SU801189A1 - Device for power supply of load - Google Patents

Description

(54) LOAD POWER SYSTEM

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1ToSort is related to conversion engineering and can be used in static conversion with stabilized output parameters including uninterruptible power supply units, when to increase the total power of converters it is necessary to operate two separate autonomous current inverters in parallel while ensuring the loading of inverters, their prorated capacity m (uniform relative load).

Known power supply systems of the load, made in parallel with autonomous current inverters with a valve compensating device, requiring two inverters of equal power to ensure their synchronous and common-mode operation, and devices with extra power, to ensure parallel operation. Power systems are known in which synchronism and in-phase operation of the inverters in the autonomous and parallel operation modes is provided by valve compensating devices, in the control systems of which The automatic phase controllers and timers synchronized with each other are switched on. The power equalization in parallel with the operation of the inverters is provided by a valve with switches, in the control systems of which the power equalization blocks 2 are included.

The closest to the technical essence of the invention is the power supply system, which is made on the basis of autonomous parallel inverters with combined or dependent control, containing a switch and a valve compensator reactive

5 power with control systems and a sequential reactive element at the output, ensuring the inverter resistance to overloads and external short circuits. The use of power equalization units ensures that only inverters of equal power H are used for equal input voltages.

With different input voltages of 5 x, as well as with different installed inverter powers, the power equalization blocks do not provide uniform relative load, since they actually equalize

0 only inverter input currents. it

narrows the scope of application of such power supply systems, since it requires the use of parallel power inverters only, or an increase in the type of execution of inverters.

The aim of the invention is to expand the field of application by ensuring uniform relative load, regardless of the magnitude of the supply voltage of the inverters and their installed power.

The goal is achieved by the fact that in the power supply system of the load, consisting of two sources connected in parallel with the same type of reactive elements at the output, one of the sources is made on the basis of an autonomous current inverter with a combined or dependent control and includes a valve with a control system including The power leveling unit and valve reactive power compensator with a control system, each of these sources, is made on the basis of autonomous Inverter, a voltage sensor is inputted, the input of which is connected to the reactive element from the source side, and the output to the corresponding input of the power equalization unit.

The drawing shows a functional diagram of the power system.

Source 1 contains a KONwyTaTop 2 valve with a control system 3 providing the required switch valve gate angle, a reactive power valve compensator 4 with a control system 5, which ensures synchronism and in-phase voltage on switch 2 buses and buses in parallel with the source b, block 7 parallel capacitors, input reactor 8, power equalization unit 9, the inputs of which receive signals from voltage sensors 10 and 11, connected to the buses of switch 2 and a parallel source 6. Output block 9 power equalization connected to the switch control system 3. At the output of power supply sources 1 and 6, the same type of reactive elements 12 and 13 (choke or capacitor) are connected through which sources 1 and 6 are connected to load 14. Parallel operating source 6 can be an autonomous inverter similar to 1 or another sinusoidal source. for example, a network.

Consider the operation of the system on the example of two autonomous inverters 1 and b with series inductive elements 12 and 13 operating in parallel on an active-inductive load 14. When two inverters work in parallel, synchronism and synphase of the voltages of switches 2 and of the voltage of series elements 12 and 13 are provided by systems 5 control compensators.

The inputs of the power equalization units 9 of both inverters receive signals from the voltage sensors of the first 10 and second 11, switches 2. In case of inequality of the voltage values of the switches, the voltage difference signals are formed in the power equalization blocks 9. If the voltage of the sensor 10 of the inverter 1 exceeds the voltage of the sensor 11 of the inverter 6, the power equalization unit 9 generates a difference signal of such polarity that the system ynpaj 3 reduces the locking angle of the valves of the switch 2.

Equality of switch voltage by magnitude or equality of voltage of sensors 10 and 11 when they coincide in phase unambiguously ensures uniform loading of autonomous inverters with active and reactive power. In this case, inverters of equal installed power will be loaded with equal ms power, and inverters of different installed power will be proportional to power.

Thus, the use of voltage sensors associated with power equalization blocks reduces the number of performance versions of converters in the power range and reduces the cost of creating power supply systems by providing loads of intermediate power with parallel operation of inverters of different power, as well as creating uninterrupted power supply systems. AC power supplied from independent DC and AC power sources. In such uninterruptible power supply systems, parallel operating power sources are used to increase reliability, mostly stand-alone inverters, the input voltage levels of which are almost always different.

Claims (3)

1. Adami G. G. Chvanov V.A. The principle of building systems containing autonomous inverters operating in parallel. Materials of the seminar on cybernetics. Part 1. The dynamics of control systems. Chisinau, Shtiintsa, 1975. 2. Authorship certificate of the USSR 387486, cl. H02 J 3/46, 1971. 3. Authorship certificate of the USSR 530413, cl. Н02 Р 13/20, 1975. - "