MicroMax's Solutions
MicroMax's Solutions
MicroMax's Solutions
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DLAP-8100 Series
AI IPC with 15th/14th/13th/12th Intel Core Processor
ADLINK’s DLAP series provides robust, compact, industrial-grade fanless platforms, purpose-built for AI-based applications in challenging environments. These systems are equipped with powerful Intel processors and provide advanced AI capabilities, making them suitable for a wide range of applications in retail, parking, agriculture, and manufacturing. With an emphasis on SWaP (Size, Weight, and Power) optimization, these platforms are designed to excel in industrial and embedded settings, ensuring exceptional durability under extreme temperatures, shocks, and humidity.
The DLAP-8100 is a high-performance Edge AI platform, featuring 15th/14th/13th/12th Gen Intel Core 35W/65W LGA1700 CPUs and supporting up to 192GB DDR5 4800MHz memory via four SODIMM slots. Designed for compute-intensive AI workloads, the system accommodates a full-speed NVIDIA RTX A6000E 350W GPU with a PCIe Gen4×16 interface, enabling unparalleled AI inference and training capabilities at the edge.
For rich I/O, the DLAP-8100 includes 2x DP++, 2x HDMI, 3×2.5GbE, 4x COM ports, 8DI, 8DO, 4x USB 3.2, and 2x USB 3.1. It also supports up to four hot-swappable 2.5″ SATA 6 Gb/s drives with RAID 0/1/5/10 configurations, ensuring reliable and flexible data management for high-throughput applications.
Expansion is further enhanced with 1x M.2 2230 Key E (PCIe Gen3×1) for wireless modules or additional edge connectivity. The DLAP-8100 is the ideal platform for demanding edge AI scenarios such as industrial automation, video analytics, and smart manufacturing, delivering robust compute power and rich connectivity in a compact, industrial-grade form factor.
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DLAP-4100 Series
Industrial Mini-ITX System with Intel Core i9/i7/i5/i3 Processors
ADLINK’s DLAP series provides robust, compact, industrial-grade fanless platforms, purpose-built for AI-based applications in challenging environments. These systems are equipped with powerful Intel processors and provide advanced AI capabilities, making them suitable for a wide range of applications in retail, parking, agriculture, and manufacturing. With an emphasis on SWaP (Size, Weight, and Power) optimization, these platforms are designed to excel in industrial and embedded settings, ensuring exceptional durability under extreme temperatures, shocks, and humidity.
The DLAP-4100, featuring 15th/14th/13th/12th Gen Intel Core i9/i7/i5/i3 processors and Q670 chipset with up to 65W TDP, delivers exceptional performance for compute-intensive Edge AI workloads. It supports dual-channel DDR5 4800 MHz memory up to 64GB and provides flexible connectivity with three independent display outputs (HDMI 2.0b, HDMI 1.4b, DP 1.4a) and dual GbE ports (1×1GbE, 1×2.5GbE).
For AI acceleration, the DLAP-4100 supports GPU cards such as NVIDIA RTX series or Intel ARC graphics via its PCIe GEN5×16 slot, enabling advanced AI computing power for real-time inference, machine vision, and video analytics applications. Additionally, the DLAP-4100 is compatible with Hailo-8 M.2 AI acceleration modules, delivering up to 26 TOPS of performance with exceptional power efficiency. These modules support standard AI frameworks like TensorFlow, ONNX, PyTorch, and Keras, and are ideal for low-latency, multi-stream inference at the edge.
The platform’s expandability includes 4x USB 3.2 Gen2, 2x USB 2.0, 1x M.2 B-key, 1x M.2 E-key, and 2x M.2 M-key slots, ensuring seamless integration of AI accelerators, wireless modules, and storage devices. This flexibility makes the DLAP-4100 a versatile solution for diverse AI edge deployments.
DLAP-8100 Series
AI IPC with 15th/14th/13th/12th Intel Core Processor
ADLINK’s DLAP series provides robust, compact, industrial-grade fanless platforms, purpose-built for AI-based applications in challenging environments. These systems are equipped with powerful Intel processors and provide advanced AI capabilities, making them suitable for a wide range of applications in retail, parking, agriculture, and manufacturing. With an emphasis on SWaP (Size, Weight, and Power) optimization, these platforms are designed to excel in industrial and embedded settings, ensuring exceptional durability under extreme temperatures, shocks, and humidity.
The DLAP-8100 is a high-performance Edge AI platform, featuring 15th/14th/13th/12th Gen Intel Core 35W/65W LGA1700 CPUs and supporting up to 192GB DDR5 4800MHz memory via four SODIMM slots. Designed for compute-intensive AI workloads, the system accommodates a full-speed NVIDIA RTX A6000E 350W GPU with a PCIe Gen4×16 interface, enabling unparalleled AI inference and training capabilities at the edge.
For rich I/O, the DLAP-8100 includes 2x DP++, 2x HDMI, 3×2.5GbE, 4x COM ports, 8DI, 8DO, 4x USB 3.2, and 2x USB 3.1. It also supports up to four hot-swappable 2.5″ SATA 6 Gb/s drives with RAID 0/1/5/10 configurations, ensuring reliable and flexible data management for high-throughput applications.
