This Omada EAP670 vs EAP610 matchup represents the top and bottom tiers of TP-Link’s Wi-Fi 6 business access points (APs). They replace the EAP245 and other Wi-Fi Wi-Fi 5 variants.
The EAP670 is a top-tier broadcaster, and the EAP610 is entry-level. (In between them, there are a couple of mid-tier models.) Other than the differences in hardware specs and physical sizes, these APs share the same characteristic as the rest of the TP-Link Omada family.
Among other things, they can work together to form an Omada mesh system. In this review, however, I evaluate each as a single standalone PoE access point.
Here’s the bottom line: For the current price of $150 and $90, the Omada EA670 and Omada EA610 are excellent purchases for anyone who needs a quick way to add or scale up Wi-Fi 6 coverage in a large home.
And you’ll figure out which one to get when you’re through with this review. Check out this post on TP-Link’s Omada mesh for more about using multiple units in a robust business Wi-Fi system.
TP-Link Omada EAP670 vs EAP610: Two excellent access points of different sizes (for different needs)
If you look at the Omada EAP670 or Omada EAP610 individually for the first time, you might be unable to tell one from the other. They are practically the same taking a round shape — designed to be wall- or ceiling-mounted — with one PoE network port.
When put near each other, though, the latter is the mini version of the former. And on the inside, the two are also vastly different in terms of hardware specs.
Let’s check the tech.
TP-Link Omada EAP670 vs EAP610: Hardware specifications
Besides being much more significant — about twice the size –, the EAP670 also has higher Wi-Fi specs and support for 160MHz. It also has a 2.5GbE (PoE) port to deliver better Wi-Fi throughputs.
The EA610 is noticeably more affordable.
Other than that, the two are very similar, sharing the same firmware and features. They also share the same power adapter and PoE+ standard.
| TP-Link Omada EAP670 | TP-Link Omada EAP610 | |
| Device Type | PoE Access Point | PoE Access Point |
| Accessories Included | • Power Adapter • Ceiling/Wall Mounting Kits |
• Power Adapter • Ceiling/Wall Mounting Kits |
| Wi-Fi Bandwidth | Dual-band AX5400 | Dual-band AX1800 |
| 5GHz Band (channel width) |
4×4 AX: Up to 4804 Mbps (20/40/80/160MHz) |
2×2 AX: Up to 1201 Mbps (20/40/80MHz) |
| 2.4GHz Band (channel width) |
2×2 AX: Up to 574 Mbps (20/40MHz) |
2×2 AX: Up to 574 Mbps (20/40MHz) |
| PoE Standard | 802.3at PoE (injector not included) |
802.3at PoE 48V Passive PoE (injector not included) |
| Port | 1× 2.5GbE (PoE) | 1× GbE (PoE) |
| Dimensions | 9.6 × 9.6 × 2.5 in (243 × 243 × 64 mm) |
6.3 × 6.3 × 1.3 in (160 × 160 × 33.6 mm) |
| Weight | 1.7 lbs (782 g) | .9 lb (402 g) |
| MU-MIMO OFDMA |
Yes | Yes |
| Total SSIDs | 16 (8 for each band) |
16 (8 for each band) |
| Captive Portal | Yes | Yes |
| Wireless Functions | • 1024-QAM • 4× Longer OFDM Symbol • OFDMA • Multiple SSIDs (Up to 16 SSIDs, 8 for each band) • Enable/Disable Wireless Radio • Automatic Channel Assignment • Transmit Power Control (Adjust Transmit Power on dBm) • QoS(WMM) • MU-MIMO • Seamless Roaming • Omada Mesh • Band Steering • Load Balance • Airtime Fairness • Beamforming • Rate Limit • Reboot Schedule • Wireless Schedule • Wireless Statistics based on SSID/AP/Client • HE160 (160 MHz Bandwidth) |
• 1024-QAM • 4× Longer OFDM Symbol • OFDMA • Multiple SSIDs (Up to 16 SSIDs, 8 for each band) • Enable/Disable Wireless Radio • Automatic Channel Assignment • Transmit Power Control (Adjust Transmit Power on dBm) • QoS(WMM) • MU-MIMO • Seamless Roaming • Omada Mesh • Band Steering • Load Balance • Airtime Fairness • Beamforming • Rate Limit • Reboot Schedule • Wireless Schedule • Wireless Statistics based on SSID/AP/ClientSame |
| Power Adapter | Input: 110-240V Output: 12 V / 1.5 A DC (included) |
Input: 110-240V Output: 12 V / 1.5 A DC (included) |
| Power Consumption (per 24 hours) |
≈ 210 Wh (measured with power adapter) |
≈ 170 Wh (measured with power adapter) |
| US Price (at review) |
$150 | $99 |
Both broadcasters support Power over Ethernet (PoE) and require the 802.3at standard (PoE+) or higher. To use either, you need first to get your home wired.
