Application Ready

Application Ready Systems Designed for your Mission

Military embedded computing systems play an increasingly critical role in combat operations around the world today. These systems are an integral part of platforms such as command and control centers, ground vehicle applications, manned and unmanned airborne vehicles (UAVs), as well as surface and underwater deployments. Designing these solutions to satisfy a unique set of critical system requirements for harsh environments, and the constraints of SWaP-C (size, weight, power and cost), requires a modified approach.

As a leading supplier of rugged systems and subsystems to the defense industry, NAI leverages its decades of experience in embedded computing to provide application-ready systems. These COTS-based, pre-configured, pre-validated, rugged computing platforms can be deployed as soon as your application is ready, in less time, with less risk and NO NRE.

With our highly-adaptive, modular, Custom-On-Standard-Architecture™ (COSA®), NAI’s intelligent multifunction I/O boards have the highest packaging density and greatest flexibility of any multifunction I/O board in the industry, delivering more intelligence and functionality in a smaller footprint — all at a lower cost.

Whether you need a Remote Interface Unit (RIU) to interface with sensors and provide that data to a system controller or a Remote Electronics Unit (REU) single board computer, COSA application-specific and standard COTS systems are out-of-the-box, with no NRE and no extended delivery schedules.

NAI's full suite of application-ready systems are Intel® Core™ i7, NXP® (Power PC), or ARM® Cortex®-A9 processor-based and are ruggedized to withstand -40 to +71º C and qualified to MIL-STD-1275D & MIL-STD-704A with 50 ms holdup (power supply); MIL-STD-461F and MIL-STD-810G.

  • Reduced design risk
  • Increased design versatility
  • Streamlined development resources
  • Faster integration
  • Higher packaging density
  • Reduced power consumption
  • Over

     
    Model PhotoPlatform Processor SpeedI/O & Communications OS
    DAQ-31CP0GData Aquisition ARM® Cortex®-A9800 MHz2 x 10/100/1000Base-T; ARINC 429/575 (12); MIL-STD-1553 (2); CANBus (8); 28VDC PSU w/holdupVxWorks®, Xilinx® PetaLinux
    DAQ-33CP0GData Aquisition ARM® Cortex®-A9800 MHz2 x 10/100/1000Base-T; ARINC 429/575 (12); MIL-STD-1553 (2); CANBus (8); RS-232/422/485 (8); RTD (16); A/D (48); 28VDC PSU w/holdupVxWorks®, Xilinx® PetaLinux
    DAQ-35CP0GData Acquisition N/AN/AARINC 429/575 (12); MIL-STD-1553 (2); CANBus (8); RS-232/422/485 (12); RTD (16); Thermocouple (12); A/D (48); Discrete I/O (40); Differential I/O (16); 28VDC PSU w/holdupN/A
    FCT-31CP0DFire Control & Targeting ARM® Cortex®-A9800 MHz2 x 10/100/1000Base-T; MIL-STD-1553 (2); D/S Simulation (); S/D Measurement (4); 28VDC PSU w/holdupVxWorks®, Xilinx® PetaLinux
    FCT-33CP0DFire Control & Targeting Intel® Core™ i71.5 GHz2 x 10/100/1000Base-T; RS-232/422/485 (8); MIL-STD-1553 (2); D/S Simulation (); S/D Measurement (4); AC Reference (2); Discrete I/O (24); CANBus (8); Differential I/O (16); 28VDC PSU w/holdupLinux® (CentOS, Red Hat®), Windows® Embedded Standard 7
    FCT-35CP0DFire Control & Targeting NXP® Quad QorIQ® P20411.25 GHz2 x 10/100/1000Base-T; RS-232/422/485 (8); MIL-STD-1553 (2); D/S Simulation (6); S/D Measurement (8); AC Reference (4); Discrete I/O (40); CANBus (8); Differential I/O (16); Non-Latching/Latching Relay (8); 28VDC PSU w/holdupVxWorks®
    IVHM-31CP0CIntergrated Vehicle Health Monitoring ARM® Cortex®-A9800 MHz2 x 10/100/1000Base-T; ARINC 429/575 (12); A/D (16); RTD (8); 28VDC PSU w/holdupVxWorks®, Xilinx® PetaLinux
    IVHM-33CP0CIntergrated Vehicle Health Monitoring ARM® Cortex®-A9800 MHz2 x 10/100/1000Base-T; ARINC 429/575 (12); CANBus (8); MIL-STD-1553 (2); A/D (48); RTD (8); Discrete I/O (24); RS-232/422/485 (8); 28VDC PSU w/holdupVxWorks®, Xilinx® PetaLinux
    IVHM-35CP0CIntegrated Vehicle Health Monitoring N/AN/AARINC 429/575 (12); CANBus (8); MIL-STD-1553 (2); RTD (24); A/D (48); TTL I/O (48); Discrete I/O (24); RS-232/422/485 (16); 28VDC PSU w/holdupN/A
    RDC-31CP0BRemote Data Concentrator ARM® Cortex®-A9800 MHz2 x 10/100/1000Base-T; ARINC 429/575 (12); CANBus (8); RS-232422485 (8); 28VDC PSU w/holdupVxWorks®, Xilinx® PetaLinux
    RDC-33CP0BRemote Data Concentrator Intel® Core™ i71.5 GHz2 x 10/100/1000Base-T; MIL-STD-1553 (2); CANBus (8); ARINC 429/575 (12); RS-232/422/485 (12); Discrete I/O (16); A/D (16); D/A (12); 28VDC PSU w/holdupLinux® (CentOS, Red Hat®), Windows® Embedded Standard 7
    RDC-35CP0BRemote Data Concentrator NXP® Quad QorlQ® P20411.25 GHz2 x 10/100/1000Base-T; MIL-STD-1553 (2); ARINC 429/575 (12); CANBus (8); RS-232/422/485 (12); Differential I/O (32); Discrete I/O (40); A/D (28); D/A (28); RTD (8); 28VDC PSU w/holdupVxWorks®
    VMS-31CP0AVehicle Management ARM® Cortex®-A9800 MHz2 x 10/100/1000Base-T; CANBus (8); D/A (4); LVDT/RVDT Measurement (4); 28VDC PSU w/holdupVxWorks®, Xilinx® PetaLinux
    VMS-33CP0AVehicle Management ARM® Cortex®-A9800 MHz2 x 10/100/1000Base-T; CANBus (8); ARINC 429/575 (12); AC Reference (2); D/A (8); LVDT/RVDT Measurement (12); Discrete I/O (24); 28VDC PSU w/holdupVxWorks®, Xilinx® PetaLinux
    VMS-35CP0AVehicle Management Intel® Core™ i71.5 GHz2 x 10/100/1000Base-T; CANBus (16); D/A (8); LVDT/RVDT Measurement (16); AC Reference (2); Discrete I/O (16); ARINC 429/575 (12); Differential I/O (16); RTD (8); TTL (24); 28VDC PSU w/holdupLinux® (CentOS, Red Hat®), Windows® Embedded Standard 7