A system on module (SoM) is a single physical module that integrates various common computing components. These integrants include a central processor unit infrastructure, WI-FI, and Bluetooth radios. Having all these components as single units reduces the complexity of the final product designs. The SoM comes with a simple manual for operating the systems and the incorporated support for the popular development environments, framework, and third-party software.
The SOM module is connected with a carrier board that joins the interfaces to connectors or application-specific components hosted on the carrier board. This carrier board is simple to build; a more complex board is contained within the module. This allows the module to develop foul-layer carrier boards at affordable prices. The available carrier boards are used to develop a variety of applications. The SOM module is advantageous as it reduces the risk complexity and danger of developing and maintaining a product at a high flexibility form factor. The System module is simply the whole central processing unit (CPU) which is designed in one package. By using and leveraging a system module in a design, you’re able to get a custom engineered solution quickly with no complications. Let’s explore a few reasons why SOM is used in embedded system designs.
1. The production time
The system on the module through the advancement of technology has helped speed up the manufacturing and designing of the microprocessors through the embedded systems. Previously when producing an embedded system, most of the effort and energy was spent on the configuration of the central processing unit infrastructure. As the technology advances in the semiconductor, it becomes more technically improved, harder, and takes longer to make these microprocessors. Therefore, to avoid and save the time used in creating these multifaceted and complex CPU subsystems, a system on a module in an embedded system is the alternative.
2. Fasten the marketing process
As discussed above on how the SOM modules speed up the production process, similarly, it quickens and fastens the time it takes to get the finished product to the market for marketing. By using a SOM, it becomes faster and efficient to produce your device and get them commercialized as soon as possible for quick revenue and profit. Besides, it’s possible to make and develop a software application before even the completion of the custom carrier board which saves on your marking time.
3. Cost-effective
When using a system on module, you can reduce costs or eliminate them which includes the engineering expenses and other costs associated with the designing and manufacture of the central processing unit infrastructure. The availability of the memory, flash chipset, or CPU, the SOM can help prevent the risk of the finished product going end of life (EOL). This is a long-term cost solution and helps to prevent any need for redesigning
In conclusion, it’s always worth being keen while buying or sourcing for the SOM modules. Always consider the best and high-quality SOM which can support a variety of industries.
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