Expansion is further enhanced with 1x M.2 2230 Key E (PCIe Gen3×1) for wireless modules or additional edge connectivity. The DLAP-8100 is the ideal platform for demanding edge AI scenarios such as industrial automation, video analytics, and smart manufacturing, delivering robust compute power and rich connectivity in a compact, industrial-grade form factor.
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DLAP-4100 Series
Industrial Mini-ITX System with Intel Core i9/i7/i5/i3 Processors
ADLINK’s DLAP series provides robust, compact, industrial-grade fanless platforms, purpose-built for AI-based applications in challenging environments. These systems are equipped with powerful Intel processors and provide advanced AI capabilities, making them suitable for a wide range of applications in retail, parking, agriculture, and manufacturing. With an emphasis on SWaP (Size, Weight, and Power) optimization, these platforms are designed to excel in industrial and embedded settings, ensuring exceptional durability under extreme temperatures, shocks, and humidity.
The DLAP-4100, featuring 15th/14th/13th/12th Gen Intel Core i9/i7/i5/i3 processors and Q670 chipset with up to 65W TDP, delivers exceptional performance for compute-intensive Edge AI workloads. It supports dual-channel DDR5 4800 MHz memory up to 64GB and provides flexible connectivity with three independent display outputs (HDMI 2.0b, HDMI 1.4b, DP 1.4a) and dual GbE ports (1×1GbE, 1×2.5GbE).
For AI acceleration, the DLAP-4100 supports GPU cards such as NVIDIA RTX series or Intel ARC graphics via its PCIe GEN5×16 slot, enabling advanced AI computing power for real-time inference, machine vision, and video analytics applications. Additionally, the DLAP-4100 is compatible with Hailo-8 M.2 AI acceleration modules, delivering up to 26 TOPS of performance with exceptional power efficiency. These modules support standard AI frameworks like TensorFlow, ONNX, PyTorch, and Keras, and are ideal for low-latency, multi-stream inference at the edge.
The platform’s expandability includes 4x USB 3.2 Gen2, 2x USB 2.0, 1x M.2 B-key, 1x M.2 E-key, and 2x M.2 M-key slots, ensuring seamless integration of AI accelerators, wireless modules, and storage devices. This flexibility makes the DLAP-4100 a versatile solution for diverse AI edge deployments.
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cExpress-TL
COM Express Compact Size Type 6 Module with 11th Gen Intel Core and Celeron Processors (formerly codename: Tiger Lake-UP3)
ADLINK cExpress-TL, based on the 11th Gen Intel Core i7/i5/i3 and Celeron processor, is the first COM Express module to support PCI Express Gen 4 at 16 GT/s, effectively doubling the bandwidth of previous generations.
Additionally if features support for 2.5GbE Ethernet, leveraging existing Cat5e cable infrastructure being used for 1GbE Ethernet, it supports four USB 3.2 ports with transfer rates up to 10Gb/s. The modules have a configurable power range of 15 to 28 watts, which suits them for fanless space-constrained embedded applications. Typical industries in need of such high-performance/low-power characteristics are transport, medical, industrial automation and control, edge controllers, robotics and multi-camera-based AI.
cExpress-TL features the Intel Iris Xe, a new graphics core, and supporting AVX-512 Vector Neural Net Instructions (VNNI) can significantly improve the number of elements processed per cycle, providing AI inferencing performance that is up to 3x that of previously available from non-VNNI platforms. Intel Iris Xe provides 96 execution units and is able to be configured to support two 8K independent displays or four 4K independent display (HDMI/DP/eDP). Additional support includes In-Band ECC (IBECC), providing ECC level error correction on DDR4 SODIMM memories for mission critical or rugged applications.
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cExpress-AR
COM Express Compact Size Type 6 Module with AMD Ryzen Embedded V2000 CPU (Zen 2 architecture)
The cExpress-AR, featuring the new AMD Ryzen V2000 CPU with its high performance integrated Radeon graphics, is the first Type 6 module on the market to support an octa-core (8-core) embedded SoC, with up to 16 threads and an impressive turbo boost up to 4.2 GHz. Compared to earlier embedded quad-core V1000 processors, the additional cores combined with AMD’s Zen 2 architecture result in a more than two-fold performance increase and double the performance-per-watt efficiency.
ADLINK’s cExpress-AR provides standard support for up to 64GB DDR4 in two SO-DIMMs. ECC error correction based on selected SKUs and configurable TDP (down to 10W), while still offering 6 to 8 cores and passive cooling, make it well suited for mission critical application in harsh environments.
