: Designed for a traditional 2.5" mechanical HDD or a standard 2.5" SATA III SSD. Swapping an old mechanical hard drive out for a 2.5" SATA SSD is the single most cost-effective upgrade you can perform on this platform. 3. Optical Drive Interface (ODD) Interface : Slimline SATA connection.
, though higher-speed RAM will often downclock to match the system's maximum bus speed. : Often equipped with a dedicated NVIDIA GeForce 940MX
The Ironman_SK board supports up to 32GB of DDR4 SO-DIMM memory in a dual-channel configuration. acer ironmansk motherboard specs top
All of these processors utilize the advanced 14nm lithography process and support Intel 64 architecture, Intel Virtualization Technology, and various security features like Execute Disable Bit.
The CPU is soldered (BGA type) and cannot be replaced or upgraded individually. Memory (RAM): Type: DDR4 SDRAM. Slots: 2 SODIMM slots. Max Capacity: Supports up to 32GB (2 x 16GB). : Designed for a traditional 2
You must download the IronmanSK.FD file from Acer’s support site (enter your serial number). Do not flash a BIOS from a different motherboard, even if it looks identical.
: Integrated Realtek High-Definition Audio codec routing to a combo 3.5mm headphone/microphone jack and dual internal speaker pins. Upgrading and Maintaining the Ironman_SK Motherboard 1. Checking Your Exact Sub-Variant Optical Drive Interface (ODD) Interface : Slimline SATA
The Ironman_SK board is designed for efficient DDR4 performance, suitable for multitasking and general productivity. DDR4 SDRAM.
Featuring an enhanced Voltage Regulator Module (VRM) design, it utilizes multi-phase power delivery flanked by dedicated aluminum heatsinks to keep temperatures low under maximum CPU loads.
19V DC input, typically utilizing a 45W or 65W AC adapter. Summary of Key Specs Specification Form Factor Proprietary Acer Laptop Board CPU Intel 7th/8th Gen U-Series (Soldered) RAM 4GB Soldered + 1 Slot (DDR4) Storage 1x M.2 (SATA/NVMe) + 1x 2.5" SATA Network Realtek Gigabit Ethernet + M.2 Wi-Fi Card
Engineered to handle high-wattage envelopes efficiently, giving the system plenty of overhead for burst frequencies and heavy rendering pipelines. Memory & Storage Ecosystem