CN1238940C - Circuit for maintaining voltage on DC side in balance - Google Patents

Abstract

The present invention relates to a circuit for maintaining voltage on a DC side in balance, which comprises a single-phase inverter, a DC side energy feed circuit, a common DC voltage bus bar, a DC side energy feedback circuit, an auxiliary circuit of a power switch device driving power source, and a common starting DC power source, wherein two input terminals of the DC side energy feed circuit are respectively connected with two output terminals of the single-phase inverter; the positive output terminal of the DC side energy feedback circuit is connected with a positive terminal at the DC side of the single-phase inverter; a negative output terminal is connected with a negative terminal at the DC side of the single-phase inverter. The circuit of the present invention does not need setting DC capacitor voltage value of running of devices, and the devices can adapt to any DC capacitor voltage in theory. When the devices are used, the devices can adapt to the DC capacitor voltage from zero to the maximum allowable DC capacitor voltage. The feedback closed loop control of the DC capacitor voltage does not need, the capacitor accumulated energy of high voltage can automatically flow to a capacitor of low voltage and can not flow in a reverse direction, and the balance control of the voltage can be automatically finished.

Description

A kind of circuit that makes dc voltage keep balance

Technical field the present invention relates to a kind of circuit that makes dc voltage keep balance, and the dc voltage that relates in particular to a kind of STATCOM that makes chain structure or active filter keeps the circuit of balance, belongs to the electric automatization equipment technical field.

The reactive-load compensation equipment that background technology is traditional has the capacitor of synchronous compensator, fixed capacity, the shunt reactor of switch control etc., these equipment can satisfy the reactive power compensation requirement of certain limit, but they have shortcomings such as response speed is slow, Breakdown Maintenance difficulty.The Static Var Compensator of thyrister form (SVC) has preferable performance, but also has following major defect: 1) owing to it shows the constant-impedance characteristic to the fluctuation of line voltage, thereby can not give full play to its effect when voltage ripple of power network; 2) system is produced more harmonic current.

Along with the appearance of large power semiconductor device (GTO, IGBT, IGCT, IEGT), a kind of novel STATCOM (hereinafter to be referred as STATCOM) has begun to be applied to the Voltage Stability Control of electric power system.STATCOM is made of voltage source inverter, it is equivalent to static synchronous compensator on principle, but dynamic characteristic is much better than synchronous compensator, it has advantages such as the starting nothing is impacted, regulated continuously, response is quick, floor space is little, have great advantage at equal tools in aspect such as transmission line capability that improves the stability of a system, the existing transmission line of raising and inhibition voltage flickers, having become the reactive-load compensation equipment of new generation that various countries competitively develop, is one of important composition parts of flexible AC transmitting system (FACTS) from now on.At present each big electrical network of China have still that power supply deficiency, electric network composition are unreasonable, the stability of a system and the relatively poor problem of power supply quality, it is urgent and significant day by day that the application of jumbo novel static reacance generator becomes.

The main circuit of STATCOM device or active filter generally adopts multipleization of transformer voltage source inverter structure or chain type voltage source inverter structure.Wherein, the chain type voltage source inverter has following superior characteristics: 1) modular construction, 2) realize redundancy running, 3 easily) can realize the equilibrating compensation of unbalanced load, 4) can allow higher system voltage asymmetric, 5) efficient is higher.One of key technology of chain type voltage source inverter is the Balance Control of the dc voltage of its each single-phase inverter.Visible report is the 75MVASTATCOM device of Britain ALSTOM company exploitation at present, it has adopted a kind of two-way inverter to return each dc capacitor with each dc bus capacitor energy inversion to public exchange voltage bus or from public exchange voltage bus transformation energy, thereby controls the method for each dc capacitor voltage balance.But this method control is comparatively complicated.

Summary of the invention the objective of the invention is to propose a kind of circuit that makes dc voltage keep balance, to solve the dc-voltage balance control problem of STATCOM device or active filter, guarantees the normal operation of device.

The dc voltage that makes that the present invention proposes keeps the circuit of balance, comprises single-phase inverter, also comprises:

A DC side energy back circuit, a public direct-current voltage bus, a DC side energy feedback circuit, a device for power switching driving power auxiliary circuit and a public startup DC power supply; Two inputs of DC side energy back circuit join with two outputs of single-phase inverter respectively; The positive output end of DC side energy feedback circuit and the DC side anode of single-phase inverter join, and the positive DC side end of negative output terminal and single-phase inverter joins.

