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What Is VRM? [Definition, Types & Importance]

Learn about VRM, its components, its effect on overclocking, and more.

A VRM regulates the voltage supplied to the processor or GPU. It takes the incoming voltage from the power supply and converts it to a specific voltage level required by the processor or GPU. This ensures stable and consistent performance and helps to protect the processor or GPU from damage due to over or under-voltage conditions. 

ASRock Z790 PG Riptide - VRM MOSFET AREA
ASRock Z790 PG Riptide – VRM MOSFET AREA (Image Captured By Tech4Gamers)

Key Takeaways

  • VRMs regulate voltage coming from the PSU and maintain stable and consistent voltage levels.
  • VRM components work together to regulate voltage output from the power supply to the processor or GPU by converting the incoming voltage, storing electrical energy, controlling the flow of electrical current, and dissipating heat to maintain stability.
  • The number of power phases in a VRM affects the stability and control of the voltage output. A single-phase VRM is sufficient for low-power applications, but multi-phase VRMs are suitable for high-performance processors or GPUs
  • When choosing a VRM for future-proofing, it is essential to consider factors such as power delivery capability, cooling, overclocking support, etc., to ensure the VRM can handle high-performance components and provide stable voltage while being reliable and efficient.

Importance Of VRMs

VRMs provide stable and efficient power delivery in computer systems, like to the CPU and RAM. A good VRM design can help reduce power loss and heat generation, improve power efficiency and stability, and prevent damage to the processor or GPU. A poor VRM design, on the other hand, can result in power instability, reduced efficiency, and even permanent damage to the processor or GPU.

Understanding VRM Components 

Users need to be considerate of multiple VRM components to grasp the idea behind its functionality. Below are some key components and VRM terminologies. 


A MOSFET (Metal-Oxide-Semiconductor Field-Effect Transistor) is a transistor widely used in electronics for amplification and switching applications. It controls the flow of electrical current by acting as a switch, allowing or blocking the current flow depending on the voltage applied to its gate terminal.


An inductor is a passive electronic component that stores energy in a magnetic field when electric current flows through it. It is used in electrical circuits to store energy and regulate the flow of electric current.


A capacitor is a passive electronic component that stores electrical energy in an electric field. It is used in electrical circuits to store energy and regulate the flow of electric charge. Capacitors are characterized by their capacitance, which measures the amount of electrical energy stored per voltage unit. 


GIGABYTE Z790 AORUS ELITE AX – VRM Controller (Image Captured By Tech4Gamers)

A controller is a digital or analog circuit that controls the operation of the VRM. It regulates the voltage output, manages the current flow, and communicates with other components in the system.

Heat Sinks 

VRMs can generate significant heat during operation, so heat sinks dissipate heat and cool the VRM components

VRM Power Phases

X670E AORUS MASTER VRM MOSFETs – Image Taken By Tech4Gamers

VRM power phases refer to the number of separate power delivery channels used in a VRM to regulate the voltage supplied to a processor or GPU. Each power phase represents a particular channel for delivering power, allowing for greater control and stability of the voltage output.

In a single-phase VRM, all the power delivered to the processor or GPU is delivered through a single channel. This is sufficient for low-power applications but may need more strength for high-performance processors or GPUs.

In a multi-phase VRM, multiple power delivery channels are the optimal choice. The number of power phases in a VRM can vary, but typical VRMs may have two, four, six, or even more phases.

Types Of VRM Designs

Multiphase VRMs are available in different designs, some of which are as follows:

  • 8-phase: An 8-phase VRM design is a type of voltage regulation module that uses eight separate power delivery channels to regulate the voltage supplied to a processor or GPU, dividing the voltage output across 8 phases for greater control and stability. The power delivered to the processor or GPU divides into eight separate channels, each with its inductors and MOSFETs to regulate the voltage output. 
  • 12-phase: A 12-phase VRM design uses 12 separate power delivery channels to regulate the voltage supplied to a processor or GPU, dividing the voltage output across 12 phases for greater control and stability. It is more complex and expensive to implement than an 8-phase VRM and may not be suitable for lower-end systems.
  • 16-phase: A 16-phase VRM design is a type of voltage regulation module that uses 16 separate power delivery channels to regulate the voltage supplied to a processor or GPU, dividing the voltage output across 16 phases for greater control and stability. 

These are not the only multi-phase VRMs available, as high-end motherboards also come with 20-phase VRM and, further, for maximized performance. 

