CIRCUIT ARRANGEMENT WITH A THYRISTOR CIRCUIT, AS WELL AS A METHOD FOR TESTING THE THYRISTOR CIRCUIT

CIRCUIT ARRANGEMENT WITH A THYRISTOR CIRCUIT, AS WELL AS A METHOD FOR TESTING THE THYRISTOR CIRCUIT

The invention relates to a circuit arrangement with a thyristor circuit, as well as to a method for testing the thyristor circuit (11). The thyristor circuit (11) comprises at least one series circuit (12) in which two or more thyristors (13) are connected in series. Each thyristor (13) is parallel-...

Ausführliche Beschreibung

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Bibliographische Detailangaben
Hauptverfasser: OESTERLE, ROBERT, NOWAK, SIEGFRIED, GESKE, MARTIN
Format: Patent
Sprache:eng ; fre
Schlagworte:
BASIC ELECTRONIC CIRCUITRY
ELECTRICITY
MEASURING
MEASURING ELECTRIC VARIABLES
MEASURING MAGNETIC VARIABLES
PHYSICS
PULSE TECHNIQUE
TESTING
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Beschreibung
Zusammenfassung:The invention relates to a circuit arrangement with a thyristor circuit, as well as to a method for testing the thyristor circuit (11). The thyristor circuit (11) comprises at least one series circuit (12) in which two or more thyristors (13) are connected in series. Each thyristor (13) is parallel-connected to an RC member (20). A control device (28) can energize the thyristors (13) individually and independently of each other by means of a control signal (S ik), so that each thyristor (13) can be individually switched into its conducting condition. During a test sequence, the thyristors (13) are switched successively into their conducting condition, wherein - in a series circuit (12) and/or in the thyristor circuit (11) - respectively only one thyristor (13) is in its conducting condition. While a thyristor (13) is conducting, the capacitor (22) of the associate RC member (20) discharges and produces a thyristor current (I T). As a result of this, the conducting condition is maintained until the thyristor current (I T) falls below the holding current (I H). The control device (28) can use the thyristor voltage (U AK) and/or the thyristor current (I T) to evaluate the function or the switching behavior of the thyristor (13). Il est décrit un agencement de circuit avec un circuit à thyristors et une méthode de mise à lessai du circuit à thyristors (11). Ce circuit (11) comprend au moins un circuit en série (12) dans lequel au moins deux thyristors (13) sont branchés en série. Chaque thyristor est branché en parallèle sur un élément de radiocommande (20). Un dispositif de commande (28) peut énergiser les thyristors (13) individuellement et indépendamment des autres au moyen dun signal de commande (S ik), de sorte que chaque thyristor (13) puisse être individuellement commuté en condition de conduction. Pendant une séquence dessai, les thyristors (13) sont commutés en succession dans leur condition de conduction, respectivement un seul thyristor (13) étant en condition de conduction dans le circuit en série (12) et/ou le circuit à thyristors (11). Lorsque le thyristor (13) est en conduction, le condensateur (22) de lélément de radiocommande (20) connexe est déchargé et produit un courant de thyristor (I T). Par conséquent, la condition de conduction est maintenue jusquà ce que le courant de thyristor (I T) tombe sous le courant de maintien (I H). Le dispositif de commande (28) peut utiliser la tension du thyristor (U AK) et/ou la tension du thyristor (I T) p