There is no unified standard and technical specification for existing training equipment, and there are significant differences in appearance styles and software systems among products designed by various manufacturers. When applied to personnel training, a variety of equipment brings great difficulty to the training. During competitions, due to the inconsistent use of training equipment in each place, it is difficult for organizers to unify the competition regulations.

With the continuous advancement and development of electricity information collection systems, various new technologies and products will emerge. When new products are applied to on-site operations, corresponding training equipment is needed to train and assess personnel. Existing training products are relatively fixed in design and cannot be flexibly upgraded for new products. Users can only purchase new training equipment, resulting in problems such as redundant construction, equipment redundancy, and resource waste.

The modular simulation training device consists of a main control unit, multiple simulation units (including power sources and simulation panels), and a device base (including toolboxes, routers, etc.). Depending on the splicing method, it can be assembled into a single row or a combination. The device can be freely disassembled between each layer, and the appearance size and electrical interface are unified. The module position, assembly layers, and total number of devices can be adjusted according to the actual needs on site to meet different business requirements.

When customers are satisfiedHPLCWhen new technologies such as the new generation modular terminal, modular ammeter and intelligent sensing terminal have training needs, customers do not need to replace the device as a whole, but only need to purchase corresponding simulation units, which can meet the flexible application needs of customers to adapt to the Internet based marketing business and the upgrading of customer side equipment, and can avoid repeated construction and save material costs.

　Modular assembly

The device adopts a modular structure, and the simulation unit module can be adjusted according to the actual on-site needs in terms of module position, assembly layers, and total number of devices. The simulation units are connected in a simple and effective way, and the base, simulation panel, simulation unit, and connectors can be disassembled without tools.

Automatic recognition of equipment and topology

The device has automatic recognition function, which means that the device can automatically recognize the panel information, terminal, and energy meter position of the device, synchronize with the main station, and generate on-site device panel position, terminal, and electricity meter information on the main station without the need for configuration.

Using fault simulation to simulate faults

The device can independently and automatically simulate various fault phenomena such as wiring errors, collection faults, measurement faults, equipment faults, etc., without the need for manual intervention, and has flexible fault expansion functions.

Line loss simulation

By simulating various types of faults that cause line losses, including file anomalies, line anomalies, equipment anomalies, etc., management line losses and technical line losses are simulated to guide practitioners in on-site line loss fault diagnosis, elimination, and sorting out the relationship between substations.

HPLCfunction simulation

answerCCO、STAVerify the deepening application functions of the data collector, including high-frequency data acquisition, power outage reporting, clock management, phase recognition, and transformer relationship. Support functional testing of interconnected devices to achieveHPLCDeepen the automatic diagnosis and analysis of application functions and module failures to meet the requirements of software function verification.

Has high scalability

The device has high scalability and supports the extension of various communication protocols, such as3761、698The types of simulated faults can be continuously increased according to business needs, but there is no need for hardware upgrades.