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Installing the DD-WRT firmware can improve your connection, offer better VPN support, allow you to customize QoS, and increase network security. However, not all routers are compatible with the firmware and finding one can be tough. That’s why I’ve made this list of DD-WRT compatible routers.
You shall browse the internet, open multiple tabs, and find the routers that support DD-WRT or you can trust this guide and pick the best-suited router from this list. The former requires a research-oriented mindset and consumes huge time, the latter saves you huge time and gets you the best options.
This article will answer your questions and guide you in making an informed decision. I looked into devices that fulfil the basic requirements for installing DD-WRT and offer multiple features with the potential to be exploited.
Table of Contents
- 9 Best DD-WRT Compatible Routers in 2023
- 1. Best with Wi-Fi 6: Asus RT-AX88U
- 2. Best for Gaming: Linksys WRT3200ACM
- 3. Best Port Arrangement: NETGEAR Nighthawk X6
- 4. Best With VPN Support: TP-Link Archer C3200
- 5. Best Under $150: D-Link DIR-882-US
- 6. Best For Office Use: MOTOROLA MR2600
- 7. Best for Large Homes: Asus RT-AC68U
- 8. Best Under Budget: NETGEAR Nighthawk R6700
- 9. Cheapest Option: TP-Link Archer A7
- Frequently Asked Questions
- Verdict
After a comparative analysis of over 30 routers in the market space with no dearth of products from Netgear, D-Link, Asus, TP-Link, I have narrowed it down to 9 devices that fit best for specific scenarios.
Ranging from dedicated premium gaming routers to all-around performers, I delved into routers that provide a balance of utility, price, and features for households/ small enterprises (value-for-money options) and the budget options that tend to basic requirements.
1. Best with Wi-Fi 6: Asus RT-AX88U
- Wireless Standard: Wi-Fi 6 (802.11ax)
- Wireless Speeds: 1148 + 4804 Mbps
- Ports: 8 LAN + 1 WAN + 2 USB 3.1
- Range: Up to 4500 Sq Ft
- App Support: Yes
As the primary essence of the DD-WRT firmware is to make the router more secure than ever, I feel there aren’t many better options to accommodate it than the Asus RT-AX88U. Essentially a gaming router, the RT-AX88U already comes equipped with QoS support and an excellent wireless range, which makes it more appropriate for invested gamers.
Also, as compared to the RT-AX86U, the RT-AX88U is more accommodative towards the DD-WRT firmware, in part due to the better wireless speeds and improved range.
Why is it best suited for DD-WRT Firmware?
The DD-WRT firmware is meant to amplify the innate capabilities of a router and it is only appropriate to flash it on the RT-AX88U, owing to the existing skill sets. Starting from a diverse set of high-speed ports to an intuitive web interface that supports power cycling, this router has everything to assist the DD-WRT flashing.
Speed & Coverage
As far as the speeds are concerned, the dual-band router supports 1148Mbps for the 2.4GHz band and over 4804Mbps for the 5GHz or near the band. Topping the path-breaking speeds is the long-range network consistency that extends up to 4500 sqft, in terms of overall coverage.
However, with DD-WRT firmware installed it becomes easier to amplify the range to up to 6000 sq ft. Also, DNS caching is way better, even inherently, which ensures that the web addresses load faster.
Design & Build
The well-ventilated RT-AX88U weighs close to 2.2 pounds and measures 11.8 x 7.4 x 2.4 inches. The plastic-clad form factor doesn’t heat up a lot despite the integrated processor working that bit harder to process the encrypted and decrypted traffic, something that is possible to adopt with the DD-WRT firmware installed.
Finally, there are four external antennas for shouldering a majority of the routine workload.
Port Management & App Support
The RT-AX88U from Asus comes loaded with 8 LAN GigE ports. This functionality lets you connect the router directly to several bandwidth-intensive devices like Smart TVs, Gaming consoles like Xbox One, PlayStation, etc. Plus, Asus offers a dedicated router app to help you control the device and even monitor the usage patterns, remotely.
Other Features
What makes the most sense to a router enthusiast is the IPV6 functionality for redirecting online traffic better. Plus, there is a 1.8GHz processor with 4-cores in play to manage VPN regulated traffic better, in case you choose to secure the entire home network by installing a VPN at the backend.
Asus also offers 256MB of flash memory for storing firmware details. However, there are two USB 3.1 ports available, in case you want to connect external data hubs and peripherals. The 1GB RAM works in tandem with the chipset to help you make the most of Quality of Service— an attribute that furthers the router’s ability to prioritize certain tasks over others.
Conclusion
Overall, the Asus RT-AX88U is one of the more balanced routers on the list that might feel a tad pricey to some. However, the specs sheet is certainly justified as if you plan on flashing a router with DD-WRT firmware to increase its gaming capabilities; this is the perfect product to consider.
Plus, as compared to other routers on the list, the RT-AX88U boasts better overall security specs like device blocking, malicious website blocking, risk assessment, and more, which ensure better device health, with or without the DD-WRT firmware flashed.
- Comes with adaptive QoS
- Supports VPN pass-through
- Several high-speed ports
- Excellent range
- Reliable near band speeds
- Comes with MU-MIMO support
- Real-time 2.4GHz band speeds are slower
- Pricey
2. Best for Gaming: Linksys WRT3200ACM
- Wireless Standard: Wi-Fi 5 (802.11ac)
- Speeds: 600 + 2600 Mbps
- Range: Up to 2500 Sq Ft
- Ports: 4 LAN + 1 WAN + 1 USB 3.0 + 1 USB 2.0
- App Support: Yes
The Linksys WRT3200ACM comes with a Killer prioritization engine that gives higher priority to gaming activities and reduces latency during gaming.
Complement your Alienware or gaming PC with this Linksys router and get an improved Twitch streaming performance. With support to open-source firmware, dd-wrt opens up the higher potential of the router.
Speeds & Coverage
Conditional to higher internet speed from ISP, the router can deliver peak speeds of 600mbps in 2.5GHz and 2600mbps in 5GHz frequency. It can cover large surface areas up to 2500 sq ft while supporting over 20 devices.
Design, Build & Hardware
The Linksys dd-wrt router weighs close to 3.57 lbs with a sleek-looking black matte design. The device owes its powerful performance to a dual-core processor clocking at 1.8GHz, complemented by a RAM of 512MB and storage memory of 256MB.
Antena & Ports
The router has 4 short, yet powerful antennas reinforced with MU-MIMO and beamforming. The array of one WAN port, four LAN ports, one USB 3.0 port, and an eSATA/USB 2.0 combo port primes this device for high-wired gigabit connections and shared network storage devices/printers.
App Support
The WRT3200ACM comes with support for mobile applications but gives limited control over the router settings. There’s also a Web GUI to guide you through the installation. You do get parental controls but it is the lack of other advanced settings that make the dd-wrt firmware more appealing. It is also compatible with the OpenWRT firmware.
Conclusion
If you are looking for a dedicated gaming router to reduce your gaming latency and improve your gaming experience, the Linksys WRT3200ACM can be a viable solution. But the DFS, tri-stream 160MHz potential, and open-source readiness make this more appealing for its premium price.
- 1.8GHz dual-core processor
- Killer Prioritization Engine
- MU-MIMO
- Open-source ready
- Tri-stream 160MHz
- Lack of mobile application support
- Expensive
3. Best Port Arrangement: NETGEAR Nighthawk X6
- Wireless Standard: Wi-Fi 5 (802.11ac)
- Speeds: 600 + 1300 + 1300 Mbps
- Range: Up to 3500 Sq Ft
- Ports: 4 LAN + 1 WAN + 1 USB 3.0 + 1 USB 2.0
- App Support: Yes
In Nighthawk X6, Netgear gives a gaming router capable of covering large homes and offers a stable internet connection to multiple devices. With the tweaks coming through dd-wrt firmware, the potential of the router improves bridging the gap between its utility and price.
Speeds & Coverage
The tri-router is geared to deliver high-speed internet scaling up to 600mbps and 1300mbps on 2.5GHz and two 5GHz frequencies respectively. With extensive coverage of 3500 sq ft, the router can support up to 45 devices. This makes the router suitable for 4k streaming on multiple devices.
Design, Build & Hardware
At 1.03 lbs, the Netgear router is neither lightweight nor heavy. With a glossy design, the black body has a bulky presence. It houses a 1.7GHz dual-core processor, an operating memory of 256MB, and storage of 128MB.
Antenna & Ports
You can find 6 external antennas attached to the backside of the router. The router’s large footprints enable it to accommodate one WAN port, four LAN ports, two USB 3.0 ports, and one eSata port. It gives ample avenues for keeping your gaming console, desktops, tv connected. The network storage devices, printers, and external dongles get their room in the router.
App Support
Netgear Nighthawk application keeps the installations simple but doesn’t offer extensive controls of the web GUI. With parental controls, you can block websites using URLs, keywords with a schedule.
Conclusion
The support of 160 MHz channels, beamforming, 4×4 MU-MIMO, and its dedicated eSATA port, makes it a probable solution as a gaming router for large homes or as a workhorse for small-medium home-office setup.
