MicroMax's Solutions
MicroMax's Solutions
MicroMax's Solutions
DAQ-2000 Series
4-CH, 14/16-Bit, Up to 2 MS/s Simultaneous-Sampling Multi-Function DAQ Cards
Adlink DAQ-2010, DAQ-2005 and DAQ-2006 are simultaneous-sampling multifunction DAQ cards to meet a wide range of application requirements.
The devices can simultaneously sample 4 AI channels with differential input configuration in order to achieve maximum noise elimination. They also provide 2-CH 12-bit analog outputs with waveform generation capability, which can be performed together with analog input functions.
If more analog input or output channels are required, multiple cards can be synchronized through the SSI (system synchronization interface) bus. This makes the DAQ-2000 series ideal for the stimulus/response test.
The DAQ-2000 series also feature analog and digital triggering, 24-CH programmable digital I/O lines, and 2- CH 16-bit general-purpose timer/counters. The auto-calibration functions adjust the gain and offset to within specified accuracies such that you do not have to adjust trimpots to calibrate the cards.
PCIe-U300 Series
4/8/12-ch PCI Express x4 Gen2 USB3 Vision Top Performing Frame Grabbers
Adlink’s PCIe-U300 Series is a PCI Express x4 Gen2 USB3 Vision frame grabber supporting 4/8/12 USB 3.1 Gen 1 ports for multiple USB3 Vision device connections with data transfer up to 5 Gb/s per port.
The PCIe-U300 Series supports 5V and up to max. 1500mA current per port for external USB3 Vision industrial cameras. To guarantee industrial-grade high-bandwidth performance for each port, four independent Fresco FL1100 USB 3.1 Gen 1 host controllers with PCI Express x4 Gen2 interface allow each USB port to provide up to 5Gbps bandwidth when operating four ports simultaneously. It also supports software-programmable per-port power on/off control for fault recovery operations.
ADLINK’s PCIe-U300 Series provides excellent capability to interface with USB 3.0 devices for machine vision, factory automation, quality assurance, logistics, medicine, and security and traffic surveillance applications.
PCIe-GIE7xP Series
2/4-CH PCI Express GigE Vision PoE+ Frame Grabbers with PoE Power Management & Protection
Adlink’s PCIe-GIE7xP series PCI Express PoE+ frame grabber supports 2/4-CH independent Gigabit Ethernet ports for multiple GigE Vision connections transferring up to 1 Gb/s per port. PoE+ provides up to 30W power and automatic detection for stable, reliable connections, reducing costs, simplifying installation, and easing maintenance burdens.
Multi-card Capture Capability
Any number of PCIe-GIE7xP series cards can be installed in a single system without occupying any I/O resources, for multicard singlesystem machine vision grabs. A wide operating temperature range supports integration with fanless computers for Industrial Automation applications in harsh environments.
Comprehensive PoE Protection Secures Assets
Exclusive comprehensive PoE Protection prevents overcurrent and overvoltage, and automated power budget control adjusts PoE port power supply automatically, avoiding equipment damage.
Smart PoE Management
Easy-to-use utility and API provide real-time PoE status monitoring and control, lowering maintenance costs and predicting possible failure in advance, while PoE power priority selection and PoE-based power on/off support more demanding applications.
EOS-1300
4CH GigE Vision Compact Vision System with 6th Generation Intel Core i7 Processors
Adlink’s EOS-1300 is a high performance compact vision system equipped with 6th Generation Intel Core i7 processors and four independent PoE (power over Ethernet) ports, delivering data transfer rates up to 4.0 Gb/s.
EOS-1300’s FPGA based DI/O provides programmable de-bounce filter, on the fly trigger, and user wiring Sink/Source DO and Encoder functions, making it the ideal solution for machine vision applications requiring high computing power and time deterministic solutions with minimal footprint.
The EOS-1300 DI/O provides minimal and fixed latency without occupying CPU resources. The DI/O function provides APIs allowing programming for de-bounce filter of DI, delay time, and pulse width of DO and also advanced Encoder functions suitable for conveyor applications. The highly flexible design supports either Sink or Source DO via external wiring.
With all I/O connectors on one side for easy installation, and the latest 6th Generation Intel Core i7 processor, powerful and flexible DI/O, and compact size, the EOS-1300 is the perfect vision system for automation and machine vision.
