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System-on-Module Solutions by Solectrix

System-on-Modules are the state-of-the-art solution for applications in highly technologized areas such as medical technology, the automotive industry, industrial automation, aerospace and others. Their modular approach allows for a high degree of customization on the application hardware side while offering a wide choice of standardized system cores compliant with the respective SoM format. The need for ultra-compact modules that combine CPU and FPGA led to the launch of the SXoM series, a line of System-on-Module boards by Solectrix.

The following types of SXoM boards are available:

SMARC carrier boards:

SMARC system-on-modules:

COM Express system-on-modules:

  • SXoM ME-ZU with Xilinx Zynq UltraScale+ ZU11/17/19EG MPSoC

Complete sets with eval board:

SXoM Advantages

  • State-of-the-art technology

    SXoMs are based on the latest technology. Profit from our specialists’ research and development know-how!

  • Lower development risk and costs

    SXoMs offer proven and reliable solutions. Building on ready-to-use SXoMs enables you to reduce your development and project costs.

  • Shorter time-to-market

    Our SXoMs provide basic design structures. This allows you to focus on the development of the applicationspecific parts of your product and to achieve a shorter time-to-market.

Applications

  • Motion capturing and analysis
  • Medical and scientific imaging
  • Security and surveillance
  • High-end machine vision
  • Traffic monitoring

The SXoM family of products includes the world’s first System-on-Modules (SOMs) based on the Smart Mobility ARChitecture (SMARC) by SGET that feature CPU and FPGA in one chip.

The core of the Solectrix System-on-Module family consists of the SXoM MS1-C5, the SXoM MS2-K7 and the SXoM MS2-ZU, all of which adhere to the SMARC standard and are suited for use in a wide variety of projects. Applications for SXoM MS1-C5 include pedestrian recognition and advanced driver assistance systems. The SXoM MS2-K7 is used for the processing of 4K video data.

Solectrix also offers the SMARC carrier board SXoM CBS2, compatible with SMARC 1.1 and 2.0 modules, as well as an eNUC-based SMARC carrier board and a suitable PSU module in miniERP form factor.

Solectrix is a member of SGET, the Standardization Group for Embedded Technologies.For more information on the SMARC specification please visit: www.sget.org

Solution

SXoM CBS2

Art. No. 500717

SMARC carrier board compatible with SMARC 1.1 and 2.0 modules.

The SXoM CBS2 provides essential standard interfaces in the form of dual USB and dual Ethernet connectors and an SD card socket. Most of the SMARC connector’s signals are led to three separate board-to-board connectors for connection of an application-specific I/O board. As a universal SMARC carrier board, the SXoM CBS2 enables fast software evaluation on your System-on-Module target platform, shortening your development time.

  • SMARC interface for SMARC 2.0 (e.g., SXoM MS2-K7) and SMARC 1.1 (e.g., SXoM MS1-C5) modules
  • Dual Ethernet interface
  • Dual USB interface
  • SD Card socket
  • 4× board-to-board connectors
    • 48V power interface on 4-pin Samtec SQT connector
    • High-speed interface on 60-pin Samtec LSHM connector
    • I/O interface on 100-pin Samtec LSHM connector
    • Additional SMARC 1.1 signals (e.g., from SXoM MS1-C5) on 60-pin Samtec LSHM connector
  • I2C multiplexer Texas Instruments PCA9545A for control of:
    • I2C GPIO expander Maxim MAX7314
      • 9 GPIO lines to 3 on-board RGB LEDs
      • 4 GPIO lines to board-to-board I/O interface
      • 2 GPIO lines to I2C fan controllers
      • 1 GPIO line to I2C temperature sensor
    • 2× I2C fan controller Maxim MAX6650
    • I2C temperature sensor Texas Instruments LM75B
    • I2C EEPROM Atmel AT24C04D
  • Battery socket (CR2032) for real-time clock on SMARC module
  • 2× fan interface on 3-pin Molex PicoBlade connector
  • Board dimensions: 100 mm × 100 mm
Solution

SXoM CBS2 eNUC 1

Art. No. 500763

Embedded NUC SMARC 2.0 carrier board

The board provides USB and Gigabit Ethernet interfaces and an M.2 slot (B+M type). An FMC extension slot enables the connection of an application-specific I/O board to take advantage of the flexibility offered by CPU+FPGA modules like the Solectrix SXoM MS2-K7 or the SXoM MS2-ZU. The PCB is based on the embedded NUC (eNUC) standard and compatible with the ARINC 836A (miniMRP) form factor. It was designed for use in aviation applications.