- 160MHz channel support
- 1.7GHz dual-core processor
- Dynamic QoS
- Twin USB 3.0 and eSATA port
- 15 Channel DFS
- Expensive
- Limited Genie Mobile application
4. Best With VPN Support: TP-Link Archer C3200
- Wireless Standard: Wi-Fi 5 (802.11ac)
- Speeds: 600 + 1300 + 1300 Mbps
- Range: Up to 2500 Sq Ft
- Ports: 4 LAN + 1 WAN + 1 USB 3.0 + 1 USB 2.0
- App Support: Yes
The Archer C3200 from TP-Link is powered by a dual-core processor clocking at 880 MHz, featuring support for Wi-Fi 5 Multi-user – MIMO, and the latest encryption standards of WPA 3 to keep your internet connection secure.
Speeds & Coverage
With some support from ISP, high speeds of 600mbps in 2.4GHz and 1300mbps in 5GHz come within the purview of the router. The users can stream HD media from firestick, play online games and attend business meetings and VoIP calls on up to 25 devices, spread across a surface area of 2500 sq ft.
Design, Build & Hardware
Weighing close to 3 lbs, the Archer sports a highly ventilated black design. The casing accommodates a dual-core processor clocking at 1GHz with three offload co-processors, 256MB operating memory, and storage memory of 128MB.
Antenna & Ports
The router comes with 6 foldable external antennas branching out of the lateral sides. With one WAN port, four LAN ports, one USB 3.0 port, and one USB 2.0 port, high-speed wired connections, sharing printers and network drives within the home network becomes easier.
App Support
TP-Link brings one of the most modern, simplistic user-interface designs in mobile applications and the web GUI. Users can easily install the router, irrespective of the platform.
The parental control accessed through the web interface gives the ability to control the content visited by devices in the home network. You can add multiple devices with time schedules. The interface allows users to adjust bandwidth for devices to optimize the network and enable security options to protect the network from cyber-attacks.
Conclusion
Archer C3200 is a workable solution for congested apartments, large households or small enterprises looking for a tri-band VPN router to accommodate more devices simultaneously.
- Dual-core and 3 offload processor
- Airtime Fairness
- VPN support
- Bandwidth control QoS
- Non-adjustable antennas
- Low storage
5. Best Under $150: D-Link DIR-882-US
- Wireless Standard: Wi-Fi 5 (802.11ac)
- Speeds: 800 + 1733 Mbps
- Range: Up to 1800 Sq Ft
- Ports: 4 LAN + 1 WAN+ 1 USB 3.0 + 1 USB 2.0
- App Support: Yes
The D-Link DIR-882-US brings a lot of advanced features at a very affordable price Powered by a dual-core processor, the router comes with two USB ports, 4×4 spatial streams, and the potential of tapping into high-speed internet with dd-wrt firmware.
Speeds & Coverage
Technologies like MU-MIMO and Beamforming, the DIR-882 can deliver high-speed internet to multiple devices. It can scale up to 800mbps on 2.4GHz and 1733mbps on 5GHz, respectively. Its coverage can extend up to 1800 sq ft, supporting up to 15 devices.
Design, Build & Hardware
At 1.25 lbs, this sub $150 router looks sleek, sans the four large antennas. The LED lights are hardly noticeable, making their presence less conspicuous. The 128MB operating memory and 16MB storage memory act as a limiting factor in data-intensive activities, but it does carry enough space for the dd-wrt firmware and further updates.
Antenna & Ports
The router comes with 4 large dual-band antennas. The D-Link router has 4 Ethernet ports and 1 WAN port offering room for gigabit-wired connections. The USB 3.0 & USB 2.0 port enables sharing network-attached storage devices and printers.
App Support
The QRS mobile application and D-Link Web GUI sport a simplistic design that ensures quick setup and management. The smart connect technology maintains stable connectivity to the device by switching between frequencies. The web GUI allows you to filter websites, create schedules for internet access, enable device priority, set up VPN, customize and configure security settings.
Conclusion
The support of 160MHz channels brings a high-speed potential to the router. With support to shared NAS/printers and other technologies, the DIR-882 makes a convincing case as the perfect router for small/medium-sized or home-office environments.
- Advanced SmartBeam
- 160MHz Channel support
- QoS priority for devices
- Dual-core processor
- Intuitive user-interface
- Low operating/storage memory
6. Best For Office Use: MOTOROLA MR2600
- Wireless Standard: Wi-Fi 5 (802.11ac)
- Speeds: 800 + 1733 Mbps
- Range: Up to 2000 Sq Ft
- Ports: 4 LAN + 1 WAN + 1 USB 3.0
- App Support: No
If you can find enough patience to manage your router through the web interface, the MR2600 from Motorola delivers high-speed internet with Smart QoS, decent NAS performance, and multiple security features.
Speeds & Coverage
The routers can deliver high-speed internet up to 800mbps on 2.5GHz, 1733mbps on 5GHz frequency. With a coverage area of 2000 sq ft, the routing device can support over 20 devices easily for the 200 Mbps internet plan.
Design, Build & Hardware
At 1.1 pounds, the Motorola router is lightweight. Sporting a black chequered design, nothing looks out of place except the USB port in the front. The black casing finds room for a dual-core processor, RAM of 128MB, and storage memory of 16MB, which gives just enough room for dd-wrt firmware.
Antenna & Ports
The 4 adjustable antennas, reinforced with MU-MIMO and beamforming can disperse stable Wi-Fi signals across a large surface area. It comes with four LAN ports, one WAN port, and one USB 3.0 port, ensuring high-speed wired bandwidth for TVs, gaming consoles, and desktops.
App Support
The MR2600 is solely managed by the web-based GUI. Lack of mobile application removes the possibility of remote monitoring for parents with kids/teens at home. The installation and router management happens through the web interface.
The web interface allows users to create customized URL filters, set up internet access schedules, and add customized parental control rules for multiple devices. You can set up guest networks and protect your devices in your home network from security threats.
Conclusion
If not for the lack of mobile application support, the Motorola MR2600 will find itself in smaller homes with kids. It offers an affordable solution for working professionals sharing an internet connection under the same roof.
- Dual-core processor
- Adjustable/Removable Antennas
- Beamforming (Both Implicit & Explicit)
- MU-MIMO
- DLNA media sharing
- Lack of mobile application support
7. Best for Large Homes: Asus RT-AC68U
- Wireless Standard: Wi-Fi 5 (802.11ac)
- Wireless Speeds: 600 + 1300 Mbps
- Ports: 4 LAN + 1 WAN + 1 USB 3.0 + 1 USB 2.0
- Range: Up to 3000 Sq Ft
- App Support: Yes
If you are looking to find a middle ground, where router-specific capabilities meet the best possible price tag, there is no point second-guessing the Asus RT-AC68U! The router isn’t just a competent networking device but also the perfect choice to flash with DD-WRT if you want to use it for a bigger home or office premise.
Having the open-source firmware flashed helps you increase the router coverage, which is already better when compared with the older RT-AC68U.
Why is it best suited for DD-WRT Firmware?
The availability of a standard dual-core processor with a reliable clock speed of up to 1GHz makes it one of the more formidable candidates to embrace the DD-WRT firmware. Therefore, if you ever plan on installing a VPN to manage the traffic in the clandestine mode, the routing SoC, coupled with 256MB of RAM, can easily handle encrypted and decrypted transmissions with ease.
Speed & Coverage
Despite the DD-WRT firmware pushing the processing setup to absolute limits, the router is still capable enough of exhibiting speeds of up to 600Mbps and 1300Mbps, for the 2.4GHz and 5GHz bands, respectively.
I tried using the router with an active 500Mbps internet plan and could get speeds of up to 120Mbps for the 2.4GHz band and 455Mbps for the 5GHz channel. Upload speeds, however, were restricted to 15Mbps and 44Mbps, respectively.
The router coverage extends up to 3000 sq ft, which can be optimized further with the DD-WRT firmware installed. This single thing can feel like hitting a lottery if you need a router for a multi-story house or warehouse.
Design & Build
From a structural perspective, this plastic-made, durable router features three external antennas and overall dimensions of 6.3 x 3.3 x 8.6 inches. The 1.40-pound device is easy to carry around and doesn’t heat up a bit despite the open-source firmware letting you amplify its existing capabilities.
Port Management & App Support
Getting the best throughput across wired LAN connections is now easier with 4 Ethernet ports to rely on. Plus, there are two USB ports, in case you want to connect peripherals and data hubs to the same. If you can get the DD-WRT firmware flashed onto the router, you can view and monitor the internet usage patterns easily, with the compatible Asus app.
Other Features
In addition to the existing specs, the RT-AC68U also offers Adaptive QoS support for traffic prioritization, IPv6 standard, and advanced security specs in parental control, website blocking, and more.
Conclusion
Overall, the Asus RT-AC68U is one of the more dependable DD-WRT compatible routers on the list, best known for its excellent collection of LAN ports, better reliability, and excellent range, both with or without the DD-WRT firmware.
However, the web interface pertaining to this product is enriched with customizable options, especially related to VPN, which separate it from other routers on the list, especially when it comes to expanding the capabilities with the open-source firmware.
- Reliable QoS
- 4 LAN ports for faster connections
- IPv6 support is available right out of the box
- Excellent range for the price
- Light and portable
- Lacks MU-MIMO support
- No Link Aggregation support, out of the box
8. Best Under Budget: NETGEAR Nighthawk R6700
- Wireless Standard: Wi-Fi 5 (802.11ac)
- Speeds: 450 + 1300 Mbps
- Range: Up to 1500 Sq Ft
- Ports: 4 LAN + 1 WAN + 1 USB 3.0
- App Support: Yes
The Netgear Nighthawk AC1750 offers the right balance of utility with features like Beamforming plus, parental controls, Armor Cybersecurity, VPN support that keeps your devices connected to a secure, high-speed internet.