MLC 8 Series
Most Versatile All-in-One Medical Panel Computer Family with selectable 8th Generation Intel Core Processor Performance
Adlink’s new series of MLC 8 medical computers with 8th generation Intel Core processors delivers high computing performance and outstanding graphics processing capabilities.
The MLC 8 series are designed with optimum viewing capabilities and hygienic, fully-sealed and easy-to-clean housings. They can be used for patient’s vital sign monitoring, nursing care, clinical diagnosis, PACS (Picture Archiving and Communication System), anesthesia monitoring and operating room documentation.
With additional safety design and expansion capabilities, our medical panel computers and monitors provide a reliable and flexible system with high usability and convenience for doctors and hospital staff.
CM3-BT1
Extreme Rugged PCI-104 Single Board Computer with Intel Atom Processor E3800 Series SOC
The CMx-BTx is a PC/104-based, Single Board Computer (SBC), fully compliant with the PCI-104 Specification, Version 1.1 and partially compliant with the PC/104 Specification, Version 2.6.
PC/104 SBCs are very compact and highly integrated computers. This SBC features the 22nm, Intel Bay Trail SoC. The board provides a DDR3L SO-DIMM socket, a PC/104 connector, a PCI-104 connector, three USB 2.0 ports, up to two Gigabit Ethernet ports, up to two SATA 3 Gb/s ports, one dedicated HD-Audio panel connector, one VGA port, one LVDS port, up to four COM ports, one mini-PCIe slot (with one USB 2.0 port included).
The CMx-BTx can be run with only 5 volts and is capable of running operating systems like DOS, Windows 7/8 in either 32-bit or 64-bit configuration, Linux, VxWorks, and others.
Another feature included on the board is a fail safe BIOS that enables the user to start the module even if the original BIOS is corrupted.
AVA-5500 Series
Rugged, Fanless AIoT Platform with NVIDIA Quadro GPU Embedded for Real-time Video/Graphics Analytics
Artificial Intelligence (AI) technologies are being adopted globally by all industries to drive efficiency, improve productivity and reduce costs. The rail industry is no exception. Fueled by intelligence from AI-driven systems and applications, railway operations are becoming safer, smarter and more reliable, significantly enhancing passenger travel experience and freight logistics services. For rail transportation, AI can provide improvements including fast and convenient ticket-free check-in to accurate arrival-time predictions, personalized infotainment and onboard services, real-time track heath diagnostics, and rapid response in an emergency.
These AI-driven applications only function with proper data input that is collected by massive numbers of Internet of Things (IoT) devices installed in stations, on trains, and along tracks. A successful implementation of such rail applications requires a seamless integration of AI and IoT technologies. By leveraging more than 20 years of expertise in developing highly reliable and available embedded computing systems, ADLINK brings advanced AIoT (AI and IoT) solutions to rail transportation, enabling customers in developing a variety of applications that can deliver true value and performance. ADLINK is committed to helping customers gain competitive advantages by allowing them to focus their development efforts on differentiating their end applications.
Powered by an Intel Core i7 processor and integrated NVIDIA Quadro MXM module, ADLINK’s EN50155 certified AVA-5500 AIoT Platform is not only ruggedized for both wayside and onboard deployment with its wide range DC input and isolated I/O design, but also provides an ideal edge solution for real-time video/graphics analysis applications that are vital to today’s increasingly complex railroad operations.
The target applications include but are not limited to:
Passenger Information Systems
Railroad Intrusion Detection
Train Station Surveillance
Onboard Video Security
Railroad Hazard Detection
ADLINK’s AVA-5500 is being tested and deployed commercially by leading rail system integrators worldwide. In one application, the intelligent platform is installed on special rail inspection trains to process captured images of key wayside equipment in real-time. With a sophisticated algorithm driven by parallel computing and deep learning, the application can effectively identify potential equipment faults at a train speed of 120km/h, and raise the alarm to notify maintenance crews. In another application, the AVA-5500 is used in a train station control office to analyze the real-time video stream received from the platform. The application is able to not only detect suspicious behaviors and trigger alerts, but also conduct post-event analysis.
To meet varying application requirements, the AVA-5500 is also available in variants featuring an additional two USB 2.0 via M12 connectors and two 2.5″ SATA 6Gb/s drive bays, as well as a version supporting +12VDC power input only.