VRM Cooling System

ASRock Z790 PG Riptide – VRM Covers (Image Captured By TechGamers)

VRM cooling is an essential aspect of a voltage regulation module’s design, as it helps to dissipate heat generated by the VRM components during operation. To improve VRM cooling, many motherboard manufacturers use heatsinks, passive cooling devices that transfer heat from the VRM components to the surrounding air.

Z790 VRM
Hti HT18 Thermal camera to record the thermals of the VRM – (Image By Tech4Gamers)

Heatsinks are typically made from materials with high thermal conductivity, such as aluminum, and increase the surface area in contact with the air, promoting heat dissipation.

VRM And Overclocking

A motherboard’s VRM design has a direct impact on its overclocking potential. Therefore, if you plan on overclocking build, then you need to pay attention to the VRM structure.


Overclocking makes a computer component, such as a processor or graphics card, run at a higher frequency than the manufacturer has designated. This can be done by adjusting the component’s clock speed, voltage, or other parameters to increase performance. The procedure essentially helps you improve the processor’s performance for gaming, video editing, or scientific simulations.

Learn more about overclocking by reading our guide.

How Does VRM Effect Overclocking?

When overclocking, the voltage requirements of the component increase, putting a significant strain on the VRM. Hence, you need a high-quality VRM that can keep up with the additional power requirements without running into issues.

The Impact Of VRM On Overclocking

GIGABYTE Z690 AERO G VRM Heatsinks (Image By Tech4Gamers)

The quality and design of the voltage regulation module can significantly impact the stability and performance of a processor or graphics card during overclocking. 

  • Power Phases: A higher number of power phases can provide better voltage regulation and improved stability during overclocking
  • Quality of Components: High-quality components, such as MOSFETs and inductors, can provide more stable and efficient power delivery during overclocking.
  • Heat Dissipation: Overclocking generates more heat, which can cause the VRM to overheat and become unstable. A VRM with good heat dissipation capabilities, such as large heatsinks, can help to mitigate this issue.
  • Current Capability: The VRM must be capable of handling the increased current demand generated by overclocking. If the VRM cannot provide enough current, it may become unstable or cause permanent damage to the component.

Did you know there are effective ways to turn off overclocking? If you didn’t, consider going through our instructional guide, How To Turn Off Overclocking? 

Tips For Choosing A Motherboard Or Graphics Card With A High-Quality VRM

When choosing a motherboard or graphics card with a high-quality VRM, consider looking for VRM components from reputable brands. It would also help to check the number of power phases the VRM has. Additionally, you should consider looking for VRMs with high-quality capacitors and inductors and check reliable VRM cooling options, such as heatsinks or fan cooling.

While more phases mean a good VRM setup, you must consider X+Y specifications. The X here shows the number of phases dedicated to your RAM or CPU, and Y means phases dedicated to other PC components. So, reading a 6+2 VRM setup means 6 VRMs for your CPU and 2 for your memory or other components.

Furthermore, reading reviews and researching the VRM specifications and design details can provide valuable insight into the VRM’s quality and performance.


To sum up, VRMs are crucial in regulating voltage in computers and ensuring a consistent power supply to the processor or GPU. However, a VRM’s performance depends on several factors, including the number of power phases, components’ quality, and cooling solution. 

Frequently Asked Questions

How do VRMs differ from traditional voltage regulators?

VRMs offer improved performance, efficiency, and stability compared to conventional voltage regulators, making them the preferred choice for high-performance computer systems.

What are some emerging technologies in VRMs, and how will they impact the industry?

One key emerging technology is digital VRMs, designed to use digital control circuits to regulate voltage output. These VRMs provide more precise voltage regulation and improved efficiency than traditional analog VRMs

How do VRMs impact computer systems’ energy consumption and carbon footprint?

VRMs with better heat dissipation capabilities can reduce the energy consumption of cooling systems, as they operate efficiently and reliably under high loads, reducing the energy required to cool the computer system. By reducing energy consumption and waste, VRMs can help lower computer systems’ carbon footprint and contribute to a more sustainable future.

What are the common challenges in designing and manufacturing VRMs?

VRMs must handle high power levels and maintain stable voltage output, which requires sophisticated design techniques and high-quality components. They must be efficient, with low power loss and heat generation, to ensure the computer system’s overall efficiency is not impacted.

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