Speeds & Coverage
The router can achieve high speeds of 450mbps in 2.5GHz, 1300mbps in 5GHz, depending on the limits placed by your ISP. With coverage of 1500 sq ft, offering support of up to 25 devices, the R6700 is the right choice for smaller-medium homes.
Design, Build & Hardware
The device weighs approximately 1.6 lbs, placing itself midway between heavy and lightweight routers. It sports a black textured design with air vents on the sides. The 128MB of flash storage suffices to accommodate the dd-wrt firmware, and a RAM of 256MB plays a vital role in HD streaming, Wi-Fi calling and online gaming.
Antenna & Ports
The rear end of the router accommodates 3 antennas and the collection of ports and power i/o. This sub $100 wireless device comes with one WAN port, four LAN ports, and a USB 3.0 port at the front. A small household has ample avenues for 1-gigabit wired connections for your gaming console, smart tv, or your work desktop.
App Support
Nighthawk mobile application allows you to control your home network, even while you are away from home. The setup wizard guides through the installation with minimal input from the user’s end. The Web GUI opens up to advanced settings.
By setting online time limits, creating a bedtime schedule, and controlling the exposure on applications, you get more control over your kid’s internet consumption. NETGEAR Armor protects the devices in the network from viruses, malware, and intrusions.
Conclusion
Enabled by dual-core processors, the R6700 brings a plethora of features with the potential tweaks of dd-wrt, makes this an excellent value for money option for any small-medium household with students and working professionals.
- Fast Network Storage
- Cloud Storage
- VPN Support
- Easy Voice controls
- Beamforming+
- Limited mobile functionality
- Front side USB placement
9. Cheapest Option: TP-Link Archer A7
- Wireless Standard: Wi-Fi 5 (802.11ac)
- Speeds: 450 + 1300 Mbps
- Range: Up to 2500 Sq Ft
- Ports: 4 LAN + 1 WAN + 1 USB 2.0
- App Support: Yes
The TP-Link Archer A7 doesn’t boast advanced technology as MU-MIMO or Beamforming. It offers QoS, parental controls, high-speed internet with extended coverage in a very limited budget, with the potential to be increased by the dd-wrt firmware.
Speeds & Coverage
The router can achieve speeds of up to 450mbps in 2.4GHz and 1300mbps in 5GHz, conditional to the internet connection offered by the ISP. With extended coverage of 2500 sq ft, TP-link claims the routing device can support up to 50 devices simultaneously.
Design, Build & Hardware
At 0.90 lbs, the router is easy on the hands as it is on the wallet. Two thin grooves divide the shiny black casing into three equally sized rectangles with the indicators lining up on the front part and the port antennas on the third part. The router has an operating memory of 128MB and a storage of 16MB fulfilling minimal requirements for a dd-wrt firmware.
Antenna & Ports
The Archer A7 has 3 antennas towering from its rear end. The TP-Link device has four ethernet ports, one Gigabit WAN port, and a USB 2.0 port. The USB 2.0 port will be ideal for sharing printers than network storage devices, owing to its data-transfer rates.
App Support
The tether mobile application supports both iOS and Android-based devices, offering an intuitive, user-friendly interface on both platforms. Owing to the interface, the users can cruise through the initial setup within a few minutes.
With parental controls, you can create multiple profiles, add multiple devices, customize blacklist/whitelist with keywords/URL and restrict/allow the internet with time schedules. You can also monitor your child’s internet usage, prioritize devices, and protect the network from intrusions.
Conclusion
If you are looking for a budget solution to manage your network, protect your children from undue exposure, and monitor internet activity, TP-Link Archer A7 can be the right router for you with its potential furthered by the dd-wrt firmware.
- VPN support
- Parental and access control
- TP-Link Mesh compatible
- QoS by device
- Alexa compatible
- Limited control over settings
- No USB 3.0 port
Frequently Asked Questions
Can I get a router pre-installed with DD-WRT firmware?
Yes, DD-WRT routers are available in the market. There are multiple vendors offering routers installed with DD-WRT firmware. They are available at a premium over the price of the router. The service providers offer a warranty, maintenance, and support to flash routers as a part of their package.
Does installing DD-WRT affect the Manufacturer’s Warranty?
Depending on the company and its policy, installing an unsupported or changing the firmware can void its warranty. While there are companies that promote open-source-ready routers available in the market, the users should install DD-WRT firmware with caution or through an authorized service provider to avoid bricking the router.
Are there other firmware apart from DD-WRT?
Yes, there are multiple open-source and custom firmware projects that target wireless routers. There are various versions of OpenWRT projects like LEDE, DD-WRT, Gargoyle, etc., each of them trying to improve a different aspect of the router. Other popular firmware projects are HyperWRT, Tomato, FreeBSD, Zeroshell, VyOS, etc.
What are the advantages of having a DD-WRT router?
The router’s functionality is limited by regulators. Installing a DD-WRT router opens the potential of the router. Improved IPv6 functionality, overclocking/improved performance, Customizable QoS, Blocking Ads, support for VPNs is amongst the few advantages of having a DD-WRT installed router.
What are the risks involved in installing DD-WRT to a router?
Overclocking unlocks the hardware potential, but it could cause damage to components. Flashing comes with the risk of voiding the manufacturer warranty. Any missteps in installing DD-WRT firmware can completely brick your router, making it useless. Ensure the benefits of installing a DD-WRT firmware outweighs the loss. Be ready to lose the comfort of user-friendly management applications.
Can the dd-wrt firmware be uninstalled without voiding the warranty?
Yes, it is possible. The dd-wrt interface provides options for selected models to revert to the router’s original firmware. Trying to downgrade the router software runs the risk of bricking the router. I recommend exercising utmost caution and following instructions carefully or let an expert take care of the downgrade.
Verdict
Requirements and personal choices are the essential factors in deciding the right dd-wrt routing device. The analysis considers multiple scenarios and aims at finding the best fit for an assumed requirement.
- The Linksys WRT3200ACM is a premium option, but a go-to option if you are looking for a dedicated gaming router.
- Netgear Nighthawk X6 is a dd-wrt compatible router with high potential and easily caters to a medium household with multiple devices.
- The TP-Link Archer A7 and MOTOROLA MR2600 offer value for money routers with a higher potential unlocked by the dd-wrt firmware.
For Morton, reviewing a router is just like spending another day at the office. As BCCA’s senior copywriter, Morton believes is explaining every concept concerning routers, networking technologies, and additional routing specs. Also, Morton is our go-to man if we are looking to get the ISP-dependent internet plans tested across devices.
Помогите, пожалуйста, выбрать роутер для покупки его в Москве в ближайшие дни с целью последующей прошивки DD-Wrt.
Я купила китайский роутер на алиэкспрессе по ключевым словам «DD-wrt», и это было ошибкой — на роутере нет jffs, и ничего от предустановленного DDwrt я не получила (на алиэкспрессе, не смотря на то, что там есть куча интересных вещей, такое — не соотвествие реальных характеристик тем, что интуитивно ожидаются, случается часто. Хотя роутер обошёлся в 600р, так что не жалко), времени ждать месяц для новой попытки заказа там, или на Амазоне, ебее теперь нет.
Я не слежу за рынком роутеров, совершенно не разбираюсь в линейках, поэтому и прошу помощи. Мои требования:
1) не очень дорого
2) полная поддержка DDwrt (не обязательно официальная, со стороны производителя, поддержка коммьюнити ОК)
3) что бы можно было включить jffs — на сколько я понимаю, SD карта должна подключаться, правильно? На роутер я положу большое количество питон-скриптов, поэтому ПЗУ с не самым маленьким объемом(не пару мегабайт) очень желательна.
4) раз пошла такая пляска, и я покупаю новый роутер, пусть будет возможность использовать его в сетях 4G — или что-то встроенное (это дороже, наверное?), или просто USB-порт, что бы воткнуть LTE-модем
5) к WiFi особенных требований нет, хотя поддержка n и мощность сигнала по-выше были бы в плюс, если не увеличат цену роутера очень сильно
6) а гигабитные порты для LAN, встроенного коммутатора, цену не вздуют? Или хотя бы два гигабитных порта? Два других устроят 100мегабит. Но это не обязательно. В принципе, можно даже что бы на роутере было всего два LAN/WAN 100мегабит порта, если это сильно опустит цену — я тогда просто новый 1гбит коммутатор куплю, хотя лучше было бы 4 изернет порта, так как хотелось кое-что сделать с VLAN’ами (отделить IP-телефонию ту же), а на DDwrt VLAN’ы как раз поддерживаются, а на дешевых гигабитных коммутаторах уже нет.
Вопрос именно о модели — я прошу помощи, что бы подсказали и назвали модели, так как у меня, к сожалению, нет достаточного времени для чтения десятков обзоров и скрупулёзного сравнения сотен моделей на яндекс маркете.
I love DD-WRT. It is a great, open-source router firmware that adds a whole lot of cool functionality to your already existing, kinda-dumb, wireless router. But did you know that DD-WRT can be a lot more powerful and add a lot of extra features (which are only for expensive enterprise routers/switches) if you pair it with a modern and more powerful router? Well, that’s where I am here. I have tested and curated a list of the 7 Best routers for DD-WRT.