ADLINK’s AVA-5500 can also be deployed for AI-enabled surveillance and video/graphics processing applications in a variety of adjacent markets including mil/aero, public safety, energy and industrial automation.
CSA-7400
4U 19” Network Appliance
The ADLINK CSA-7400 is a high-performance high-density computing platform supporting four dual Intel Xeon processors E5 compute nodes, interconnected by dual redundant switch modules. The CSA-7400 can ensure uninterrupted service delivery through hot-swappable compute nodes and switch modules. It is ideally suited for building nextgeneration high-performance firewalls and virtualized telecom elements. The main features of the CSA-7400 are summarized as follows:
Supports single-system dual Intel Xeon Scalable Processor (Purley platform)
Dual switch modules provide 2×50G internal Ethernet links to each compute node
Support for hardware based acceleration for processing NVGRE and VXLAN, assisting the construction of large layer 2 networks in the cloud
Support for IPMI 2.0 specification, web-based intelligent system management, and support for SOL on compute nodes
Dual redundant power supply units provide active power management on compute nodes, support flexible power limit polices
Support for PacketManager software to provide data plane software stacks for dynamic layer 3 and flow-based forwarding, accelerating development of customer applications
Optional integration of Wind River Titanium Server software to provide carrier grade NFV service
Support for hardware acceleration for Open vSwitch and OpenFlow protocol processing, accelerating SDN services
Applications
High-end Network Security, Telecom DPI, IDS/IPS, DDoS, NGFW, vBRAS/vCPE
Hyper-Converged Platform (HC)
Cloud Edge, Cloud Interconnection, Cloud Security
CSA-7210
2U 19” Network Appliance with Intel Xeon Scalable Silver/Gold Processors for communications and computing infrastructure deployment
2U 19″ Network Appliance with Intel Xeon Scalable Silver/Gold Processors for communications and computing infrastructure deployment.
HPERC-KBL-MH
Rugged Convection Cooled System with Intel Xeon Processor and MIL-DTL-38999 Connectors
Inside the tiny footprint of ADLINK’s HPERC lives the power of Intel Xeon processor and optional GPGPU parallel processing engine based on a NVIDIA Quadro MXM module. Dual removable secure erase RAID-0 SSDs provide 12Gb/s throughput and security for deployment in hostile environments.
Easy configuration and expansion allows for fast integration of custom rugged embedded applications. Uniquely-keyed MIL-DTL-38999 connectors provide a wide array of fast IO. The HPERC reserves connector pins for expansion interfaces. The GPGPU sits on a 16-lane 3rd generation PCI Express interface to enable image processing and other applications driven by AI and Deep Learning technologies.
Built with proven Ampro (acquired by ADLINK in 2008) reliability, the rugged capabilities of the HPERC are ideal for ground, air and sea deployments in military and aerospace. The HPERC systems survive shock, resist corrosion and galvanic oxidation, and perform in the humid jungle, the heat of the desert, and the bitter cold of frozen mountain passes.
In addition to Intel’s constantly evolving roadmap, NVIDIA’s many-core GPUs have transformed some areas of sensor processing, including radar, wide-area surveillance, and hyperspectral imaging, due the inherent suitability of parallel processing of those data sets. While this parallel processing paradigm has rapidly increased the processing capability within a given SWaP envelope, the real gains are yet to be exploited — the advent of Deep Learning will likely power the next wave of systems capabilities.
Image processing methods perform operations to enhance an image and/or extract useful information from it. Applications include pattern of life analysis, surveillance, reconnaissance, target identification, and geolocation in GPS-denied areas. For example, to collect tens of thousands of hours of aerial surveillance video and other theaters of operation. Turning what are often grainy, shaky videos taken by drones or satellites into clean image streams suitable for analysis — especially real-time analysis — poses a massive computational burden. According to NVIDIA and Motion DSP, GPUs can process such video seven times faster than CPU-only approaches.
Coupled with NVIDIA’s CUDA graphics processing and the OpenGL API, ADLINK’s HPERC, provides solution engineers with a powerful COTS (commercial off-the-shelf) sub-system with which they can design the next generation of image processing systems. More applications, including:
ISR platforms (intelligence, surveillance and reconnaissance)
Radar processing
Software-defined radio (SDR)
Sonar processing
Forward looking infrared radiometry (FLIR)