  • Carrier Board for SMARC 2.0 modules
  • FMC extension slot
  • M.2 slot (B+M type) with PCIe x4
  • microSD card slot
  • USB interface
  • Gigabit Ethernet interface
  • Expansion interface for additional high-speed lines from selected SMARC modules (8 Tx, 8 Rx), e.g., the SXoM MS2-ZU
  • 9 – 36 VDC in; 80 W power supply
  • PCB based on embedded NUC (eNUC) standard
  • Compatible with ARINC 836A form factor
  • Operating temperature –10 to +60 °C out of housing, ext. temperature –20 to +85 °C on request
  • Accessories available on request: M.2 SSD
Solution

SXoM CBS2 ISP

Art. No. 501041

SMARC 2.0 carrier board for imaging applications

The SXoM CBS2 ISP is a SMARC carrier board that is compatible with SMARC 2.0 and 1.1 modules. It comes with a Mini DisplayPort socket, two DSI/GMSL2 connectors on Maxim MAX9295A serializers and a socket for camera adapters from Solectrix’s SX proFRAME 3.0 product line. Thus, it is particularly suited for use as a versatile IO board for a SMARC module that serves as a system core in imaging applications.

Essential standard interfaces are provided in the form of dual USB and dual Ethernet connectors and an USB OTG port. Mass storage can be connected via M.2 and MicroSD card sockets.

As a universal SMARC carrier board, the SXoM CBS2 ISP enables fast software evaluation on your System-on-Module target platform, shortening your development time.

  • SMARC interface for SMARC 2.0 (e.g., SXoM MS2-ZU) and SMARC 1.1 (e.g., SXoM MS1-C5) modules
  • 2× Ethernet-Interface
  • 2× USB 3.0 interface
  • USB 2.0 OTG interface
  • Mini DisplayPort interface
  • 2× DSI/GMSL2 interface
    • with 2× Maxim MAX9295A serializer for connection of matching displays
  • microSD card slot
  • M.2 slot (B+M type) with PCIe x2
  • 23× Multi Function Pins, which can be used as GPIOs or as the following interfaces:
    • 4× UART
    • 3× I²C
    • 1× SPI
  • Board dimensions: 160 mm × 100 mm
Solution

SXoM MS2-ZU

Art. No. 500909
(default model with XCZU4CG-1FBVB900E)

  • System-on-Module compliant with SMARC 2.0 specification by SGET
    • Ultra-compact form factor: 82 mm × 50 mm
    • Powered by Xilinx Zynq UltraScale+ ZU4/5/7 CG/EG MPSoC
    • FPGA IP cores and implementation support available on request
    • Accessory options:
      • SXoM MS2-ZU heat sink,
        Art. No. 501042
      • Linux board support package (BSP) on request
  • FPGA Fabric Features
    • 192K – 504K logic elements
    • 4.5 – 11 Mbit block RAM
    • 13.5 – 27 Mbit UltraRAM
    • 728 – 1728 DSP blocks
  • CPU Features
    • APU (Application Processing Unit): Dual-core (with CG MPSoC) or quad-core (with EG MPSoC) ARM Cortex-A53 MPCore, 1.2 GHz clock frequency (speed grade –1)
    • RPU (Real-Time Processing Unit): Dual-core ARM Cortex-R5, 500 MHz clock frequency (speed grade –1)
    • GPU (Graphics Processing Unit): ARM Mali-400 MP2, 600 MHz clock frequency (speed grade –1, only with EG MPSoC)
    • 2 GB DDR4 SDRAM (default, 4 GB optional), 64-bit interface up to 2,400 Mb/s
    • 8 GB eMMC
    • 512 Mb QSPI serial NOR Flash

Default version based on the Zynq UltraScale+ ZU4CG MPSoC (speed grade –1), more powerful models (ZU4EG, ZU5CG/EG, ZU7CG/EG) and higher speed grades can be realized on request.

Solution

SXoM MS2-K7

Art. Nos. 500623 (default model with XC7Z035-2FFG676E)
Art. No. 500712 – 500716

  • System-on-Module compliant with SMARC 2.0 specification by SGET
    • Ultra-compact form factor: 82 mm × 50 mm
    • Powered by Xilinx Zynq Z-7030/7035/7045 SoC
    • FPGA IP cores and implementation support available on request
    • Accessory options:
      • SXoM MS2-K7 heat spreader,
        Art. No. 500768
      • SXoM MS2-K7 heat sink,
        Art. No. 500769
      • Linux board support package (BSP),
        Art. No. 500923
  • FPGA Fabric Features
    • Kintex-7 FPGA fabric
    • 125K – 350K logic elements
    • 9.3 – 19.1 Mbit block memory
    • 400 – 900 DSP blocks
    • 1 GByte DDR3 SDRAM ×32 bit for the FPGA
  • CPU Features
    • Dual-core ARM Cortex-A9 MPCore processor, 667 – 1000 MHz clock frequency
    • 5,000 MIPS (Dhrystone 2.1) at 1,000 MHz (two cores)
    • 32 KByte of L1 instruction cache and 32 KByte of L1 data cache per processor
    • 512 KByte of shared L2 cache
    • 256 KByte of on-chip RAM
    • 512 MByte DDR3 SDRAM ×32 bit for the CPU
Solution