But let me first share the list of my top picks for DD-WRT supported Wireless Routers, so you can recognize if you have one of these, OR You can buy one from the list if you don’t own one.
Name | Image | Rating | Price |
---|---|---|---|
1. Linksys WRT3200ACM |
9.8/10 |
Check Price
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2. TP-LINK Archer
|
9.5/10 |
Check Price
|
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3. ASUS AC5300 |
9.2/10 |
Check Price
|
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4. NETGEAR Nighthawk
|
9.2/10 |
Check Price
|
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5. D-Link AC3200
|
9/10 |
Check Price
|
|
6. ASUS RT-AC1900 |
9/10 |
Check Price
|
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7. Linksys EA6350 |
8.7/10 |
Check Price
|
|
Name | Image | Rating | Price |
Benefits of DD-WRT as Compared to a Stock Firmware?
For people who are familiar with Custom ROMs for Android: it is just like rooting your phone and flashing with custom ROM, like CyanogenMod to gain more functionality out of the existing device. Except in Routers, you don’t need to do anything to get the root access so you could flash a custom ROM.
For people who don’t know anything about Custom ROM or Firmware Flashing stuff: Don’t worry, the concept is pretty simple to understand.
So the concept is, that the software your router is running out of the box (stock firmware) does not allow you to do stuff outside of boundaries. Functionalities that can be achieved by flashing your wireless router with DD-WRT firmware, like:
- Extreme parental controls.
- Use VPN services inside your Router (so that all the devices connected to your wireless router get connected to VPN automatically, for better security or encryption, stuff like keeping local “Hackers” away from your information).
- Getting much better bandwidth juice by using features like QOS (quality of service), which allows you to prioritize which devices and even programs are going to get more bandwidth and stable connections.
This helps your router to decide which apps and devices are going to get more juice when you are experiencing low bandwidth speeds, for more stable speeds. - And other stuff like port forwarding, Caching of website data to provide you more quick access to the websites/blogs you visit regularly. And MUCH more.
Now Let’s talk about my top picks and why I chose those routers for my list of ideal wireless routers for DD-WRT.
Our Top Pick for Best DD-WRT Wireless Router – Linksys WRT3200ACM
This wireless router from Linksys is a very powerful wireless router, with all the hardware that you might need for your home or small office ever. It has a 1.8 GHz dual-core processor, half a gigabyte of RAM, and 256 MB of flash storage for firmware and caching. The wireless radio is robust and provides decent wireless coverage, but I have found out that you may need to use another access point if your home/office is larger than 3000 sq feet.
It features Tri-stream technology which doubles the bandwidth of wireless radios (by running them on 160 MHz), so you can transfer data faster across multiple wireless clients. It also has MU-MIMO, which means multi-user multi-input multi-output. Most of the routers we see on the market have MIMO, which works only for a single client. But this router can offer MIMO to multiple wireless clients, which means a more stable WiFi with low latency.
This router also has 5 gigabit ports, out of which one port is a WAN port. It also has one USB 3.0 port and one eSATA port to connect your printer or storage to the network. Storage speeds are fast and reliable, and in my testing, if you connect an SSD to the eSATA port, then you get blazing fast, full gigabit transfer speeds over ethernet. I have been running DD-WRT on this router for the past two years, and it has proven to be the most stable and reliable router with only 30ish minute downtime.
With DD-WRT running on this router, you get much more stable and reliable IPv6 connectivity and excellent QoS. You can also download torrent servers and file servers on this router and turn this router into a 24/7 torrent machine or a powerful NAS device for your media, photos, and documents.
One of the latest things that I have been trying to set up is port mirroring, so I can monitor all the traffic going through my router and control bandwidth to specific devices and websites. You can also feed two internet connections to this router and use the load balancing feature of DD-WRT to keep you always connected to the internet even if one of your internet connections goes down.
Should you buy this wireless router? Well, it depends on your network and usage. I have 13 devices connected to this router and all the time through my house, and I have not seen any lag or downtime for those connected devices. Sure this router is expensive, but it is not for everyone, and you are only going to buy this if you are either a network nerd (like me) or want 100% uptime for all your connected devices.
And if you live in a dense apartment where there is a lot of WiFi signal around you, I would recommend this wireless router to you. It is running on this new wireless channel which is going to perform excellently in such situations.
I have seen some people complaining about restarting and the poor wireless performance of this router. You can fix it by putting this router in a well-ventilated area. There is no shame in displaying this beautiful router near your tv console or on your computer table.
TP-Link Archer C7
TP-Link is a well-known brand when it comes to networking, and people are pretty satisfied with their networking devices. Archer C7 is no different.
It is a robust wireless router with decent hardware, and it is fully compatible with DD-WRT. It has 1 Gigabit WAN port, 4 Gigabit LAN ports, and a USB port to share storage or a printer on your network. It is a dual-band wireless router and can do 450 Megabits on 2.4 GHz wireless and 1.3 Gigabits on 5 GHz radio.
It also has a decent range for small to medium-sized houses, and if you have a large house (more than 2700 sq feet) you will need to add another wireless access point to your network. Getting DD-WRT on this router is pretty straightforward and can be done in under 10 minutes. This wireless router has a powerful Qualcomm processor (the same kind of processor as your smartphone). It means that it is not going to overheat and perform great.
I have used this router for my home network for about two years until I upgraded to WRT3200ACM. And I was fully satisfied with the performance of this wireless router.
It still serves my home network as a second wireless access point and had pretty much zero downtime to this date. Coming at just under $60, it is an excellent budget wireless router that will get you up and running with DD-WRT in no time.
I always recommend this router to anyone, who is looking for an upgrade to their ISP modem/router combo. In short: it’s a no-frills wireless router that also supports DD-WRT and is perfect for anyone looking to dip their toes into custom router firmware and upgrade their home network.
ASUS AC5300
ASUS is a well-known brand when it comes to computer hardware and accessories, but did you know they also made wireless routers? This wireless router from ASUS is a monster piece of networking equipment, and with its eight high-power antennas, it looks like it came right out of an Alien movie.
Looks aside, this router got some serious Allen power under the hood too. It has 4 Gigabit LAN ports, 1 Gigabit WAN port, and a super speed USB port for connecting your storage to the network. You can use the slower-speed USB 2.0 port to connect the printer to the router too. But if your printer has an ethernet port, I would recommend you go the latter route.
The wireless capabilities of this router are also fantastic. It can easily cover around 4,500 sq feet of area without a problem. It has tri-band WiFi, which means it has two separate 5 GHz channels and one 2.4 GHz channel for super speed and low latency connectivity to wireless clients.
If you have a streamer/gamer family, this router can superbly handle all wireless clients without any problems or hiccups.
Installing DD-WRT is straightforward, and you can get it up and running in under 15 minutes. With DD-WRT on this router, performance is much better, and you can improve the functionality and add a lot more enterprise-grade features to this robust hardware.
I have tested this router for about a year in my office, and it performs excellently. I am running a torrent server, file server, DNS caching, and a VPN, and this router handles it all without any hiccups. QoS (with DD-WRT) on this router is working flawlessly, and we always get perfect video calls no matter what other people in my office are doing on the network.
I am not able to fully saturate this router and this is a good thing for me, and my company. Sure this router is a bit expensive, but the hardware that ASUS has provided justifies that money. And with DD-WRT, this router beats some expensive enterprise gear that costs ten times more than this wireless router. The only thing I wish it had was more ethernet ports. This problem can be easily solved: by adding a gigabit switch to your network. I am confident in recommending this router to anyone, who is looking for robust performance and future proof of their home or office network.
Netgear R7000
Netgear is a well-known brand when it comes to network gear. They make some powerful routers, switches, and other networking equipment, and this wireless router is no exception.
It is a powerful wireless router with a 1 GHz dual-core processor, 512 MB RAM, and 128 MB of flash storage. This router has 4 Gigabit LAN ports, 1 Gigabit WAN port, and two super-speed USB ports for sharing your storage devices and printers on the network.
It offers a pretty decent all-in-one package for anyone looking to upgrade their wireless router. I just installed this wireless router (about three months ago) in my brother’s apartment, and he is very happy with the performance of this wireless router.
He says that the wireless signal is solid and reliable (unlike his old wireless router). Now he can easily stream 8K videos from YouTube and play games without any dropped packets or high latencies.
Most routers fail to deliver their marketing fluff in apartments and city areas where there are a lot of wireless clients. But this router does not disappoint and performs excellently in saturated environments.
This router is also perfect for DD-WRT, and I am in the process of testing this router with this firmware. The torrent server on this router doesn’t work as expected and crashed. DD-WRT says they are working on a fix for it and will be released soon. Other than that, QoS, VPN, and other plugins work flawlessly on this router.
So if you want a router with no more than three antennas, reliable hardware, third-party firmware support, and a design that shouts performance, Netgear Nighthawk R7000 is a perfect choice for you. It costs under $200 and is going to serve you for years to come. It means a few cents a day for a reliable home/office network.
D-Link AC3200
This red color router from D-Link has 6-external antennas, a tri-band wireless network, and a 1 GHz dual-core processor paired with 256 MB of flash and 512 MB of RAM. It also has the usual gigabit LAN and WAN ports with two USB ports (one of which is high-speed USB 3.0) for adding your storage and printer to the network.
The performance of this router (both for wireless and wired clients) is excellent and reliable. I have tested this router for around 6 months, and haven’t found a single issue with the performance and reliability of this wireless router.
