied. At the output of the controller is the gate voltage U _{G of} the semiconductor switching element 2 on, which is designed for example as an N-channel MOSFET with freewheeling diode. Once the electrical contacts 1 of the photovoltaic generator 9 are connected, is located on the semiconductor switching element 2 a voltage U _T on.

In 2 is the same circuit with operated switch 3 shown. The desk 3 is located in a middle position, in which the auxiliary contact 5 already open, but the main contact 4 not yet closed. The current then passes through the semiconductor switching element 2 , from the opening time of the auxiliary contact 5 is turned on.

Upon further actuation of the switch 3 closes the main contact 4 , as in 3 shown. Due to the opposite to the semiconductor switching element 2 lower electrical resistance of the current now runs exclusively on this closed main contact 4 ,

Thus the condition of the continuous operation is reached. The semiconductor switching element 2 remains on during this time.

In case of a separation of the photovoltaic generator 9 from the inverter 10 must first switch again 3 be pressed before the electrical contacts 1 can be solved. Compliance with this condition can be achieved either by a clear marking or advantageously by a corresponding mechanical safety device, for example by the shielding and fixing of the electrical contacts 1 by means of an actuating element of the switch 3 , As in 4 shown, so first the switch 3 actuated. The main contact 4 opens and during the switching time are thus both contacts 4 . 5 of the switch 3 open. The load current commutates from the load-free opened main contact 4 to the still switched semiconductor switching element 2 , The load-free opening of the main contact while the formation of an arc is excluded.

Upon further actuation of the switch 3 the auxiliary contact closes 5 , as in 5 shown. Then the controller switches 6 the semiconductor switching element 2 from. Depending on the design of the switch 3 may be the shutdown of the semiconductor switching element 2 also done in other ways. For example, is the auxiliary contact 5 designed as a changeover switch (dotted lines), the controller 6 a period of time can be specified after the semiconductor switching element is actuated when the changeover switch is actuated 2 is switched off.

In 6 is the load disconnecting circuit with switched off semiconductor switching element 2 shown, in which now the electrical contacts 1 can be disconnected without arcing currentless.

In the 7 shown load-separation circuit is formed with additional protection elements. In series with the semiconductor switching element 2 a diode D is provided as polarity reversal protection. A relay 11 is arranged in the way for galvanic isolation, that the coil to the controller 6 is turned on. From the two contacts of the relay 11 is one in series with the semiconductor switching element 2 and one in the connection line of the positive pole of the photovoltaic generator 9 and the inverter 10 arranged. Depending on the safety requirements, a relay can also be used 11 be provided with only one contact. The operation of the relay 11 he follows by means of control 6 in a connection operation before turning on the semiconductor switching element 2 and in a disconnection process after the semiconductor switching element is turned off 2 ,

In 8th is the course of the currents and voltages during a connection process of electrical contacts 1 shown. First, the main contact 4 of the switch 3 open and the semiconductor switching element 2 shut off, as in 1 shown. The auxiliary contact 5 of the switch 3 is closed, so that no control voltage U _T and no gate voltage U _G are present.

The first step of the connection process consists in the currentless connection of the electrical contacts 1 , During the connection time a, the voltage U _T on the semiconductor switching element increases 2 at. It then passes a period of time b until the switch 3 is pressed.

Upon actuation of the switch 3 opens first the auxiliary contact 5 and at the controller 6 the control voltage U _T builds up, that of the control 6 as a gate voltage U _G to the semiconductor switching element 2 is switched. This becomes the semiconductor switching element 2 turned on and it begins to flow a current I _T , while the voltage U _T on the semiconductor switching element 2 goes to zero.

Until the main contact is closed 4 the delay time c, which passes through the switching path of the switch, elapses 3 is defined. During the closing time d, the current I _T decreases through the semiconductor switching element 2 and the current I _S through the main contact 4 of the switch 3 rises until the load current only through the main contact 4 flows. Thus, the steady state condition is reached.

