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Renewable Energy Solution

Renewable Energy Solution

Overview

A Smart Grid is a developed power supply network that utilizes modern data technology to enhance the two-way interaction between the supply and customer, respond and spot to neighborhood adjustments in use, automation, and the connection of the different parts of the power network. The primary parts of a Smart Grid are electrical power generators, renewables, power storage space, electrical power substations, transmission and circulation lines, controllers, wise meters/measurement, collection agency nodes, circulation, and transmission control centers.

Our solution devices include:

  • Industrial Display
  • Embedded Computing
  • Box PC
  • IoT Gateway
  • Embedded Board
  • Rack Server

Winmate is committed to incorporating industrial IoT into your business by developing a comprehensive series of embedded platforms for users to customize solutions that help improve their industrial embedded systems in various scenarios, from factory automation, machine control, transportation, IoT gateways to edge computing.

Smart Grid Solution Application

Smart Grid Application

Industrial Challenges

  • Safety

    Intelligent grid equipment is subject to Electromagnetic Interference (EMI) and Electromagnetic Compatibility (EMC). Equipment must prevent electromagnetic radiation interference to and from other facilities and mitigate electromagnetic waves' influence on human health.
  • Reliability

    Substation automation system (SAS) continues operating when a single communication component breaks down.
  • Industrial wireless

    Wireless technologies to enable connected devices

Innovative Technology

  • EMC

    Emission, Susceptibility, and Path are the three constituents of EMC, with emission being the one causing the most incompatibilities while yielding the most effective solutions. Susceptibility, on the other hand, is more subtle in its effect and its solutions. Finally, the Path can be the arbiter of both.
  • Thermal analysis

    By using thermal simulation software, Winmate can analyze real-world thermal problems easily, quickly, and accurately. With a new breed of Computational Fluid Dynamics (CFD) tools, this simulation is based on the same mathematical foundation as traditional CFD software but is easy to use. We use well-defined thermal analysis procedures to verify our systems to meet the harsh environment applications. Especially in fanless cooling design, we develop a heat-sink or heat-pipe solution to conduct the heat and the airflow for the best thermal solution. We provide dedicated thermal analysis technology by using thermal analysis software. Before production, we use an Infrared thermal video system (TVS) to check if our thermal design works.
Before thermal improvement After thermal improvement
Before thermal improvement After thermal improvement
  • Thermal profile test

    It checks the test unit's thermal profile and tests if the test unit can work under different environment temperatures conditions—reference IEC 60068-2-2 Testing procedures, Test Bb: Dry Heat Test.
  • Wide temperature range

    Winmate provides products to deliver optimum performance over a wide range of temperatures to accommodate diverse industrial applications such as outdoor kiosks in winter and summer (In general test conditions, the actual case should depend on your automatic selection). At the high-temperature condition, the mechanism maintains the power switch to protect from overheating. The power will turn off when over 65 degrees C and return to turn on status when the internal temperature drops back to 55 degrees.
  • Vibration and shock resistance

    Following the different demands of anti-shock and vibration in all different applications, we can provide different grades of shock or vibration standards for our product range. Products that meet the standard could maintain their operation under severe environments.

Vibration Test

The vibration test aims to check the mechanical resonance in all 3 directions (X, Y, and Z). With the testing result, our mechanical engineers can optimize the design and make the product most reliable for usage. During and after this procedure, the product needs to be 100% functional and no mal-function.

Vibration Test

Shock Test

The shock test's purpose is to check how rugged the design is in all 3 directions (X, Y, and Z). With the testing result, our mechanical engineers can optimize the design and make the product most reliable for usage. During and after this procedure, the product needs to be 100% functional and no mal-function.

Shock Test

Drop Test

The drop test is to test the box's product is 100% workable and intact the drop.

Drop Test

Safety and Standards

  • Safety

    CE, FCC
  • EMC, EMI

    IEC 61850-3

Certification & Test Report IEC 61850-3

EC 61850-3 is a standard that outlines a comprehensive safety framework for substation automation, transmission & delivery (T&D) automation, and innovative grid application. The standard emphasizes the EMI immunity and environmental requirements for communications networks. The product that meets the IEC 61850-3 standard provides a full-range, redundant power supply which ensures the high quality of electricity transmission.