SU708456A1 - Arrangement for monitoring alternation and break of phases of m-phase circuit - Google Patents

Description

The invention relates to the protection of 'consumers from incorrect interlace and phase discontinuity and can be used, e.g., in the immediate _ governmental inverters ^e EVs and aircrafts.

A device for controlling the rotation and phase loss in which. measure the potential of an artificially connected point relative to the potential of another point and compare it with a given (1].

The device comprises a resistor and a capacitor connected in series between the two phases 15, the midpoint of which is connected through a resistor, a comparison organ and an actuator to the third phase of the network. The disadvantages of the known device are its 20 limited scope (only for a three-phase network), low reliability due to the departure of the parameters of the measurement and control elements when the temperature and aging change. ^ 5 In addition, the need to measure voltage and compare it with a given one requires tuning to obtain given potential artificially connected points. thirty

There is also known a device for controlling phase rotation and phase loss of an m-phase network, in which step pulses are formed from phase voltages, and phase rotation and termination are controlled by differentiating and integrating links using phase combination and duration [2].

The known device has low noise immunity to impulse noise and is critical to a change in the frequency of the supply network.

The aim of the invention is to expand the functionality by applying to networks with a variable frequency and increasing noise immunity,.

This goal is achieved by the fact that the device for controlling the alternation and phase loss of the m-phase network, containing serially half-wave shapers connected to the controlled phase and connected to the controlled body, is equipped with a delay unit connected between the executive body and the logical control containing w-1 control unit, each of which has a reset input and one combinational input connected to the driver of the half phase of the reference phase, the second combinational input is connected nen with the output of the previous control node, the remaining combinational inputs are connected to the formers of half-manders, and the output is fed to the combinational input of the next control node. In this case, the control unit contains a 2I-NOT element, one input of which is connected to the output of the PI-NOT combinational element, another input - with the output of the ZI-NOT reset element, and the output - with one of the inputs of the reset element.

Pa fig. 1 shows a device for monitoring the rotation and phase loss; ya FIG. 2-4 are graphs explaining the operation of the device.

A device for monitoring the alternation and breakage of phases, for example, a six-phase network, contains shapers 1-6 half-manders and an executive body 7, between which a delay unit 8 and control units are included. The control unit contains a 2I-NOT 9 element, one input of which is connected to the output of the reset element 2 W-HE 10, the other input - with the output of the combination element ZI-NOT 11, and the output - with one of the inputs of the reset element 10. The remaining control nodes (12-13-14, 15-1617, 18-19-20, 21-22-23) have the same structure and differ from each other in the number of inputs of the combination elements 14, 17, 20, 23.

Reset inputs for all control nodes (inputs of elements 10, 13, 16, 19,

22) are connected to the former of the half-phase of the reference phase. In this case, phase a is taken as the reference one. In addition, one of the combination inputs of each control node (one of the inputs of elements 11, 14, 17, 20,

23). The output of each control node is fed to the combination input of the next node. The remaining combinational inputs of the nodes are connected to the formers of half-manders of other phases.

The device operates as follows.

When applying the first combination of A, C, C ^g to the combination element 11, its output signal will become equal to zero. A single signal will appear at the output of element 9, which, through the reset element 10, will become self-locking and will be held until a single signal is applied to the second input of the reset element 10, i.e. throughout the half-man A. The single output signal of the first control node in combination with the correct second combination of A, C, A *, C * at the input of element 14 will switch the second control node, etc. With the correct alternation of the network phases, all five combinations will be dialed and a single signal will appear at the output of the last control node during the last two combinations. This signal is repeated with the network frequency. To obtain a continuous signal at the input of the actuator, a delay unit is turned on, which gives the output signal simultaneously with the input signal, and removes it with a delay of several network periods. This avoids false positives in case of accidental failures of the monitoring nodes.

The device can be used to control the alternation and breakage of the phases of the network with any number of phases. With a change in the number of phases, only the number of control nodes changes.

The device is not critical to the network frequency. It is only necessary that the delay node be designed taking into account the minimum network frequency.

