SU558342A1 - Device for controlling the disappearance of one or more phases - Google Patents

Description

Depending on the position of the key 9, the device can operate in two modes: in the mode of memorizing temporary phase loss and in the mode of tracking the presence of all phases of the monitored voltage.

When a controlled voltage is applied to the device and with the key 9 closed (tracking mode), the device operates as follows. The pulses of the rectified controlled voltage in the presence of all phases overlap in time, therefore, at the output of the rectifier 1 relative to the zero bus, a sufficiently high constant pulsating voltage appears. The capacitor 5 begins to charge through the resistor 7. As soon as the voltage on the capacitor 5 reaches the trigger voltage of the dynistor 4, the latter is triggered and the capacitor 5 is discharged through the control electrode – cathode 2. The thyristor 2 is switched on and through the load 3, for example, the winding of the electromagnetic relay begins to flow.

When one or more phases disappear, the voltage at the output of the rectifier 1 acquires a pulsed character, and in the intervals between the pulses it becomes equal to zero. At these times, the current through load 3 and thyristor 2 is reduced to zero, and thyristor 2 is turned off. To turn on the thyristor 2 again, it is necessary that the capacitor 5 be charged again until the voltage is triggered by the dynistor 4. During the rectified voltage pulse, the capacitor 5 is charged through the resistor 7, and during the pause it is discharged through diode 6 and the resistor 8. The charge and discharge times are chosen so that during the rectified voltage pulse the capacitor 5 does not have time to charge up to the distor 4 trigger voltage, and during the pause it discharges, therefore the thyristor 2 cannot be switched on again and the current h res load 3 does not leak that prodollsaets until then, until the restored ts all phases of the system being monitored.

If key 9 was open before the phase disappeared (memory mode), then the charge circuit of the capacitor 5 is broken. Therefore, in the case of temporary phase failure, the switched off thyristor 2 (switching off occurs as described above), when all phases are restored, it cannot be switched on again; the temporary absence of one or more phases is memorized.

The above-described version of the device registers a short-term phase loss (one period). If it is required that a prolonged absence of phases be recorded, i.e., such a rare work, when the disappearance of one or two periods on the LR does not cause the device to operate, then another option of the device should be used (see

FIG. 2), where the load 3 is included in the cathode circuit of the thyristor 2. (Due to the smallness of the reverse voltage of the dystors, in this case, the introduction of a protective diode 10 is required). If the discharge time of the capacitor 5 is chosen so that during the pause when the phase disappears, the capacitor 5 has time to discharge completely, then the device will work as in the previous case. If the discharge time of the capacitor 5 is chosen so that during the pause time through the diode 6, the resistor 8 and the load 3 connected in parallel to the resistor 8 with a conducting thyristor 2, the discharge is only partially discharged, then the thyristor 2 when the phase is lost

for one period can not be turned off. Thyristor 2 is turned off only when the voltage on the anode of thyristor 2 relative to the zero bus decreases so much that the current flowing through thyristor 2,

there will be less holding current.

Thus, in the proposed device, the current through the load 3 will flow only if there are all phases of the monitored network, and depending on the choice of parameters of the charge-discharge circuit, the device reacts either to a short-term voltage drop (one period), or for its long absence (several periods), and depending on the position of the key 9, the device either memorizes the temporary phase loss, or works in tracking mode, interrupting the current in the load 3 only for the time of phase loss. When working in the memory mode, key 9 is used as an element

reset.

Claims (2)

1. USSR author's certificate No. 375730, M., Cl. 2, 02P 3/24, 10.08.70. 2. USSR author's certificate No. 366526, M., Cl. 2 N 02P 3/24, 15.04.71 (prototype).