Best Motherboard For Ryzen 3 3200G

If you’re a gaming fanatic on a budget, the Ryzen 3 3200G is definitely the processor worth trying as it offers the best price-performance ratio for an entry-level Ryzen 3 CPU. Based on a 12nm process, it is equipped with four cores that get a base frequency of 3.6 GHz and a boost frequency of up to 4 GHz.

And above all, it doesn’t reduce the hopes of gamers who would like to play newer titles on a limited budget, as it comes with an integrated Radeon Vega 8 graphics card and supports up to 64GB of DDR4-2933 RAM.

All of this means significant money savings and great value with higher performance compared to the other line of processors in the same category. But to get the most out of it, you surely need a powerful motherboard.

One that can deliver maximum performance and includes the latest features. Considering that the market is full of options and features, such as RGB lighting, built-in Wi-Fi support, and multi-GPU support, we thought it would be a good idea to make this selection easy for you.

So, we did our review, went through all of our benchmarks, and established the 6 best motherboards for Ryzen 3 3200G to make your selection as easy as apple pie.

Top 6 Motherboard For Ryzen 3 3200G

Various motherboards are available in the market. Here, we are going to represent different motherboards compatible with ryzen 3 3200g which are suitable for Overclocking motherboard, Gaming motherboard, and RGB motherboard, etc. 

1. ASUS Tuf Plus AMD X570  Motherboard

 

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Specifications:

Brand ASUS
CPU Socket Socket AM4
Graphics Card Interface PCI-E
Manufacturer Asus
Supported Motherboard ATX

About This Item:

  • It has 128GB Dual DDR4-SDRAM.
  • TUF Gaming X570-Plus combines them with game-ready features and proven durability.
  • It has a comprehensive set of cooling options.
  • These motherboards deliver rock-solid performance with unwavering gaming stability.
  • It is backed by 3 years manufacturer’s warranty.

With powerful Dr. MOS 12 + 2 power stages, extensive VRM heatsinks, the motherboard packs all the features for a stable overclocking session. In terms of cooling, the board is equipped with dedicated M.2 heatsinks and extensive VRM heatsinks that extend to the rear I / O. But if all of that isn’t enough, you can add additional fans with built-in CPU fan headers.

Aesthetically, the board looks pretty with shaded Aura Sync RGB strip lighting on the back of the board and supports additional RGB lifestyle brings with addressable RGB headers. The motherboard also has plenty of room around the CPU with a neat layout on a matte black PCB.

For memory, the board features a dual-channel memory architecture that can support a maximum capacity of 128GB of DDR4 RAM, with support for overclocking up to 5100 MHz using the XMP profile. For all your storage needs, the board offers two M.2 slots. These slots work in PCIe 3.0 mode for Ryzen Gen 2 CPUs and PCIe 4.0 if you are using a Gen 3 CPU. To maximize storage potential, you also get 8 SATA 6GB / s connections.

As for the PCIe expansion slots, the board comes with two PCIe 4.0 x16 slots. Predominantly, the board only supports AMD Crossfire X, so you can hardly use multiple GPUs for NVIDIA cards.

The motherboard also has a host of connectivity features, with dual display ports including an HDMI connection and a host of USB connectivity, including a USB Type-C connection and an integrated Intel wireless LAN.

For content creators and enthusiastic gamers, the motherboard is integrated with the Realtek S1200A 8-channel audio codec that provides excellent HD audio.

To sum it all up, the motherboard offers great potential for overclocking with a well-designed VRM setup that can surely push the maximum clock speeds for 2nd and 3rd gen Ryzen CPUs.


