RU2032975C1 - Uninterrupted power supply system - Google Patents

Abstract

FIELD: electrical and radio engineering. SUBSTANCE: uninterrupted power supply system has power rectifier 2, charger 3, inverter 4, fast-action key 9, charging link of storage circuit 6 composed of diode 7 which anode is linked to positive pole of power rectifier 2, resistor 8, storage circuit 6 coupled to resistor 5 and to negative pole of power rectifier 2 connected in series and replenishing link incorporating resistor 8 and storage circuit 6 connected in series. Positive pole of charger 3 is coupled to cathode of diode 7 and negative poles of it and of power rectifier 2 are tied up together. System also includes unit testing parameters of capacitive storage circuit. EFFECT: increased reliability and improved operational characteristics of system. 2 cl, 1 dwg

Description

 The invention relates to electrical engineering, in particular to systems for ensuring uninterrupted power supply for responsible consumers.

 Uninterruptible power systems are known, which are a combination of converters, switching devices and energy storage devices, constituting a power system capable of providing continuous load power in the event of a failure of the input power source [1] Inertial flywheels or rechargeable batteries are traditionally used as energy storage devices.

The disadvantages of inertial flywheels are to increase the mass and dimensions of the system, complicating the technical operation and maintenance, low coefficient of return [2]
The closest technical solution to the proposed one is an uninterruptible power supply system containing a rectifier and an inverter connected in series, a direct current source connected via a high-speed key, and its charger [3]
The system considers a battery as a direct current source. The rechargeable battery is effective at interruptions of external power supply from several minutes and more. The presence of a battery in the system requires care and maintenance, a charge-discharge device.

 The purpose of the invention is to increase reliability and improve operational and technical indicators of an uninterruptible power system.

 This goal is achieved by the fact that in an uninterruptible power system containing a rectifier and an inverter connected in series, a direct current source connected via a quick switch and its charger, a capacitive drive is used as a direct current source, which is connected via an additional input resistance to one of the terminals with a charger and through the newly introduced isolation semiconductor device with a rectifier.

 In order to reduce the installed power of the charger, a capacitive storage parameter control unit is connected to the inverter.

 The drawing shows a block diagram of the proposed uninterruptible power system, which contains an input terminal 1, to which a power rectifier 2 and a charger 3 are connected, an inverter 4 is connected to the output of the power rectifier, the output of which is connected to terminal 5.

 The system also contains a charge circuit of the capacitive storage 6, which consists of a diode 7 connected in series, the anode of which is connected to the positive pole of the power rectifier 2, the resistor 8, the drive 6, connected to the resistor 8 and the negative pole of the power rectifier 2. There is a charge circuit, consisting of series-connected resistor 8 and drive 6, while the positive pole of the charger 3 is connected to the cathode of the diode 7, and the negative pole of the charger 3 and the power rectifier 2 are combined. Capacitive storage 6 is connected to the input of the inverter 4 through a high-speed key 9. The control unit 10 of the parameters of the capacitive storage 6 is connected to the inverter 4.

 The uninterruptible power system operates as follows.

 If there is a voltage of the main power supply at terminal 1 and the power rectifier 2 is turned on, the drive 6 is charged through the diode 7 and resistor 8, while the charger 3 and the inverter 4 are not turned on. When the voltage on the drive 6 reaches about 85% of the output voltage of the power rectifier 2, the charger 3 is turned on, whose output voltage must be higher than the voltage at the output of the power rectifier 2. Due to this, the diode 7 is turned off and the drive 6 is recharged from the charger 3 through resistor 8.

 The charger 3 is disconnected when the voltage on the drive 6 reaches the nominal value, after which the uninterruptible power system is ready to turn on the inverter 4 and accept the load.

 The inverter 4 is turned on by a signal from the control unit 10 of the drive parameters when the voltage on the drive 6 of the set value is reached.

 The charge of the drive 6 first through the rectifier 2, and then through the charger 3 allows you to reduce the installed power of the elements of the charger 3 (transformer and rectifier bridge) and to reduce the mass and dimensions of the charger 3.

 In normal mode, the inverter 4 receives power from the power rectifier 2 and provides the rated output parameters at terminal 5.

 In the event of a power failure at the terminal 1, a high-speed switch 9 is triggered, which ensures uninterrupted power to the inverter from the drive 6 for a predetermined time.

 When voltage appears on terminal 1, the high-speed switch 9 is turned off, the inverter 4 is powered by a power rectifier 2, the charger 3 recharges the drive 6 to the rated voltage.

 For the most complete use of the energy of the drive during operation, the charger 3 supports the voltage on the drive 6 within 100-95% of the nominal value.

 Using the proposed technical solution in uninterruptible power systems will improve reliability and improve the operational and technical performance of the system.

Claims (2)

 UNINTERRUPTIBLE POWER SYSTEM, comprising a rectifier and an inverter connected in series, a direct current source connected via a high-speed key, and its charger, characterized in that, in order to increase reliability and improve operational and technical indicators, a capacitive storage device is used as a direct current source, which one of the terminals is connected through an additionally inserted resistance to the charger and through a newly introduced isolation semiconductor device with ypryamitelem.  2. The system according to claim 1, characterized in that, in order to reduce the installed power of the charger, a capacitive storage parameter control unit connected to the inverter is additionally introduced into the system.