Intel® H410 Chipset
- Socket LGA1200 for Intel core i9/i7/i5/i3 Pentium/Celeron(Comet lake -S)
- Intel Gen9.5,Intel Graphics DX12, OGL4.5
- Support Dual channel DDR4 2666/2933MHz, 2 x Long-DIMM up to 32G System Memory
- Socket LGA1200 for Intel core i9/i7/i5/i3 Pentium/Celeron(Comet lake-S 65W)
- 1 x HDMI1.4, 1 x DP port, 1 x D-Sub, 1 x Dual channel 24-bits LVDS
- 4 x USB3.0, 4 x USB2.0, 4 x SATA3
- 1 x PCIe x16, 1 x M.2 Wifi, 1 x 2242/80 SSD slot
- Gigabit LAN : 2 x Intel LAN
- 1 x TPM IC(Optional)
- ATX Power Require
- Op temp : 0~60 degree
* Datasheet Download
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GIGABYTE Ultra Durable of Micro ATX MotherboardGIGABYTE H410 Micro ATX motherboards support the latest 10th 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. GIGABYTE H410 Micro ATX motherboards are 43% thinner than traditional Micro ATX designs. Complying with the latest Micro ATX guidelines, GIGABYTE motherboards offer additional flexibility making them suited to broad range of innovative PC designs.
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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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HDMI™-The Next Generation Multimedia InterfaceHDMI™ 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™ 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™ 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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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 5~7 years.
Long lifecycle meets industry needs.
* The terms HDMI, HDMI High-Definition Multimedia Interface, HDMI Trade dress and the HDMI Logos are trademarks or registered trademarks of HDMI Licensing Administrator, Inc.
* The entire materials provided herein are for reference only. GIGABYTE reserves the right to modify or revise the content at anytime without prior notice.
* Advertised performance is based on maximum theoretical interface values from respective Chipset vendors or organization who defined the interface specification. Actual performance may vary by system configuration.
* All trademarks and logos are the properties of their respective holders.
* Due to standard PC architecture, a certain amount of memory is reserved for system usage and therefore the actual memory size is less than the stated amount.