With integrated new generation AMD Radeon Vega graphics, the cExpress-AR supports up to four independent 4K displays via DisplayPort, HDMI, DVI and LVDS. The cExpress-AR, offers a range of high speed interfaces, including 2.5GbE Ethernet, 6 PCIe x1 Gen3 and 1 PCIe x8 Gen2 (configurable), and 4x USB 3.2 ports. These features are fully compatible with the COM Express Rev. 3 specification, allowing for existing systems to upgrade and gain in performance without changing the carrier design.
cExpress-TL
COM Express Compact Size Type 6 Module with 11th Gen Intel Core and Celeron Processors (formerly codename: Tiger Lake-UP3)
ADLINK cExpress-TL, based on the 11th Gen Intel Core i7/i5/i3 and Celeron processor, is the first COM Express module to support PCI Express Gen 4 at 16 GT/s, effectively doubling the bandwidth of previous generations.
Additionally if features support for 2.5GbE Ethernet, leveraging existing Cat5e cable infrastructure being used for 1GbE Ethernet, it supports four USB 3.2 ports with transfer rates up to 10Gb/s. The modules have a configurable power range of 15 to 28 watts, which suits them for fanless space-constrained embedded applications. Typical industries in need of such high-performance/low-power characteristics are transport, medical, industrial automation and control, edge controllers, robotics and multi-camera-based AI.
cExpress-TL features the Intel Iris Xe, a new graphics core, and supporting AVX-512 Vector Neural Net Instructions (VNNI) can significantly improve the number of elements processed per cycle, providing AI inferencing performance that is up to 3x that of previously available from non-VNNI platforms. Intel Iris Xe provides 96 execution units and is able to be configured to support two 8K independent displays or four 4K independent display (HDMI/DP/eDP). Additional support includes In-Band ECC (IBECC), providing ECC level error correction on DDR4 SODIMM memories for mission critical or rugged applications.
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cExpress-AR
COM Express Compact Size Type 6 Module with AMD Ryzen Embedded V2000 CPU (Zen 2 architecture)
The cExpress-AR, featuring the new AMD Ryzen V2000 CPU with its high performance integrated Radeon graphics, is the first Type 6 module on the market to support an octa-core (8-core) embedded SoC, with up to 16 threads and an impressive turbo boost up to 4.2 GHz. Compared to earlier embedded quad-core V1000 processors, the additional cores combined with AMD’s Zen 2 architecture result in a more than two-fold performance increase and double the performance-per-watt efficiency.
ADLINK’s cExpress-AR provides standard support for up to 64GB DDR4 in two SO-DIMMs. ECC error correction based on selected SKUs and configurable TDP (down to 10W), while still offering 6 to 8 cores and passive cooling, make it well suited for mission critical application in harsh environments.
With integrated new generation AMD Radeon Vega graphics, the cExpress-AR supports up to four independent 4K displays via DisplayPort, HDMI, DVI and LVDS. The cExpress-AR, offers a range of high speed interfaces, including 2.5GbE Ethernet, 6 PCIe x1 Gen3 and 1 PCIe x8 Gen2 (configurable), and 4x USB 3.2 ports. These features are fully compatible with the COM Express Rev. 3 specification, allowing for existing systems to upgrade and gain in performance without changing the carrier design.
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cExpress-EL
COM Express Compact Size Type 6 Module with Next Generation Intel Atom Processor SoC
ADLINK cExpress-EL supports next generation Intel Atom x6000 processors (Elkhart Lake) combined with Intel UHD graphics at low power envelope and high speed interfaces. cExpress-EL modules support In-Band ECC dual channel DDR4 memory up to 32GB, and are also available in rugged operating temperature range and low power envelope, making them a perfect match for mission critical fanless edge computing applications that require safety and reliability at all times.
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Microlog
Vehicle testing and tracking tool
The ODOS Microlog is perfectly suited for test vehicle tracking. Just plug it in and you are ready to monitor the vehicle. All is configured over the air! Perfect for any tracking and monitoring application for R&D use case as well as commercial use.
With the power of award-winning ODOS CloudSoft Professional Cloud software, you will take your test and measurement experience to another level over the air.
ODOS Microlog is a perfect tool for any vehicle testing department as you can carry out a large number of standard tests very simply with the quick installation and remote management with results being shown in real-time in ODOS Cloudsoft.
cExpress-EL
COM Express Compact Size Type 6 Module with Next Generation Intel Atom Processor SoC
ADLINK cExpress-EL supports next generation Intel Atom x6000 processors (Elkhart Lake) combined with Intel UHD graphics at low power envelope and high speed interfaces. cExpress-EL modules support In-Band ECC dual channel DDR4 memory up to 32GB, and are also available in rugged operating temperature range and low power envelope, making them a perfect match for mission critical fanless edge computing applications that require safety and reliability at all times.
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Microlog
Vehicle testing and tracking tool
The ODOS Microlog is perfectly suited for test vehicle tracking. Just plug it in and you are ready to monitor the vehicle. All is configured over the air! Perfect for any tracking and monitoring application for R&D use case as well as commercial use.
With the power of award-winning ODOS CloudSoft Professional Cloud software, you will take your test and measurement experience to another level over the air.
ODOS Microlog is a perfect tool for any vehicle testing department as you can carry out a large number of standard tests very simply with the quick installation and remote management with results being shown in real-time in ODOS Cloudsoft.
