CN203882113U - A flexible direct current power transmission real-time simulation closed loop system - Google Patents

Abstract

The utility model relates to a flexible direct current power transmission real-time simulation closed loop system comprising a real time simulation platform, an A set of apparatuses, a B set of apparatuses and a centralized wave recording apparatus. The A set of apparatuses include a A set valve control apparatus, an A set valve control signal conversion apparatus, an A set converter valve control apparatus, an A set station control apparatus, an A set direct current protection apparatus, an A set direct current measurement and control apparatus and an A set alternating current measurement and control apparatus. The real time simulation platform is connected with the A set valve control apparatus through the A set valve control signal conversion apparatus. The A set valve control apparatus is connected with the A set converter valve control apparatus. The A set converter valve control apparatus is connected with the A set station control apparatus. The real time simulation platform is separately connected with the A set direct current protection apparatus, the A set direct current measurement and control apparatus, the A set alternating current measurement and control apparatus and the centralized wave recording apparatus through a single interface screen. The B set of apparatuses is composed of components which are the same with the components of the A set of apparatuses. The apparatuses in the B set of apparatuses are connected in a same way as the apparatuses in the A set of apparatuses are connected. The flexible direct current power transmission real-time simulation closed loop system of the utility model can accurately simulate stable state and transient state characteristics of flexible direct current systems.

Description

A kind of flexible DC power transmission real-time simulation closed-loop system

Technical field

The utility model relates to a kind of flexible DC power transmission real-time simulation closed-loop system, relates in particular to the flexible DC power transmission real-time emulation system based on high-capacity module multilevel converter, belongs to the innovative technology of flexible DC power transmission real-time simulation closed-loop system.

Background technology

Along with fast development and the through engineering approaches application of Technology of HVDC based Voltage Source Converter, based on modularization multi-level converter (MMC), building high voltage/large capacity flexible DC power transmission system has become application trend.Increase along with electric pressure and capacity; the brachium pontis concatenated power number of modules of modularization multi-level converter is also more and more; at cascade module number, reach after hundreds of; the closed-loop system how bonding element module and control protective unit form can real time execution, becomes one of gordian technique of the MMC current transformer real-time simulation of research superelevation level number.Existing flexible DC power transmission real-time simulation closed-loop system is difficult to closed-loop system that bonding element module and control protective unit form can real time execution, and is difficult to the accurately Steady state and transient state characteristic of the soft lineal system of simulation.

Summary of the invention

The purpose of this utility model is to propose a kind of flexible DC power transmission real-time simulation closed-loop system that can accurately simulate the Steady state and transient state characteristic of soft lineal system.The utility model is reasonable in design, convenient and practical.

The flexible DC power transmission real-time emulation system the utility model proposes, the flexible DC power transmission real-time emulation system the utility model proposes, include real-time simulation platform, A sleeving valve control device, A sleeving valve control chromacoder, A cover change of current control valve device, A cover station control device, A cover direct current protecting device, A cover direct current measure and control device, A overlaps AC measuring and controlling device, B sleeving valve control device, B sleeving valve control chromacoder, B cover change of current control valve device, B cover station control device, B cover direct current protecting device, B cover direct current measure and control device, B overlaps AC measuring and controlling device, concentrate wave recording device, wherein real-time simulation platform is connected with A sleeving valve control device by A sleeving valve control chromacoder, A sleeving valve control device is connected with A cover change of current control valve device, A cover change of current control valve device is connected with A cover station control device, real-time simulation platform is shielded respectively and is overlapped direct current protecting device with A by signaling interface, A cover direct current measure and control device, A cover AC measuring and controlling device connects and is connected with concentrated wave recording device, equally, real-time simulation platform is connected with B sleeving valve control device by B sleeving valve control chromacoder, B sleeving valve control device is connected with B cover change of current control valve device, B cover change of current control valve device is connected with B cover station control device, and real-time simulation platform is shielded respectively and is connected and is connected with concentrated wave recording device with B cover direct current protecting device, B cover direct current measure and control device, B cover AC measuring and controlling device by signaling interface.

By the flexible DC power transmission real-time emulation system the utility model proposes, the soft direct line of large capacity is being united, when particularly the soft lineal system based on MMC topology converter valve carries out real-time simulation test, can the Steady state and transient state characteristic of soft lineal system be studied in great detail and be tested, can accurately simulate the Steady state and transient state characteristic of soft lineal system.The utility model is flexible DC power transmission real-time simulation closed-loop system a kind of reasonable in design, convenient and practical.

Accompanying drawing explanation

Fig. 1 is flexible DC power transmission real-time emulation system schematic diagram.