2. MSI Performance B450 AMD Ryzen Carbon MAX Motherboard

 

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Specifications:

Brand MSI
CPU Socket Socket AM4
Wireless Type
Bluetooth
Manufacturer MSI COMPUTER
Supported Motherboard ATX

About This Item:

  • It supports 1st, 2nd, and 3rd Gen AMD Ryze / Ryzen with Radeon Vega Graphics.
  • Supports 2nd Gen AMD Ryzen with Radeon Graphics / Athlon with Radeon Vega Graphics Desktop Processors for Socket AM4
  • It has lightning Fast Game experiences like TURBO M. 2 with M. 2 Shield, StoreMI, AMD Turbo USB 3. 2 GEN2.
  • With premium layout and fully digital power design that support more cores and provide better performance.

With a completely stunning matte black PCB gaming design and MSI’s native Mystic RGB beam, it lives up to the expectations of an aesthetic PC build.

With the support offered to all 1st, 2nd, and 3rd generation AMD Ryzen processors, the board provides an uncompromising gaming experience. It’s beefed up with 8-phase power delivery, ample VRM and MOSFET heat sinks, and a glut of features to suit a great gaming PC build.

But if you already know your gaming habits and are sure you will cut it down, you have the option of adding additional fans with built-in fan headers.

The motherboard can support up to 128GB of DDR4 memory, but let’s remember that the maximum RAM supported by the CPU is only 64GB. In terms of storage options, the board integrates a single Turbo M.2 slot and four SATAIII slots.

The board also features 3 PCIe x1, 2x PCIe x16, and PCIe Gen 2 slots. The primary PCIe slots are reinforced with MSI’s steel armor and can handle the most advanced graphics card available on the market.

In terms of connectivity, the front panel features 2 x USB 3.2 Type-A Gen 1 and 4 x USB 2.0. The rear panel is equipped with 1 x USB 3.2 Gen 2 Type-A, 1 x USB 3.2 Type-C and 2 x USB 3.2 Gen 1 Type-A slots.

Also, the motherboard has built-in Wi-FI 5, Bluetooth. To sum it up, this is an excellent board for the price and features performance, stability, and most of all a solid build.


3. GIGABYTE B450 AORUS PRO AMD Ryzen Motherboard

 

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Specifications:

Brand AMD
CPU Socket Socket AM4
Graphics Card Interface PCI-E
Manufacturer Gigabyte
Supported Motherboard ATX

About This Item:

  • It supports AMD 1st & 2nd generation Ryzen/ Ryzen with Radeon Vega graphics processors.
  • It has Intel Ethernet LAN also Dual-band 802.11AC Wi-Fi.
  • It has RGB Fusion with Digital LED & RGB LED headers.
  • It has 5 smart fans with a fan stop choice.
  • It is compatible with `AMD 3rd Gen Ryzen/ 2nd Gen Ryzen/ 1st Gen Ryzen/ 2nd Gen Ryzen with Radeon Vega Graphics
  • It is also compatible with 1st Gen Ryzen with Radeon Vega Graphics/ Athlon with Radeon Vega Graphics Processors.

The board comes with an integrated AM4 socket that supports 1st, 2nd, and 3rd generation Ryzen processors. Aesthetically, the board is stunning with a matte black PCB, silver aluminum heatsinks, and a sleek RGB show around the rear v and VRM heatsink.

Now if you are looking for RGB, the board has several addressable RGB and standard RGB headers. RGB can be further customized in different lighting modes with RGB blending software.

For power delivery, the board integrates an 8 + 3 PWM hybrid power phase design to push you through extreme loads even over a longer period. The chipset light, the motherboard uses the integrated with 12V 24-pin and 8-pin power connectors.

All in all, the motherboard has beaten several overclocking benchmarks with boost speeds of up to 4100MHz without a hitch.

Now if your motherboard VRM settings and heatsinks aren’t enough for your overclocking habits, you can even connect multiple fans and an AIO water pump using the integrated fan headers and water pump header.

Additionally, all fans are fully controllable with Gigabyte’s Smart Fan 5 software. The motherboard comes with 4 DDR4 DIMM sockets capable of providing 3600 MHz speed and 128 GB capacity.

