SU985902A1 - Versions of device for short-circuiting protection of self-sustained inverter - Google Patents

Description

(5) DEVICE FOR PROTECTION OF AUTONOMOUS INVERTER

FROM SHORT CUTS IN LOAD (ITS OPTIONS)

one

The invention relates to electrical engineering and can be used to protect autonomous sources of alternating current operating on multiple loads against short circuits in one of them.

Known Autonomous source of alternating current, containing the current sensor connected through a threshold element to the switch at the output of the inverter}.

A disadvantage of this device is that an overload in one of the loads causes the inverter to tip over.

The device closest to that proposed by a technical entity for protecting an autonomous inverter from short circuits in a load contains an inverter thyristor control unit and a current sensor connected via parallel-connected threshold elements to the protection executive body 72.

A disadvantage of the known device is low reliability in case of short-term overloads (self-canceling short circuit).

The purpose of the invention is to increase the reliability of the device by detuning from short-term short circuits.

The goal is achieved by, in the device for protecting the autonomous inverter from short circuits in the load, containing an inverter thyristor control unit and a current sensor connected in parallel. , 5 included threshold elements with the executive body of protection, the current sensor is connected to the input of the control unit, the frequency output of which is connected to the blocking input of one of the 20 threshold elements.

Claims (2)

In another embodiment, the device for protecting the autonomous inverter from short circuits in the load is provided with a sensitivity switch of the threshold element j connected between the threshold element and the current sensor whose output is connected to the input of the control unit whose frequency output is connected to the control switch of the sensitivity switch, thus excluding threshold element with blocking input. Figure 1 shows a block diagram of a device with a current sensor in a direct current circuit; figure 2 - the same, in the AC circuit; in FIG. The same option. The device for protection of an autonomous inverter 1 connected to the power supply 2 and through the switch 3 to the load contains current sensors 5 connected to a constant (figure 1) or alternating current (Fig. 2 and 3) connected to control unit 6 It is also connected via threshold element 7 with protection actuator 8 connected to switch 3. Additional threshold element 9 is connected in parallel to element 7, and its blocking input is connected to the frequency output of control unit 6. In an embodiment of the device, the sensitivity switch 10 of the threshold element is connected between the current sensor 5 and the threshold element 7, and its control input is connected to the frequency output of the control unit 6. The device works as follows. In case of overload or short circuit due to the current sensor 5 signal, the inverter 1 changes the frequency so as to limit the current and ensure the stability of the inverter. The frequency of the inverter is changed by the control unit 6. Simultaneously with the onset of overload, the threshold element 7 is triggered and the signal is sent to the protection element 8 by the switch 3 disconnection. However, the body 8 has a relatively long run time and does not have time to turn off the switch 3, as the current decreases due to the change in the frequency of the inverter 1. The control unit 6 from its frequency output at the same time sends a signal that the frequency of the inverter is not equal to the nominal, but emergency. By this signal in circuits 4, figs 1 and 2), an additional current threshold element 9 is unblocked, which has a lower response level than element 7. Despite the decrease in inverter 1 current below the response thresholds of threshold element 7, the additional threshold element 9 continues to generate a signal to protection body 8 prior to operation of switch 3; if the frequency of inverter 1 remains alarm. In the circuit shown in FIG. 3, the same operation mode is provided by the sensitivity switch 10 of the threshold element 7. If the overload is short and the short circuit self-destructs before the switch 3 trips, the frequency of the inverter 1 returns to nominal and the signal from the threshold element 9 stops, right load disconnection does not occur. . Thus, due to detuning from short-lived self-depleting short circuits in the load, the reliability of the device is increased. Claim 1. A device for protecting an autonomous inverter from short circuits in a load, comprising an inverter thyristor control unit and a current sensor connected through parallel connected threshold elements with an executive protection body, characterized in that, in order to increase reliability by tuning out short-term short circuits A current sensor is connected to the input of the control unit, the frequency output of which is connected to the blocking input of one of the threshold elements. 2. A device for protecting an autonomous inverter from short circuits in the load, containing an inverter thyristor control unit and a current sensor connected through a threshold element to an actuator of protection, characterized in that it is equipped with a threshold element sensitivity switch connected between the threshold element and the sensor current, the output of which is connected 59859026 to the control input of the switch 1. Tolstov Yu.G. Autonomous insensitivity of the threshold element. tori current. I., Energie, 1978, p.200. Sources of information, 2. USSR author's certificate taken into account in the examination (f 3152 5, cl. H 02 H 7/10, 1966.