MicroMax's Solutions
MicroMax's Solutions
MicroMax's Solutions
AmITX-BT-I
Mini-ITX Embedded Board with Intel Atom E3800 Series SoC and Intel Celeron Processors (formerly codename: Bay Trail)
The AmITX-BT-I is a Mini-ITX Embedded Boards supporting the Intel Atom processor E3800 Series and Intel Celeron processor system-on-chip (SoC). The AmITX-BT-I is specifically designed for customers who need high-level processing and graphics performance with low power consumption in a long product life solution.
The Intel Atom processor E3800 and Intel Celeron processor support non-ECC type DDR3L dual-channel memory at 1066/1333 MHz to provide excellent overall performance. Integrated Intel Gen7 HD Graphics includes features such as OpenGL 3.1, DirectX 11, OpenCL 1.1 and support for H.264, MPEG2, VC1, VP8 hardware decode. Graphics outputs include VGA, DDI ports supporting HDMI and optional dual-channel 18/24-bit LVDS. The AmITX-BT-I has dual stacked SODIMM sockets for up to 8 GB non-ECC type DDR3L memory. In addition, an onboard miniSD card slot is supported (Only for E38XX SKU).
The AmITX-BT-I features dual Gigabit Ethernet port, USB 3.0 ports and USB 2.0 ports, and SATA 3 Gb/s ports. Support is provided for SMBus and I2C. The module is equipped with SPI AMI EFI BIOS, supporting embedded features such as hardware monitor and watchdog timer.
AmITX-SL-G
Updated Mini-ITX Embedded Board with 6th/7th Gen Intel Core i7/i5/i3, Pentium and Celeron Desktop Processor (formerly codename: Sky Lake)
The AmITX-SL-G is a Mini-ITX motherboard supporting the Desktop 6th Generation Intel Core i7/i5/i3, Pentium and Celeron Processor with Intel Q170/H110 Chipset. The AmITX-SL-G is specifically designed for customers who need high-level processing and graphics performance with a long product life solution.
The AmITX-SL-G features three DisplayPorts, dual Gigabit Ethernet ports, USB 3.0 ports, USB 2.0 ports, SATA 6 Gb/s ports, and High Definition Audio with 7.1 channels. Expansion is provided by one PCIe x16, one PCIe x1, and two mini-PCIe slots. The onboard feature connector provides GPIO, SMBus, and I2C support. The board is equipped with SPI AMI EFI BIOS, supporting embedded features such as hardware monitor and watchdog timer.
AmITX-AL-I
Thin Mini-ITX Embedded board with Intel Atom E3900 series, Pentium, and Celeron SoC (formerly codename: Apollo Lake)
The AmITX-AL-I is a low-profile Thin Mini-ITX embedded board supporting an Intel Atom processor E3900 series, Intel Pentium processor N4200, and Intel Celeron processor N3350 system-on-chip (SoC). The AmITX-AL-I is specifically designed for customers who need optimized processing and graphics performance with low power consumption in a long product life solution.
The Intel Atom processor, Intel Pentium processor, and Intel Celeron processor support non-ECC type DDR3L dual-channel memory at 1600/1866 MHz to provide excellent overall performance. Integrated Intel Gen9 LP Graphics includes features such as OpenGL 4.3, DirectX 12, OpenCL 2.0; and support for H.265/HEVC, H.264, MPEG2, VC1, VP9, MVC, JPEG/MJPEG hardware decode. Up to three independent displays are available from DDI ports supporting HDMI/DisplayPort, optional single/dual-channel 18/24-bit LVDS, and optional eDP.
The AmITX-AL-I supports dual stacked SODIMM sockets for up to 16 GB non-ECC type DDR3L memory, and graphics outputs include DisplayPort, HDMI, and optional eDP and optional dual-channel 18/24-bit LVDS. I/O features include HD Audio, dual Gigabit Ethernet port, 4x USB 3.0 ports and 3x USB 2.0 ports, 6x COM ports, PCIe x1 slot, Mini PCIe slot, mSATA slot, and 2x SATA 6 Gb/s ports. A feature connector provides 10 GPIO, SMBus, and I2C, and optional SIM card slot and microSD card slot are available.