A separation process of the electrical contacts 1 becomes with the actuation of the switch 3 initiated. The corresponding curves of the currents and voltages are in 9 shown.

The main contact 4 of the switch 3 opens. The current I _S through the main contact 4 decreases during an opening time e and the current I _T through the semiconductor switching element 2 rises until the load current only through the semiconductor switching element 2 flows. After the lapse of the switching time f of the switch 3 the auxiliary contact closes 5 and the control voltage U _K drops to zero. Thus, a dead time after which starts g to run, also the gate voltage U _G by controlling 6 is switched off.

The dead time g is set so that one parallel to the semiconductor switching element 2 arranged sluggish electrical fuse 8th does not trigger. Only when the load current longer than the dead time g, for example due to a Durchlegierens of the semiconductor switching element 2 , by the electrical fuse 8th flows, triggers them and interrupts the flow of current.

With the switching off of the gate voltage U _G is the semiconductor switching element 2 locked and the electrical contacts 1 are de-energized. On the semiconductor switching element 2 As long as a voltage U _{T is applied} until the electrical contacts 1 be separated.

Claims (10)

Load-disconnect circuit for the currentless connection and disconnection of at least one electrical contact ( 1 ), in particular between a DC power source ( 9 ) and an electrical device ( 10 ), wherein the load disconnecting circuit is a semiconductor switching element ( 2 ) connected in series with the at least one electrical contact ( 1 ), characterized in that - parallel to the semiconductor switching element ( 2 ) a switch ( 3 ), which has a main contact ( 4 ) and an auxiliary contact ( 5 ), - the main contact ( 4 ) and the auxiliary contact ( 5 ) are coupled in such a way that the switching state of the auxiliary contact ( 5 ) before closing and after opening the main contact ( 4 ), - a controller ( 6 ) is provided, which the semiconductor switching element ( 2 ) depending on the switching state of the auxiliary contact ( 5 ) before closing the main contact ( 4 ) and after opening the main contact ( 4 ) turns off. Load-disconnecting circuit according to claim 1, characterized in that the at least one electrical contact ( 1 ) is secured by a mechanical locking device and that the mechanical locking device in the manner with the switch ( 3 ), that disconnecting the at least one electrical contact ( 1 ) only after opening the main contact ( 4 ) and that connecting the at least one electrical contact ( 1 ) only when the main contact is open ( 4 ) is possible. Load-disconnecting circuit according to claim 1 or 2, characterized in that a contact element of the main contact ( 4 ) and a contact element of the auxiliary contact ( 5 ) with an actuating element of the switch ( 3 ) are coupled. Switch-disconnector according to claim 3, characterized in that the actuating element of the switch ( 3 ) the at least one electrical contact ( 1 ) with the main contact closed ( 4 ) of the switch ( 3 ) shields and / or fixed. Switch-disconnector according to one of claims 1 to 3, characterized in that the at least one electrical contact ( 1 ) as plug and / or Screw is executed. Load-disconnecting circuit according to one of claims 1 to 5, characterized in that in series with the semiconductor switching element ( 2 ) a resistor ( 7 ) is arranged. Load-disconnecting circuit according to one of claims 1 to 6, characterized in that in series with the semiconductor switching element ( 2 ) an electrical fuse ( 8th ) is arranged. Load-disconnecting circuit according to one of claims 1 to 7, characterized in that in series with the semiconductor switching element ( 2 ) a diode (D) is arranged. Load-disconnecting circuit according to one of claims 1 to 8, characterized in that in series with the semiconductor switching element ( 2 ) the contact of a relay ( 11 ) and that the coil of the relay ( 11 ) with the controller ( 6 ) connected is. Load-disconnecting circuit according to one of claims 1 to 9, characterized in that the direct current source ( 9 ) as a direct current generator, in particular as a photovoltaic generator and the electrical device ( 10 ) is designed as an inverter.