GA-IMB310N (rev. 1.0)
Intel® H310 Chipset
- Supports 9th and 8th Generation Intel® Core™ Processors up to 65W
- Dual Channel DDR4 SO-DIMM, 2 DIMMs
- 2 x RS232/422/485, 2 x RS232, Digital I/O 4-in/4-out
- M.2 Socket 1 for PCIe WIFI co-lay with CNVI Hybird E key WIFI
- M.2 Socket 2260/80 Storage support PCIe/SATA Mode
- Mini-PCIe Slot Full size Support mSATA/PCIe mode
- VGA Header for legacy Monitor
- LVDS Header for System Integrated Flat Panel Display Support
- Rear Panel DisplayPort, HDMI 2.0 Ports & D-sub Header for Multi-Display Connection
- Amplified Speaker Header Able to Drive Up to 3W System Integrated Speaker
- Dual Intel® GbE LAN for WOL and PXE Support
- 4 USB 3.0 and 2 USB 2.0 Ports, USB 3.0 support OTG function
- OP 0~60 degree
- Mini-ITX 170x170mm Form Factor with ATX Power
* Datasheet Download
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GIGABYTE Ultra Durable of Thin Mini ITX MotherboardGIGABYTE H310 Mini-ITX motherboards support the latest 7th/ 6th Generation Intel® Core™ processors, a 14nm desktop CPU which features improved performance, power efficiency and support for DDR4 memory, bringing cutting edge features and ultimate performance to your next PC build. Offering an All-in-One, small form factor and slim profile PC experience, GIGABYTE H110 Mini-ITX motherboards are 43% thinner than traditional Mini-ITX designs. Complying with the latest Mini-ITX guidelines, GIGABYTE motherboards offer additional flexibility making them suited to broad range of innovative PC designs.
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Dual Intel® GbE LAN with cFosSpeedThe Dual Intel® Gigabit LAN with cFosSpeed features advanced technology to help deliver better network responsiveness in crowded LAN environments and allows optimization and improved network performance for specific applications, making it a popular choice amongst gamers.
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High Definition Digital Outputs
* Support for up to 2 displays at the same time. -
4K Ultra HD Support4K resolution is the next technological milestone in high-definition content delivery, utilizing approximately 4,000 pixels on the horizontal axis, more than four times today's standard HD pixel density. GIGABYTE motherboards provide native 4K support with integrated Intel® HD Graphics via HDMI.
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Intel CNVi WIFI Upgrade kit
The Intel CNVi WIFI Upgrade kit offers an easy way to upgrade Intel CNVi WIFI Upgradeable motherboards with new and faster Gigabit WIFI connectivity without having to upgrade to a whole new system.
Intel ® CNVi WIFI kit must be purchased separately.
Photo for demonstration only.
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HDMI™ 2.0-The Next Generation Multimedia InterfaceHDMI™ 2.0 is a High-Definition Multimedia Interface which provides up to 5Gb/s video transmitting bandwidth and 8-channel high quality audio all through a single cable. Able to transmit superior, uncompressed digital video and audio, HDMI™ 2.0 ensures the crispest rendering of digital content up to 1080p without the quality losses associated with analog interfaces and their digital-to-analog conversion. In addition, HDMI™ 2.0 is compatible with HDCP (High-bandwidth Digital Content Protection), allowing the playback of Blu-ray/HD DVD and other protected media content.
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Display Port SupportSelected GIGABYTE motherboards feature DisplayPort, a next generation graphics display interface that delivers up to 10.8 Gbps of bandwidth over standard cables, providing billions of colors with the fastest refresh rates and the greatest color depths.
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USB 3.0 Ports OnboardWith superfast transfer rates of up to 5 Gbps, users are able to experience an almost a 10x improvement over USB 2.0. Additionally, backwards compatibility with USB 2.0 assures users legacy USB 2.0 devices will still work.
* USB 3.0 10x performance is a maximum theoretical value.
Actual performance may vary by system configuration. -
GIGABYTE Patented DualBIOS™ (UEFI) Design (Optional)GIGABYTE Ultra Durable™ motherboards feature GIGABYTE DualBIOS™, an exclusive technology from GIGABYTE that protects arguably one of your PC's most crucial components, the BIOS. GIGABYTE DualBIOS™ means that your motherboard has both a 'Main BIOS' and a 'Backup BIOS', making users protected from BIOS failure due to virus attack, hardware malfunction, improper OC settings or power failure during the update process.
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2x Copper PCB Design (2 oz Copper PCB)GIGABYTE’s exclusive 2X Copper PCB design provides sufficient power trace paths between components to handle greater than normal power loads and to remove heat from the critical CPU power delivery area. This is essential to ensure the motherboard is able to handle the increased power loading that is necessary when overclocking.
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The Industry's Leading LAN Static-Electricity & Surge ProtectionGIGABYTE motherboards use ICs with up to 3 times the ESD resistance levels compared to traditional ICs. This helps to better protect the motherboard and its components against potential damage caused by static electricity. GIGABYTE motherboards also feature special anti-surge ICs that protect your motherboard, and your PC from any surge in power delivery that may occur, helping to ensure that your PC is equipped to deal with any potentially irregular and inconsistent power delivery.
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Digital I/ODigital I/O is a flexible parallel interface that allows a variety of custom connections. Each digital I/O port can be individually configured through software as either an input or output. It allows users to monitor the level of signal input or set the output status to switch on/off a device.
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Product LongevityOur embedded motherboards have a long product life cycle of 3~5 years.
Long lifecycle meets industry needs.
* คำว่ำ HDMI, HDMI High-Definition Multimedia Interface, HDMI Trade dress และโลโก้ HDMI เป็ นเคร ื่องหมำยกำรค้ำหรือเครื่องหมำยกำรค้ำจดทะเบียนของ HDMI Licensing Administrator, Inc.
* ข้อมูลเบื้องต้นมีไว้สำหรับอ้างอิงเท่านั้น GIGABYTE ขอสงวนสิทธิ์ในการปรับเปลี่ยนหรือแก้ไขเนื้อหาได้ตลอดเวลาโดยไม่ต้องแจ้งให้ทราบล่วงหน้า
* ประสิทธิภาพสูงสุดที่ใช้ในการประชาสัมพันธ์เป็นเพียงข้อมูลตามทฤษฎีจากผู้ผลิตชิปเซ็ตที่เกี่ยวข้อง หรือองค์กรที่กำหนดคุณสมบัติอินเตอร์เฟส ประสิทธิภาพที่แท้จริงอาจแตกต่างกันโดยการตั้งค่าของระบบที่ไม่เหมือนกัน
* เครื่องหมายการค้าและโลโก้คุณสมบัติต่างๆ เป็นของผู้ถือสิทธิ์นั้นๆ
* เนื่องจากความต้องการหน่วยความจำมาตรฐานของสถาปัตยกรรมคอมพิวเตอร์ต่อหน่วยที่ไม่เหมือนกัน ดังนั้นขนาดหน่วยความจำที่จำเป็นอาจน้อยกว่าจำนวนที่ระบุไว้ก็ได้