For your storage requirements, the board comes with 2x M.2 connectors with dedicated heat sinks and thermal padding. In addition, you will also get 6 SATA connectors capable of giving you 6Gb / s transfer speed. The PCIe modules include 3 PCIe x16 slots, with x16, x4, and x1 modes, respectively.

The main groove is metal reinforced; However, despite the triple expansion slots, the board only offers support for AMD crossfire and excludes SLI with support for multiple SLI GPUs, which is a bit disappointing.

But the dismay is completely reduced with built-in WiFI and Bluetooth connectivity; Speaking of which, the rear I/O is pre-installed with a dedicated shield and features 4 USB 3.0 ports, 1 USB 3.1 Type-A port, and 1 USB 3.1 Type-C port.

For the screen outputs, the rear I / O has a DVI and HDMI port; and for audio, the motherboard is integrated with Realtek ALC 1220 7.1 channel high definition audio. In short, GIGABYTE B450 AORUS is ideal in terms of aesthetics, affordability, and houses several features that you normally see in high-end chipsets.


4. ASUS ROG Crosshair VIII Dark Hero AM4 Motherboard

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Specifications:

Brand ASUS
CPU Socket Socket AM4
Graphics Card Interface PCI-E
Manufacturer ASUS
Supported Motherboard ATX

About This Item:

  • This motherboard has an AMD AM4 socket that is Ready for 2nd, 3rd Gen AMD Ryzen processors and 3rd Gen AMD Ryzen processors.
  •  It has unmatched personalization with ASUS-exclusive Aura Sync RGB lighting including RGB headers and Gen. 2 addressable headers.
  • It has high-performance connectivity, Onboard Wi-Fi 6 (802.11ax) with MU-MIMO support, 2.5 Gbps Ethernet and Gigabit Ethernet, USB 3.2 Gen 2 Type-C
  • It comes with 5 GHz Radio Frequency, Bluetooth, 802.11ax, 2.4 GHz Radio Frequency

Current CPU architectures raise the stakes for motherboard power design by transitioning from profound power-saving modes to full load immediately.

ASUS’s most recent VRM architecture meets people’s high expectations by utilizing joined power stages to quickly swing at present while keeping up praiseworthy thermal execution.

Mixed with exclusive memory follow format changes that improve signal honesty and alleviate noise, Optimum III permits memory units to run at lower latencies, diminished voltages, and work at higher frequencies.

Stack the Dark Hero with your number one modules and augment Zen 3 processors throughput for applications that request gigantic bandwidth, or equilibrium endlessness fabric and memory execution for a different scope of workloads.

Dual PCIe 4.0 M.2 Slot support up to 22110 and provide NVMe SSD RAID support for an incredible performance boost. Create a RAID configuration with up to two PCIe 4.0 storage devices to enjoy the fastest data-transfer speeds on the AMD Ryzen 5000 and 3000 Series desktop processors.

It has a Comprehensive thermal design with a Passive chipset heatsink, M.2 aluminum heatsinks, and ROG Water Cooling Zone that prevents it from the heat during dealing with the workload.  Also, it occupies DIY Friendly Design, Pre-mounted I/O shield, ASUS SafeSlot, BIOS flashback, and premium components for maximum endurance.


5. ASUS ROG Strix B550-E AMD AM4 Motherboard

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Specifications:

Brand ASUS
CPU Socket Socket AM4
Graphics Card Interface PCI-E
Manufacturer ASUS
Supported Motherboard ATX

About This Item:

  • It is the perfect pair to use with Zen 3 Ryzen 5000 & 3rd Gen AMD Ryzen CPUs.
  • 14+2 DrMOS power stages with high-quality alloy chokes and durable capacitors provide reliable power.
  • Keeps your system running reliably under heavy load by enhancing passive cooling capacity for critical onboard components.
  • It has onboard WiFi 6 (802. 11ax), Bluetooth V5. 1 and 2. 5 Gb LAN with ASUS LANGuard.

