Features of Computer-On-Modules
Computer-On-Modules are embedded computers built on a single circuit board. Apart from being centered around the microprocessor with RAM, they provide industrial-defined rows of connectors. The connectors enable it to be connected to a carrier board to provide power and input/output connectors to the peripherals. One outstanding attribute they possess is that they are very compact and highly integrated. But what are some of the features Com modules possess to know about?
Com modules are building platforms for custom system designs. And this is one area in high demand when it comes to embedded computing systems. That is because off-the-shelf motherboards may not be perfect options for all embedded applications due to lack of space. Motherboards with expansion cards may fall short of the demand for enough resistance against thermal stress. Ideally, com modules come in handy to address these shortcomings. They can be customized to match specific needs and requirements. Com modules are already made to answer whether to build or buy a dedicated system that will meet particular needs.
Another fantastic thing with com modules is that they offer nearly endless scalability. They can host all processors from all the leading embedded processors available. Users can easily switch between processor generations and vendors just as they may want it. For instance, they can quickly move from the 5th generation of Intel Core Processor to the 6th generation. The only work needed is to switch the model, and the new generation will launch. They also make design vendor-independent, thanks to the higher design security.
Scalability can only be achieved through interface standardization. And that is one area the com module realizes perfectly. They do so by standardizing the footprints and the interface to the custom-made carrier board of the modules. For some people, this standardization may be a limiting factor. That is true, mainly because it offers endless specifications to target all the major applications. Yet, the benefit of standardization cannot be underscored.
It leads to high design security features and the development of second source techniques not dependent on one vendor. So, the benefits here narrow down on design security and commercial powers in competitive pricing. Standardization is also excellent when it comes to offering a broad ecosystem for commercial accessories. That is, from heat spreaders, carrier boards, to cable sets and many more. The designers will also ensure continuous standard improvements in any future design and development.
Another feature to note about com modules is that they are application-ready. With such components, engineers find an excellent platform for design efficiency. This reduces costs even further because the bill of material is reduced to eliminate purchasing many components. The single module for the processing core already has all the needed features. The work is also reduced when it comes to designing the process, RAM, and high-speed interfaces. There is also no need to build the entire board support packages. The fact of the matter here is that all the hard work is already done. So, the modules can begin functioning as soon as needed.
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