Embedded systems equipped with various computing functions, special interfaces and communication protocols for all kinds of devices control. In recent years, the development of AI technology and the diverse needs of smart devices makes the embedded systems not only emphasize mobility and compact figure, but also the modularization of computing cores, which is the most important factor to meet customer needs.
The idea of Open Standard Modules™ is to create a new, future proof and versatile standard for small-size, low-cost embedded computer modules with below key characteristics:
Completely machine processible during soldering, assembly and testing.
Different possible packages for direct PCB soldering without connector.
Pre-defined soft- and hardware interfaces.
Open-Source in soft- and hardware.
With flexible expandability, all OSM modules ranging from 15x30mm to 45x45mm have the same pin position, which meet various needs of the carrier board design. The largest module of OSM is able to accommodate CISC chips, and it is confirmed that the current Intel ATOMs can be applied in OSM. Other compact RISCs and other peripheral chips such as WIFI communication modules can also be easily designed on OSM modules. OSM satisfies both the CISC and RISC computing core designs. No matter communication requirements, high-speed computing, low-speed monitoring and multi-point control, using OSM architecture will be the best choice for embedded systems.
OSM adopts a universal size design, built with different computing chips, to form a series of micro system modules to meet the different needs of various embedded systems. For time-critical project development, there are lots of converters, carrier boards, and system boards available in the market to reduce the complexity of engineering development. Soldering process maybe a headache during development, but with several specially designed fixtures, engineers can also quickly swap out modules for test validation. Without connectors and the features of quick module replacement are necessary to build a robust and miniaturized embedded system, so OSM will quickly become the mainstream of embedded system applications.
The different needs of various embedded systems
Reduce the complexity of engineering development
Quickly swap out modules for test validation
Robust and miniaturized embedded system
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