The board features a 12 + 2 power phase design. For an entry-level Ryzen 3 3200G, this VRM appears to be an overbuilt VRM solution, but considering that it will be updated in the future, we have good news that this motherboard can even support the latest set of AMD CPUs like Ryzen 9. 3900X. According to some recent benchmarks, this motherboard has even hit a 4.15GHz overclock speed in a breeze on this Ryzen series.

For cooling, there are extensive heatsinks alongside the entire board with numerous built-in fan headers to add extra fans, but you most likely won’t be using these as there is a rare chance of the CPU overheating, especially considering the design. overbuilt power phase.

For memory support, the board comes with a dual-channel memory architecture with 4 DDR4 DIMM slots that support a maximum capacity of 128GB that can be overclocked up to 4440 MHz using the XMP profiles. In terms of PCIe slots, you get two PCIe 4.0 x16 slots, two PCIe 3.0 x16 slots, and a single PCIe 3.0 x16 slot.

All of these slots are hardened and the primary x16 slots offer CrossfireX and SLI support for multi-GPU functionality. For all your storage needs, the board is integrated with two M.2 slots with dedicated heat spreaders and 6 SATA ports capable of providing 6Gb / s transfer speed.

When it comes to connectivity options, there is plenty on this motherboard. With a USB 3.2 Gen 2 Type-C port for the rear, it also features USB Gen 3.2 and USB Gen 3.1 Type-A slots for the rear and front panels.

On top of that, the board also has built-in Bluetooth v5.1 and Wi-Fi 6 capabilities. In terms of design, the board looks solid with a matte black finish with RGB accents on the rear I / O and the middle. bottom of the motherboard.

If you are looking for additional RGB, you will get RGB and addressable RGB headers on the board. The board also features a ROG Supreme CODEC S1220A for a high-definition audio experience. In short, it’s a well-built and feature-rich board for the Ryzen 3 3200G.


6. MSI B450 Tomahawk MAX Arsenal Motherboard

 

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Specifications:

Brand MSI
CPU Socket Socket AM4
Graphics Card Interface PCI-E
Manufacturer MSI COMPUTER
Supported Motherboard ATX

About This Item:

  • It has Strong power delivery.
  • It supports up to 64GB Dual Channel DDR4-SDRAM.
  • It has plenty of connectivity options for Ports: 2 x USB2.0, 2 x USB3.2 Gen 1 Type-A, 1 x USB3.2 Gen 2 Type-A, 1 x USB3.2 Gen 2 Type-C, 1 x Ethernet LAN (RJ-45), 1 x PS/2, 1 x HDMI, 1 x DVI-D

With a 4 + 2 VRM configuration on the board, the motherboard offers impressive power delivery with good performance potential for 2nd and 3rd gen Ryzen CPUs.

To transfer power to the chipset, the motherboard integrates a conventional 24-pin and a dedicated 8-pin power connector. Aesthetically, you’ll get a fairly clean black and gray metallic PCB with silver aluminum heat sinks.

The PCB is natively blended with RGB lighting that can be customized via MSI’s Mystic Light Sync software to match the aura of your gaming setup. There is also an option to add additional RGB lighting with integrated RGB headers.

For memory support, the motherboard features four DDR4 memory slots that run on a dual-channel architecture with support for up to 128GB. For GPU support and expansion, the board features one PCIe 3.0 x16 slot, one PCIe 2.0 x16 slot, and three PCIe 2.0 x1 slots. Both PCIe x16 slots offer multi-GPU support for AMD cards with AMD crossfire mode.

All PCIe slots are also protected by MSI’s Steel Armor to provide long-term durability. The board has a single turbo speed NVMe M.2 slot capable of providing transfer speeds of up to 32Gb / s using PCI Gen3 mode and an additional 6 SATA III ports capable of providing 6Gb / s transfer speed.

Regarding the cooling of this motherboard, it comes with an extended rugged heatsink design to provide maximum cooling to the VRMs and MOSFETs. Additionally, cooling can be further expanded with six fan heads and one AIO pump head.

