2.4 Expansion Slots (PCI and PCI Express Slots)

There are 3 PCI slots, 4 PCI Express slots and 1 CFast card socket (optional) on this motherboard.

PCI slots: PCI slots are used to install expansion cards that have the 32-bit PCI interface.

PCIE slots:

PCIE1 (PCIE x16 slot; Blue) is used for PCI Express x16 lane width graphics cards.

PCIE2 (PCIE x1 slot; White) is used for PCI Express cards with x1 lane width cards.

PCIE3 (PCIE x4 slot; White) is used for PCI Express x4 lane width graphics cards.

PCIE4 (PCIE x4 slot; White) is used for PCI Express x4 lane width graphics cards.

CFast card socket (optional):

CFAST1 (CFast card socket) is used for CFast cards.

Installing an expansion card

Step 1. Before installing the expansion card, please make sure that the power supply is switched off or the power cord is unplugged. Please read the documentation of the expansion card and make necessary hardware settings for the card before you start the installation.

Step 2. Remove the system unit cover (if your motherboard is already installed in a chassis).

Step 3. Remove the bracket facing the slot that you intend to use. Keep the screws for later use.

Step 4. Align the card connector with the slot and press firmly until the card is completely seated on the slot.

Step 5. Fasten the card to the chassis with screws.

Step 6. Replace the system cover.

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ASRock IMB-780 manual Expansion Slots PCI and PCI Express Slots, Installing an expansion card, Pcie slots

IMB-780 specifications

The ASRock IMB-780 is a powerful industrial motherboard designed for various applications in the fields of automation, industrial control, and embedded systems. With a robust form factor and advanced features, the IMB-780 stands out in its class, making it a reliable choice for professionals seeking high performance and durability.

One of the key features of the ASRock IMB-780 is its support for Intel's 7th generation Core processors, which provide exceptional processing power and energy efficiency. This allows users to accomplish demanding tasks with ease, making it suitable for applications that require real-time processing and multitasking capabilities. The motherboard supports dual-channel DDR4 memory, enabling faster data access and improved overall system performance.

The IMB-780 is equipped with multiple I/O ports, including USB 3.0, USB 2.0, and serial ports, enhancing connectivity options for various peripherals and devices. Additionally, it features multiple display outputs, such as HDMI and VGA, which allow for flexible display setups in diverse environments. This versatility is essential for applications in digital signage, industrial automation, and other sectors where visual output is crucial.

Another significant characteristic of the ASRock IMB-780 is its expansion capabilities. The board includes several PCIe slots, allowing for the installation of additional hardware components such as graphics cards or specialized interface cards. This expandability ensures that the motherboard can adapt to changing requirements and advancements in technology over time.

In terms of storage, the IMB-780 offers M.2 slots for rapid SSD integration, as well as SATA III ports for traditional storage devices. This enables high-speed data transfer and ample storage options, accommodating the needs of modern applications that handle large amounts of data.

The design of the ASRock IMB-780 emphasizes reliability and longevity, featuring a robust build quality suitable for harsh operating conditions. The motherboard is also equipped with advanced thermal management solutions to ensure stable operation under heavy loads, making it a dependable choice for industrial environments.

In conclusion, the ASRock IMB-780 industrial motherboard combines high processing power, extensive connectivity, and expandability, making it ideal for a wide range of applications. With its robust design and support for advanced technologies, it delivers outstanding performance and reliability, appealing to professionals seeking a powerful solution for their embedded and industrial computing needs.