Our new TXMP Series expands our TX-CoM Family standard. The TXMP comes with a STM32MP157C processor.
Embedded computing power is very much in demand in a growing number of multimedia-centric devices. The Ka-Ro TXMP is ideally suited for target markets requiring high-end devices for powerful images and impressive video streaming creating connected devices in the following vertical markets.
- Medical technology
- Industrial control
- Digital signage
A general-purpose microprocessor portfolio enabling easy development for a broad range of applications, the STM32MP1 series is based on a heterogeneous single or dual Arm Cortex-A7 and Cortex-M4 cores architecture, strengthening its ability to support multiple and flexible applications, achieving the best performance and power figures at any time.
For more information regarding the STM32MP1 Series go to st.com:
- USB 2.0
Ka-Ro CoM scalability
Often, devices are required in different performance and price classes. This is where Ka-Ro’s TX standard comes into its own. With one single hardware design embedded engineers can produce a range of pin- and software-compatible products. Ka-Ro introduced the TX CoM standard over six years ago. Until today, the Ka-Ro Starter Kit V has served as the unchanged development environment for all Ka-Ro TX modules underlining Ka-Ro’s long-term product and family strategy. All the TX modules can be used on the Starter Kit V which enables great scalability and flexibility.
Reduce to the max – the Ka-Ro product philosophy
The philosophy behind Ka-Ro’s TX CoM family is to reduce a CoM down to the absolute minimum of components. In doing so, application designers and engineers using Ka-Ro CoMs can achieve maximum flexibility. Ka-Ro TX CoM modules solely feature the processor plus memory and the power supply. Any additional functions can be added to the base board.
This focus on CoMs with a minimum number of components is on the one hand the key to very competitive pricing, on the other hand it enables Ka-Ro to ensure long-term availability. While processor manufacturers like NXP offer a long-term availability of 10 to 15 years, this must also apply to any further components integrated onto a module or these must be available via second sourcing and without any necessary software alterations. If these components are integrated on a module, as is the case with many other manufacturers, this long-term availability is endangered, or – from right from the start – not possible to guarantee.