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CloudCommander
All-in-One CAN to Cloud datalogging solution
ODOSOLUTIONS AB (ODOS) and Kvaser AB have brought together a fresh perspective, unique collaboration, and advanced technology, in order to deliver next generation cloud connectivity and data logging for CAN (controller area network).
ODOS’ CloudCommander is a 4G-enabled data logger that integrates Kvaser’s well-known CAN interface hardware. ODOS’ Cloudsoft software platform, plus dashboard makes this a comprehensive CAN-to-Cloud data logging solution.
CloudCommander Features
The CloudCommander data logger combines the scale of Kvaser’s most popular CAN interface — the Kvaser Leaf Light — with the power of ODOS’ industry leading IoT Cloud Platform, to bring you a comprehensive CAN-to-Cloud datalogging solution:
Real-time CAN data streaming over 4G cellular connectivity to Cloud data storage
GPS tracking and 3-axis Accelerometer
Onboard UPS and memory buffer in the event of power and cellular connectivity outages
Native Kvaser Leaf (CANlib SDK) Interface and API
Rugged waterproof (IP67) field deployable enclosure with secure mounting location
CloudSoft Features
The tight vertical integration with award-winning CloudSoft platform and dashboard offers:
Remote real-time CAN data monitoring and analysis software
Over-The-Air (OTA) data-logger configuration updates
OTA Diagnostic Protocols on CAN (OBD2 & UDS)
Event based triggering to stream data, capture CAN traces and email alerts/reports
Virtual calculated CAN channels
Distributed team collaboration and data sharing platform
Plugins and REST API service
ASAM file formats
Certified to the most rigorous IT security and privacy (GDPR) legislation
What’s more, the CloudCommander incorporates a Kvaser USB-CAN interface to support your existing PC Applications whilst simultaneously streaming data to the cloud for remote fleet monitoring and diagnostics support.
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5U Rugged Servers
Ruggedized | Scalable | Reliable
Dual Intel Xeon SP CPUs
Achieve exceptional performance with Intel Xeon Scalable Performance Silver & Gold Series processors. Up to 3.9 GHz clock rate, 22 cores (44 threads), 30.25 MB L3 cache, and 25W — 125W TDP.
Unforgettable Memory
Maximize signal integrity with 8 carefully optimized ECC RDIMMs across 6 channels and up to 1.5TB DDR4‑2933 memory.
Basically the best server-class RAM in a 5U rugged chassis.
Storage SATAsfied
Four 3.5″ drive bays supporting up to 16 SATA 6 Gb/s drives and one SlimLine Optical drive.
Lots of Slots
Comes standard with up to 18 PCIe Gen3 slots in a 5U rugged server offering the most application versatility and scalability.
Add even more PCIe slots to your ruggedized computer with our PCIe Expansion Kit.
Power. Full.
Up to 2200W of power to provide enough juice to run the most demanding application requirements with ease.
I/Options
2 - 1GbE LAN Ports (1 LAN Port with IPMI)
2 - 10GbE LAN Ports
4 - USB 3.1 Gen 1 Ports
1 - VGA Port
1 - RS-232 Serial Port
Line In/Line Out/Mic 3.5mm Jacks
Standard I/O interface can be customized to fit your specific program or application.
Components
Processor Boards
CPU
Memory
Ports & Headers
SEP8253
Dual Intel Xeon Scalable Performance
Up to 1.5 TB DDR4-2933 across 8x ECC RDIMMs (6x channels)
2x 1GbE LAN Ports (1 LAN Port with IPMI)
2x 10GbE LAN Ports
4x USB 3.1 Gen 1 Ports
1x SATA Header
1x VGA Port
1x RS-232 Serial Port
PCIe Backplanes
PCIe
Ports & Headers
HDB8259
14x Slots
4x PCIe Gen3×16
10x PCIe Gen3×8
2x USB 3.0 Gen 1 ports (via USB headers)
4x USB 2.0 ports
6x SATA/600 headers
HDB8231
18x Slots
2x PCIe Gen3×8
16x PCIe Gen3×4
2x USB 3.0 Gen 1 ports (via USB headers)
4x USB 2.0 ports
6x SATA/600 headers
HDB8237
(4x segments)
4x Slots
4x PCIe Gen3×16
2x USB 3.0 Gen 1 ports (via USB headers)
4x SATA/600 headers
Rugged Chassis
Power Supply
Drives
Size (W x H x D)
THS5095
1200W Redundant
Two 3.5″ drive bays supporting up to 6 SATA 6 Gb/s drives and one SlimLine optical drive
19″ x 8.75″ x 19.5″
48.3cm x 22.2cm x 49.5cm
THS5087
1550W N+1 or 2430W N+1
Four 3.5″ drive bays supporting up to 12 SATA 6 Gb/s drives and one SlimLine optical drive
19″ x 8.75″ x 23″
48.3cm x 22.2cm x 58.4cm
THS5090
(2 segments)
1000W Removable (2)
One 3.5″ drive bay supporting up to 3 SATA 6 Gb/s drives and one SlimLine Optical drive per segment
19″ x 8.75″ x 19.2″
48.3cm x 22.2cm x 66cm
THS5091
(4 segments)
800W Removable (4)
No drives for enhanced data security
19″ x 8.75″ x 19.2″
48.3cm x 22.2cm x 66cm
PCIe Expansion Kit
Description
PED8234
Add up to 18 PCIe slots per x16 slot in any system
with either a 1m or 3m cable.
