Archer AX3000

AX3000 Dual Band Gigabit Wi-Fi 6 Router

  • Wi-Fi 6 Technology Featuring Intel: Wi-Fi 6 technology achieves up to 3x faster speeds, higher capacity and lower latency compared to the previous generation of Wi-Fi 5 while the power of Intel's dual-core CPU ensures your experience is smooth and buffer-free.*  
  • Next-Gen 3 Gbps Speeds: Reaches incredible speeds up to 3 Gbps (2402 Mbps on 5 GHz band and 574 Mbps on 2.4 GHz band) for faster streaming and gaming like you have never experienced before. 
  • Connect More Devices:  Simultaneously communicate more data to more devices using revolutionary OFDMA  technology.
  • Minimize Lag for All Devices and Applications: Experience ultra-smooth entertainment whether you are streaming 4K videos, gaming online, or even video chatting with up to 75% reduced lag.§
  • More Reliable Coverage:  Achieve the strongest, most reliable WiFi coverage with Archer AX3000 as it focuses signal strength to your devices using Beamforming technology and four antennas. 
  • Increased Battery Life for Devices: Target Wake Time technology reduces your devices' power consumption to extend their battery life.**
  • Easy Setup: Set up your router in minutes with the powerful TP-Link Tether App
  • Backward Compatible: Archer AX3000 supports all previous 802.11 standards and all WiFi devices
  • What is Wi-Fi 6?

Faster Speeds. More Connected Devices.
Powered by Intel.

  •  

    Wi-Fi 6
    + Intel

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    Up to 3 Gbps Speeds

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    More Connected Devices

  •  

    Boosted Coverage

  •  

    Reduced Power Consumption

The Latest Wi-Fi 6 Technology Featuring Intel

Experience the latest Wi-Fi 6 technology, which delivers up to 3x faster speeds, higher capacity, and 75% lower latency to meet all your WiFi needs. Intel’s powerful dual-core processor ensures your experience is smooth and buffer-free.*

 

Next-Generation WiFi Speeds Up to 3 Gbps

Archer AX3000 brings you incredibly fast dual-band speeds up to 3x faster than the previous AC generation of WiFi, perfect for vivid 8K/4K streaming, intense online gaming, and more.

 

More Devices. Less Congestion. Smarter Home.

A great smart home starts with a smarter router. Archer AX3000 uses OFDMA technology to organize the flow of data to talk to all your smart home, streaming and gaming devices while simultaneously reducing lag by up to 75%.§

 

More Reliable Coverage

Achieve the strongest, most reliable WiFi coverage with Archer AX3000 as it focuses signal strength to your devices using Beamforming technology and four antennas. 

 

Reduced Power Consumption. Increased Battery Life.

Target Wake Time (TWT) talks to your devices and negotiates when and how frequently they should transfer data to increase device sleep time, extending battery life.**

 

Easily Set Up and Manage Your WiFi

Set up and manage your WiFi through the TP-Link Tether app (Android, iOS). Access WiFi settings such as parental controls, guest privileges and more right from your smartphone.

 
WIRELESS
Standards Wi-Fi 6
IEEE 802.11ax/ac/n/a 5 GHz
IEEE 802.11ax/n/b/g 2.4 GHz
WiFi Speeds AX3000
5 GHz: 2402 Mbps (802.11ax)
2.4 GHz: 574 Mbps (802.11ax)
WiFi Range 3 Bedroom Houses
Antennas
Multiple antennas form a signal-boosting array to cover more directions and large areas

Beamforming
Concentrates wireless signal strength towards clients to expand WiFi range

High-Power FEM
Improves transmission power to strengthen signal coverage
WiFi Capacity High
Dual-Band
Allocate devices to different bands for optimal performance

OFDMA
Simultaneously communicates with multiple Wi-Fi 6 clients

Airtime Fairness
Improves network efficiency by limiting excessive occupation

DFS
Access an extra band to reduce congestion

4 Streams
Connect your devices to more bandwidth
Working Modes Router Mode
Access Point Mode
HARDWARE
Processor Dual-Core CPU
Ethernet Ports 1× Gigabit WAN Port
4× Gigabit LAN Ports

Static Link Aggregation (LAG) available with 2× LAN ports
USB Support 1× USB 2.0 Port