Described DC side energy back circuit is by first single-phase three winding isolation transformers, the first single-phase full bridge rectifier, first filter inductance, first filter capacitor is formed, a winding of first single-phase three winding isolation transformers is wherein received the ac output end of described single-phase inverter, second winding received the ac input end of the first single-phase full bridge rectifier, and the 3rd winding received the ac input end of first single-phase full bridge rectifier in the described device for power switching driving power auxiliary circuit.The direct current output plus terminal of the described first single-phase full bridge rectifier is received an end of described first filter inductance, its direct current output negative terminal is received the negative terminal of described public direct-current voltage bus, and the other end of first filter inductance is received the anode of public direct-current voltage bus.

Described DC side energy feedback circuit is by a DC/AC inverter, second single-phase three winding isolation transformers, and the second single-phase full bridge rectifier and second filter inductance are formed.The direct current input positive and negative terminal of described DC/AC inverter is received the positive and negative terminal of described public direct-current voltage bus respectively, it exchanges output and is connected with first winding of described second single-phase three winding isolation transformers, second winding of second single-phase three winding isolation transformers received the ac input end of single-phase full bridge rectifier, and the 3rd winding received the ac input end of second single-phase full bridge rectifier in the described device for power switching driving power auxiliary circuit.The direct current output plus terminal of the described second single-phase full bridge rectifier is received an end of second filter inductance, its direct current output negative terminal is received the dc bus capacitor negative terminal of described single-phase inverter, and the other end of second filter inductance is received the dc bus capacitor anode of described single-phase inverter.

Described device for power switching driving power auxiliary circuit is by the 3rd, the 4th single-phase full bridge rectifier, and the 3rd, the 4th filter inductance and filtering capacitor are formed.The direct current output plus terminal of the 3rd, the 4th single-phase full bridge rectifier is wherein received an end of the 3rd, the 4th filter inductance respectively, three, the other end of the 4th filter inductance is received the anode of filtering capacitor simultaneously, and the direct current output negative terminal of the 3rd, the 4th single-phase full bridge rectifier is received the negative terminal of filtering capacitor simultaneously.

Single-phase or three-phase alternating-current supply is adopted in described public startup DC power supply input, and output DC source positive and negative terminal is received the positive and negative terminal of public direct-current voltage bus respectively.

The dc voltage that makes that the present invention proposes keeps the circuit of balance, has the following advantages:

Dc capacitor voltage value when 1, not needing the setting device operation, device itself can adapt to dc capacitor voltage arbitrarily in theory, and device can adapt to from 0 dc capacitor voltage to the maximum permission during actual the use.

2, do not need to carry out the feedback closed loop control of dc capacitor voltage, the low capacitor of capacitance energy storage automatic stream voltage that voltage is high and can not reverse flow, the Balance Control of voltage is finished automatically.

The charging work of dc capacitor when 3, starting with finishing device.

Description of drawings Fig. 1 is a main circuit diagram of the present invention

Embodiment Figure 1 shows that based on the phase (A phase) in the STATCOM of chain type inverter circuit or the active filter three-phase chain type inverter circuit.

Among Fig. 1, S1LA, S1LB, S1RA, S1RB and C1 constitute first single-phase inverter (chain unit just) of this chain inverter, and SNLA, SNLB, SNRA, SNRB and CN constitute the individual single-phase inverter of N (N is the natural number greater than 1) of this chain inverter.If the dc voltage of I single-phase inverter is higher than the dc voltage of other single-phase inverters, then have only the energy of this single-phase inverter DC side to deliver to the public direct-current voltage bus by DC side energy back circuit, simultaneously by DC side energy feedback circuit, the energy of public direct-current voltage bus is sent to the lower single-phase inverter dc capacitor of other dc voltages, reaches identical value up to all dc voltages.