The lack of power and reactive elements allows you to perform the proposed device in the form of a single integrated circuit. This gives a significant reduction in weight and dimensions and eliminates the need for adjustment both in manufacturing and in operation of the device.

Claims (2)

The reset and one combinational input are connected to the shaper of the half-phase of the reference phase, the second one is combined, the second is connected to the output of the main control unit, the remaining combinational inputs are connected to the shapers of the half-meanders, and the decoder is fed to the combined input of the next control node. At the same time, the control unit contains element 2I-NOT, o, whose input is connected to the output of the PI-NOT combination element, another input to the output of the reset element, and the output to one of the inputs of the reset element. In FIG. 1 shows a device for control. alternation and phase break; Figs 2-4 are graphs explaining the operation of the device. A device for controlling alternation and termination of phases, for example, a six-phase network, contains shapers 1-6 half-manders and executive unit 7, between which the delay node 8 and control nodes are included. The control node contains element 9, one input of which is connected to the output of the W-HE Yu reset element 2, the other input to the output of the cat of the bin Zio-NE element 11, and the output to one of the inputs of the reset element 10. The remaining control nodes (12-13-14, 15-1617, 18-19-20 21-22-23) have the same structure and differ from each other in the number of inputs of the combinational elements 14, 17, 20, 23. Reset inputs for all control nodes (inputs of elements 10, 13, 16, 19, 22) are connected to the semi-shaper of the meander of the reference phase. In this case, the support phase a. In addition, with the same shaper 1 of phase a, one of the ketibation inputs of each control node is connected (one of the inputs of elements 11, 14, 17, 20, 23). The output of each control node is fed to the combinational input of the next node. The remaining combinational inputs of the nodes are connected to the shapers of half-coders of other phases. The device works in the following way. When applying the first combination A, C, to the combinational element 11, its output signal will become zero. At the output of element 9, a single signal is shown, which, through the element 10 of the reset, will rise to a self-elevation and will be held until a single signal is fed to the second input of the reset element 10, i.e. throughout the entire half-mandrel A. The single output signal of the first control node in combination with the correct second combination A, C, A, c at the input of element 14 will switch the second control node, etc. With the correct alternation of the network phases, all five combinations will be dialed and, at the output of the last control node, a single signal will appear during the last two combinations. This signal is repeated at the network frequency. In order to receive a continuous signal at the executive unit input, a delay node is turned on, which outputs a signal simultaneously with an active signal, and removes it with a delay of several periods of the network. This allows you to avoid false positives of protection in case of accidental failure of control units. The device can be used to control the alternation and break of network phases with any number of phases. With a change in the number of phases, only the number of control nodes is changed. The device is not critical to the frequency of the network. It is only necessary that the delay node be designed with regard to the minimum frequency of the network. The absence of power and reactive elements allows the proposed device to be implemented as one integrated circuit. This results in a significant reduction in weight and size and allows refusing adjustment during both manufacturing and operation of the device. Claim 1, A device for controlling the alternation and termination of a phase of a t-phase network, containing sequentially connected to a logical control authority and an executive body, half-meander drivers connected to the phases controlling them, which is different by using in networks with variable frequency and noise immunity, it is additionally equipped with a delay unit connected between the executive body and the logic control body containing -1 control node, each of which has a reset input and one combinational input connected to the shaper half-coder of the reference phase, the second combinational input is connected to the output of the previous control node, the remaining combinational inputs are connected to the half-coder shaper, and the output goes to the next combined input node control. 2. The device according to claim 1, characterized in that the logical control node contains element 2И-NOT, one input of which is connected to the output of the combining element PI-NOT, the other input - with the output of the reset element ZI-NO "and the output - with one of the inputs of the reset item. Sources of information taken into account in the examination No. i. USSR authorship certificate 515208, cl. H02 H 3/24, 1974. 2. USSR Authorship Certificate 532147, cl. H02 H 3/26, 1974, II XJLZHJL n and GT n g 1 I S.Sl t .. i I1 -hH I 1 | rpTin G t IM P i L tiiiil at R with Offtm Ofnx in