ITMH200

Winmate, a global industrial computer products solutions provider, is pleased to introduce our brand new product line, the medical solution-box pc It is a box PC of smart medical solutions for medical image application, which helps AI analyze the images from the medical image process.

Before AI systems have been deployed in healthcare, doctors have to analyze all the medical images and diagnose the result completely based on their experience and knowledge. Doctors have to compare numerous pictures and discuss them for a while which is somehow inefficient and time-wasting. Therefore, AI image analysis plays a significant role in order to assist doctors to make the right decision and save more time. It can help doctors quickly infer complex and arduous tasks and make the right treatment plan.

Winmate box pc is designed to perform those complex and difficult missions in the medical field. By AI machine learning, Winmate box pc can detect the abnormality. For example, from inflammation, infection, and ulcer to more serious situations like tumors and cancer. Winmate box pc has featured high computing performance and equip with extensive GPU expansion to meet medical application requirements with AI solutions, powered by 9th Gen. Intel Core i7/i5/i3 processor and is supported by DDR4 memory SO-DIMM up to 64GB. Moreover, the storage space has 2 x 2.5” SATA3 HDD/SSD with an easy-swappable HDD tray. It supports various I/O interfaces such as 4 x USB 3.0, 1 x internal USB 2.0 for dongle, 2 x COM, 1 x VGA, 1 x HDMI and 2 x LAN. For expansion, there are 1 x full-size Mini-PCIe slot, 1 x M.2 M-key 2280/2242 support NVMe and 1 x PCIe x16, 1 x PCIe x4 for riser cards as well GPU expansion.

Manufactured by ISO 13485 certified manufacturing center, Winmate box pc is well prepared for smart medical solutions, interpreting images for X-rays, CT, MRI, PET, and more. It is seamlessly integrated with various medical imaging systems and provides precise and fast medical decisions. Winmate smart medical box PC equipped with extraordinary machine learning ability and good graphic and computing performance to assist medical personnel and benefit more patients.

Winmate Inc. is one of the leading brands in industrial computer products. The company is dedicated to satisfying customers' needs by offering comprehensive solutions and applications, including industrial panel PCs, Human-Machine Interfaces (HMI), industrial displays, and Embedded Box PCs. In addition to a full line of standard products, Winmate also offers customized OEM/ODM project services. Applications range from factory automation, transportation, retail, hospitality, environmental monitoring, warehousing, and medical, to health care.

Winmate is proud to present ITMH200-Box PC, which is an Intel® Tiger Lake UP3 Core™ i5-1135G7 Processor Machine Vision Application System. With the latest development, high expandability, and outstanding performance, ITMH200-Box PC is best suited for applications like machine vision or automation. Its flexible expansion capability allows the installation of add-on cards and peripherals like cameras, POE, USB devices, I/O devices, and GPU cards to meet most demands in various industrial applications. Especially in the smart manufacturing industry for instance; it is capable of meeting the needs of most Industrial IoT applications.

Furthermore, the ITMH200-Box PCs provide entry-level to a high-end advanced platform in full-fill of field application needs such as machine vision, AOI, automation control, measurement, robotic monitoring/control, IIoT, and edge computing; it can help businesses reach the next generation IIoT and Industry 4.0 standard.

Focusing on the vision application field, and targeting to run in an industrial 24/7 harsh environment, ITMH200-Box PC performance and reliability can improve production quality, efficiency, and productivity, Ultimately, driving down manufacturing costs.

Key Features:

• Intel® Tiger Lake UP3 Core™ i5-1135G7
• Powerful Graphics Computing Performance
• Compact Size
• Expandable Functionalities

Powerful Modern Processors

Newer processors are quicker and much more efficient in effectively dealing with particular processing lots. The new direction for these processors is towards performance over strength, with more recent options crafted to provide handling power closely matched to the real-world tasks performed on the ground. The ITMH200-Box PC is the quicker choice when efficiency is the top aspect. It features a 2.0 GHz quad-core Intel CPU giving over 2 x the processing power of rival's ingrained systems with comparable requirements. The ITMH200-Box PC is the broad temperature level variety choice, with a 1.3 GHz dual-core Intel providing trusted procedure from -20 to 70 ℃, for when integrity under severe problems is the foremost concern.

