iTXL-6412A
GIGAIPC Thin Mini-ITX Series Industrial Embedded Motherboard
Thin Mini-ITX Embedded Motherboard with Intel® Celeron® J6412 Processor, Dual Channel DDR4 memory, 4 x COM, 1 x SATA 6Gb/s, 9 x USB
Ideal for Smart Retail and Smart Medicine.
Key Featurtes
- Thin Mini-ITX form factor
- Intel® Celeron® J6412 Processor
- Dual Channel DDR4, 2 x SO-DIMMs
- 2 x GbE LAN Ports
- 1 x SATA 6Gb/s Port
- HDMI, eDP/LVDS ports for Multiple Display
- 1 x COM Port (RS-232/422/485 & RI/5V/12V)
- 1 x COM Port (RS-232 & RI/5V/12V)
- 2 x COM Ports (RS-232)
Solutions
Compact and Limitless
Perfectly adaptable to various space-constrained retail scenarios.
Long-Term Availability
Supporting long lifespan products ensures a stable supply cycle and quality.
Abundant Possibilities
A wealth of I/O interfaces and expansion slots allow retail systems to effortlessly connect to various devices and applications.
Customized Solutions
GIGAIPC possesses extensive R&D resources. By leveraging modular I/O and optional interfaces, we tailor exclusive operational modes, making us the ideal partner for customized medical platforms.
Enhancing Healthcare Quality and Efficiency
GIGAIPC offers a broad range of smart medical solutions that, through the integration of medical platforms, effectively enhance healthcare quality and the efficiency of medical professionals.
Scalability and Lifecycle
Our solutions feature rich, expandable I/O interfaces and a long product lifecycle, perfectly meeting the demands of the healthcare industry.
Applications
Vending Machines
With rapidly advancing technology, modern vending machines have become increasingly intelligent. They integrate high-tech features like touchscreens, mobile payments, and facial recognition, providing a more convenient and personalized shopping experience. GIGAIPC responds to this trend by introducing a series of high-performance motherboard products equipped with a wealth of I/O interfaces and flexible expansion slots, allowing retailers to easily enhance the capabilities of vending machines. This not only improves machine versatility but also enhances customer engagement and the shopping experience.
Self-Service Ordering Kiosk
Self-service ordering kiosks are a vital component of smart retail, with their rapid and intuitive ordering process significantly reducing customer wait times. They also notably decrease the error rate during ordering, ensuring order accuracy. To create a smarter and more efficient dining experience, GIGAIPC has introduced a series of motherboard products that not only meet various performance requirements for self-service ordering kiosks but also guarantee system stability and long-term
Smart POS Systems
As smart POS systems become increasingly widespread among major retail chains, they offer not only diversified payment options for consumers but also enable retailers to efficiently consolidate revenue records and even integrate with CRM membership systems, greatly enhancing operational efficiency. To meet the diverse needs of system integrators for high-performance POS systems, GIGAIPC has introduced a series of motherboard products ranging from the compact 10cmx10cm QBi series to the 3.5" QBiP series, and the 17cmx17cm Thin Mini-ITX series and Mini-ITX series, our product line caters to various scales and functionalities, committed to providing the retail industry with a smarter and more seamless sales experience.
Bio-Blood/DNA Analysis System
GIGAIPC's embedded computers feature expandable I/O interfaces, allowing them to flexibly adapt to various medical devices. Their extensive expandability enables customers to easily integrate various additional devices. Our products are stable, reliable, and have a long lifecycle, which makes them beneficial for cost reduction. Perfectly suited for diverse medical applications, they can be fully customized to meet the broad needs of the medical field.
Medical Measurement Terminal
GIGAIPC's embedded computers have a robust design that ensures system stability and high-efficiency operation, crucial for running complex AI algorithms, processing images, and analyzing vital health data. This allows medical staff to focus on patient care and treatment.