The only thing that sucks about this router is the default firmware and poor implementation of the QoS and VPN features. But lucky for me, this router is supported by DD-WRT out of the box. So, I installed the DD-WRT on this router, which helped me unlock the full power of this wireless router.
The QoS with DD-WRT is much improved and reliable, and the VPN works without any disconnects or dropped packets. Also, the performance charts provided by DD-WRT let you understand your network at a deeper level. And see which devices are hogging the bandwidth, and even add access control and timed access rules for devices you don’t want to access certain websites at certain times.
You can install third-party packages and plugins like torrent servers, DNS caching servers, and media servers on this router to add features to this router that are only available for expensive and enterprise-grade routers, and networking equipment.
For under $200, this router from D-Link can prove to be a very reliable wireless router for your home or office, but only if you run DD-WRT on this router.
ASUS RT-AC1900
It is the second router from ASUS that I am mentioning in this list. Unlike its big brother: AC3200, this router is small and has only three wireless antennas, but that is not a downside at all, because it still offers decent wireless coverage and excellent performance for wireless and wired clients.
It has 4 Gigabit LAN ports and 1 Gigabit WAN port, along with two USB ports for storage and printer connectivity. Powering this router is a 1 GHz dual-core processor paired with 256MB of RAM and 128MB of flash memory. For under $140, these are pretty decent specs for any wireless router to have.
The ASUS firmware for this router is okay but not the best. It lacks a lot of features, but you are buying this router to put DD-WRT on it. So, why even bother about the default firmware?
Installing DD-WRT on this router is pretty simple and does not require any additional steps. Once you install DD-WRT on this router, this is when you unlock all of its potential and load different packages on this wireless router and make it a super wireless router. The QoS, VPN, and DHCP work flawlessly on this router.
You can increase the power of the wireless radios in this router to extend the range of the wireless network, without using a range extender of any sort. You can also set parental controls and block websites/internet for specific devices on your local network. The guest network can be isolated from your local/home network, so you do not have to worry about unauthorized access.
The only thing I do not like about this router is that it stands rather than sits. So, if you have stiff ethernet cables, the router is going to get lifted by the cables. But for the price, it is hard not to recommend this router to anyone, looking for an excellent DD-WRT router for less money.
Linksys EA6350
This dual-band router from Linksys has been around for a while now. It might not have modern wireless technology, but it still got powerful hardware for most homes and small offices. It has a single-core 800 MHz processor and 128 MB of RAM, and 128 MB of flash memory.
These are pretty decent specs for a wireless router, and when running DD-WRT on this router, the performance is blazingly fast and reliable. It has Gigabit WAN and LAN ports and 1 USB 3.0 port for connecting a storage device to your network.
I have used this router with DD-WRT running on it, and I can confirm it is a fast, reliable router for a home or small office. It does QoS and VPN without any connectivity or latency issues. The wireless range is not the best, but it is decent enough to be used in an apartment and a small house.
Linksys has locked this wireless router with only 10 clients on the wireless network, but DD-WRT allows you to remove that restriction and connect as many clients as you want.
Moreover, you can load caching and torrent packages on this router and make it a DNS server and a Torrent server that consumes less than 24 watts of power. It is especially great for running torrents in the background, and you do not need to keep your computer powered on all the time.
You can buy this router for under $100 (and much cheaper if you can buy a used one). This router is perfect and an upgrade for the cable modem/router combo that is going to last for years to come.
To sum it all up:
DD-WRT is a great open-source router firmware that unleashes the true potential of wireless router hardware. The best part is that it is compatible with a ton of wireless routers, and chances are that your current wireless router might already support it. But if you are a network nerd like me and want to upgrade your home lab with more powerful options, Linksys WRT3200ACM and ASUS AC5300 are both excellent and robust routers for you. They have the hardware that is at least going to last you 5 to 7 years. And with DD-WRT and app packages, the possibilities are truly endless.
If you are on a budget, then TP-Link Archer C7 and Linksys EA6300 are both great options. They will let you get into the DD-WRT world without breaking the bank and offer super router performance for under $100. And if you want to upgrade in the future, you can turn your old router into access points or range extenders.
From DD-WRT Wiki
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Contents
- 1 Read Me First!
- 1.1 About this list
- 1.2 Broadcom and ADM FAQ
- 1.3 Atheros, Ralink and any other FAQ
- 2 HOWTO/FAQ to the Comparison Table
- 2.1 Supported Devices
- 2.1.1 Abocom
- 2.1.2 Accton
- 2.1.3 Aceex
- 2.1.4 Actiontec
- 2.1.5 ADI Engineering
- 2.1.6 Airlink 101
- 2.1.7 Airlive
- 2.1.8 Alfa Networks
- 2.1.9 Allnet
- 2.1.10 Anaptyx Wireless Dynamics
- 2.1.11 Askey
- 2.1.12 ASRock
- 2.1.13 Asus
- 2.1.14 Belkin
- 2.1.15 Bountiful
- 2.1.16 Buffalo
- 2.1.17 Cisco
- 2.1.18 Comfast
- 2.1.19 Compex
- 2.1.20 Corega
- 2.1.21 Dell
- 2.1.22 D-Link
- 2.1.23 Doodle Labs
- 2.1.24 Dynex
- 2.1.25 Edimax
- 2.1.26 Encore
- 2.1.27 EnGenius
- 2.1.28 Exel Networks
- 2.1.29 Fluidmesh
- 2.1.30 FON
- 2.1.31 Fry’s Electronics
- 2.1.32 Gateworks
- 2.1.33 GL.iNet
- 2.1.34 Guest Internet Solutions
- 2.1.35 Hame
- 2.1.36 JJPlus
- 2.1.37 Linksys
- 2.1.37.1 Linksys (Wireless a/b/g/n/ac)
- 2.1.37.2 Linksys (Wireless a/b/g)
- 2.1.37.3 Linksys Valet
- 2.1.38 Logilink
- 2.1.39 Meraki
- 2.1.40 Microsoft
- 2.1.41 Mikrotik Routerboard
- 2.1.42 Mitsubishi
- 2.1.43 Motorola
- 2.1.44 MSI
- 2.1.45 MTN Electronics
- 2.1.46 NewMedia
- 2.1.47 NetComm
- 2.1.48 Netcore
- 2.1.49 Netgear
- 2.1.50 Nokia
- 2.1.51 OpenMesh
- 2.1.52 OpenRB
- 2.1.53 OSBRiDGE
- 2.1.54 Ovislink
- 2.1.55 PC-Engines
- 2.1.56 Planex aka PCi
- 2.1.57 Ravo
- 2.1.58 Repotec
- 2.1.59 Rosewill
- 2.1.60 Ruckus
- 2.1.61 Senao / EnGenius
- 2.1.62 Siemens
- 2.1.63 Sitecom
- 2.1.64 SOEKRIS Engineering
- 2.1.65 SparkLAN
- 2.1.66 Techniclan
- 2.1.67 Tonze
- 2.1.68 Toshiba
- 2.1.69 TP-Link
- 2.1.70 Tranzeo
- 2.1.71 TRENDnet
- 2.1.72 T&W
- 2.1.73 Ubiquiti
- 2.1.74 US Robotics
- 2.1.75 Valemount
- 2.1.76 Verizon
- 2.1.77 VSCOM
- 2.1.78 Watchguard
- 2.1.79 WiliGear
- 2.1.80 Wistron
- 2.1.81 Yuncore
- 2.1.82 ZCOM
- 2.1 Supported Devices
[edit] Read Me First!
December 3rd, 2019 (Updated June 7, 2022)
DO NOT TRUST THIS LIST, NOR THE ROUTER DATABASE, TO HAVE THE MOST UP-TO-DATE INFORMATION!
Firstly, The list below is a work in progress and it has not been maintained in a long time; Neither has the router database that pointed you to this section — neither are updated regularly. The builds that are suggested in this list, or the router database, may actually be really bad builds for your router hardware and cause a lot of issues.
Always use the newest beta build first, then work your way back build by build.
PLEASE, use the following links on the «beta» FTP/HTTPS site to see if you can find your hardware.
From there, go to the Forums to read about specific beta builds and see how they work for a particular piece of router hardware.
Please, don’t be afraid to perform a search first — either on the specific hardware forum or your preferred search engine. A lot of the questions you may have are likely, and easily, find-able if you use something like duckduckgo.com or google.com and use «DD-WRT» in quotes with the word AND (in uppercase) plus your hardware or issue to perform your search.
FTP: (Only very few browsers still support FTP; use an FTP client or HTTPS links below)
ftp://ftp.dd-wrt.com/betas/
Chrome — Feature: Remove FTP support (removed)
Built-in FTP implementation to be removed in Firefox 90
HTTPS:
https://dd-wrt.com/support/other-downloads/?path=betas/ (main site)
https://download1.dd-wrt.com/dd-wrtv2/downloads/betas/ (official mirror)
https://ftp.dd-wrt.com/dd-wrtv2/downloads/betas/ (official mirror)
https://mirror.math.princeton.edu/pub/ddwrt/betas/ (unofficial mirror)
[edit] About this list
This page lists and compares devices known to work with DD-WRT, but some are a work-in-progress (WIP).
If your hardware is not found below, it is probably not yet supported and you risk bricking it. Also see Known incompatible devices or Router detection to determine whether support can be added in the future.
If you are looking for a router to buy see this. Download links and more: FAQ:Firmware Download
Which version may I flash?