Standard access points with excellent local web user interface
Like the case of all Omada access points, the EAP670 and EAP610 come with a familiar local user web interface. Consequently, you can use each as a standalone broadcaster without an account with TP-Link, which is always great for privacy.
What’s more, you can set up each the standard way you do any PoE access point. But here is the gist to get each of them installed in a network:
- Mount the AP where you want it to be — the AP can be installed on a wall or a ceiling and include mounting accessories.
- Connect one end of a network cable to the AP’s PoE network port and the other to a PoE switch — make sure you use a PoE+ or higher port. If a PoE switch is unavailable, you’ll need to use the included power adapter or an injector.
- Extra: For the EAP670 to deliver the best performance, use a Multi-Gig PoE switch or a Multi-Gig injector, such as the TrendNet TPE-215Gi.
And that’s it.
The next step is to set up the AP’s Wi-Fi network, which is very simple as long as you know its IP address. Since the device doesn’t have an IP of its own — it gets one from the network’s router — you need to look for it on the router’s list of connected clients.
Once you’ve figured out the IP, enter it into a local computer’s browser, and the AP’s web interface will greet you.
Here’s what you can the only thing you need to do is pick the SSID and passwords for each band (2.4GHz and 5GHz), and you’re good to go.
Or you can dig into the interface to further customize many more features and settings, even as a standalone single Wi-Fi broadcaster — more on that below the photos.
TP-Link Omada EAP670 vs EAP610: Detail photos
A ton of Wi-Fi settings and features via a well-thought-out interface
Like most business access points, the new TP-Link Wi-Fi 6 Omada access point comes with a host of Wi-Fi settings and features you can use.
For example, you can create multiple SSIDs for each band — up to 8 per band — and set up IP isolations or signal captive portals for each.
On top of that, there are also advanced features such as QoS, MAC filtering, Wi-Fi scheduling, band-steering, VLAN, and so on.
Most importantly, the web interface is well-organized and responsive, among the best I’ve used in business access points, and better than the case of ZyXel, Trendnet, or even Netgear.
The EAP67 and EAP610 (as well as other Omada access points) are mesh-ready. You can use multiple units to extend the Wi-Fi coverage for a large area.
However, a controller, such as the OC200 or OC300, or a computer with the controller software is recommended in this case. I described that scenario in detail in this post on TP-Link Omada mesh.
TP-Link Omada EAP670 vs EAP610: Excellent performance
I tested the EAP670 and EAP610 together and separately for over a week, and both proved impressive, landing among the fastest Wi-Fi 6 access points for their tiers.
The former was markedly faster among the two thanks to the higher Wi-Fi specs and the 2.5GbE port. But the EAP610 also held its own, as you’ll note in the charts.
Both access points passed my 3-day stress test with zero issues or disconnections. They worked well with the included power adapter and when powered by my Zyxel XS1930-12HP PoE++ switch.
In terms of coverage, the EAP670 was about 20% better, give or take. It’s always hard to determine a broadcaster’s Wi-Fi range, but when appropriately mounted, the EAP610 can handle some 1700 ft2 (158 m2) and the EAP670 about 2200 ft2 (204m2). Your mileage sure will vary.
In all, these two access points are both excellent for their price points. I was impressed by how well they worked.
Pros
Excellent Wi-Fi 6 performance and coverage at a low cost
Lots of settings and features, including Wi-Fi captive portals and mesh function
Easy to mount with included accessories
Cons
The EAP670 is bulky, and the EAP610 has no Multi-Gig port; both could be more user-friendly for home users
Controller required for mesh-related features
No Smart Connect; PoE injector not included
Conclusion
The Omada EAP670 and Omada EAP610 from TP-Link are the excellent standalone access point for their price point. They are great deals.
No matter which you get, each is a straightforward, well-performing Dual-band Wi-Fi 6 broadcaster to boot, with more potential down the line.
As for which you should get, the EAP670 is excellent for a home with Gigabit or faster Internet; and the EAP610 is for those with a more modest bandwidth need.
While the former has a better range, you can always get multiple units to scale up the coverage — check out my take on Omada mesh for more. In any case, make sure to get your home wired with network cables first.