CloudCommander
All-in-One CAN to Cloud datalogging solution
ODOSOLUTIONS AB (ODOS) and Kvaser AB have brought together a fresh perspective, unique collaboration, and advanced technology, in order to deliver next generation cloud connectivity and data logging for CAN (controller area network).
ODOS’ CloudCommander is a 4G-enabled data logger that integrates Kvaser’s well-known CAN interface hardware. ODOS’ Cloudsoft software platform, plus dashboard makes this a comprehensive CAN-to-Cloud data logging solution.
CloudCommander Features
The CloudCommander data logger combines the scale of Kvaser’s most popular CAN interface — the Kvaser Leaf Light — with the power of ODOS’ industry leading IoT Cloud Platform, to bring you a comprehensive CAN-to-Cloud datalogging solution:
Real-time CAN data streaming over 4G cellular connectivity to Cloud data storage
GPS tracking and 3-axis Accelerometer
Onboard UPS and memory buffer in the event of power and cellular connectivity outages
Native Kvaser Leaf (CANlib SDK) Interface and API
Rugged waterproof (IP67) field deployable enclosure with secure mounting location
CloudSoft Features
The tight vertical integration with award-winning CloudSoft platform and dashboard offers:
Remote real-time CAN data monitoring and analysis software
Over-The-Air (OTA) data-logger configuration updates
OTA Diagnostic Protocols on CAN (OBD2 & UDS)
Event based triggering to stream data, capture CAN traces and email alerts/reports
Virtual calculated CAN channels
Distributed team collaboration and data sharing platform
Plugins and REST API service
ASAM file formats
Certified to the most rigorous IT security and privacy (GDPR) legislation
What’s more, the CloudCommander incorporates a Kvaser USB-CAN interface to support your existing PC Applications whilst simultaneously streaming data to the cloud for remote fleet monitoring and diagnostics support.
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5U Rugged Servers
Ruggedized | Scalable | Reliable
Dual Intel Xeon SP CPUs
Achieve exceptional performance with Intel Xeon Scalable Performance Silver & Gold Series processors. Up to 3.9 GHz clock rate, 22 cores (44 threads), 30.25 MB L3 cache, and 25W — 125W TDP.
Unforgettable Memory
Maximize signal integrity with 8 carefully optimized ECC RDIMMs across 6 channels and up to 1.5TB DDR4‑2933 memory.
Basically the best server-class RAM in a 5U rugged chassis.
Storage SATAsfied
Four 3.5″ drive bays supporting up to 16 SATA 6 Gb/s drives and one SlimLine Optical drive.
Lots of Slots
Comes standard with up to 18 PCIe Gen3 slots in a 5U rugged server offering the most application versatility and scalability.
Add even more PCIe slots to your ruggedized computer with our PCIe Expansion Kit.
Power. Full.
Up to 2200W of power to provide enough juice to run the most demanding application requirements with ease.
I/Options
2 - 1GbE LAN Ports (1 LAN Port with IPMI)
2 - 10GbE LAN Ports
4 - USB 3.1 Gen 1 Ports
1 - VGA Port
1 - RS-232 Serial Port
Line In/Line Out/Mic 3.5mm Jacks
Standard I/O interface can be customized to fit your specific program or application.
Components
Processor Boards
CPU
Memory
Ports & Headers
SEP8253
Dual Intel Xeon Scalable Performance
Up to 1.5 TB DDR4-2933 across 8x ECC RDIMMs (6x channels)
2x 1GbE LAN Ports (1 LAN Port with IPMI)
2x 10GbE LAN Ports
4x USB 3.1 Gen 1 Ports
1x SATA Header
1x VGA Port
1x RS-232 Serial Port
PCIe Backplanes
PCIe
Ports & Headers
HDB8259
14x Slots
4x PCIe Gen3×16
10x PCIe Gen3×8
2x USB 3.0 Gen 1 ports (via USB headers)
4x USB 2.0 ports
6x SATA/600 headers
HDB8231
18x Slots
2x PCIe Gen3×8
16x PCIe Gen3×4
2x USB 3.0 Gen 1 ports (via USB headers)
4x USB 2.0 ports
6x SATA/600 headers
HDB8237
(4x segments)
4x Slots
4x PCIe Gen3×16
2x USB 3.0 Gen 1 ports (via USB headers)
4x SATA/600 headers
Rugged Chassis
Power Supply
Drives
Size (W x H x D)
THS5095
1200W Redundant
Two 3.5″ drive bays supporting up to 6 SATA 6 Gb/s drives and one SlimLine optical drive
19″ x 8.75″ x 19.5″
48.3cm x 22.2cm x 49.5cm
THS5087
1550W N+1 or 2430W N+1
Four 3.5″ drive bays supporting up to 12 SATA 6 Gb/s drives and one SlimLine optical drive
19″ x 8.75″ x 23″
48.3cm x 22.2cm x 58.4cm
THS5090
(2 segments)
1000W Removable (2)
One 3.5″ drive bay supporting up to 3 SATA 6 Gb/s drives and one SlimLine Optical drive per segment
19″ x 8.75″ x 19.2″
48.3cm x 22.2cm x 66cm
THS5091
(4 segments)
800W Removable (4)
No drives for enhanced data security
19″ x 8.75″ x 19.2″
48.3cm x 22.2cm x 66cm
PCIe Expansion Kit
Description
PED8234
Add up to 18 PCIe slots per x16 slot in any system
with either a 1m or 3m cable.