Supported Partition Formats:
NTFS, exFAT, HFS+, FAT32

Supported Functions:
Apple Time Machine
FTP Server
Media Server
Samba Server
Buttons Wi-Fi/WPS Button
Power On/Off Button
LED On/Off Button
Reset Button
Power 12 V ⎓ 2 A
SECURITY
WiFi Encryption WEP
WPA
WPA2
WPA/WPA2-Enterprise (802.1x)
Network Security SPI Firewall
Access Control
IP & MAC Binding
Application Layer Gateway
Guest Network 1× 5 GHz Guest Network
1× 2.4 GHz Guest Network
VPN Server OpenVPN
PPTP
SOFTWARE
Protocols IPv4
IPv6
Parental Controls URL Filtering
Time Controls
WAN Types Dynamic IP
Static IP
PPPoE
PPTP
L2TP
Quality of Service QoS by Device
Cloud Service Auto Firmware Upgrade
OTA Firmware Upgrade
TP-Link ID
DDNS
NAT Forwarding Virtual Servers
Port Forwarding
Port Triggering
DMZ
UPnP
IPTV IGMP Proxy
IGMP Snooping
Bridge
Tag VLAN
DHCP Address Reservation
DHCP Client List
Server
DDNS TP-Link
NO-IP
DynDNS
Management Tether App
Webpage
Check Web Emulator>
PHYSICAL
Dimensions (W×D×H) 10.2 × 5.3 × 1.5 in
(260.2 x 135.0 x 38.6 mm)
Package Contents Wi-Fi Router Archer AX3000
Power Adapter
RJ45 Ethernet Cable
Quick Installation Guide
OTHER
System Requirements Internet Explorer 11+, Firefox 12.0+, Chrome 20.0+, Safari 4.0+, or other JavaScript-enabled browser

Cable or DSL Modem (if needed)

Subscription with an internet service provider (for internet access)
Certifications FCC
Environment Operating Temperature: 0℃~40℃ (32℉ ~104℉)
Storage Temperature: -40℃~70℃ (-40℉ ~158℉)
Operating Humidity: 10%~90% non-condensing
Storage Humidity: 5%~90% non-condensing
TEST DATA
WiFi Transmission Power
FCC:
<30dBm(2.4GHz & 5.15GHz~5.825GHz)
WiFi Reception Sensitivity 5 GHz:
11a 6Mbps:-97dBm, 11a 54Mbps:-79dBm
11ac VHT20_MCS0:-96dBm, 11ac VHT20_MCS11:-66dBm
11ac VHT40_MCS0:-94dBm, 11ac VHT40_MCS11:-63dBm
11ac VHT80_MCS0:-91dBm, 11ac VHT80_MCS11:-60dBm
11ac VHT160_MCS0:-88dBm, 11ac VHT160_MCS11:-55dBm
11ax HE20_MCS0:-95dBm, 11ax HE20_MCS11:-63dBm
11ax HE40_MCS0:-92dBm, 11ax HE40_MCS11:-60dBm
11ax HE80_MCS0:-89dBm, 11ax HE80_MCS11:-58dBm
11ax HE160_MCS0:-85dBm, 11ax HE160_MCS11:-55dBm
2.4 GHz:
11g 6Mbps:-97dBm, 11a 54Mbps:-79dBm
11n HT20_MCS0:-97dBm, 11n HT20_MCS7:-78dBm
11n HT40_MCS0:-95dBm, 11n HT40_MCS7:-75dBm
11ac VHT20_MCS0:-96dBm, 11ac VHT20_MCS11:-67dBm
11ac VHT40_MCS0:-94dBm, 11ac VHT40_MCS11:-64dBm
11ax HE20_MCS0:-96dBm, 11ax HE20_MCS11:-64dBm
11ax HE40_MCS0:-93dBm, 11ax HE40_MCS11:-61dBm

†Claims about 802.11ax Wi-Fi technology are based on comparisons of the expected maximum theoretical data rates for one spatial stream using 802.11ax at 160 MHz (1201 Mbps) as opposed to one spatial stream using 802.11ac at 80 MHz (433 Mbps) as documented in IEEE 802.11ax draft 3.0 spec and IEEE 802.11-2016 wireless standard specifications, and require the use of similarly configured 802.11ax wireless network routers.
Use of 802.11ax Wi-Fi standard requires clients to also support the 802.11ax Wi-Fi standard.

‡802.11ax 2x2 160MHz enables 2402Mbps maximum theoretical data rates, 3X faster than standard 802.11ac 2x2 80MHz (867Mbps) and nearly 6x faster than baseline 1x1ac (433Mbps) Wi-Fi as documented in IEEE 802.11 wireless standard specifications, and require the use of similarly configured 802.11ax wireless network routers.

§ Up to 75% lower latency” is based on Intel simulation data of 802.11ax with and without OFDMA using 9 clients. Average latency without OFDM is 36ms, with OFDMA average latency is reduced to 7.6ms.  Latency improvement requires that the AP and all clients support OFDMA.

***Capacity refers to overall average throughput. This amendment defines standardized modifications to both the IEEE 802.11 physical layers (PHY) and the IEEE 802.11 Medium Access Control layer (MAC) that enable at least one mode of operation capable of supporting at least four times improvement in the average throughput per station (measured at the MAC data service access point) in a dense deployment scenario, while maintaining or improving the power efficiency per station.

*Intel and the Intel logo are trademarks of Intel Corporation or its subsidiaries in the U.S. and/or other countries.

**Saving clients' battery power requires clients to also support the 802.11ax Wi-Fi standard. Actual power reduction may vary as a result of network conditions, client limitations, and environmental factors.

△Use of OFDMA requires clients to also support OFDMA

This router may not support all the mandatory features as ratified in Draft 3.0 of IEEE 802.11AX specification.