See here. This table below shows the minimum usable Build Version for all devices. To flash later versions, read the device’s wiki and threads, and read new build threads. There are many bad builds.
[edit] Broadcom and ADM FAQ
2MB flash
The micro version of DD-WRT is the only version for Broadcom routers with 2MB flash. It is stripped-down with only basic features to fit in the limited flash space, and additional software packages are unlikely to fit. Despite these limitations, for existing owners, DD-WRT micro is likely to add additional functionality over OEM firmware. When looking to purchase a new router, users are strongly recommended to avoid 2MB devices.
4MB flash
With 4MB of flash you can run the standard build (Linux kernel 2.4) or the small / mini build (Linux kernel 2.6).
These builds are usually enough for many users, but anyone intending to add additional software packages to their router may require 8MB flash memory or more. Do not flash a Mega build on devices with 4MB flash memory.
8MB flash or more
Mega, big, or standard++ builds above 4MB can be used. Check the tables below for support.
[edit] Atheros, Ralink and any other FAQ
These devices have specific builds in their own folder only for use on the respective unit. Use NO other builds. All non-Broadcom platforms require at least 4MB flash!
4MB flash
Atheros and Ralink builds are not prefixed with mini, small, std, or mega. 4MB is enough for basic dd-wrt functions but there are a few routers where certain functions had to be removed due to space limitations.
8MB flash or more
This is the flash size needed for those users who intend to load additional software packages on their router or want to run a build compiled with additional functionality.
[edit] HOWTO/FAQ to the Comparison Table
- Please keep it simple to administer for all users!
- NO static linking to DD-WRT firmware releases, they get old very fast!!
- NO static linking to manufacturers product page, they only work until the website is reorganized!
- This table is a work-in-progress and likely contains errors and omissions. Please update it as needed.
- WIP = Work In Progress (it is being worked on)
- TBD = To Be Determined (might be done some time in the future)
[edit] Supported Devices
[edit] Abocom
Model | H.W rev. |
FCC ID | Platform & Frequency [MHz] |
RAM [MB] |
Flash [MB] |
Wireless NIC |
WLAN standard [802.11] |
mini PCI |
Serial port |
JTAG port |
Eth. port count |
Power Input [V/A] |
Special Features Notes |
Min usable DD-WRT version |
Notes for running DD-WRT |
---|---|---|---|---|---|---|---|---|---|---|---|---|---|---|---|
WAP2102 | ? | MQ4 WAP2102 |
Atheros AR2317 @180 |
16 | 4 | SOC | b/g | — | ? | — | 1 LAN or WAN |
3.3V 1.5A |
= Planex GW-MF54G2 |
gw-mf54g2 build 12110 20090514 |
[edit] Accton
Model | H.W rev. |
FCC ID | Platform & Frequency [MHz] |
RAM [MB] |
Flash [MB] |
Wireless NIC |
WLAN standard [802.11] |
mini PCI |
Serial port |
JTAG port |
Eth. port count |
Power Input [V/A] |
Special Features Notes |
Min usable DD-WRT version |
Notes for running DD-WRT |
---|---|---|---|---|---|---|---|---|---|---|---|---|---|---|---|
MR3201A | ? | HED -MR3201A |
Atheros AR2315@180 |
16 | 8 | SOC | b/g | — | 1 | 1 | 1 LAN or WAN |
5V 2A | = Fonera 2100 |
FON version | — |
MR3202a | — | HED MR3202A |
Atheros AR2317@180 |
16 | 8 | SOC | b/g | — | ? | ? | 1 LAN 1 WAN |
5V 2A | ? | v24 rc2 |
[edit] Aceex
Model | H.W rev. |
FCC ID | Platform & Frequency [MHz] |
RAM [MB] |
Flash [MB] |
Wireless NIC |
WLAN standard [802.11] |
mini PCI |
Serial port |
JTAG port |
Eth. port count |
Power Input [V/A] |
Special Features Notes |
Min usable DD-WRT version |
Notes for running DD-WRT |
---|---|---|---|---|---|---|---|---|---|---|---|---|---|---|---|
NR22/Y | — | IFA-NRXX | Ralink RT3052F @380 |
32 | 4 | SOC | b/g/n 2×2:2 | — | 1 | — | 4 LAN 1 WAN |
9V 1A | NR22 build 12826 20090904 |
[edit] Actiontec
Model | H.W rev. |
FCC ID | Platform & Frequency [MHz] |
RAM [MB] |
Flash [MB] |
Wireless NIC |
WLAN standard [802.11] |
mini PCI |
Serial port |
JTAG port |
Eth. port count |
Power Input [V/A] |
Special Features Notes |
Min usable DD-WRT version |
Notes for running DD-WRT |
---|---|---|---|---|---|---|---|---|---|---|---|---|---|---|---|
MI424WR | A | LNQ802MRG | Xscale IXP425 @533 |
32 | 8 | Ralink (must be replaced) |
b/g | 1 | 1 | 1 | 4 LAN 1 WAN |
5-9V 3A | OEM Verizon FIOS port will not work |
mi424wr build 12646 20090813 |
Install Guide |
MI424WR | C | LNQ802MAG | Xscale IXP425 @533 |
32 | 8 | Atheros AR2413 |
b/g | 1 | 1 | 1 | 4 LAN 1 WAN |
5V 3A | OEM Verizon FIOS port will not work |
mi424wr build 12646 20090813 |
Install Guide |
MI424WR | D | LNQ802MAG | Xscale IXP425 @533 |
32 | 8 | Atheros AR2413 |
b/g | 1 | 1 | — | 4 LAN 1 WAN |
5V 3A | OEM Verizon FIOS port will not work |
mi424wr build 12646 20090813 |
Install Guide |
[edit] ADI Engineering
Model | H.W rev. |
FCC ID | Platform & Frequency [MHz] |
RAM [MB] |
Flash [MB] |
Wireless NIC |
WLAN standard [802.11] |
mini PCI |
Serial port |
JTAG port |
Eth. port count |
PoE | Power Input [V/A] |
Special Features Notes |
Min usable DD-WRT version |
Notes for running DD-WRT |
---|---|---|---|---|---|---|---|---|---|---|---|---|---|---|---|---|
Pronghorn SBC 210 |
— | ? | Xscale IXP420 @266 |
32 | 8 | — | depends on card |
2 | 1 | ? | 1 LAN | 802.3af | 5V 10-30V |
h/w-watchdog tempsensor voltsensor CF socket |
pronghorn-SBC build 9917 20080712 |
needs DD-WRT activation |
Pronghorn Metro SBC |
— | ? | Xscale IXP425 @533 |
64 | 16 | — | depends on card |
4 | 1 | ? | 1 LAN 1 WAN |
yes | 17-30V 36-60V |
h/w-watchdog tempsensor voltsensor CF socket |
pronghorn-SBC build 9917 20080712 |
needs DD-WRT activation |
[edit] Airlink 101
Model | H.W rev. |
FCC ID | Platform & Frequency [MHz] |
RAM [MB] |
Flash [MB] |
Wireless NIC |
WLAN standard [802.11] |
mini PCI |
Serial port |
JTAG port |
Eth. port count |
Power Input [V/A] |
Special Features Notes |
Min usable DD-WRT version |
Notes for running DD-WRT |
---|---|---|---|---|---|---|---|---|---|---|---|---|---|---|---|
AR335W | ? | RRK-AR335W | Atheros AR2317 @182 |
16 | 4 | SOC | b/g | — | 1 | 1 | 4 LAN 1 WAN |
5V 1.2A | clone of dir-300 |
v24 rc5 | install like dir-300 |
AR430W | V1 | RRK-AR430W | Atheros AR2318 @182 |
16 | 4 | SOC | b/g | — | 1 | 1 | 4 LAN 1 WAN |