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ADLEPC-1700
Intel E3900-Series Atom, Compact Industrial PC
The ADLEPC-1700 is a rugged, compact industrial-grade computer constructed from 6063 aluminum, with thick‑walled design and a fanless, conduction-cooled CPU for industrial temperature operation. It features a durable annodized finish, flush-mounted screws, and flexible mounting options. The compact size and light weight make it ideal for a variety of industrial applications and environments, whether on the factory floor or in rugged external conditions.
Customizable High Performance
At the heart of the ADLEPC-1700 is a compact Intel Atom E3900-series SBC with a host of onboard and mPCIe expansion features. The compact chassis design has a very small footprint at only a 3.3″ x 4.6″, the approximate size of an index card, making it ideal for embedded use in IIot applications or retrofitting into high-value assets and infrastructure such as edge devices for power grid protection, oil and gas, unmanned applications, and more.
Custom I/O and Power
The EPC-1700 is highly customizable and can easily be adapted for particular customer needs including Wi-Fi, CAN, RS232, military-grade power, MIL-STD-1553, ARINC, and much more.
ADL Embedded Solutions, Inc. offers full turnkey system design services and is well versed at working collaboratively with customers to conceptualize and manufacture full custom EPC-1700 solutions or even full-custom system solutions. Contact us for details.
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X-Analyser
Windows based tool to test your CAN, CAN FD, CANopen, J1939, NMEA2000, DeviceNet and LIN bus systems
X-Analyser Features
X-Analyser supports all of the typical features of a CAN, CAN FD, LIN analysis tool plus the following:
Simulate CAN, CAN FD & LIN Devices or Network — Message Builder for Transmission
You can build messages for transmission on a CAN, CAN FD or LIN bus from an .DBC or .LDF file. This saves time in converting decimal to hexadecimal and calculating scaling & offset. All you need to do is enter the signal physical value e.g. Engine Speed as 3000 rpm or Oil Temperature as degrees C.
CANopen
X-Analyser has support for the CANopen higher layer protocol which is used for industrial automation and other off-highway applications. There are two main areas of support for which you must have the X-Analyser Professional Edition; message/signal interpretation and transmission of Network Management messages to put individual nodes or the whole bus into different states.
NMEA 2000
The most powerful NMEA2000 test tool on the market. The NMEA2000 PGN signal database is embedded into X-Analyser which means that you can send or receive and interpret the data easily. The Fast Packet Protocol is supported for sending and receiving of NMEA2000 packets. CAN identifiers are interpreted as PGN, Source Address, Priority etc. and the data field is broken down into PGN fields and signals.
CAN Oscilloscope
X-Analyser captures CAN_H & CAN_L signals for each CAN frame on CAN bus
Can be used to carry out full CAN system audits
Help identify which ECUs or areas of CAN bus is experiencing electrical problems
Filter Editor
Use the filter editor to filter CAN frames on the Raw Data Trace they can be filtered by; Channel, Data, Data Length, Direction, Frame ID, Frame Type and Timestamp. These can be used with a combination of logic functions to define certain criteria for Filtering.
Gauges
With a CAN database loaded signals can be configured to show as gauges. With a combination of gauge styles available and gauge values can be defined such as; Min and Max values and Minor and Major Step Intervals.
Interactive Generator for CAN and J1939
The Interactive Generator (IG) allows the user to use a CANdb (*.dbc) file to interactively transmit CAN messages onto a system using the signals physical values that will automatically be converted to raw CAN data. Running in parallel with X-Analyser, the IG allows the user to create and change CAN messages on the fly. Transmission of a message can be carried out by user interaction (i.e. by clicking on a button) or by a timer with resolution 5ms which allows periodic transmitting.
ISO 15765 transmitter
Easily create a Mode 3 transmitter when the ISO 15765 Higher Layer Protocol has been added.
J1939 Signals Database
X-analyser Professional Edition comes with a J1939 database where signals can be selected and source address defined so they can be displayed in a Signals Panel, Gauge or Scope.
J1939 Signals
Within the J1939 Raw Trace tab available with X-analyser Professional CAN frames can be expanded to show the signals within that frame.
