CN204761317U - Mix conversion systems based on rectification is not controlled with polycell to rectification of three -phase PWM - Google Patents

Abstract

The utility model discloses a hybrid conversion system based on three-phase PWM rectification and multi-unit uncontrolled rectification. The hybrid conversion system is mainly composed of a three-phase reactor, a three-phase voltage-type PWM rectifier module, a three-phase uncontrollable rectifier bridge module group, a capacitor and a DSP control circuit; The input terminals of the control rectifier bridge module are connected in parallel; the three-phase voltage type PWM rectification module can work in two situations with load and without load, and when working without load, the three-phase voltage type PWM rectification module only does reactive power Power compensation; each module of the three-phase uncontrolled rectifier bridge module group can work independently with a load and all outputs in parallel with the same load. The hybrid rectification system has a unit input power factor and low harmonics of the grid side current , suitable for high power output, low cost, simple and feasible control, etc.

Description

Hybrid conversion system based on three-phase PWM rectification and multi-unit uncontrolled rectification

technical field

The utility model relates to three-phase rectification technology, in particular to a hybrid AC/DC conversion system based on three-phase voltage type PWM rectification and multi-unit uncontrolled rectification, and belongs to the field of power electronic communication technology.

Background technique

With the development of industry and economic technology, the requirements for high-power power supply are getting higher and higher. Traditional high-power power supply has low harmonic and high power factor, which not only has a great impact on the power grid but also causes large losses. In order to realize Active filters, PFC, and three-phase voltage PWM rectifiers are often used for unit power factor; among them, three-phase voltage PWM rectifier can eliminate input current harmonics from the root, and has unit power factor, which has attracted widespread attention in the field of power electronics. However, due to its high cost and technical difficulties such as circulation of multiple machines in parallel, it cannot be widely used.

Utility model content

Aiming at the existing problems of improving harmonics and power factors of high-power power supplies, the purpose of the utility model is to provide a high-power hybrid AC/DC conversion system with stable, reliable, low-cost and low-current harmonic unit power factor.

The utility model is for achieving the above object, and the adopted technical scheme is as follows:

Hybrid AC/DC conversion system based on three-phase voltage-type PWM rectification and multi-unit uncontrolled rectification, including: three-phase reactor, three-phase voltage-type PWM rectification module, three-phase uncontrolled rectifier bridge module group, capacitor, DSP control circuit . One end of the three-phase reactor is connected to the three-phase grid, and the other end is respectively connected to the midpoint of the bridge arm of the three-phase voltage type PWM rectifier module and the midpoint of each three-phase uncontrollable rectifier bridge module bridge arm, that is, the three-phase voltage type PWM rectifier module is connected in parallel with the input end of the three-phase uncontrolled rectifier bridge module group; the three-phase voltage type PWM rectifier module adopts a six-switch three-phase half-bridge circuit topology; the three-phase uncontrolled rectifier module group Each module is composed of three-phase diode rectifier bridge module.

The output of the conversion system has multiple optional working modes: (1) the output terminals of each three-phase uncontrolled rectifier bridge module in the three-phase uncontrolled rectifier bridge module group are connected to the same load RL and capacitor CL Parallel connection is realized, and the three-phase voltage type PWM rectifier module works without load, and the output of the three-phase voltage type PWM rectifier module is only connected with the capacitor C0; The output terminals of the rectifier bridge module are all connected to the same load RL and capacitor CL to achieve parallel connection, while the three-phase voltage type PWM rectifier module works with load, at this time, the output of the three-phase voltage type PWM rectifier module is connected in parallel with capacitor C0 and load R* ; (3) The output ends of each three-phase uncontrolled rectifier bridge module in the three-phase uncontrolled rectifier bridge module group are independently loaded (R1...RN), and each load is connected to the capacitor (C1...RN) respectively. CN) in parallel, and the three-phase voltage type PWM rectifier module works without load, the output of the three-phase voltage type PWM rectifier module is only connected with the capacitor C0; The output terminals of the uncontrolled rectifier bridge module are independently loaded (R1...RN), and each load is connected in parallel with the capacitor (C1...CN), while the three-phase voltage type PWM rectifier module works with a load. At this time, the three The output of the phase-voltage PWM rectifier module is connected in parallel with the capacitor C0 and the load R*.