The AmITX-AL-I is equipped with SPI AMI EFI BIOS, supporting embedded features such as hardware monitor and watchdog timer.
The Thin Mini-ITX form factor is the «premier standard for designing and assembling all-in-one PCs,» according to Intel. Measuring 170 mm square and less than 25 mm thick, Thin Mini-ITX fulfills requirements for applications in digital signage, infotainment, medical, and industrial automation that are running in limited-space environments. ADLINK’s thin Mini-ITX board also follows the Form, Fit, Function design principle to offer standardized pinout locations and is compatible with the Micro-ATX and regular ATX chassis. The AmITX-AL-I provides an easy and fast path to creating industrial computing solutions.
AmITX-RZ-G
Mini-ITX Embedded Board with AMD Ryzen APU
Mini-ITX Embedded Board with AMD Ryzen APU
AmITX-CF-G
Mini-ITX Embedded Board with 8th/9th Gen Intel Core Desktop Processor
Targeted at gaming customers and system integrators, AmITX-CF-G is a Mini-ITX board specially designed for Gaming. AmITX-CF-G features GLI compliance, easy and flexible configuration, security enhancements, and system resilience.
The values of AmITX-CF-G include amplified visual impact, guaranteed system integrity, secure transactions with fast TTM and low TCO, and maximized system uptime. AmITX-CF-G can satisfy application function requirements and meet GLI certification which cannot be offered by other conventional Mini-ITX boards.
AMSTX-CF Series
Embedded Motherboard supporting MXM Graphics Module with 8th/9th Generation Intel Core i7/i5/i3 in LGA1151 Socket
Embedded graphics enables system developers to boost the performance of a wide range of workloads, including medical imaging, image analysis, compute acceleration, and artificial intelligence (AI). Leveraging graphics processing units (GPUs), embedded graphics can be used to increase application speed and accuracy, as well as decrease latency. Many embedded system developers are using embedded graphics solutions in real-world applications, such as medical, manufacturing, and traffic management, along with other embedded segments.
System developers, OEMs, and systems integrators can more easily deploy embedded graphics with help from ADLINK’s large portfolio of computing products that can be designed into a wide range of form factors.
The AMSTX-CF Series Micro-STX motherboard features socket-type CPU and support Scalable Graphics Processing Ranging from Pascal to Turing GPUs in a compact small form factor.
Combining its strong expertise serving embedded developers and its close partner relationship with NVIDIA, ADLINK is delivering high-performance, long-life embedded graphics solutions to many market segments.
Q7-BT
Qseven Module with 4th Generation Intel Atom Processor E3800 Series SoC
The Q7-BT Computer-On-Module (COM) combines the Qseven 2.0 standard with the Intel Atom E3800 series System-on-Chip (SoC), providing an ideal solution for mid-range power and high, pin/area density requirements. The module provides the high integration, high performance, low power, and ruggedness favored by Internet-of-Things (IoT) applications such as retail transactional clients, digital signage, and in-vehicle infotainment systems.
The Qseven form factor affords a more compact profile and footprint than the other COM platforms.
With mechanical dimensions as small as 70mm width, 70mm length, and 2.3mm of overall height, Qseven ranks as the smallest COM standard currently available.
The Q7-BT module utilizes the E3800 SoC for contemporary, high-bandwidth interfaces such as PCI Express, USB, Gigabit Ethernet, SATA, and HD Audio. The module generates its own LVDS, TMDS, and DisplayPort video signals using DDI output from the SoC. A series of optional eMMC devices offers up to 64GB of on-board NAND Flash storage with an MMC interface, and an optional SATA, Solid State Drive (SSD) provides up to 64GB of on-board NAND Flash storage. Two SPI Flash chips implement a fail-safe BIOS, allowing the user to boot the module even if current BIOS settings have corrupted the system.
Under the management of the BMC chip (Board Management Controller), the SEMA utility (Smart Embedded Management Agent) provides system control, security, and failure protection—counting, monitoring, and measuring hardware and software events, and using the SMBus to send corrective commands to the SoC. The optional SEMA Cloud utility not only controls local events on the module but system client events on the IoT.