There is the option to add 2 USB 3.1 G1 ports on the front panel using the integrated USB connector. On the rear I / O, the motherboard features USB 3.1 Gen 2 Type-C and Type-A slots, USB 3.1 Gen 1 slots, and dual display support with a DVI port and HDMI port.

Motherboard for Ryzen 3 3200G

Tips to keep in mind when buying the Best Motherboard for AMDRyzen 3 3200g

The motherboard literally shapes the foundation of our computers. Users who are not familiar with the hardware usually do not give it the importance it deserves because they pay more attention to other components a priori more striking, such as the CPU or the graphics card.

And it is understandable that this is the case, but in reality, the role of the motherboard is crucial. In fact, to a large extent, the stability and update capacity of our PC depends on it.

Not only do hardware enthusiasts tend to pay a lot of attention to this component, they often spend a significant portion of their budget on it as well.

And it makes perfect sense if we keep in mind that good quality, the state-of-the-art motherboard can allow us to update most of the components of our equipment in the future, including the processor, without having to change it.

The chipset: the true brain of the motherboard

Among all these components there is one that is worth paying close attention to because it is the true brain of the motherboard: the chipset. Identifying it on the surface of the PCB is easy because it is usually the largest integrated circuit of all.

Of course, in current motherboards, if we want to see it we will have to previously remove the heatsink that usually hides it to help it effectively evacuate the energy it dissipates in the form of heat.

In any case, beyond its size and complexity, the chipset is important due to the function it performs: it is responsible for managing the information traffic exchanged by some of the subsystems of our PC.

Traditionally the chipset consisted of two integrated circuits: the northbridge and the southbridge. Hence its original name (chipset in English means ‘chip set’).

The first and most complex of these, the northbridge, was essentially in charge of managing data traffic between the CPU, main memory, and the graphics subsystem.

The other chip, the southbridge, was connected to the northbridge through a high-performance link and was relegated to controlling communication with the other subsystems of the equipment, such as the cards that we could install in the expansion slots, the USB and SATA ports, the audio chip or the network controller, among other devices.

As we can guess, the PCH is a complex integrated circuit whose consumption and power dissipation capacity in the form of heat is not negligible at all. In fact, the latest Intel desktop chipsets have a TDP of 6 watts, and while this is unusual, some PCHs from both Intel and AMD require active cooling.to keep their temperature under control when the stress they are being subjected to is high.

A quick note before proceeding further: passive cooling uses only elements that are hardly subjected to mechanical stress, such as heat sinks or heat transport pipes, to cool the integrated circuit with which it is associated.

However, active cooling also requires a fan to “blow” over the heatsink to optimize thermal energy transfer between the IC core, the heatsink, and air.

The close cooperation that the CPU and the PCH carry out on a permanent basis has a consequence that users are interested in knowing: between these two elements of our computers there is a relationship of interdependence.

This simply means that not all chipsets can coexist with all microprocessors of the same brand. Fortunately, when Intel and AMD launch a new family of processors that maintains the socket used by the previous generation, there is a possibility that some of the chipsets that they have previously placed on the market can work hand in hand with the new CPUs.

When this situation occurs, the only thing that users have to do is update the BIOS of our motherboard using the official update that the motherboard manufacturers usually publish.

Voltage regulator modules and power supply phases

The quality of a motherboard is largely determined by the sophistication of its power supply system. This characteristic acquires enormous relevance if we intend to practice overclocking because it has a direct impact on the stability of our equipment when we subject it to intense stress.

If we stick to the power supply, there are two characteristics of a motherboard that users are interested in knowing: the voltage regulator modules and the power supply phases.

The voltage regulator modules, or VRM ( Voltage Regulator Module ), motherboards have a decisive responsibility: adapting the voltage supplied by the power supply to the specific needs of some of the most delicate components of our computers, such as the CPU and main memory.

If the voltage regulation is not precise these elements will not work properly. When the voltage they receive is lower than that required, their stability is usually compromised, and when it is higher they can be forced to dissipate more energy in the form of heat, something that may not be able to be assumed by the cooling system.