12V 1A 5V 1A auto-sensed |
clone of dir-300 |
V24 RC5 | [1] |
AR670W | ? | RRK-WRGN16 | Ralink RT2880F @266 |
32 | 4 | Ralink RT2820L |
b/g/n 2×2:2 | has pads | 1 | 1 | 4 LAN 1 WAN |
5V 2A | ar670w build 12861 20090907 |
||
AR690W | ? | RRK-WRGN20 | Ralink RT2880F @266 |
32 | 4 | Ralink RT2820L |
b/g/n 2×2:2 | — | 1 | ? | 4 LAN 1 WAN |
5V 3A | GBit switch | ar690w build 15695 20101107 |
[edit] Airlive
Model | H.W rev. |
FCC ID | Platform & Frequency [MHz] |
RAM [MB] |
Flash [MB] |
Wireless NIC |
WLAN standard [802.11] |
mini PCI |
Serial port |
JTAG port |
Eth. port count |
PoE | Power Input [V/A] |
Special Features Notes |
Min usable DD-WRT version |
Notes for running DD-WRT |
---|---|---|---|---|---|---|---|---|---|---|---|---|---|---|---|---|
Airmax 5 | ? | ? | Atheros AR2312 @180 |
32 | 8 | Atheros AR5112 @20dBm |
a/b/g/h | ? | 1? | ? | 2 LAN 1 WAN |
? | 12V 1A | Outdoor box 14dBi dual pol ant. |
airmax5 build 11803 20090401 |
needs DD-WRT activation |
WHA-5500 CPE |
? | ? | Atheros AR2312 @180 |
32 | 4 | Atheros AR5112 @20dBm |
a/b/g/h | ? | 1 | ? | 2 LAN 1 WAN |
802.3af | 5V 2A | Outdoor box 18dBi ant. |
wha-5500cpe build 9414 20080413 |
needs DD-WRT activation |
WHA-5500 CPE-NT |
? | ? | Atheros AR2312 @180 |
32 | 4 | Atheros AR5112 @20dBm |
a/b/g/h | ? | 1 | ? | 1 LAN WAN | 802.3af | 5V 2A | Outdoor box | wha-5500cpe build 9414 20080413 |
needs DD-WRT activation |
WLA-5000 AP |
? | Atheros AR2312 @180 |
32 | 4 | Atheros AR5112 @20dBm |
a/b/g/h | ? | 1 | ? | 1 LAN WAN | 802.3af | 5V 2A | — | wla-5000ap build 9414 20080413 |
needs DD-WRT activation |
|
WLA-9000 AP |
? | ? | Atheros AR5312 @220 |
32 | 8 | Atheros AR5112 @23dBm & AR2112 |
a/h b/g | ? | 1 | ? | 2 LAN 1 WAN |
802.3af | 5.5V 2.5A | — | WLA-9000ap build 11003 20090401 |
needs DD-WRT activation |
[edit] Alfa Networks
Model | H.W rev. |
FCC ID | Platform & Frequency [MHz] |
RAM [MB] |
Flash [MB] |
Wireless NIC |
WLAN standard [802.11] |
mini PCI |
Serial port |
JTAG port |
Eth. port count |
PoE | Power Input [V/A] |
Special Features Notes |
Min usable DD-WRT version |
Notes for running DD-WRT |
---|---|---|---|---|---|---|---|---|---|---|---|---|---|---|---|---|
AIP-W411 | UQ2W411 | Atheros AR7240 @400 |
32 | 4 | Atheros AR9285 @17dBm |
b/g/n 1×1:1 | — | 1 | ? | 4 LAN 1 WAN |
— | 9V 0.85A | rebranded WR741NDv1 |
aipw411 build 19327 20120606 |
||
AIP-W502U | ? | ? | Atheros AR9130 @400 |
32 | 8 | Atheros AR9102 |
b/g/n 2×2:2 | — | 1 | 1 | 4 LAN 1 WAN |
— | 12V 1A | 1 USB 2.0 | w502u build 13845 20100206 |
|
AP120C | — | Atheros AR9344 @533 |
128 | 2x 16 | SOC & AR9382 @27dBm |
b/g/n 2×2:2 a/n 2×2:2 |
1 | 1 | 1 LAN or WAN |
802.3af | 12V 1A | console port | WIP | |||
N5(c) | ? | ? | Atheros AR7240 @400 |
32 | 8 | Atheros AR9280 @29dBm |
a/h/n | — | ? | ? | 2 LAN or WAN |
passive | 24V | Outdoor box 14dBi dual pol panel ant. |
— build |
needs DD-WRT activation |
Solo48 | ? | ? | Atheros AR2313 @180 |
32 | 8 | Atheros AR5112 @30dBm |
a/b/g/h | ? | 1 | ? | 2 LAN or WAN |
passive | 18V | Outdoor box 18dBi dual pol panel ant. |
solo48 build |
needs DD-WRT activation |
[edit] Allnet
Model | H.W rev. |
FCC ID | Platform & Frequency [MHz] |
RAM [MB] |
Flash [MB] |
Wireless NIC |
WLAN standard [802.11] |
mini PCI |
Serial port |
JTAG port |
Eth. port count |
PoE | Power Input [V/A] |
Special Features Notes |
Min usable DD-WRT version |
Notes for running DD-WRT |
---|---|---|---|---|---|---|---|---|---|---|---|---|---|---|---|---|
ALL0258 | — | — | Atheros AR2313 @180 |
32 | 8 | Atheros AR5112 @28dBm |
a/b/g | — | 1 | ? | 1 LAN | yes | 12V 1A | Internal 5dBi 2.4GHz 13dBi 5GHz Panel ant. 2x Ext. SMA |
eoc5610 build 11772 20090318 |
EOC-5610 clone needs DD-WRT activation 1st install micro-redboot |
ALL0277 | — | PKW -WM54G |
Broadcom BCM4702 @125 |
16 | 4 | Broadcom BCM4306 |
b/g | 1 | — | 1 | 4 LAN 1 WAN |
— | 5V 2A | Same h/w as WRT54G v1 |
v23,v24 must use VINT build |
|
ALL02762 | — | — | Broadcom BCM5354 @240 |
16 | 4 | SOC | b/g | — | — | 1 | 4 LAN 1 WAN |
— | 5V | v24 build 10411 20080919 |
ships with preinstalled DD-WRT |
|
ALL391AP | — | ? | Xscale IXP420 @266 |
32 | 8 | Atheros | 1x a/b/g/n | 4 | 1 | 1 | 1 LAN 1 WAN |
yes | 9-48V | h/w-watchdog tempsensor voltsensor usb Outdoor box |
v24 avila build |
needs DD-WRT activation |
ALL392BR | — | ? | Xscale IXP420 @266 |
32 | 8 | Atheros | 2x a/n @30dBm |
4 | 1 | 1 | 1 LAN 1 WAN |
yes | 9-48V | h/w-watchdog tempsensor voltsensor usb Outdoor box |
v24 avila build |
needs DD-WRT activation |
ALL392MAP | — | ? | Xscale IXP420 @266 |
32 | 8 | Atheros | 1x a/n @30dBm 1x a/b/g/n |
4 | 1 | 1 | 1 LAN 1 WAN |
yes | 9-48V | h/w-watchdog tempsensor voltsensor usb Outdoor box |
v24 avila build |
needs DD-WRT activation |
ALL392MRAP | — | ? | Xscale IXP420 @400 |
32 | 8 | Atheros | 2x a/n @30dBm |
4 | 1 | 1 | 1 LAN 1 WAN |
yes | 9-48V | h/w-watchdog tempsensor voltsensor usb Outdoor box |
v24 avila build |
needs DD-WRT activation |
[edit] Anaptyx Wireless Dynamics
Model | H.W rev. |
FCC ID | Platform & Frequency [MHz] |
RAM [MB] |
Flash [MB] |
Wireless NIC |
WLAN standard [802.11] |
mini PCI |
Serial port |
JTAG port |
Eth. port count |
PoE | Power Input [V/A] |
Special Features Notes |
Min usable DD-WRT version |
Notes for running DD-WRT |
---|---|---|---|---|---|---|---|---|---|---|---|---|---|---|---|---|
ID-2 | — | Atheros AR710 @680 |
64 | 16 | — | 2x a/b/g/h | 3 | 1 | yes | 3 LAN WAN | yes | 5-24V | = UBNT RouterStation |
RouterStation build 10907 20081113 |
needs DD-WRT activation |
|
OD-2 | — | Atheros AR710 @680 |
64 | 16 | — | 2x a/b/g/h | 3 | 1 | yes | 3 LAN WAN | yes | 5-24V | = UBNT RouterStation w. Outdoor box |
RouterStation build 10907 20081113 |
needs DD-WRT activation |
|
OMW | — | Atheros AR710 @680 |
64 | 16 | — | depends on card |
3 | 1 | yes | 3 LAN WAN | yes | 5-24V | = UBNT RouterStation |
RouterStation build 10907 20081113 |
needs DD-WRT activation |
|
AWR-100 | — | Atheros AR710 @680 |
64 | 16 | — | depends on card |
3 | 1 | yes | 3 LAN WAN | yes | 5-24V | = UBNT RouterStation |
RouterStation build 10907 20081113 |
needs DD-WRT activation |
[edit] Askey
Model | H.W rev. |
FCC ID | Platform & Frequency [MHz] |
RAM [MB] |
Flash [MB] |
Wireless NIC |
WLAN standard [802.11] |
mini PCI |
Serial port |
JTAG port |
Eth. port count |
Power Input [V/A] |
Special Features Notes |
