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Distributed hierarchical overvoltage control system and method

A technology of a control system and a control method, applied in the electric power field, can solve the problems of IGBT safe operation threat, insulation breakdown, loss, etc., and achieve the effect of improving the insulation withstand voltage, preventing the damage of insulating materials, and equalizing the electric field stress.

Active Publication Date: 2017-04-12
ANHUI HEKAI ELECTRICAL TECH CO LTD
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  • Abstract
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  • Claims
  • Application Information

AI Technical Summary

Problems solved by technology

[0003] 1) The medium-voltage SVG belongs to the direct connection mode, and the connection reactor is directly connected to the busbar. All kinds of transient overvoltages and instantaneous overvoltages that occur during the operation of the busbar will act on the links on the SVG through the connection reactor. Each power unit IGBT poses a great threat to the safe operation of the IGBT. If things go on like this, the C and E poles of a weak power unit IGBT may be broken down, resulting in a "straight-through" accident and explosion
[0004] 2) Due to the large capacity and inductance of the connected reactor, especially when there is a large current passing through, the magnetic field energy stored by itself is very high. When the controlled PWM wave acts on each power unit IGBT, when the IGBT is turned off During the conversion process to conduction, due to the rapid switching and truncation of the current, a high overvoltage will inevitably be generated on the connected reactor. The C and E poles of a weak power unit IGBT break down, causing the power unit IGBT to over-current and shut down
[0005] 3) Due to the limitation of the structure of the power unit IGBT, the positive and negative DC bus bars connected between the electrolytic capacitor and the full IGBT are generally assembled with copper bars in a discrete manner. The stray inductance is too large, and when the IGBT is working in the transition process from on to off, a high overvoltage is generated between the C and E poles of the power unit IGBT. The long-term effect will inevitably lead to the insulation of IGBT and E break down
During operation, due to the effects of long-term operation oxidation, vibration, and poor contact, the G and E poles of the power unit IGBT will inevitably be "suspended" due to poor contact. When an alternating high electric field acts on it, power will occur. The "false trigger" of the unit IGBT is turned on, which will cause the IGBT branch of the unit to over-current, at least the SVG will shut down, and the IGBT will explode to form an internal short circuit and cause greater losses.

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Embodiment Construction

[0039] In order to express the present invention more clearly, the present invention will be further described below in conjunction with the accompanying drawings.

[0040] see Figure 1-2, the distributed hierarchical overvoltage control system of the present invention includes a combined overvoltage protector 10 installed in the SVG incoming cabinet, an energy absorber 11, a connecting reactor 12, a power unit 13, and a power unit embedded voltage limiter 14. Laminated bus bar 15 and IGBT induced voltage clamper 16; one end of the energy absorber 11 connected in parallel with the reactor 12 is connected to the combined overvoltage protector 10, and the other end connected in parallel is connected to the power unit 13, and the power The unit clamping voltage limiter 14 and the laminated bus bar 15 are respectively connected to the power unit 13, and the two ends of the IGBT induced voltage clamping device 16 are respectively connected between the G pole and the E pole of each...

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Abstract

The invention discloses a distributed level overvoltage control system and method. The system comprises a combined overvoltage protector, an energy absorber, a connecting electric reactor, a power unit, a power unit clamping voltage limiter, a laminated busbar and an IGBT induced voltage clamping device. After the energy absorber is subjected to parallel connection with the connecting electric reactor, one end of the energy absorber and the connecting electric reactor is connected with the combined overvoltage protector, the other end of the energy absorber and the connecting electric reactor is connected with the power unit, and the power unit clamping voltage limiter and the laminated busbar are respectively connected with the power unit. Five-grade defense is adopted in the distributed level overvoltage control system and method, overvoltage energy from various aspects can be suppressed, and damage to an IGBT caused by dangerous overvoltage of cut-off overvoltage, IGBT off-state overvoltage and the like of the device overvoltage invading the connecting electric reactor can be avoided, so that safe and reliable operation of an SVG device is ensured. The system and method are simple to operate and high in working efficiency and prolong the service life of the SVG device.

Description

technical field [0001] The invention relates to the field of electric power, in particular to a distributed hierarchical overvoltage control system and method. Background technique [0002] The medium-voltage static dynamic synchronous compensation device, referred to as SVG, has many advantages such as fast response to signal changes, ability to absorb and emit reactive power for two-way regulation, small footprint, and regulation characteristics that are not affected by grid voltage. In the power quality control technology in the 21st century, it has become an indisputable core product, and has made great progress, and has become an important development direction of power electronics technology in the field of power systems. This technology also has great application prospects in the fields of iron and steel, non-ferrous metals, mines, electrified railways, wind power, etc. Breakdown and explosion cause the device to shut down and fail to operate normally; what’s more, a...

Claims

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Application Information

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Patent Type & Authority Patents(China)
IPC IPC(8): H02H9/04H02J3/18
CPCY02E40/10
Inventor 李俭华
Owner ANHUI HEKAI ELECTRICAL TECH CO LTD
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