The inductance of the three-phase reactor can be selected according to the requirements of system harmonics and power, preferably in the range of 0.1mH to 1.5mH; the capacitance value of the capacitor can be selected according to the requirements of the system output voltage ripple, preferably Its range is 2000uf～6000uf.

The control method for the above-mentioned hybrid AC/DC conversion system based on three-phase voltage type PWM rectification and multi-unit uncontrolled rectification is: (a) use a phase-locked circuit to obtain the zero-crossing point of a-phase grid ea, and DSP according to a-phase The zero-crossing point of the grid ea calculates the grid cycle in real time, and changes the control cycle accordingly, and calculates the three-phase input grid voltage values (ea, eb, ec) according to the zero-crossing point of the a-phase grid ea; (b) uses the current Hall sensor respectively Sampling the input current value (ia, ib, ic) of the three-phase reactor, sampling the DC voltage value U* at both ends of the DC side capacitor C0 of the three-phase voltage type PWM rectifier module by using the voltage division method, and converting it to 0 by conditioning the operational amplifier circuit ~3V voltage; (c) DSP control circuit performs control calculation according to the sampling value (obtained from (a) and (b)), and the specific control method can use commonly used feed-forward decoupling control, current predictive control, fuzzy control to realize the unit Power factor control: In the above-mentioned several working modes and different power output levels, the same control method can be used without separate adjustment, which is simple and easy.

Compared with the prior art, the beneficial effects of the utility model are:

1. Low cost and high efficiency;

The structure of this system is simple. When in use, it only needs to control a three-phase voltage-type PWM rectifier module, and increase or decrease the parallel three-phase uncontrolled rectifier module according to the needs of the work. The cost is low and the efficiency is high.

2. Realize the controllability of the output voltage of the DC side of the three-phase uncontrolled rectifier module;

With the structure of this system, the input side voltage of the three-phase voltage type PWM rectifier module can be controlled by controlling the input current of the AC side reactor, so as to realize the controllability of the output voltage of the DC side of the three-phase voltage type PWM rectifier module. Since the three-phase voltage-type PWM rectifier module of the system is connected in parallel with the input end of the N-unit three-phase uncontrolled rectification module group, the controllable output voltage of the DC side of the N-unit three-phase uncontrolled rectifier module group can be realized.

3. Input unit power factor;

The system directly controls the input current of the AC side reactor through the three-phase voltage PWM rectifier module, and indirectly controls the AC input side current of the three-phase voltage PWM rectifier module, thereby adjusting the reactive power compensation of the system by the three-phase voltage PWM rectifier module, Realize unit power factor operation on the AC input side.

4. The system is reliable and stable, and there is no circulation.

This system contains a three-phase uncontrolled rectification module. Due to the single-phase conductivity of the diode, the system cannot generate circulating current. Since the system only needs to control one three-phase voltage-type PWM rectifier module, it is more reliable and stable than the existing system that needs to control two or more three-phase voltage-type PWM rectifier modules.

Description of drawings

Figure 1a is a structural block diagram of a hybrid AC/DC conversion system based on three-phase voltage PWM rectification and multi-unit uncontrolled rectification of the present invention;

Figure 1b is a structural diagram of a three-phase voltage-type PWM rectifier module;

Figure 1c is a structural diagram of a three-phase uncontrolled rectification module unit;

Figure 1d is a structural diagram of the three-phase uncontrollable rectifier bridge module groups with their respective loads;

Figure 1e is a structural diagram of a three-phase voltage-type PWM rectifier module with a load;

Figures 2a to 2c are the matlab simulation output voltage U* (the output voltage of the DC side of the three-phase voltage type PWM rectifier module) and Uo (the output voltage of the DC side when the three-phase uncontrollable rectifier bridge module group is connected in parallel) when working in the mode (1). Voltage) and the effect diagram of input voltage ea (grid a-phase voltage), input current ia (AC input a-phase current).

Figures 3a to 3c are the matlab simulation output voltage U* (the output voltage of the DC side of the three-phase voltage type PWM rectifier module) and Uo (the output voltage of the DC side when the three-phase uncontrollable rectifier bridge module group is connected in parallel) when working in the mode (2). Voltage) and the effect diagram of input voltage ea (grid a-phase voltage), input current ia (ac side a-phase input current).