In these circumstances, at best the system will become unstable, and at worst, if the component exceeds its maximum temperature threshold, it could be irretrievably damaged.

The next characteristic of the voltage regulator module that we are interested in investigating is the phases of electrical power that it implements. Each of these phases is equivalent to a filtering stage of the electrical signal whose purpose is to provide the processor or main memory with a supply that is as flat and stable as possible.

The power supply is responsible for transforming the alternating current that it receives from the electrical network into the direct current demanded by the elements of our PC, but the VRM is forced to reduce the voltage it receives from the source to adapt it to specific needs. of the component it feeds.

Motherboard manufacturers usually reflect in the specifications of their proposals, especially if they are high-end, the number of power phases they implement. But, curiously, the nomenclature they use often takes the form of the sum of two whole numbers.

As an example, Gigabyte motherboards with TRX40 chipset for 3rd generation Ryzen Threadripper microprocessors introduce 16 + 3 power phases. The first 16 stages refer to the number of stages of filtering and stabilizing the CPU power signal, and the other 3 reflect the number of stages of filtering the power signal going to the memory controller.

An interesting note: graphics cards incorporate their own VRM and also usually use this last nomenclature because in addition to the graphics processor they have their own controller and local memory.

Power phases matter. A lot of. Especially if we use a CPU with a high number of cores (12 or more) or we want to practice extreme overclocking. Under these conditions, a sophisticated electrical power system that implements many phases can guarantee the stability we are looking for.

However, despite its undisputed importance, the number of phases is not everything in the context of VRM. The quality of the components of the voltage regulator module is also crucial. especially from MOSFET transistors, capacitors, and coils.

The problem is that it is very difficult for users to value it beyond what the brands tell us, which are, logically, an interested party. In this context, the analyzes of the specialized press and the opinions expressed by users in the forums about the stability offered by a specific motherboard in a real-use scenario can help.

A well-cooled motherboard is a better motherboard

Some of the components housed on the PCB of the motherboards dissipate an amount of energy in the form of heat that is by no means negligible.

Two of the elements that heat up the most are the PCH and the MOSFET transistors of the VRM, which we have talked about earlier in this article, so much of today’s motherboards use heatsinks that help these and other components to effectively evacuate residual heat.

Carrying out this task efficiently is essential to prevent these elements from exceeding their maximum temperature threshold because, if they reach it and that value is sustained long enough, they could be irretrievably damaged.

Motherboard manufacturers usually take the cooling of their proposals, especially the high-end ones, very seriously. In fact, some boards have a good part of the PCB surface covered by heatsinks. But it is possible to go even one step further.

And it is not difficult to find models that use active cooling, and therefore fans, to keep the temperature of some components under control, such as the PCH. This design decision has both advantages and disadvantages. The most obvious advantage is that active cooling is usually more efficient than passive cooling, especially if the latter is implemented only with a heatsink.

But the price to pay is that the fan is a mechanical element with a limited useful life and, in addition, no matter how quiet it is, it contributes to slightly increasing the level of noise emitted by the PC.

An interesting innovation that some motherboard manufacturers are introducing in their high-end models is a metal heat shield, usually aluminum, attached to the back of the PCB and occupying practically the entire surface of the board.

This sheet of metal can have a beneficial impact on the motherboard’s ability to evacuate heat dissipated by the hottest components, but it has an additional benefit: it increases the structural strength of the PCB.

This feature is very interesting if we intend to cool the CPU with a bulky and heavy fan, or if we have decided to install a graphics card with significant dimensions and weight. Any improvement devised to increase the robustness of the PCB is welcome.

The motherboard conditions the connectivity of our PC

The two tables that we have published a little higher in this article clearly reflect what extent the chipset conditions the connectivity that our PC will put in our hands. The PCH establishes the maximum number of PCI Express lanes that will be available, and the tandem made up of the processor and the chipset conditions the most advanced PCI Express revision implemented in our computer.