SXoM Starter Kit

Art. No. 500770

SMARC 2.0 Starter Kit with SXoM MS2-K7
including module, eval carrier and all accessories

Kickstart your SMARC 2.0 development! The SXoM Starter Kit combines a SXoM MS2-K7 SMARC 2.0 module by Solectrix with a conga-SEVAL evaluation carrier board and a full set of accessories by congatec.

The evaluation carrier board provides a wide selection of physical connectors for the standard interfaces featured on the SMARC 2.0 connector. From a matching PSU and customized heat sinks to a DVI display adapter and various cables, all the hardware you need to develop your application for a SMARC 2.0 module is included in this comprehensive starter kit. It also comes with an SD card with a board support package for quick setup of the SXoM MS2-K7 module.

  • SXoM MS2-K7 SMARC 2.0 module feat. Xilinx Zynq Z-7035 SoC with Kintex-7 FPGA and ARM CPU
  • conga-SEVAL evaluation carrier board
  • SXoM MS2-K7 heat sink
  • SXoM MS2-K7 heat spreader
  • Complete cable set
  • ATX power supply (180 W)
Solution

SXoM MS1-C5

Art. No. 500578 (default model with 5CSXFC6C6U23I7N)
Art. No. 500600 – 500602 und 500604 – 500607

  • System-on-Module compliant with SMARC 1.1 specification by SGET
    • Ultra-compact form factor: 82 mm × 50 mm
    • Powered by Intel/Altera Cyclone V SX SoC 5CSX C2/C4/C5/C6
    • FPGA IP cores and implementation support available on request
    • Accessory options:
      • SXoM MS1-C5 heat spreader,
        Art. No. 500585
      • Linux board support package (BSP),
        Art. No. 500924
  • FPGA Fabric Features
    • Intel/Altera Cyclone V FPGA fabric
    • 25K – 110K logic elements
    • 1.4 – 5.6 Mbit block memory
    • 36 – 112 DSP block
    • up to 2 GByte DDR3 SDRAM ×32 bits for the FPGA
  • CPU Features
    • Dual-core ARM Cortex-A9 MPCore processor, 700 – 925 MHz clock frequency
    • More than 4,000 MIPS (Dhrystone 2.1) for under 1.8 W
    • 512 KByte of shared L2 cache
    • 64 KByte of on-chip RAM
    • up to 2 GByte DDR3 SDRAM ×32 bits for the CPU
Solution

SXoM ME-ZU

Art. No. 500921
(default model with XCZU11EG-1FFVC1760E)

  • System-on-Module compliant with COM Express specification
    • System-on-Module compliant with COM Express specification
    • COM Express Basic form factor: 95 mm × 125 mm
    • COM Express Type 7 connectors
    • Powered by Xilinx Zynq UltraScale+ ZU11/17/19EG MPSoC
    • Gigabit Ethernet and USB 2.0 PHYs
    • FPGA IP cores and implementation support available on request
    • Accessory options:
      • SXoM ME-ZU active cooling solution,
        Art. No. 500922
      • Linux board support package (BSP),
        Art. No. 500926
  • FPGA Fabric Features
    • 599K – 1,143K logic elements
    • 21.1 – 34.6 Mbit block RAM
    • 1,590 – 2,928 DSP blocks
    • 2 GB DDR4 SDRAM, 64-bit
    • interface up to 2,400 Mb/s
  • CPU Features
    • APU (Application Processing Unit): Quad-core ARM Cortex-A53 MPCore, 1.2 GHz clock frequency (speed grade –1)
    • RPU (Real-Time Processing Unit): Dual-core ARM Cortex-R5, 500 MHz clock frequency (speed grade –1)
    • GPU (Graphics Processing Unit): ARM Mali-400 MP2, 600 MHz clock frequency (speed grade –1)
    • 2 GB DDR4 SDRAM + 512 MB ECC memory, 72-bit interface up to 2,400 Mb/s
    • 8 GB eMMC
    • 2× 512 Mb QSPI serial NOR Flash

Default version based on the Zynq UltraScale+ ZU11EG MPSoC (speed grade –1), more powerful models (ZU17EG, ZU19EG) and higher speed grades can be realized on request.