Critical Link is an embedded systems development firm with expertise in a broad range of electronics applications. We provide end-to-end product engineering and custom, configurable platforms used as product building blocks. We help our customers bring their products to market more rapidly and cost-effectively than they could otherwise.
With Critical Link, our customers are able to tap expertise and experience that’s field proven by the number of new product designs (and legacy product redesigns) we´ve had a hand in. Our expertise and experience isn´t just what´s in our heads, it´s incorporated in the design of our leading-edge digital processing platforms — the MityDSP® engine and the MityCCD, our high-performance scientific camera. Embedding the MityDSP® or the MityCCD in their new or legacy products gives our customers a long head start on their product development. Working with Critical Link to customize the platform and make it their own takes them the last mile. Once your product is on the market, Critical Link´s production services can manufacture your custom platforms.
Development Kit, MityARM-1810F + PROFIBUS
The MityARM-1810F / AM1810 PROFIBUS Development Kit is available to system designers to get started using the PROFIBUS enabled MityARM-1810F featuring Sitara AM1810 ARM9 from Texas Instruments and user programmable Xilinx FPGA This kit provides all the necessary hardware and software to develop PROFIBUS applications using this certified interface from TI. [more]
Development Kit, MityARM-1810 + PROFIBUS
The MityARM-1810 / AM1810 PROFIBUS Development Kit is available to system designers to get started using the PROFIBUS enabled MityARM-1810 featuring the Sitara AM1810 ARM9 from Texas Instruments. This kit provides all the necessary hardware and software to develop PROFIBUS applications using this certified interface from TI. [more]
Development Kit, MityDSP-6455F-Pro
The MityDSP-6455F-Pro development kit comes complete with everything needed to begin developing on the MityDSP-6455F-Pro DSP module from Critical Link, including a MityDSP-6455F-Pro SoM module. [more]
Development Kit, MityDSP-6711F
The MityDSP-6711F development kit comes complete with everything needed to begin developing on the MityDSP-6711F DSP module from Critical Link, including a MityDSP-6711F SoM module. [more]
MityDSP-6711F
System on module is based on the TI TMS320C6711 and the Xilinx Spartan 3 FPGA. This module is available to system designers looking for rapid time to market for applications requiring a floating point DSP married to an FPGA for additional custom logic. Conveniently provided in a module format with Flash and SDRAM, designers are saved the time and complexity of developing a CPU/FPGA subsystem.
The SoM also supports a wide variety of digital interfaces with added capability for system expansion via the on-board FPGA. The FPGA is available for custom application logic.
Industrial temperature range system on module based on the TI TMS320C6711 and the Xilinx Spartan 3 FPGA. This module is available to system designers looking for rapid time to market for applications requiring a floating point DSP married to an FPGA for additional custom logic. Conveniently provided in a module format with Flash and SDRAM, designers are saved the time and complexity of developing a CPU/FPGA subsystem.
The SoM also supports a wide variety of digital interfaces with added capability for system expansion via the on-board FPGA. The FPGA is available for custom application logic.
System on module is based on the TI TMS320C6711 and the Xilinx Spartan 3 FPGA. This module is available to system designers looking for rapid time to market for applications requiring a floating point DSP married to an FPGA for additional custom logic. This SOM provides additional FLASH, RAM, and FPGA resources over the standard MityDSP. Conveniently provided in a module format with Flash and SDRAM, designers are saved the time and complexity of developing a CPU/FPGA subsystem.
The SoM also supports a wide variety of digital interfaces with added capability for system expansion via the on-board FPGA. The FPGA is available for custom application logic.
The MityDSP-PRO system on module is a highly configurable, high performance, small form-factor processor card that features a Texas Instruments TMS320C6455 1.2 GHz Digital Signal Processor (DSP) tightly integrated with a Xilinx XC3S4000 Spartan Field Programmable Gate Array (FPGA), FLASH and DDR SDRAM memory subsystems. Both the DSP and the FGPA are capable of loading/executing programs and logic images developed by end users. The MityDSP-PRO provides a complete digital processing infrastructure necessary embedded systems development for the most data- and processing-intensive applications. [more]
MityARM-1808F
The MityARM-1808F is a highly configurable, very small form-factor system on module that features a Texas Instruments AM1808 456 MHz ARM Applications Processor tightly integrated with the Xilinx Spartan-6 XC6SLX16 Field Programmable Gate Array (FPGA), FLASH (NAND, and NOR) and mDDR2 RAM memory subsystems. The design of the MityARM-1808F allows end users the capability to develop programs/logic images for both the ARM processor and the FGPA. The MityARM-1808F provides a complete and flexible digital processing infrastructure necessary for the most demanding embedded applications development. [more]
MityARM-1808
The MityARM-1808 is a highly configurable, very small form-factor system on module that features a Texas Instruments AM1808 456 MHz ARM Applications Processor tightly integrated with FLASH (NAND, and NOR) and mDDR2 RAM memory subsystems. The MityARM-1808 provides a complete and flexible digital processing infrastructure necessary for rapid application development and time to market. [more]
MityARM-1810F
The MityARM-1810F is a highly configurable, very small form-factor system on module that features a Texas Instruments AM1810 375 MHz ARM Applications Processor with PROFIBUS tightly integrated with the Xilinx Spartan-6 XC6SLX16 Field Programmable Gate Array (FPGA), FLASH (NAND, and NOR) and mDDR2 RAM memory subsystems. The design of the MityARM-1810F allows end users the capability to develop programs/logic images for both the ARM processor and the FGPA. The MityARM-1810F provides a complete and flexible digital processing infrastructure necessary for the most demanding embedded applications development. [more]
MityARM-1810
The MityARM-1810 is a highly configurable, very small form-factor system on module that features a Texas Instruments AM1810 375 MHz ARM Applications Processor with PROFIBUS tightly integrated with FLASH (NAND, and NOR) and mDDR2 RAM memory subsystems. The MityARM-1810 provides a complete and flexible digital processing infrastructure necessary for rapid PROFIBUS enabled application development and time to market for industrial products. [more]
MityDSP-L138F
The MityDSP-L138F is a highly configurable, very small form-factor system on module that features a Texas Instruments OMAPL138 ARM+DSP SoC. The OMAPL138 features a 456 MHz ARM Applications Processor paired with a 456MHz Floating Point C674x DSP core. Both CPUs are tightly integrated with the Xilinx Spartan-6 XC6SLX16 Field Programmable Gate Array (FPGA), FLASH (NAND, and NOR) and mDDR2 RAM memory subsystems, and a rich set of peripheral. The design of the MityDSP-L138F allows end users the capability to develop programs/logic images for the ARM processor, the DSP, and the FGPA. The MityDSP-L138F provides a complete and flexible digital processing infrastructure necessary for the most demanding embedded applications development. [more]
MityDSP-L138
The MityDSP-L138 is a highly configurable, very small form-factor system on module that features a Texas Instruments OMAPL138 ARM+DSP SoC. The OMAPL138 features a 456 MHz ARM Applications Processor paired with a 456MHz Floating Point C674x DSP core. The module features FLASH (NAND, and NOR) and mDDR2 RAM memory subsystems, and a rich set of peripherals. The design of the MityDSP-L138 allows end users the capability to develop program images for the ARM processor and the DSP. The MityDSP-L138 provides a complete and flexible digital processing infrastructure necessary for the most demanding embedded applications development. [more]
