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Photovoltaic three-phase grid control method for fast and steadily implementing maximal power tracing

A control method and maximum power point technology, applied in photovoltaic power generation, control/regulation systems, single-grid parallel feeding arrangements, etc., can solve problems such as power loss, difficulty in tracking the maximum power operating point of photovoltaic cell arrays, etc.

Inactive Publication Date: 2008-02-06
TSINGHUA UNIV
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Problems solved by technology

Figure 1 clearly shows that a 300W p A set of output voltage and power relationship curves of photovoltaic arrays that vary with light intensity. At the same time, the figure shows the maximum power tracking process, while the existing maximum power point tracking methods such as constant pressure method, first-order hill climbing method, and conductance modulation method It is difficult to quickly and smoothly track the maximum power operating point (MPP) of the photovoltaic cell array, and these methods are mostly used in independent photovoltaic power generation systems, such as battery charging control systems. Although the normal pressure method can be applied to photovoltaic grid-connected The control system can meet the stability requirements of photovoltaic grid-connected systems, but it is difficult to implement maximum power tracking under different light intensities, which will cause additional power loss

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  • Photovoltaic three-phase grid control method for fast and steadily implementing maximal power tracing
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  • Photovoltaic three-phase grid control method for fast and steadily implementing maximal power tracing

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Embodiment Construction

[0033] The three-phase photovoltaic grid-connected control system with maximum power point tracking described in the present invention is illustrated by taking the specific design in Fig. 2 as an example:

[0034] 1) Solar photovoltaic cell array: The solar photovoltaic cell array is the input of the three-phase photovoltaic grid-connected system, which provides electric energy for the entire system including the control circuit. Under daylight conditions, the solar cell array converts the received light energy into electrical energy, converts DC to AC through a two-level power converter, and transmits the electrical energy to the power grid. After dark, the entire system automatically stops working, using the relay The output end is automatically disconnected from the grid.

[0035] 2) DC bus input capacitor: it mainly plays a role of filtering.

[0036] 3) Two-level three-phase bridge inverter: it plays a very key role as a power conversion link. The corresponding six IGBTs...

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Abstract

The present invention relates to a photovoltaic three phase synchronization control method realizing maximum power tracking swiftly and stably, which belongs to the technical field photovoltaic power generating control. The method includes the steps as follows: judging the DeltaP / DeltaV value according to the power difference DeltaP between the current time k and the previous time and the voltage difference DeltaV; working out the Iref(k) when the photovoltaic array produces the maximum power; using the Iref(k) to adjust the uq* under the coordinates in vectorial synchronous rotation with the electric network voltage; acquiring six ways of space vectorial SVPWM impulse series according to the rotation angle degree Theta of the three phase electric network voltage, with the aim to control the inverter in order to ensure that the output current of the photovoltaic inverter has the same phase position as that of the mains voltage while ensuring the photovoltaic array is realizing the maximum power output tracking. The power factor is 1. The present invention also can adjust the Idref(k) according to local load requirements, therefore achieving adjustment to the power factor, with low synchronization current harmonic wave distortion factor.

Description

technical field [0001] The invention relates to a photovoltaic three-phase grid-connected control method for quickly and stably realizing maximum power tracking of a photovoltaic array, and belongs to the application field of photovoltaic power generation system control technology. Background technique [0002] The development and utilization of abundant and vast solar energy without and less pollution to the environment is not only an urgently needed supplementary energy in the near future, but also the basis of the future energy structure. Therefore, it is studied how to realize the organic combination of the maximum power point tracking (MPPT) algorithm and the photovoltaic grid-connected control technology, so that the photovoltaic grid-connected power generation system can quickly track the maximum value of the photovoltaic array under the environment of different illumination and temperature changes. It is of great significance to ensure that the power operating point ...

Claims

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Application Information

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IPC IPC(8): H02J3/38G05F1/67
CPCY02E10/58Y02E10/563Y02E10/56
Inventor 周德佳赵争鸣赵志强冯博赵晶
Owner TSINGHUA UNIV
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