Method and apparatus for operating a load supplied via an intermediate-link converter, especially an asynchronous machine, in the event of a network disturbance
First Claim
1. A method for operating an asynchronous machine coupled to an a-c supply network via an intermediate link converter in the event of a disturbance of the supply network, the converter comprising rectifier means coupled to the supply network, inverter means coupled to the asynchronous machine, said converter fired in a normal commutation cycle when there is no disturbance of the network, the inverter means and rectifier means being coupled by an intermediate d-c link, the method comprising the steps of:
- inhibiting the normal commutation cycle of said converter until the current in the intermediate d-c link has decayed by inhibiting normal firing of controlled rectifiers of the rectifier means and normal firing of controlled rectifiers of said inverter means;
during the disturbance, resuming the commutation cycle of said inverter means, firing two series connected controlled rectifiers of the rectifier means coupled across the intermediate d-c link so that the asynchronous machine current is again able to flow through the intermediate d-c link and said two series-connected controlled rectifiers of the rectifier means, the frequency of the commutation cycle being slaved to a measured value of the machine frequency such that the machine current assumes a value required for maintaining a desired flux in said asynchronous machine; and
after the end of the disturbance coupling said rectifier means synchronously to the network and resuming the normal commutation cycle of the rectifier means.
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Abstract
In order to maintain the flux in an asynchronous machine supplied by an intermediate-link converter in the event of a network disturbance, the converter is initially blocked at the beginning of the network disturbance. After the intermediate-link current has decayed, the timing of the free-running converter on the machine side and the ignition of two series-connected controlled rectifiers of the converter on the network side are effected. The flux still present in the machine induces in the stator circuit closed in this manner a machine current which is controlled by a supplemental current controller in an operation slightly on the generator side, whereby, at the expense of the kinetic energy of the synchronized machine, a current through the circuit is generated which is required for covering the dielectric losses and for maintaining the desired flux.
13 Citations
14 Claims
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1. A method for operating an asynchronous machine coupled to an a-c supply network via an intermediate link converter in the event of a disturbance of the supply network, the converter comprising rectifier means coupled to the supply network, inverter means coupled to the asynchronous machine, said converter fired in a normal commutation cycle when there is no disturbance of the network, the inverter means and rectifier means being coupled by an intermediate d-c link, the method comprising the steps of:
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inhibiting the normal commutation cycle of said converter until the current in the intermediate d-c link has decayed by inhibiting normal firing of controlled rectifiers of the rectifier means and normal firing of controlled rectifiers of said inverter means; during the disturbance, resuming the commutation cycle of said inverter means, firing two series connected controlled rectifiers of the rectifier means coupled across the intermediate d-c link so that the asynchronous machine current is again able to flow through the intermediate d-c link and said two series-connected controlled rectifiers of the rectifier means, the frequency of the commutation cycle being slaved to a measured value of the machine frequency such that the machine current assumes a value required for maintaining a desired flux in said asynchronous machine; and after the end of the disturbance coupling said rectifier means synchronously to the network and resuming the normal commutation cycle of the rectifier means. - View Dependent Claims (2, 3, 4, 5, 6, 7, 8, 9, 10)
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11. Apparatus for operating an asynchronous machine coupled to an a-c supply network via an intermediate link converter in the event of a disturbance of the supply network comprising:
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rectifier means coupled to the supply network, inverter means coupled to the asynchronous machine, said inverter means and rectifier means being coupled by an intermediate d-c link; control unit means for developing firing pulses for controlled rectifiers of said rectifier means and said inverter means; means for monitoring the state of the supply network and for inhibiting the converter if a network disturbance occurs; supplemental current controller means for forming a first control signal for controlling the frequency of the commutation cycle of said inverter means in the event of a network disturbance; first switching means for disconnecting said first control signal of the supplemental current controller means from the control unit means for developing said firing pulses for said inverter means during normal operation, said first control signal being slaved to a measured machine frequency, and means coupled to an input of said supplemental current controller means for acting on said supplemental current controller means in the event of a network disturbance comprising means for generating a second control signal including function generator means for generating a current reference value from the machine frequency and means for measuring the actual value of the machine current, said second control signal being proportional to a deviation between said current reference value and said actual value, said second control signal being coupled to an input of said supplemental current controller means by second switching means, the output of said supplemental current controller means being coupled to an input of said control unit means by said first switching means in the event of a network disturbance; third switching means for coupling firing pulses to said rectifier means and fourth switching means for coupling firing pulses to said inverter means; and switching control means for controlling said first and second switching means and said third and fourth switching means in the event of a network disturbance such that the firing pulses for said rectifier means are interrupted and the firing pulses for said inverter means remain blocked until the current in said intermediate d-c link is substantially extinguished and such that subsequently said first and second switching means are actuated and said fourth switching means is reset for normal operation and two series-connected controlled rectifiers of said rectifier means are fired, said controlled rectifiers of said inverter means being fired again in a normal commutation cycle and that after the disappearance of said disturbance on the network, said first, second and third switching means are reset for normal operation of said converter and said rectifier means is coupled to the network. - View Dependent Claims (12, 13, 14)
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Specification