Embodiment

The flexible DC power transmission real-time emulation system the utility model proposes, include real-time simulation platform, A sleeving valve control device, A sleeving valve control chromacoder, A cover change of current control valve device, A cover station control device, A cover direct current protecting device, A cover direct current measure and control device, A overlaps AC measuring and controlling device, B sleeving valve control device, B sleeving valve control chromacoder, B cover change of current control valve device, B cover station control device, B cover direct current protecting device, B cover direct current measure and control device, B overlaps AC measuring and controlling device, concentrate wave recording device, wherein real-time simulation platform is connected with A sleeving valve control device by A sleeving valve control chromacoder, A sleeving valve control device is connected with A cover change of current control valve device, A cover change of current control valve device is connected with A cover station control device, real-time simulation platform is shielded respectively and is overlapped direct current protecting device with A by signaling interface, A cover direct current measure and control device, A cover AC measuring and controlling device connects and is connected with concentrated wave recording device, equally, real-time simulation platform is connected with B sleeving valve control device by B sleeving valve control chromacoder, B sleeving valve control device is connected with B cover change of current control valve device, B cover change of current control valve device is connected with B cover station control device, and real-time simulation platform is shielded respectively and is connected and is connected with concentrated wave recording device with B cover direct current protecting device, B cover direct current measure and control device, B cover AC measuring and controlling device by signaling interface.

Above-mentioned A cover station control device, A cover direct current protecting device, A cover direct current measure and control device, A cover AC measuring and controlling device are all connected with station control SCADA; B cover station control device, B cover direct current protecting device, B cover direct current measure and control device, B cover AC measuring and controlling device are all connected with station control SCADA.

Above-mentioned A cover change of current control valve device is connected with B cover change of current control valve device, and A overlaps change of current control valve device and B cover change of current control valve device is all connected with station control SCADA.

Above-mentioned station control SCADA is connected with collection control SCADA by telemechanical apparatus.

Above-mentioned A cover change of current control valve device is connected with B cover change of current control valve device, and A overlaps change of current control valve device and B cover change of current control valve device is connected with concentrated wave recording device.

Above-mentioned A sleeving valve control chromacoder and B sleeving valve control chromacoder are connected with concentrated wave recording device.

Above-mentioned A sleeving valve control chromacoder and B sleeving valve control chromacoder are connected with concentrated wave recording device.

Claims (7)

1. a flexible DC power transmission real-time simulation closed-loop system, it is characterized in that including real-time simulation platform, A sleeving valve control device, A sleeving valve control chromacoder, A cover change of current control valve device, A cover station control device, A cover direct current protecting device, A cover direct current measure and control device, A overlaps AC measuring and controlling device, B sleeving valve control device, B sleeving valve control chromacoder, B cover change of current control valve device, B cover station control device, B cover direct current protecting device, B cover direct current measure and control device, B overlaps AC measuring and controlling device, concentrate wave recording device, wherein real-time simulation platform is connected with A sleeving valve control device by A sleeving valve control chromacoder, A sleeving valve control device is connected with A cover change of current control valve device, A cover change of current control valve device is connected with A cover station control device, real-time simulation platform is shielded respectively and is overlapped direct current protecting device with A by signaling interface, A cover direct current measure and control device, A cover AC measuring and controlling device connects and is connected with concentrated wave recording device, equally, real-time simulation platform is connected with B sleeving valve control device by B sleeving valve control chromacoder, B sleeving valve control device is connected with B cover change of current control valve device, B cover change of current control valve device is connected with B cover station control device, and real-time simulation platform is shielded respectively and is connected and is connected with concentrated wave recording device with B cover direct current protecting device, B cover direct current measure and control device, B cover AC measuring and controlling device by signaling interface.

2. flexible DC power transmission real-time simulation closed-loop system according to claim 1, is characterized in that above-mentioned A cover station control device, A cover direct current protecting device, A cover direct current measure and control device, A cover AC measuring and controlling device are all connected with station control SCADA; B cover station control device, B cover direct current protecting device, B cover direct current measure and control device, B cover AC measuring and controlling device are all connected with station control SCADA.

3. flexible DC power transmission real-time simulation closed-loop system according to claim 2, it is characterized in that above-mentioned A cover change of current control valve device is connected with B cover change of current control valve device, and A overlaps change of current control valve device and B cover change of current control valve device is all connected with station control SCADA.

4. flexible DC power transmission real-time simulation closed-loop system according to claim 3, is characterized in that above-mentioned station control SCADA is connected with collection control SCADA by telemechanical apparatus.

5. according to the flexible DC power transmission real-time simulation closed-loop system described in claim 1 to 4 any one, it is characterized in that above-mentioned A cover change of current control valve device is connected with B cover change of current control valve device, and A overlaps change of current control valve device and B cover change of current control valve device is connected with concentrated wave recording device.

6. flexible DC power transmission real-time simulation closed-loop system according to claim 5, is characterized in that above-mentioned A sleeving valve control chromacoder and B sleeving valve control chromacoder are connected with concentrated wave recording device.

7. flexible DC power transmission real-time simulation closed-loop system according to claim 5, is characterized in that above-mentioned A sleeving valve control chromacoder and B sleeving valve control chromacoder are connected with concentrated wave recording device.