Object Transmitter
The Object Transmitter can be used to create CAN frames and transmit them onto a network. Standard and Extended ID’s can be selected, also Transmitters can be sent periodically by selecting Auto-Repeat and defining the time interval in milliseconds.
Graphing on Signals Scope
With a CAN, CAN FD or LIN database loaded, signals can be selected for the scope to displayed and plotted. Points on the scope can be selected to show the value at a certain time. The scope can also be exported to CSV format to be opened and worked with in Excel.
Signals Editor
The signals editor can be used to create parts of a CAN database on the fly, what’s created can be configure to a signals panel, gauges or scope.
Signals Panel
With a CAN database loaded signals can be configured to the signals panel to show physical values. The signals can be displayed numerically or symbolically.
Signals Search Function
CAN databases when loaded can be searched using the signals search function. Quotation marks can also be used to search for a whole name i.e. «Engine RPM».
Symbolic and Numeric Values
X-analyser can now have the same signals displayed more than once on a signals panel, gauge or scope. Within a signals panel the same signal can be displayed more than once with each as a symbolic or numeric value.
UDS DTC reader
X-analyser now has a UDS DTC reader, once configured in the transport protocol for the UDS DTC reader. It shall read and clear UDS DTC’s with the option to set the DTC Status Mask so different ECU’s can be read.
LIN Schedule Tables
When you load a LDF into X-Analyser, you can load the Schedule Table into the Object Transmitter to simulate all or some of the nodes on the LIN bus.
Supports industry standard log files and databases
X-Analyser uses industry standard files so that they can be easily shared between your engineers, customers and supplier. For description of Controller Area Networks (CAN), X-Analyser supports the CAN database file format (*.dbc). For description of Local Interconnect Networks (LIN), X-Analyser supports the LIN Description File (LDF) format (*.ldf). For logs of CAN data, X-Analyser supports log files in the ASCII file format (*.asc).
Virtual networks and channels for off-line analysis
A number of virtual buses are available with X-Analyser which are useful for off-line demonstration or working away with data captured from the CAN or LIN bus so that the data can be reviewed and played back on the PC without the need for a network interface. Virtual buses include:
Native virtual X-Analyser virtual buses that are connected in a simulated loop-back. This is ideal for play-back purposes.
Random CAN generator which generates a CAN message of ID 0×500 with a data field that contains a sine wave and a number of random signal waveforms.
Random LIN generator which generates a LIN message of ID 0×32 with a data field that contains a sine wave and a number of random signal waveforms.
Random CAN-FD generator which generates a CAN message of ID 0×500, DLC 48 with a data field that contains a sine wave and a number of random signal waveforms.
In addition to this if you are using a Kvaser or Vector interface then you can use the virtual channels that are provided by these manufacturers.
Easy Project Sharing
X-Analyser’s project files means that you can put together different setups and GUI displays for different projects, vehicles and networks.
Embedding of CAN or LIN databases into the X-Analyser projects mean easy sharing of project files without having to worry about the database linking or location.
ADLEPC-1700
Intel E3900-Series Atom, Compact Industrial PC
The ADLEPC-1700 is a rugged, compact industrial-grade computer constructed from 6063 aluminum, with thick‑walled design and a fanless, conduction-cooled CPU for industrial temperature operation. It features a durable annodized finish, flush-mounted screws, and flexible mounting options. The compact size and light weight make it ideal for a variety of industrial applications and environments, whether on the factory floor or in rugged external conditions.
Customizable High Performance
At the heart of the ADLEPC-1700 is a compact Intel Atom E3900-series SBC with a host of onboard and mPCIe expansion features. The compact chassis design has a very small footprint at only a 3.3″ x 4.6″, the approximate size of an index card, making it ideal for embedded use in IIot applications or retrofitting into high-value assets and infrastructure such as edge devices for power grid protection, oil and gas, unmanned applications, and more.
Custom I/O and Power
The EPC-1700 is highly customizable and can easily be adapted for particular customer needs including Wi-Fi, CAN, RS232, military-grade power, MIL-STD-1553, ARINC, and much more.
ADL Embedded Solutions, Inc. offers full turnkey system design services and is well versed at working collaboratively with customers to conceptualize and manufacture full custom EPC-1700 solutions or even full-custom system solutions. Contact us for details.
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X-Analyser
Windows based tool to test your CAN, CAN FD, CANopen, J1939, NMEA2000, DeviceNet and LIN bus systems
X-Analyser Features
X-Analyser supports all of the typical features of a CAN, CAN FD, LIN analysis tool plus the following:
Simulate CAN, CAN FD & LIN Devices or Network — Message Builder for Transmission
You can build messages for transmission on a CAN, CAN FD or LIN bus from an .DBC or .LDF file. This saves time in converting decimal to hexadecimal and calculating scaling & offset. All you need to do is enter the signal physical value e.g. Engine Speed as 3000 rpm or Oil Temperature as degrees C.
