SU917301A1 - System of power supply sources - Google Patents

Description

(St) POWER SUPPLY SYSTEM

I

The invention relates to industrial electronics and can be used in static converters with stabilized output parameters, including uninterruptible power supply units, when parallel operation of converters is required to increase the total power of the converters. . Known power supply systems are made on the basis of parallel independent autonomous current inverters with a valve compensating device and a serial reactive element at the output with combined or dependent control methods that ensure uniform loading of parallel inverters in proportion to the installed power due to synchronous devices and power leveling devices. JV

Closest to the proposed technical essence is

A power supply system in which each autonomous inverter includes a switch with a control unit including a power equalization device, a reactive power compensator with a control unit, a downstream reactive element, a voltage sensor connected to the reactive element. The synchronous and in-phase operation of the inverters is provided by valve compensating devices, the control units of which include automatic phase controllers and master oscillators synchronized with each other. Power equalization of parallel working inverters is provided by-. switches (valve bridges of the inverter itself), the control units of which include

20 power leveling device (CCA). .

Claims (2)

Signals from the voltage sensor on the switch 39 (up to the series element) of its inverter and from the arithmetic average voltage sensor of the switches of parallel inverters or from the voltage sensor of a parallel switch of the inverter in the case of parallel operation of two inverters are received at the UVM-inputs. The difference between these voltages is amplified and supplied to the switch control system by changing the position of the pulses of the switch so as to eliminate the difference in voltages on the switches of parallel-working inverters. In order to eliminate the influence of UVM on the static characteristics of the inverter during a single operation, the output signal of UVM is limited, the limiting value is selected within the limits of the allowable static error of the voltage regulators on the load C2. Disadvantage. Such a system of parallel-running inverters is a fundamental need for information in each inverter about the magnitude of the voltages on the switches of other parallel-running inverters. This reduces the reliability of the system, since in case of disturbances in signal transmission from other inverters, the ACU will work incorrectly and parallel operation cannot be ensured. The purpose of the invention is to increase reliability by eliminating the influence of voltage information on individual sources. This goal is achieved by the fact that in the system of power sources implemented on the basis of autonomous inverters with dependent or combined control, each switch contains a control unit, a reactive power compensator with a control unit, a series reactive element in the output circuit and a voltage sensor connected to the reactive element, into each source, an output voltage sensor and a power limiting unit with two inputs are inserted, to which the outputs of both voltage sensors of this source are connected The output of the power limiting unit is connected to the input of the switch control unit. FIG. 1 shows a functional diagram of the proposed power supply system; in fig. 2 - static characteristics of the input-output power limiting block. The output signal (Ug) is the voltage difference between the switch (UtJ and load (and "), the coefficient a characterizes the range of operation of the block to the cut-off mode (the output signal is zero), the coefficient oL characterizes the gain of the block in the cut-off mode (limit), determines the amount of limitation of the signal from the output of the limitation block. The limitation of the output signal of the limitation block, unlike the leveling device, is optional and the need to apply it is determined when working together with a specific signal. control unit of the switch. The limiting unit for a single inverter operation does not affect the mode of operation of the inverter, since the value of the coefficient L is chosen so that when the load changes from idle to a different signal on you, the limiting unit is zero. In general, the input-output characteristic of the limiting unit is asymmetrical, i.e. ; (if any). . Inverter 1 contains a switch 2 valve block that converts direct current into alternating current with a control block 3 providing the required angle of the switch valve locks, a valve compensator k of reactive power with a control block 5 providing the synchronism and synphasis of the voltages on the buses of switch 2 and on bus switches of parallel operating inverters 6-8j, the number of which can be arbitrary, block 9 pa-. parallel capacitors, input reactor 10, sequential reactive element 11, power limiting unit 12, whose inputs receive signals from voltage sensors 13 and H, are connected with their inputs to load bus 15 and to switch bus 2. Output of power limiting unit 12 is connected to the input of the switch control unit 3. Parallel operating sources 6-8 must be autonomous inverters similar to inverter 1, the power of sources 6-8 does not affect the mode of operation of the inverter tU. The system works as follows. Consider the work of the system on the example of an autonomous inverter 1 with a successive inductive element 11. The work of the other inverters 6-8 is similar. In standalone mode, the load may vary from idle to nominal. In this case, the voltage on the switch 2 of the inverter 1 is changed from Ujt. U, y (UHf is the voltage at load 15) when idling up to Ui..yy at nominal load corresponding to the maximum allowable. In parallel operation of an arbitrary number of inverters, the synchronism and the in-phase voltage of the commutators 2 is provided by the compensator control units 5. The inputs of power limiting unit 12 receive signals from the switch AND voltage switch (and voltage sensor 13 on the load (Uw). In power limiting block 12, the input signal ibch Uis is generated, - UH. If condition 0 and -UH.U, HOM - UHV, then the output of power limiting block 12 is zero, which means that the inverter is loaded with an active-inductive load less than acceptable. If this condition is not met, then the signal UK g and is amplified and 6 block 3 is supplied by the inverter control. Moreover, if Uj is Utt, O, i.e., 0 (4 and ", the output signal The power limiting unit has such a polarity that, when it enters the input of the switch control unit 3, it increases the locking angle of the valves of switch 2 (angle 5) .If 1 Un.w) w, then the angle S decreases. Thus, the elimination of communication lines with other sources operating in parallel, with independent power control of each of them within acceptable limits, increases the reliability of the system. The power supply system is made on the basis of autonomous inverters with dependent or combined control, containing each switch with a control unit, a reactive power compensator with a control unit, a series reactive element in the output circuit and a voltage sensor connected to the sequential reactive element, characterized by the fact that, with a chain of increasing reliability, in parallel operation of autonomous inverters in the system of power sources by eliminating the influence of information on voltages on the department Two system sources, an output voltage sensor and a power limiting unit with two inputs are connected to each source, to which the outputs of both voltage sensors of this source are connected, and the output of the power limiting unit is connected to the input of the switch control unit. Sources of information taken into account in the examination i 1. The author's certificate of the USSR in application number, class. 02 R 13/18, 1979. 2. USSR author's certificate on z.Vka W 2757958, cl. H 02 R 13/18, 1979. FSh.1 Fi82