Display Port, HDMI, and LVDS

Considering the elimination of VGA back in 2015, HDMI has replaced it as one of the most usual screen user interfaces. Nonetheless, the original reason for dropping VGA was to prefer both HDMI as well as DisplayPort, digital screen interfaces meant for the next generation of display screens. HDMI might be more extensively known, yet DisplayPort, typically proclaimed as the "gaming" alternative for regular Computers, supplies greater data transfer with DisplayPort 1.4 sustaining 8K up to 60Hz, surpassing the 4K @ 30Hz of the HDMI 1.4 user interface. The ITMH200-Box PC features a DisplayPort 1.4 and an HDMI 1.4 port to supply the very best of both globes. This mix supplies the broad compatibility of HDMI but likewise opens the doors to a variety of different abilities available via DisplayPort, dealing with an expanding segment of integrators as well as operators creating applications that work efficiently through this user interface. Ultimately, in maintaining contemporary screen user interfaces, there is an inner LVDS adapter so the ITMH200-Box PC can be connected to a monitor to produce a powerful panel PC.

Wide Assortment of Connectors

An ingrained system made to deal with a wide range of tasks as well as configurations has to have connectors to satisfy one of the most generally utilized situations by attaching to a network, equipment, and outer devices. The ITMH200-Box PC gives a selection of ports created for just this function. 2 gigabit Ethernet adapters are provided with Intel ® I210-IT GbE Ethernet controllers, supporting Wake-on-LAN, teaming, as well as PXE. A total amount of four COM connections (with DB-9 ports) provide for RS-232 (two ports) as well as RS-232/ 422/485 (two ports). Various other connectors include three USB 3.0 ports, three USB 2.0 ports, remote power on/off button, a mini-PCIe for a cordless networking module, as well as M. 2 and also 2.5" SATA.

Equal New Modern Technology

When the pace of innovation runs unabated, the ITMH200-Box PC allows you to keep up. It places the most recent, most effective modern technology at your fingertips to make certain that your following automation, robot, or device monitoring project is constructed to the highest specs and future-proofed well into the following few years.

In the ever-evolving landscape of computing technology, Box PCs have emerged as versatile and robust solutions. Combining the compactness of embedded systems with the power of traditional desktop computers, Box PCs are revolutionizing various industries. In this comprehensive guide, we will delve into the world of Box PCs, exploring their features, applications, and the benefits they offer.

Section 1: Understanding Box PCs

• Definition: Box PCs, also known as Embedded PCs, are compact computing devices enclosed in a sturdy metal or plastic chassis.
• Features: Discuss the essential features of Box PCs, such as a fanless design, scalability, diverse I/O interfaces, and robust construction.
• Hardware Components: Highlight the typical hardware components found in Box PCs, including processors, memory, storage, and expansion slots.

Section 2: Applications of Box PCs

• Industrial Automation: Explain how Box PCs are widely used in industrial automation for tasks like machine control, data acquisition, and monitoring systems.
• Transportation: Discuss how Box PCs are employed in transportation systems, such as in-vehicle computing, fleet management, and logistics.
• Digital Signage: Highlight the role of Box PCs in driving digital signage solutions, enabling high-definition content playback, and remote management capabilities.
• Healthcare: Explore how Box PCs are utilized in healthcare settings for medical imaging, patient monitoring, and electronic medical records.
• Retail and Hospitality: Describe the applications of Box PCs in retail and hospitality industries, including point-of-sale systems, kiosks, and self-service terminals.

Section 3: Advantages of Box PCs

• Compact Form Factor: Discuss the space-saving benefits of Box PCs, making them ideal for installations with limited space.
• Fanless Design: Explain how the absence of a cooling fan enhances reliability, reduces maintenance, and eliminates noise.
• Scalability: Highlight the scalability options offered by Box PCs, allowing for customization and expansion based on specific requirements.
• Durability: Emphasize the rugged construction of Box PCs, enabling them to withstand harsh environmental conditions and vibrations.
• Power Efficiency: Discuss the energy-saving features of Box PCs, resulting in reduced power consumption and operational costs.