CANopen
X-Analyser has support for the CANopen higher layer protocol which is used for industrial automation and other off-highway applications. There are two main areas of support for which you must have the X-Analyser Professional Edition; message/signal interpretation and transmission of Network Management messages to put individual nodes or the whole bus into different states.
NMEA 2000
The most powerful NMEA2000 test tool on the market. The NMEA2000 PGN signal database is embedded into X-Analyser which means that you can send or receive and interpret the data easily. The Fast Packet Protocol is supported for sending and receiving of NMEA2000 packets. CAN identifiers are interpreted as PGN, Source Address, Priority etc. and the data field is broken down into PGN fields and signals.
CAN Oscilloscope
X-Analyser captures CAN_H & CAN_L signals for each CAN frame on CAN bus
Can be used to carry out full CAN system audits
Help identify which ECUs or areas of CAN bus is experiencing electrical problems
Filter Editor
Use the filter editor to filter CAN frames on the Raw Data Trace they can be filtered by; Channel, Data, Data Length, Direction, Frame ID, Frame Type and Timestamp. These can be used with a combination of logic functions to define certain criteria for Filtering.
Gauges
With a CAN database loaded signals can be configured to show as gauges. With a combination of gauge styles available and gauge values can be defined such as; Min and Max values and Minor and Major Step Intervals.
Interactive Generator for CAN and J1939
The Interactive Generator (IG) allows the user to use a CANdb (*.dbc) file to interactively transmit CAN messages onto a system using the signals physical values that will automatically be converted to raw CAN data. Running in parallel with X-Analyser, the IG allows the user to create and change CAN messages on the fly. Transmission of a message can be carried out by user interaction (i.e. by clicking on a button) or by a timer with resolution 5ms which allows periodic transmitting.
ISO 15765 transmitter
Easily create a Mode 3 transmitter when the ISO 15765 Higher Layer Protocol has been added.
J1939 Signals Database
X-analyser Professional Edition comes with a J1939 database where signals can be selected and source address defined so they can be displayed in a Signals Panel, Gauge or Scope.
J1939 Signals
Within the J1939 Raw Trace tab available with X-analyser Professional CAN frames can be expanded to show the signals within that frame.
Object Transmitter
The Object Transmitter can be used to create CAN frames and transmit them onto a network. Standard and Extended ID’s can be selected, also Transmitters can be sent periodically by selecting Auto-Repeat and defining the time interval in milliseconds.
Graphing on Signals Scope
With a CAN, CAN FD or LIN database loaded, signals can be selected for the scope to displayed and plotted. Points on the scope can be selected to show the value at a certain time. The scope can also be exported to CSV format to be opened and worked with in Excel.
Signals Editor
The signals editor can be used to create parts of a CAN database on the fly, what’s created can be configure to a signals panel, gauges or scope.
Signals Panel
With a CAN database loaded signals can be configured to the signals panel to show physical values. The signals can be displayed numerically or symbolically.
Signals Search Function
CAN databases when loaded can be searched using the signals search function. Quotation marks can also be used to search for a whole name i.e. «Engine RPM».
Symbolic and Numeric Values
X-analyser can now have the same signals displayed more than once on a signals panel, gauge or scope. Within a signals panel the same signal can be displayed more than once with each as a symbolic or numeric value.
UDS DTC reader
X-analyser now has a UDS DTC reader, once configured in the transport protocol for the UDS DTC reader. It shall read and clear UDS DTC’s with the option to set the DTC Status Mask so different ECU’s can be read.
LIN Schedule Tables
When you load a LDF into X-Analyser, you can load the Schedule Table into the Object Transmitter to simulate all or some of the nodes on the LIN bus.
Supports industry standard log files and databases
X-Analyser uses industry standard files so that they can be easily shared between your engineers, customers and supplier. For description of Controller Area Networks (CAN), X-Analyser supports the CAN database file format (*.dbc). For description of Local Interconnect Networks (LIN), X-Analyser supports the LIN Description File (LDF) format (*.ldf). For logs of CAN data, X-Analyser supports log files in the ASCII file format (*.asc).
Virtual networks and channels for off-line analysis
A number of virtual buses are available with X-Analyser which are useful for off-line demonstration or working away with data captured from the CAN or LIN bus so that the data can be reviewed and played back on the PC without the need for a network interface. Virtual buses include:
Native virtual X-Analyser virtual buses that are connected in a simulated loop-back. This is ideal for play-back purposes.
Random CAN generator which generates a CAN message of ID 0×500 with a data field that contains a sine wave and a number of random signal waveforms.
Random LIN generator which generates a LIN message of ID 0×32 with a data field that contains a sine wave and a number of random signal waveforms.
Random CAN-FD generator which generates a CAN message of ID 0×500, DLC 48 with a data field that contains a sine wave and a number of random signal waveforms.
In addition to this if you are using a Kvaser or Vector interface then you can use the virtual channels that are provided by these manufacturers.
Easy Project Sharing
X-Analyser’s project files means that you can put together different setups and GUI displays for different projects, vehicles and networks.
Embedding of CAN or LIN databases into the X-Analyser projects mean easy sharing of project files without having to worry about the database linking or location.