The direct current of introducing first single-phase inverter is below surveyed the concrete operation principle of voltage balancing circuit:

T11, B11, L11 and E1 constitute the DC side energy back circuit of first single-phase inverter, and when this inverter direct-flow side voltage was the highest, it was sent to the public direct-current voltage bus with the DC side energy of first single-phase inverter by this circuit; And when this inverter direct-flow side voltage when not being the highest, because the effect of rectifier bridge B11, its energy can not be delivered to the public direct-current voltage bus.PS1, T12, B12 and L14 constitute the DC side energy feedback circuit of first single-phase inverter, and it is sent to the direct current energy on the public direct-current voltage bus dc capacitor of first single-phase inverter.PS1 is a DC/AC converter, and it is transformed into alternating voltage with T12 with the public direct-current voltage isolation, by smoothing reactor energy delivery is given the dc bus capacitor of first single-phase inverter after the B12 rectification.Have only when the dc voltage of certain single-phase inverter when not being the highest, the DC side energy feedback circuit that the energy of public direct-current voltage bus could pass through this single-phase inverter is delivered to the dc bus capacitor of this single-phase inverter.Therefore, when system reaches stable state, the dc voltage of all single-phase inverters will equate.B12, B13, L12, L13 and E11 constitute the device for power switching driving power auxiliary circuit of first single-phase inverter, and the DC power supply V1+/V1-of its output uses for the device for power switching driving power of first single-phase inverter.The operation principle of the direct current survey voltage balancing circuit of other single-phase inverters is same as described above

PS and diode D constitute public startup DC power supply, and it provided electric energy and provide electric energy for the driving power of each single-phase inverter power device for the DC side of each single-phase inverter when device started.

Claims (1)

1. A circuit for maintaining a balanced DC side voltage, including a single-phase inverter, characterized in that it also includes: A DC side energy feedback circuit, a common DC voltage bus, a DC side energy feedback circuit, a power switching device drive power supply auxiliary circuit and a public starting DC power supply; the two input terminals of the DC side energy feedback circuit are respectively connected to The two output terminals of the single-phase inverter are connected; the positive output terminal of the DC side energy feedback circuit is connected with the positive terminal of the DC side of the single-phase inverter, and the negative output terminal is connected with the single-phase inverter The negative terminal of the DC side of the device is connected; The DC side energy feedback circuit is composed of a first single-phase three-winding isolation transformer, a first single-phase full-bridge rectifier, a first filter inductor, and a first filter capacitor, wherein one winding of the first single-phase three-winding isolation transformer is Connected to the AC output terminal of the single-phase inverter, the second winding is connected to the AC input terminal of the first single-phase full-bridge rectifier, and the third winding is connected to the auxiliary circuit of the driving power supply of the power switching device The AC input terminal of the first single-phase full-bridge rectifier; the DC output positive terminal of the first single-phase full-bridge rectifier is connected to one end of the first filter inductor, and its DC output negative terminal is connected to the The negative terminal of the public DC voltage bus, the other end of the first filter inductor is connected to the positive terminal of the public DC voltage bus; The DC side energy feedback circuit is composed of a DC/AC inverter power supply, a second single-phase three-winding isolation transformer, a second single-phase full-bridge rectifier and a second filter inductor; the DC/AC inverter power supply The positive and negative terminals of the DC input are respectively connected to the positive and negative terminals of the common DC voltage bus, and its AC output is connected to the first winding of the second single-phase three-winding isolation transformer, and the second single-phase three-winding isolation transformer The second winding of the transformer is connected to the AC input end of the single-phase full-bridge rectifier, and the third winding is connected to the AC input end of the second single-phase full-bridge rectifier in the power supply auxiliary circuit driven by the power switching device; The positive terminal of the DC output of the second single-phase full-bridge rectifier is connected to one terminal of the second filter inductor, the negative terminal of its DC output is connected to the negative terminal of the DC side capacitor of the single-phase inverter, and the terminal of the second filter inductor The other end is connected to the positive terminal of the DC side capacitor of the single-phase inverter; The power switching device driving power supply auxiliary circuit is composed of the third and fourth single-phase full-bridge rectifiers, the third and fourth filter inductors and a filter capacitor; the DC output of the third and fourth single-phase full-bridge rectifiers The positive terminals are respectively connected to one terminal of the third and fourth filter inductors, the other terminals of the third and fourth filter inductors are connected to the positive terminal of the filter capacitor at the same time, and the negative terminals of the DC output of the third and fourth single-phase full-bridge rectifiers are simultaneously Connected to the negative terminal of the filter capacitor; The input of the public starting DC power supply adopts single-phase or three-phase AC power supply, and the positive and negative terminals of the output DC power supply are respectively connected to the positive and negative terminals of the public DC voltage bus.

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