Recent adoption of system on modules (SoMs) in embedded computing will have far-reaching effects.
SoMs are essentially single-board embedded computers with a system-on-chip (SoC) CPU and other integrated components.
Why Employ SoMs?
Utilizing SOMs in your project can be advantageous in multiple ways:
Enhanced security
Due to their pre-integration, they require no additional actions prior to use. This makes them more secure than other types of embedded computers because there is no possibility of sensitive data being exposed during development or deployment. It also increases their dependability because there are fewer potential failure sites across the system.
Reduced Marketing Period
Since SOMs are so simple to integrate into any device, you can save time by not having to write drivers and put hardware on your motherboard. This means that you will be able to release your product significantly faster than if you had used a prepackaged solution.
Enhanced Adaptability
The primary advantage of utilizing SOM is that it provides designers with greater flexibility. They can easily develop their own system or use a commercially available SOM. This will save them time and money in the system's initial design.
Customizability
Utilizing this equipment has the extra advantage of being adaptable to your particular demands. It is up to you to determine which processor best suits your needs. This capability allows you to create a device with capabilities not available in existing devices.
Applications of System on Module Computers
These include:
Automotive
Entertainment, telematics, safety, and powertrain management are a few of the possible applications. In infotainment systems, for example, SOD modules are used to combine a multitude of distinct sensors and actuators into a single, user-controllable unit (UI). This helps automakers save R&D costs and expedite the appearance of their vehicles on retail shelves.
Industrial breakthroughs in technology
Due to their little size and outstanding performance, SOD devices have found a place in the industrial automation industry. Utilized in applications such as machine vision, robotics, motion control, and ultra HD video analytics, SODs aid in the automation of industrial processes like as assembly line inspection and quality control. SODs are straightforward to integrate into current infrastructure because their modular design does not need the addition of new hardware or software.
Robotics
Robots are increasingly utilized in a variety of industries, including manufacturing, healthcare, and retail. Using systems on modules, robots that do simple tasks, such as picking up goods off conveyor belts or serving as surgical robot arms, can be constructed. Due to their small form factor, these computers are ideal for the previously listed applications.
Conclusion
System-on-Module is a typical type of application-specific integrated circuit (ASIC) used in several embedded devices (SOM). Due to its versatility, SOM may be utilized to assemble any device that can be disassembled into smaller parts. SOM has found a home in the realm of industrial automation due to its capacity to facilitate the mass production of systems. Because of their low cost and simple connectivity, these single-board computers are perfect for creating one-of-a-kind devices. In addition, they can function as wireless access points when used with Ethernet switches on a bus network.