LEC-BT
SMARC Full Size Module with Intel Atom Processor E3800 Series System-on-Chip
The SMARC («Smart Mobility ARChitecture») is a versatile small form factor computer Module definition targeting applications that require low power, low costs, and high performance. The Modules will typically use ARM SOCs similar or the same as those used in many familiar devices such as tablet computers and smart phones. Alternative low power SOCs and CPUs, such as tablet oriented X86 devices and other RISC CPUs may be used as well. The Module power envelope is typically under 6W.
The Modules are used as building blocks for portable and stationary embedded systems. The core CPU and support circuits, including DRAM, boot flash, power sequencing, CPU power supplies, GBE and a single channel LVDS display transmitter are concentrated on the Module. The Modules are used with application specific Carrier Boards that implement other features such as audio CODECs, touch controllers, wireless devices, etc. The modular approach allows scalability, fast time to market and upgradability while still maintaining low costs, low power and small physical size.
SMARC form factor module, the LEC-BT, is certified by Intel for Intel Gateway Solutions for the Internet of Things (IoT) using Windriver and McAfee software integration.
To stress on its low power consumption feature, ADLINK has named SMARC products as LEC (Low Energy Computer on module) series.
The ADLINK LEC-BT computer-on-module with built-in SEMA Cloud functionality is ready-made for Internet of Things (IoT) applications. The LEC-BT is able to connect legacy industrial devices and other IoT systems to the cloud, extract raw data from these devices, determine which data to save locally and which to send to the cloud for further analysis. The results these analyses can provide valuable information for policy decision making and generate innovative business opportunities.
MXC-2300
Intel Atom processor E3845 Fanless Expandable Embedded Computer with PCI/PCIe Slots
Featuring the latest Intel Atom E3845 processor, the Matrix MXC-2300 series excels with minimal power consumption, exceptional 3D graphics, and powerful media acceleration, delivering a leading improvement in performance and cost-efficiency over any previous generation Atom-based system.
Features include dual-port CAN connectivity supported by a Philips SJA1000 controller that can run independently or bridged at the same time, bus arbitration and error detection with auto correction and re-transmission capability, and 16-CH isolated DI/O for general industrial control.
An increased total 3PCI/PCIe expansion slot count allows installation of a variety of off-the-shelf PCI/PCIe cards for configurable applications, and an internal PCI Express Mini Card socket and USIM slot support extension of additional functions, such as wireless connection.
In addition, the MXC-2300 series offers one DisplayPort and one DVI-I port for dual independent display with full HD, four USB 2.0 and one USB 3.0 ports, and 2 GbE LAN ports with teaming function.
With ADLINK's proprietary SEMA (Smart Embedded Management Agent) tool, the MXC-2300 maximizes manageability and security for a world of applications. Provide efficient remote monitoring of system activity and health in real time, system control over a robust secured channel, and fully manageable complete utilization of system resources.
With its ruggedized architecture, flexibility, and rich I/O capacity, the MXC-2300's minimal power consumption, abundant features, and leading performance and cost-efficiency make it the embedded system of choice for industrial automation, facility management, and intelligent transportation systems and applications demanding reliability in harsh environments.
LEC-iMX6
SMARC Short Size Module with Freescale i.MX6 Solo, DualLite, Dual or Quad Core Processor
The SMARC («Smart Mobility ARChitecture») is a versatile small form factor computer Module definition targeting applications that require low power, low costs, and high performance. The Modules will typically use ARM SOCs similar or the same as those used in many familiar devices such as tablet computers and smart phones. Alternative low power SOCs and CPUs, such as tablet oriented X86 devices and other RISC CPUs may be used as well. The Module power envelope is typically under 6W.
The Modules are used as building blocks for portable and stationary embedded systems. The core CPU and support circuits, including DRAM, boot flash, power sequencing, CPU power supplies, GBE and a single channel LVDS display transmitter are concentrated on the Module. The Modules are used with application specific Carrier Boards that implement other features such as audio CODECs, touch controllers, wireless devices, etc. The modular approach allows scalability, fast time to market and upgradability while still maintaining low costs, low power and small physical size.
To stress on its low power consumption feature, ADLINK has named SMARC products as LEC (Low Energy Computer on module) series.
