Intel AX200 Wi-Fi 6 performance at low speeds and how to fix it (MSI X570 gaming carbon WiFi)
Intel AX200 Wi-Fi 6 performance at low speeds and how to fix it (MSI X570 gaming carbon WiFi)
Hello,
Bu için, tıp öğrencilerinin belki de uygun olmadığını söylediğimiz MSI X570 Gaming Pro Carbon Wi-Fi mahineyi. Bu mahine Intel AX200 Wi-Fi 6 adapateri kullanıyor. Zira yapılan 5 GHz kabla kaynağında, fonunuz 1000 Mbps olduğu ve telefon ve laptop üzerinde test edenlere göre sıcaklık üzerinden 800 Mbps daha fazla olabilir. Ping değeri 2 ile 10 arası arttığı. Ama bu yüzden kendi desktop komputişlerde, 2-10 arasında 250 Mbps olduğu ve ping 30 arasında değişiklik alıyor (bazı cinsel). İstifadışınız örneklerle biri olmadığım. Wi-Fi driverinin farklılıklerini kullanmamış ve Device Manager'deki ayarlarını çeşitli içerisinde yapıştırmayı gerçekleştirdiğimiz önerileri uygulamadım. Ama şey çok zor oldu. Sıkça ayırıyorum. Açıklama yapmak istiyorsunuz. Merhaba. Ayetekli olabilir.
This indicates your antenna placement isn't ideal. It's being bounced off the metal case and attempting forward transmission. A Wi-Fi antenna emits radio waves forming a circular pattern, mainly upward and downward rather than sideways. This is unnecessary for client devices since the wireless access point's location is known. For better results, consider using an antenna extension cable—at least five feet away from your body. Keeping it within arm’s reach isn’t advisable; instead, use 15+ feet of male-to-male cable to position antennas farther away and improve signal strength. A directional antenna with a focused beam is recommended. This ensures you always know the access point's location, regardless of movement. Why settle for an omnidirectional option when you can have precision? Omni-directional antennas waste over 80% of performance and are still seen as outdated despite their advantages. Directional antennas measure in dBi; higher values mean a tighter signal range. For example, 15 dBi provides a 30-degree radius—enough to cover a wide area without spreading too thin. Transmitting from your PC opposite the access point isn’t about convenience—it’s about efficiency.
I've already attempted that. I also relocated the computer to various rooms, yet the outcome remained consistent. When using a wired connection, I reached speeds up to +900 Mbps. I modified the antenna orientation and shifted the computer between rooms for testing. Even when positioned next to the modem, no improvement occurred.
The problem appears to be related to a software glitch. Open Windows settings, navigate to network connections. Alternatively, right-click the Wi-Fi near the clock and access it directly. On the status page, select properties—not the Wi-Fi settings, but the network screen. If you choose the right option, it should display the wireless frequency being used. It may help to verify whether you're connected to 5 or 2.4 GHz.
Technically, return to the status and click Under Advanced Network Options. Change Adapter Settings will open the control panel. I’m unsure of the exact steps, so this method is simpler for explanation. Right-click your Wi-Fi, select Disable, as it might be lagging. In the right-click menu, go to properties for the Wi-Fi. Highlight Internet Protocol version 6 and uncheck the box. Click OK. Re-enable the adapter and try again.
If that doesn’t work, return to the settings and switch to the Configure tab. In the second window, go to the Advanced tab. This is where you’ll need to adjust settings—this part is quite technical and varies by manufacturer. Consider increasing receive and transmit buffers. Be aware that higher buffers can improve stability but increase latency, which may affect video or voice calls.
Try changing the transmitter power from highest to maximum power saving or lowest. Save changes on both Windows. Disable and re-enable the Wi-Fi adapter. Test performance after each adjustment. Review these settings, research them, and see if any adjustments help. Also, check if you installed the wireless drivers from your motherboard’s website for additional support.