/Computer Hardware

Computer Hardware

Connectors for I/O Integrated Ports were built into the board of the ATX and the earlier AT board had headers that were connected to ports located on the rear of the. This made maintenance and installation simpler.

Reduced overlap between drives and boards This reduced heat inside the case and allowed technicians to get to all of the board, without needing to take off a drive.

Reduced interference between processors and cards It was relocated to the rear of the board, near the power source. Technicians can now install large expansion cards without causing any harm to the power sink or CPU.

Users-Friendly Power Connection:

Power source to an ATX board is connected to a 21-pin connector. The connector is designed so it can only be put in the right direction. This was different from the AT board with two connectors that resembled each other however they were not interchangeable.

More efficient cooling conditions Improved Cooling Conditions: A power supply specifically designed specifically for an ATX blows directly into the case rather than out. This means that it blows air to escape from the enclosure instead of driving air in together with dust. This was a issue in the previous AT design. Check out hp elitebook folio 9470m price online.

3.3 Volts Power ATX power sources 3.3 Volt power, which can be directly used to power the CPU. The previous AT power supplies provided 5 volts of power, which required a voltage regulator to be installed on the motherboard in order to decrease the voltage used by the CPU.

Automated Controls: Power source to an ATX board is controlled by software. This allowed the computer to have the capability of turning itself on in order to complete tasks. This also means you can restart the computer, to shut down via the LAN. The process to shut down has also been automated meaning you can turn your computer off by selecting “Shut down” from the operating system.

Micro-ATX Motherboard

The Micro-ATX card is identical in design to ATX board. The only distinction is the dimensions. It measures 9.6-by-9.6 inches rather than 12-by-9.6 inches. This board was designed for smaller computer cases. Since it’s smaller it is smaller in terms of expansion or memory slots than the ATX board. Although they’re smaller, it does not mean that they are less capable of supplying computing power. These boards are utilized in gaming computers as well.

E-ATX Motherboard

The E-ATX, also known as the Extended ATX motherboard is larger than the typical ATX motherboard. The motherboard is mostly used to play games where a lot of power is required. The majority of the space on the board can be used to expand the slot and memory slots. They also include audio cards, Wi-Fi, and onboard troubleshooting capabilities. A maximum of 128GB of RAM is available in this motherboard.

LPX Motherboard

The low profile extensions motherboards also known as LPX motherboards were invented following the AT boards of the 1990s.

The primary distinction among these systems and earlier models is that the output and input ports are in the rear of the system. AT boards have also adopted this idea in the newer versions of their products because of its popularity. The additional slots were placed using an riser card. But these riser cards caused the problem of not enough airflow.

In certain instances it was the case that the LPX board didn’t even possess a genuine AGP slot, but instead connected using an PCI bus. These unfavorable features resulted in the loss of this motherboard , which was replaced with the NLX.

NLX Motherboard

It is the NLX motherboard is an improved version of LPX motherboard. It was developed in the late 1990s to offer support for bigger cases, cards and other devices. NLX refers to New Low Profile Extended. It came with it with the Pentium II processor AGP DIMM memory and USB.

BTX Motherboard

BTX is the abbreviation for Balanced Technology Extended.

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The main goal of BTX was to fix or reduce some of the issues that could arise when using new technologies. The latest technologies tend to consume more electricity and produce more heat than the ones operating on motherboards that adhere to the ATX specification from 1996. Intel suggested two specifications: ATX as well as BTX standards. Intel has withdrawn the creation of BTX retail products in September of 2006 because of its decision to concentrate on low-power CPUs, after experiencing problems with scaling and temperature in Pentium 4. Pentium 4. Check out the price of an old laptop under 10000 online.

Gateway Inc. was the first company to adopt BTX and was then Dell MPC and Dell MPC. Apple’s MacPro utilizes some BTX components, but it’s not BTX certified. In comparison to the previous versions this motherboard offers a few improvements:

Low-profile:

Given the growing demands for smaller and smaller systems, a new backplane that cuts inches off of the requirements for height is an advantage to systems integrators and companies that use rack mounts or blade servers.

Thermal design The BTX design offers a more straight flow of airflow, with less problems, which leads to greater overall cooling capabilities. Instead of a separate cooling fan the 12cm case-fan is mounted. This means it draws air directly from outside the computer . It then cools the CPU via an air pipe. Another advantage that is unique to BTX can be the horizontal positioning of motherboards on the left side. This feature result in the heat sink of the graphics card (or fan) facing downwards instead of facing towards the expansion card.

Structural design The BTX standard defines distinct places for mounting points on the hardware and reduces latency between the various components. It also decreases the physical strain placed upon the motherboard through capacitors, heat sinks and other components that deal with thermal and electrical regulation.