The worlds of solar, nuclear, smart grids, electric vehicles, rail transport, aerospace, aviation, and navigation have undergone continuous development over time. This trend has therefore increased the requirements for the performance of power equipment. First-generation silicone materials are now approaching the theoretical limits to which they were originally set. The 3rd generation has higher bandwidth, electronic saturation and thermal conductivity. This article describes a new type of material called silicon carbide ceramics. It also specifically discusses the applications of silicon carbide ceramics in various industries. For more information, read on.
Silicon Carbide Ceramics
In terms of possibilities, silicon carbide ceramics are a more mature option. In fact, many of its metrics are far superior to silicon. For example, a 300% increase in bandwidth. Moreover, the theoretical operating temperature of this material is 600 degrees Celsius. Now let’s discuss the different uses of this material.
These modules can be developed as sustainable, intelligent, low-carbon and environmentally friendly, so it can be said that the advantages of this material are mainly reflected in the following three aspects.
1. Simplification and increased frequency of power supply networks
2. Increase temperature to reduce loss
3. Increase efficiency and reduce volume
When it comes to power conversion, components made from silicon carbide and lime help improve performance. In the electric model, the active support component is the electric motor. These motors have different rotational speeds. Therefore, these engines have to accelerate and decelerate repeatedly during the driving process. Therefore, the working conditions are more complicated compared to the speed control system.
If you have a silicon-based device, your best bet is a silicon carbide switch. This is due to the very low strength of this material. It is therefore ideal for applications involving high frequencies and high temperatures.
In fact, this material can reduce energy loss by up to 500 percent. In addition, it is possible to reduce weight and size by more than 40%. Therefore, it can positively influence grid composition and alignment of energy strategies.
The field of solar energy
If you’re looking for a chip that can be used in solar inverters, silicon carbide is the way to go. It has a small footprint, low cost, and greatly improved efficiency. The conversion efficiency of these inverters is typically around 96%. However, with silicon carbide the efficiency can be increased to 97.5%. In short, these devices help reduce energy losses by 25%. Moreover, these inverters help greatly improve the conversion efficiency.
Currently, LED lighting fixtures using silicon carbide are becoming more popular. In fact, these LEDs are much brighter and cost up to 50% less. 200% brighter than other types of lights.
Likewise, they have 10 times higher thermal conductivity. In everyday life, this type of lighting can be applied to different types of environments (color screens, information screens, room lighting, signal lights, etc.). In fact, they help reduce pollution and costs.
In summary, these are four applications of silicon carbide ceramics in various industries.