Figures 4a to 4c are the matlab simulation output voltage U* (the output voltage of the DC side of the three-phase voltage type PWM rectifier module), U _oN (the DC side of the N-unit three-phase uncontrolled rectifier bridge module) when working in the mode (three), respectively. Output voltage) and input voltage ea (grid a-phase voltage), input current ia (ac side a-phase input current) effect diagram.

Figures 5a to 5c are the matlab simulation output voltage U* (output voltage of the DC side of the three-phase voltage type PWM rectifier module), U _oN (the DC side of the three-phase uncontrolled rectifier bridge module of N units) when working in the mode (four), respectively. Output voltage) and input voltage ea (grid a-phase voltage), input current ia (ac side a-phase input current) effect diagram.

Detailed ways

The utility model will be further described below in conjunction with the accompanying drawings and specific embodiments, but the implementation and protection of the utility model are not limited thereto. of.

A hybrid AC/DC conversion system based on three-phase voltage-type PWM rectification and multi-unit uncontrolled rectification, as shown in Figure 1a to Figure 1e, includes: three-phase reactor L, three-phase voltage-type PWM rectification circuit, three-phase uncontrolled Rectifier bridge module group, capacitors (C0, CL, C1...CN), DSP control circuit, N≥1. One end of the three-phase reactor is connected to the three-phase power grid, and the other end (A, B, C) is respectively connected to the midpoint of the bridge arm of the three-phase voltage type PWM rectifier module and the bridge arm of each three-phase uncontrollable rectifier bridge module group. Midpoint connection, that is, the three-phase voltage-type PWM rectifier module is connected in parallel with the input terminals of the three-phase uncontrollable rectifier bridge module group; the three-phase voltage-type PWM rectifier module adopts a six-switch three-phase half-bridge circuit topology; the described Each module of the three-phase uncontrolled rectifier module group consists of three-phase diode rectifier bridge modules.

The output of the conversion system has multiple optional operating modes: (1) the output terminals of each three-phase uncontrolled rectifier bridge module in the three-phase uncontrolled rectifier bridge module group are connected to the same load RL and capacitor CL connected to realize parallel connection, and the three-phase voltage type PWM rectifier module works without load, and the output of the three-phase voltage type PWM rectifier module is only connected with the capacitor C0; The output terminals of the controlled rectifier bridge module are connected to the same load RL and capacitor CL to achieve parallel connection, and the three-phase voltage type PWM rectifier module works with load. At this time, the output of the three-phase voltage type PWM rectifier module is connected to the capacitor C0 and the load R* Parallel; (3) The output ends of each three-phase uncontrolled rectifier bridge module in the three-phase uncontrolled rectifier bridge module group are independently loaded (R1...RN), and each load is connected to the capacitor (C1.. .CN) in parallel, and the three-phase voltage-type PWM rectifier module does not work with a load, and the output of the three-phase voltage-type PWM rectifier module is only connected to the capacitor C0; The output terminals of the phase-uncontrolled rectifier bridge module are independently loaded (R1...RN), and each load is connected in parallel with the capacitor (C1...CN), while the three-phase voltage-type PWM rectifier module works with a load. At this time The output of the three-phase voltage type PWM rectifier module is connected in parallel with the capacitor C0 and the load R*. When the three-phase voltage-type PWM rectifier module is working without load, it only performs reactive power compensation; and when it works with load, it not only performs reactive power compensation, but also performs power output.

The inductance of the three-phase reactor L can be selected according to the system harmonics and power requirements, and the preferred range is 0.1mH to 1.5mH; the capacitance value of the capacitors (C0, CL, C1...CN) depends on the Output voltage ripple requirements selection, the preferred range is 2000uf ~ 6000uf.

