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A wind-solar complementary intelligent charging and discharging controller and a wind-solar complementary intelligent charging system

A technology of intelligent charging and discharging, wind and solar complementarity, applied in collectors, photovoltaic power generation, battery circuit devices, etc., can solve problems such as loss, slow response speed, back-end load power failure, etc., to reduce the abnormality of sudden power failure of the system , Reliability and efficiency improvement, fast response effect

Active Publication Date: 2016-05-04
EAST GRP CO LTD
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  • Summary
  • Abstract
  • Description
  • Claims
  • Application Information

AI Technical Summary

Problems solved by technology

[0003] In the existing technology, wind and solar complementary and discharge energy storage systems are composed of discrete wind and solar complementary, discharge controllers and battery packs; the application of lithium batteries only adds lithium battery management on the basis of lithium batteries The battery management system (BMS) is still an independent component. The charging and discharging management of the battery and the energy management of the battery are all obtained by the simple estimation of the battery voltage by the inverter system. Furthermore, in the current battery management system on the market, the charging Discharge consistency management is mostly only applied to lithium batteries, and the current of the main control (electric switch tube) in the battery management system (BMS) is a difficult problem in the industry, and it is also the part with the highest failure rate. At the same time, after using this device, When the battery is fully charged, over-temperature, or over-voltage, the battery management system will shut it down. Due to the slow response speed of the electric switching tube, the delay when the system restores power will cause the backup power of the controller to be disconnected. It is easy to cause a huge loss of back-end load power failure, which makes the reliability and efficiency of the system low

Method used

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  • A wind-solar complementary intelligent charging and discharging controller and a wind-solar complementary intelligent charging system
  • A wind-solar complementary intelligent charging and discharging controller and a wind-solar complementary intelligent charging system
  • A wind-solar complementary intelligent charging and discharging controller and a wind-solar complementary intelligent charging system

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Embodiment 1

[0034] The wind-solar complementary intelligent charging and discharging controller of this embodiment is such as figure 1 As shown, the first interface configured to communicate with the battery management system 2 is provided with a first interface communicating with the battery management system 2 and a battery interface connected to the battery pack 3.

[0035] In this embodiment, the first interface is provided in the wind-solar complementary intelligent charging and discharging controller 1 to communicate with the battery management system 2, without using a switch tube to achieve this. Instead, the battery management system 2 detects the use of the battery pack 3 , The use situation is fed back to the wind-solar hybrid intelligent charge and discharge controller 1, and the wind-solar hybrid intelligent charge-discharge controller 1 performs reasonable maintenance and management of the battery pack 3. The response speed is fast and will not cause the back-end load to power of...

Embodiment 2

[0048] A battery management system of this embodiment is such as image 3 As shown, the battery management system 2 is respectively connected to a single battery of the battery pack 3, and the battery management system 2 includes a second interface for communicating with the wind-solar complementary intelligent charging and discharging controller 1.

[0049] In this embodiment, the battery management system 2 is provided with a second interface for communicating with the wind-solar complementary intelligent charge and discharge controller 1. The difference from the battery management system 2 in the prior art is that the use of the switch tube is eliminated, and the battery The management system 2 informs the wind-solar hybrid intelligent charging and discharging controller 1 of the detected use of the battery pack 3 by uploading data. The wind-solar hybrid intelligent charging and discharging controller 1 adjusts the charging and discharging parameters of the battery pack 3 withou...

Embodiment 3

[0061] The wind-solar complementary intelligent charging system of this embodiment is such as Figure 5 As shown, the battery pack 3, the wind-solar hybrid intelligent charge and discharge controller 1 of Embodiment 1 and the battery management system 2 of Embodiment 2 are included. The battery pack 3, the wind-solar hybrid intelligent charge / discharge controller 1 and the battery management system 2 are correspondingly connected.

[0062] In this embodiment, the wind-solar hybrid intelligent charging and discharging controller 1 communicates with the battery pack 3 management system (BMS) through a communication line, and the detected usage status of the battery pack 3 is notified to the wind-solar hybrid intelligent through the battery management system 2 through uploading data Charge and discharge controller 1, the wind-solar complementary intelligent charge and discharge controller 1 adjusts the charging and discharging parameters of battery pack 3 to achieve the solar MPPT cha...

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Abstract

This application relates to the technical field of new energy control and application, in particular to a wind-solar hybrid intelligent charge-discharge controller, a battery management system and a wind-solar hybrid intelligent charging system, wherein the wind-solar hybrid intelligent charging system includes correspondingly connected battery Charge-discharge controller and battery management system, this application communicates with the battery management system through the wind-solar hybrid intelligent charge-discharge controller, compared with the prior art: cancel the use of the switch tube in the battery management The operating parameters of the battery pack are notified to the wind-solar hybrid intelligent charge-discharge controller by uploading data, and the wind-solar hybrid intelligent charge-discharge controller adjusts the charge and discharge parameters of the battery pack without disconnecting the battery pack from the wind-solar hybrid intelligent charge-discharge controller , which greatly reduces the abnormality of sudden power failure of the system caused by disconnecting the main switch tube of the battery management system.

Description

technical field [0001] This application relates to the technical field of new energy control and application, in particular to a wind-solar hybrid intelligent charge-discharge controller, a battery management system and a wind-solar hybrid intelligent charging system. Background technique [0002] At present, the technology of solar energy and wind energy to charge batteries has been widely used, but the management of charging, discharging and energy management of battery packs in energy storage systems is a difficult point in the management of energy systems. [0003] In the existing technology, wind and solar complementary and discharge energy storage systems are composed of discrete wind and solar complementary, discharge controllers and battery packs; the application of lithium batteries only adds lithium battery management on the basis of lithium batteries The battery management system (BMS) is still an independent component. The charging and discharging management of t...

Claims

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Application Information

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Patent Type & Authority Patents(China)
IPC IPC(8): H02J7/00H02J7/35
CPCY02E10/56
Inventor 宋青华
Owner EAST GRP CO LTD
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