• Panel Driver Power Selectable
  • Back Light Module Power Selectable
  • Wide Range Voltage Input
  • PCI Express x4 Slot

  • GIGABYTE Thin Mini-ITX Motherboards
    GIGABYTE Thin-Mini-ITX motherboards are the ideal platform for today’s All-in-One, small form factor and slim profile PCs. Offering a full featured PC experience in a minimal device footprint, GIGABYTE Thin Mini-ITX motherboards are 43% thinner than traditional Mini-ITX designs. Complying with the latest Thin Mini-ITX guidelines, GIGABYTE Thin Mini-ITX motherboards offer additional flexibility making them suited to broad range of innovative PC designs.
  • Selectable Panel Power Driver
    GIGABYTE Thin Mini-ITX motherboards feature a selectable power driver allowing for both 3.3v and 5v configurations. This brings additional flexibility for LVDS panels that require both 3.3v and 5v drivers. Voltage settings are configured via an onboard jumper.
  • Selectable Back Light Power Module
    GIGABYTE Thin Mini-ITX motherboards offer flexible backlight power delivery with both 12v and 19v options available via onboard jumpers. This enhances compatibility with the wide range of backlit displays available today.
  • Wide Range Voltage Input
    Offering additional flexibility for system DC voltage input, GIGABYTE Thin Mini-ITX motherboards offer a broad voltage range of 12v to 19v, eliminating compatibility issues with many traditional IPC designs.
    * GIGABYTE recommends 180W power adapters for processors above 84W TDP. Processors with a TDP lower than 84W, may use 150W power adapters.
    * Power adapters connector dimension: 7.4 x 5.1mm, 180W = 19V / 9.47A , 150W = 19V / 7.89A.
  • PCI Express x4 Expansion Slot
    GIGABYTE Thin Mini-ITX motherboards are equipped with a x4 PCI Express expansion slot providing up to 25W of power and easy integration of TV tuner, video capture or RAID cards with a compatible riser card.
  • Designed for PCI Express Gen.3 Support

    GIGABYTE 7 series motherboards take advantage of the latest connectivity and expansion bus technologies available on the Intel platform. The 3rd generation Intel® Core™ processor platform debuts the new PCI Express gen. 3.0 expansion bus, allowing users to take advantage of the next generation, high-bandwidth discrete graphics card solutions.
    * PCIE Gen.3 is dependent on CPU and expansion card compatibility.
  • Intel® Smart Connect Technology
    Intel® Smart Connect Technology means that your email, favorite apps, and social networks are continually and automatically updated even when the system is asleep. No more waiting for the latest world news or friends' updates to be delivered—just press the 'on' button and you're up-to-date and ready to go.

    Auto Sync with Cloud
    No manual interaction required to synchronize with cloud services.

    Data Ready
    Email, social media, and cloud apps always updated and available at power on.
  • Onboard mSATA Support
    GIGABYTE 7 series motherboards feature an onboard mSATA slot allowing users to easily take advantage of advanced SSD-based technologies like Intel® Smart Response and Intel® Rapid Start. Mounting an affordable, low capacity mSATA SSD directly onto your motherboard can enhance your PC's performance with better overall desktop responsiveness, faster boot times and faster system resume from 'Suspend to Disk' and 'Standby' modes.

    Download : GA-H77TN (rev. 1.0) SSD Support List
  • Intel® Quick Sync 2.0
    Faster media encoding performance
    Saves your valuable time when create and edit video, synchronize it with other devices, and share it–at home and on the internet. Intel Quick Sync Video uses hardware on the processor, instead of software, to accelerate video encoding.
  • 50,000 Hours Solid Capacitors
    GIGABYTE Ultra Durable motherboards are equipped with solid capacitors. With an average lifespan of 50,000 hours, these solid capacitors provide the stability, reliability and longevity essential to meet the power needs of high-end processors and other components running today's most demanding applications and games.



    * 50000 hours of work time is calculated at 85℃ ambient temperature.
  • SuperSpeed USB 3.0
    GIGABYTE motherboards boast SuperSpeed USB 3.0 technology made possible through an additional onboard host controller. With superfast transfer rates of up to 5 Gbps, users are able to experience a theoretical 10x improvement over USB 2.0. Additionally, backwards compatibility with USB 2.0 assures users of long term use of their legacy USB 2.0 devices.
  • DirectX 11 Support
    Better Visual Experience
    Microsoft DirectX 11 provides eye-popping 3D visuals found for today's latest PC games and is designed to be more efficient, leverage the power of today's multi-core processors, and provide support for sophisticated shading and texturing techniques such as tessellation.
  • Display Port Support
    Selected 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.
  • HDMI™-The Next Generation Multimedia Interface
    HDMI™ is a High-Definition Multimedia Interface which provides up to 2.5Gb/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.

* De termen HDMI, HDMI High-Definition Multimedia Interface, HDMI Trade dress en de HDMI logo's zijn handelsmerken of gedeponeerde handelsmerken van HDMI Licensing Administrator, Inc.
* Alle materialen zijn alleen voor uw referenctie. GIGABYTE behoudt zich het recht om zonder aankondiging de inhoud te wijzigen of te herzien.
* Alle handelsmerken en logo's zijn eigendom van hun respectieve houders.
* Door de standaard PC-architectuur, wordt een bepaalde hoeveelheid geheugen gereserveerd voor gebruik van het systeem en dus is de werkelijke geheugengrootte kleiner dan de aangegeven hoeveelheid.