The control method for the mixed AC/DC conversion system based on three-phase voltage type PWM rectification and multi-unit uncontrolled rectification described in any of the above is: (a) using a phase-locked circuit to obtain the zero-crossing point of a-phase grid ea, DSP Calculate the grid cycle in real time according to the zero-crossing point of the a-phase grid ea, and change the control cycle accordingly, and calculate the three-phase input grid voltage values (ea, eb, ec) according to the zero-crossing point of the a-phase grid ea; (b) use the current Huo The sensor respectively samples the input current value (ia, ib, ic) of the three-phase reactor, uses the voltage division method to sample the DC voltage value U* at both ends of the DC side capacitor C0 of the three-phase voltage type PWM rectifier module, and adjusts the operational amplifier circuit Converted to 0~3V voltage; (c) DSP control circuit performs control calculation according to the sampling value (obtained by (a) and (b)), and the specific control method can adopt commonly used feedforward decoupling control, current predictive control, fuzzy control To achieve unity power factor control; in the above-mentioned several working modes and different power output levels, the three-phase voltage-type PWM rectifier module can adopt the same control method without separate adjustment, which is simple and easy.

As a preferred DSP, the Texas Instruments 2000 series can be used.

Figures 2a to 2c are the matlab simulation output voltage U* (the output voltage of the DC side of the three-phase voltage type PWM rectifier module) and Uo (the output voltage of the DC side when the three-phase uncontrollable rectifier bridge module group is connected in parallel) when working in the mode (1). Voltage) and the effect diagram of input voltage ea (grid a-phase voltage), input current ia (AC input a-phase current).

Figures 3a to 3c are the matlab simulation output voltage U* (the output voltage of the DC side of the three-phase voltage type PWM rectifier module) and Uo (the output voltage of the DC side when the three-phase uncontrollable rectifier bridge module group is connected in parallel) when working in the mode (2). Voltage) and the effect diagram of input voltage ea (grid a-phase voltage), input current ia (ac side a-phase input current).

Figures 4a to 4c are the matlab simulation output voltage U* (the output voltage of the DC side of the three-phase voltage type PWM rectifier module), U _oN (the DC side of the N-unit three-phase uncontrolled rectifier bridge module) when working in the mode (three), respectively. Output voltage) and input voltage ea (grid a-phase voltage), input current ia (ac side a-phase input current) effect diagram.

Figures 5a to 5c are the matlab simulation output voltage U* (output voltage of the DC side of the three-phase voltage type PWM rectifier module), U _oN (the DC side of the three-phase uncontrolled rectifier bridge module of N units) when working in the mode (four), respectively. Output voltage) and input voltage ea (grid a-phase voltage), input current ia (ac side a-phase input current) effect diagram.

It can be seen that the output voltage waveforms of the three-phase controllable rectification and three-phase uncontrolled rectification modules are consistent and the ripples are very small; at the same time, the grid-side current tracks the grid-side voltage well, and the phases of the two are the same, and both are sine waves.

Those skilled in the art can make various modifications or supplements to this specific embodiment or replace it in a similar manner without violating the principle and essence of the utility model, but these changes all fall within the protection scope of the utility model. Therefore, the technical scope of the present utility model is not limited to the above-mentioned embodiments.

Claims (2)

1. A hybrid conversion system based on three-phase PWM rectification and multi-unit uncontrolled rectification, which is characterized by including: three-phase reactor (L), three-phase voltage type PWM rectification circuit, three-phase uncontrolled rectifier bridge module group, capacitor ( C0~CN), DSP control circuit; one end of the three-phase reactor is connected to the three-phase grid, and the other end (A, B, C) of the three-phase reactor is respectively connected to the middle of the bridge arm of the three-phase voltage type PWM rectifier module point and the midpoint connection of each three-phase uncontrolled rectifier bridge module bridge arm, that is, the three-phase voltage-type PWM rectifier module is connected in parallel with the input terminals of each three-phase uncontrolled rectifier bridge module; the three-phase voltage-type PWM rectifier module A six-switch three-phase half-bridge circuit topology is adopted; each three-phase uncontrolled rectifier bridge module in the three-phase uncontrolled rectifier bridge module group is composed of a three-phase diode rectifier bridge; the DSP control circuit controls the three-phase voltage type PWM rectification DC side voltage output and grid side power factor of the module and the three-phase uncontrollable rectifier bridge module group. 2. The hybrid conversion system based on three-phase PWM rectification and multi-unit uncontrolled rectification according to claim 1, characterized in that the DSP in the DSP control circuit is selected from Texas Instruments 2000 series.