Currently, the most ambitious PCI Express standard and the one that offers us the best benefits is 4.0, and there is no doubt that little by little it will be generalized because it will be implemented in most of the processors and motherboards that will arrive in the future.

The chipset implications don’t end here. In addition to the number of PCI Express lanes, the PCH also establishes the type and a maximum number of USB ports that we will be able to use, the number and characteristics of the SATA ports, and, on occasions, it also incorporates the logic of access to the wireless and wired networks.

With regard to connectivity, the PCH plays a central role, so it is important that before choosing a motherboard and after deciding which processor we want to use, we identify the chipset that best meets our needs.

When we know which chipset we are interested in, we will have to look for a motherboard that incorporates it and whose price fits our budget.

Built-in WiFi and sound: when they measure up and when an additional solution is better

The quality of the integrated audio on motherboards varies greatly from one model to another. Basic boards usually integrate a simple sound chip that may be enough for those who do not give too much importance to this section of their PC, but there are also high-end models that rely on very advanced sound chips and DACs of a high quality comparable to those that we can find inside some hi-fi components.

The most common DACs in high-end motherboards are the Saber from ESS Technology, which can offer us a signal-to-noise ratio of up to 130 dB, a total harmonic distortion of 0.0001%, and the ability to process PCM files with a resolution 32-bit and a sample rate of up to 192 kHz.

If we choose a motherboard that incorporates an audio section as carefully as the one I have just described, it is likely that we will not need to resort to a dedicated sound card. Not even if we are demanding gamers or we like to listen to our music with the highest possible quality.

However, if we opt for a mid-range or entry-level motherboard and are moderately demanding with the sound, it could be interesting to bet on a dedicated sound card of a certain quality. Fortunately, there are some with very interesting specifications and reasonable prices. For about 50 euros we can already get an attractive sound card from brands such as Creative or ASUS, but if we want to get an advanced solution that offers us the best possible experience with our games, movies, and music, and that, in addition, frees the CPU for much of the audio management, we will have to invest a little more money.

How to find the right motherboards compatible with Ryzen 3 3200g

The stability, connectivity, and update capacity that our PC will have in the future are largely conditioned by the motherboard that we choose. Therein lies the complexity of this choice. Throughout this article, we have investigated the characteristics of this component that we find most interesting and that, in our opinion, can help you find the ideal motherboard. Even so, and as a culmination, this is the procedure that we propose to make the search for the ideal motherboard a little easier:

  • The choice of the motherboard should be subject to the processor that we have in mind, so the idea is to first find out which CPU best solves our needs, and from there we can look for a motherboard that is compatible with it.
  • The next thing we would do is decide which chipset compatible with our CPU offers us the performance and connectivity that we aspire to achieve because, as we have seen, there can be significant differences between them. We can take as an example the X570 and X470 chipsets from AMD. Both can work with 3rd generation Ryzen processors, but the first chipset offers us PCI Express 4.0 connectivity, while the second is satisfied with the somewhat more modest PCI Express 3.0 links.
  • We have already chosen our CPU and the chipset that we want to govern our motherboard, so now we recommend that you identify how much of your budget you want to dedicate to this component. The choice of the chipset that we have just made will determine the price of the board. From 60 or 70 euros there are interesting basic models; between 120 and 170 euros we can get a mid-range / high-end motherboard, and if you want a high-end model and the latest you will have to invest in this component 250 dollars or more. In fact, the most sophisticated PC motherboards far exceed this last figure.
  • Once you have found several models that fit your budget, we suggest that you spend a little time investigating the characteristics that we have reviewed throughout the article, such as, for example, its connectivity, the quality of its components, the number of power supply phases it implements or the sophistication of its cooling system, among other options. Some of this information is provided to us by the manufacturers, but to form a realistic idea of ​​the overall quality of a motherboard, the ideal is to resort to the analyzes of the specialized press and the experiences that other users share in the forums.

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