Claims
- 1. An electrical network, comprising:
- a three-phase electrical system having three-phase lines energized with a predetermined system high-voltage and coupled to each line a respective circuit including:
- a high-voltage reactor having a natural capacitance and a natural inductance which enable the high-voltage reactor to oscillate with a first over-voltage having a frequency of several kHz after said reactor is disconnected from a respective one of said three-phase lines;
- a reactor switch disposed between said high-voltage reactor and said respective line for selectively connecting and disconnecting said high-voltage reactor from said respective line, said reactor switching including a first terminal electrically connected to said high-voltage line and a second terminal electrically connected to said high-voltage reactor, said reactor switch further including a first switching unit connected between said first and second terminals of said reactor switch, said reactor switch inducing, between said first and second terminals and during the opening thereof, a recovery voltage corresponding to the difference between said system high-voltage and said first over-voltage;
- said electrical network being of the type in which reignition of said reactor switch induces a second over-voltage including a high-frequency restrike oscillation having a frequency on the order of several hundred kHz, said high-voltage reactor being susceptible to being damaged on being exposed to said second over-voltage as a result of excessive rate of change in voltage associated with said second over-voltage; and
- a first voltage-dependent resistor connected in parallel across said reactor switch, said first voltage-dependent resistor comprising at least one metal oxide, having a current-voltage characteristic rate to limit the recovery voltage across said reactor switch below a first predetermined value to keep the rate of change of voltage of the second over-voltage below a second predetermined limiting value, said first predetermined value being substantially larger than said predetermined system high voltage and said first voltage-dependent resistor being essentially connected across said reactor switch and tailored for the purpose of keeping said rate of change of voltage of said second over-voltage below said second predetermined limiting value.
- 2. The electrical network of claim 1, in which the reactor includes insulation means for insulating the reactor and wherein it is the insulation means which is susceptible to being damaged by the high-frequency restrike oscillation component.
- 3. The electrical network of claim 2, further comprising a second switching unit connected in series with said first switching unit and in parallel with said voltage-dependent resistor.
- 4. The electrical network of claim 2, in which said reactor switch comprises a second switching unit and a second voltage-dependent resistor connected in parallel to one another, said second switching unit and said second voltage-dependent resistor being further connected in series with said first switching unit and first voltage-dependent unit and between said first and second terminals of said reactor switch.
- 5. The electrical network of claims 1, 2, 3 or 4, in which said predetermined value equals 2.4 normalized voltage units per microsecond where one normalized unit is equal to .sqroot.2/.sqroot.3-times a peak value of one phase voltage associated with said electrical network.
Priority Claims (1)
Number |
Date |
Country |
Kind |
5401/84 |
Nov 1984 |
CHX |
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Parent Case Info
This is a continuation of application Ser. No. 795,091, filed on Nov. 5, 1985, now abandoned.
US Referenced Citations (18)
Foreign Referenced Citations (2)
Number |
Date |
Country |
1291403 |
Mar 1969 |
DEX |
2421885 |
Nov 1975 |
DEX |
Continuations (1)
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Number |
Date |
Country |
Parent |
795091 |
Nov 1985 |
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