Section 4: Choosing the Right Box PC

• Performance Requirements: Guide readers on assessing their performance needs, including processing power, memory, and storage requirements.
• I/O Interface Considerations: Discuss the importance of evaluating the required I/O interfaces, such as USB, Ethernet, serial ports, and display options.
• Environmental Considerations: Highlight the significance of considering the operating temperature, shock and vibration resistance, and ingress protection (IP) ratings.
• Longevity and Lifecycle Support: Emphasize the importance of selecting Box PCs from reputable manufacturers that offer long-term availability and support.

Box PCs have become indispensable in numerous industries, providing a reliable and versatile computing solution. Their compactness, durability, and scalability make them suitable for diverse applications, ranging from industrial automation to digital signage. By understanding the features, advantages, and considerations when choosing a Box PC, businesses can harness their power and drive innovation in their respective domains.

Why Fanless Computers are Essential for Various Applications?

IntroductionIn today's technology-driven world, computers have become an integral part of our daily lives. From home to industrial settings, the demand for reliable and efficient computing solutions continues to grow. One innovation that has gained significant popularity is fanless computers. This SEO article aims to explore the reasons why fanless computers are essential for various applications.

Silent Operation

One of the key advantages of fanless computers is their silent operation. Unlike traditional computers that rely on fans for cooling, fanless computers utilize passive cooling techniques such as heat sinks or heat pipes. This absence of fans eliminates noise pollution, making fanless computers ideal for noise-sensitive environments such as offices, libraries, or homes where a quiet environment is crucial.

Improved Reliability

Fans are moving parts that are prone to wear and tear over time. The failure of a single fan can lead to overheating and system malfunctions. Fanless computers, on the other hand, eliminate this potential point of failure, resulting in improved reliability. Without fans, there are no moving parts that can break down or require regular maintenance, thus reducing the risk of system failures and increasing the lifespan of the computer.

Enhanced Durability

Fanless computers are designed with durability in mind. The absence of fans means that there are no openings for dust, dirt, or other contaminants to enter the system. This design choice minimizes the risk of dust buildup, which can clog fans and hinder the cooling process. The lack of fan-related components also makes fanless computers more resistant to vibrations, shocks, and mechanical stress, making them suitable for rugged environments or applications that involve constant movement.

Improved Energy Efficiency

Fans consume a significant amount of power to keep the system cool. In contrast, fanless computers are more energy-efficient as they rely on passive cooling methods. By eliminating fans, fanless computers reduce power consumption, resulting in lower energy costs and reduced environmental impact. This energy efficiency is especially beneficial for applications that require long hours of operation or where power consumption needs to be optimized.

Dust and Contaminant Resistance

Dust and contaminants can negatively impact computer performance by clogging fans and obstructing airflow. Fanless computers mitigate this issue by eliminating the need for fans, reducing the risk of dust buildup and the associated maintenance requirements. This resistance to dust and contaminants makes fanless computers suitable for environments with high levels of dust, such as manufacturing facilities or outdoor installations.

Compact and Space-Saving Design

Fanless computers are typically designed with a compact form factor, allowing them to be easily integrated into space-constrained environments. Their compact size and lack of fans make them ideal for applications where space is limited, such as kiosks, embedded systems, or industrial control panels. The space-saving design of fanless computers enables businesses to optimize their infrastructure layout without sacrificing performance or functionality.

Temperature Tolerance

Traditional computers with fans may struggle to maintain optimal operating temperatures in extreme environments. Fanless computers, on the other hand, are designed to operate reliably across a wide temperature range. They can withstand high temperatures without compromising performance, making them suitable for industrial applications, outdoor installations, or locations with limited ventilation.

Fanless computers offer several advantages, including silent operation, improved reliability, enhanced durability, energy efficiency, resistance to dust and contaminants, compact design, and temperature tolerance. These features make fanless computers essential for various applications, ranging from offices and homes to industrial environments. By choosing fanless computers, businesses and individuals can benefit from reliable, efficient, and durable computing solutions that meet their specific needs while minimizing noise, reducing maintenance, and optimizing space utilization.