Min usable DD-WRT version |
Notes for running DD-WRT |
---|---|---|---|---|---|---|---|---|---|---|---|---|---|---|---|
RT210W | — | H8N -RT210W |
Broadcom BCM4702 @125 |
16 | 4 | Broadcom BCM4306 |
b/g | 1 | 1 | 1 | 4 LAN 1 WAN |
5V 2A | Same h/w as Gigaset SE505v1 |
v23, v24 must use VINT build |
First flash use Tftp flash |
RT480W | — | H8N RT480W |
Broadcom BCM4712 @200 |
8 | 4 | SOC | b/g | — | 1 | 1 | 4 LAN 1 WAN |
12V 1A | Same h/w as Gigaset SE505v2 |
v24 micro |
First flash use Tftp flash |
RT2100W | RT2100W -D56 |
— | Broadcom BCM4702 @125 |
16 | 4 | Airgo must be replaced |
b/g | 1 | ? | ? | 4 LAN 1 WAN |
? | — | v24 | First flash use Tftp flash |
RT220XD | — | — | Broadcom BCM4704 @264 |
16 | 4 | Broadcom BCM4318 |
b/g | 1 | — | ? | 4 LAN 1 WAN |
12V 1A | — | v24 build 9364 20080401 |
First flash use Tftp flash |
RT2206D | RT2206D -D56 |
— | Broadcom BCM4704 @264 |
16 | 4 | Airgo must be replaced |
b/g | 1 | ? | ? | 4 LAN 1 WAN |
12V 1A | — | v24 | First flash use Tftp flash |
[edit] ASRock
Model | H.W rev. |
FCC ID | Platform & Frequency [MHz] |
RAM [MB] |
Flash [MB] |
Wireless NIC |
WLAN standard [802.11] |
mini PCI |
Serial port |
JTAG port |
Eth. port count |
Power Input [V/A] |
Special Features Notes |
Min usable DD-WRT version |
Notes for running DD-WRT |
---|---|---|---|---|---|---|---|---|---|---|---|---|---|---|---|
G10 (AC2600) |
— | 2AFEB-G10 | Qualcomm IPQ8064 @1400 |
512 | 128 | Qualcomm QCA9980 x2 |
an/ac 4×4:4 b/g/n 4×4:4 |
— | 1 | 1 | 4 LAN 1 WAN |
12V 3A | 2 USB 3.0 Gbit switch |
asrock-g10 build 31544 20170228 |
[edit] Asus
Recommended: use ASUS Firmware Restoration Tool for ASUS router initial flash (*.TRX file)
—
Model | H.W rev. |
FCC ID | Platform & Frequency [MHz] |
RAM [MB] |
Flash [MB] |
Wireless NIC |
WLAN standard [802.11] |
mini PCI |
Serial port |
JTAG port |
Eth. port count |
Power Input [V/A] |
Special Features Notes |
Min usable DD-WRT version |
Notes for running DD-WRT |
---|---|---|---|---|---|---|---|---|---|---|---|---|---|---|---|
RT-AC56U (AC1200) |
— | MSQ- RTAC56U |
Broadcom BCM4708A0 @800 |
256 | 128 | Broadcom BCM4352 & BCM43217 |
a/c/n 2×2:2 b/g/n 2×2:2 |
— | 1 | 1 | 4 LAN 1 WAN |
19V 1.75A |
2 USB 2.0/3.0 Gbit switch |
rt-ac56u build 21061 20130325 |
Install Guide |
RT-AC66U (AC1750) |
A1 | MSQ- RTAC66U |
Broadcom BCM4706 @600 |
256 | 128 | Broadcom BCM4360 & BCM4331 |
a/c/n 3×3:3 b/g/n 3×3:3 |
— | 1 | 1 | 4 LAN 1 WAN |
19V 1.58A |
2 USB 2.0 Gbit switch |
rt-ac66u build 20873 20130308 |
Install Guide |
RT-AC66U (AC1750) |
B1 | MSQ- RTACHC00 |
Broadcom BCM4708C0 @1000 |
256 | 128 | SoC | a/c/n 3×3:3 b/g/n 3×3:3 |
— | 1 | 1 | 4 LAN 1 WAN |
19V 1.75A |
2 USB 2.0/3.0 Gbit switch |
rt-ac68u build 22490 20131008 |
Install Guide |
RT-AC68P (AC1900) |
— | MSQ- RTAC68Uv2 |
Broadcom BCM4709 @1000 |
256 | 128 | Broadcom BCM4360 x2 |
a/c/n 3×3:3 b/g/n 3×3:3 |
— | 1 | 1 | 4 LAN 1 WAN |
19V 1.75A |
2 USB 2.0/3.0 Gbit switch |
rt-ac68u build 22490 20131008 |
|
RT-AC68U (AC1900) |
— | MSQ- RTAC68U |
Broadcom BCM4708A0 @800 |
256 | 128 | Broadcom BCM4360 x2 |
a/c/n 3×3:3 b/g/n 3×3:3 |
— | 1 | 1 | 4 LAN 1 WAN |
19V 1.75A |
2 USB 2.0/3.0 Gbit switch |
rt-ac68u build 22490 20131008 |
Install Guide |
RT-AC87U (AC2400) |
— | MSQ- RTAC87U |
Broadcom BCM4709A0 @1000 |
128 | 128 | Quantenna QSR1000 & Broadcom BCM4360 |
a/c/n 4×4:4 b/g/n 3×3:3 |
— | — | — | 4 LAN 1 WAN |
19V 1.75A |
1 USB 2.0/3.0 Gbit switch |
rt-ac87u build 25309 20141111 |
— |
RT-AC88U (AC3100) |
— | MSQ- RTGW00 |
Broadcom BCM47094 @1400 |
512 | 128 | Broadcom BCM4366 x2 |
an/ac 4×4:4 b/g/n 4×4:4 |
— | 1 | 1 | 8 LAN 1 WAN |
19V 3.4A |
1 USB 2.0 1 USB 3.0 Gbit switch |
rt-ac88u build 27944 20151009 |
Install Guide |
RT-AC1200G+ | — | MSQ- RT1E00 |
Broadcom BCM47189 @900 |
128 | 16 | SOC & Broadcom BCM43217 |
an/ac 2×2:2 b/g/n 2×2:2 |
— | 1 | 1 | 4 LAN 1 WAN |
12V 2A |
1 USB 2.0 Gbit switch |
WIP | |
RT-AC1900P | — | MSQ- RTAC68UV2 |
Broadcom BCM4709C0 @1400 |
256 | 256 | SOC & Broadcom BCM4360 |
an/ac 3×3:3 b/g/n 3×3:3 |
— | 1 | 1 | 4 LAN 1 WAN |
19V 1.75A |
1 USB 2.0 1 USB 3.0 Gbit switch |
rt-ac1900p build 33215 20170825 |
|
RT-AC3100 | — | MSQ- RTGW00 |
Broadcom BCM47094 @1400 |
512 | 128 | Broadcom BCM4366 x2 |
an/ac 4×4:4 b/g/n 4×4:4 |
— | 1 | 1 | 4 LAN 1 WAN |
19V 3.4A |
1 USB 2.0 1 USB 3.0 Gbit switch |
rt-ac3100 build 30260 20160720 |
|
RT-AC3200 | — | MSQ- RT0M00 |
Broadcom BCM4709A0 @1000 |
256 | 128 | Broadcom BCM43602 x3 |
an/ac 3×3:3 b/g/n 3×3:3 |
— | 1 | 1 | 4 LAN 1 WAN |
19V 2.4A |
1 USB 2.0 1 USB 3.0 Gbit switch Dual 5GHz |
rt-ac3200 build 28086 20151107 |
|
RT-AC5300 | — | MSQ- RTGZ00 |
Broadcom BCM47094 @1400 |
256 | 128 | Broadcom BCM4366 x3 |
an/ac 4×4:4 b/g/n 4×4:4 |
— | 1 | 1 | 4 LAN 1 WAN |
19V 3.4A |
1 USB 2.0 1 USB 3.0 Gbit switch Dual 5GHz |
rt-ac5300 build 27944 20151009 |
|
RT-G32 | MSQ RTG32 |
Atheros AR2317 @180 |
16 | 4 | SOC | b/g | — | ? | 1 | 4 LAN 1 WAN |
12V 1A |
— | rt-g32 build 13499 20091222 |
— | |
RT-N10 | — | MSQ- RTN10 |
Broadcom BCM5356 @300 |
16 | 4 | SOC | b/g/n 1×1:1 | — | 1 | 1 | 4 LAN 1 WAN |
9V 1A |
— | K26 build 13661 20100118 |
|
RT-N10 RT-N10+ |
B1 | MSQ RTN10B |
Ralink RT3050F @320 |
32 | 4 | SOC | b/g/n 1×1:1 | — | 1 | 1 | 4 LAN 1 WAN |
12V 0.5A |
— | rt-n10plu build 15429 20101011 |
— |
RT-N10 | C1 | MSQ RTN10B |
Ralink RT3050F @320 |
32 | 4 | SOC | b/g/n 1×1:1 | — | 1 | 1 | 4 LAN 1 WAN |
12V 0.5A |
— | rt-n10plu build 15429 20101011 |
— |
RT-N10+ | D1 | MSQ- RTN10PLUS |
Broadcom BCM5356 @300 |
16 | 4 | SOC | b/g/n 1×1:1 | — | 1 | 1 | 4 LAN 1 WAN |
12V 0.5A |
— | K26 build 21252 20130412 |
|
RT-N10U | — | MSQ- RTN10U |
Broadcom BCM5357 @300 |
32 | 8 | SOC | b/g/n 1×1:1 | — | 1 | 1 | 4 LAN 1 WAN |
12V 1A |
1 USB 2.0 | K26 build 16994 20110508 |
Install Guide |
RT-N10U BLACK |
— | MSQ- RTN10UB |
Broadcom BCM5357 @300 |
32 | 8 | SOC | b/g/n 1×1:1 | — | 1 | 1 | 4 LAN 1 WAN |
12V 1A |
1 USB 2.0 | K26 build 16994 20110508 |
Install Guide |
RT-N12 | — | MSQ- RTN12 |
Broadcom BCM4716 @300 |
32 | 4 | SOC | b/g/n 2×2:2 | — | 1 | 1 | 4 LAN 1 WAN |
12V 1A |
— | K26 build 13480 20091217 |
Install Guide |
RT-N12 | B1 | MSQ- RTN12B |
Broadcom BCM5357 @300 |
32 | 8 | SOC | b/g/n 2×2:2 | — | 1 | 1 | 4 LAN 1 WAN |
12V 1A |
— | K26 build 16754 20110409 |
Install Guide |
RT-N12 | C1 | MSQ- RTN12C |
Broadcom BCM5357 @300 |
32 | 4 | SOC | b/g/n 2×2:2 | — | 1 | 1 | 4 LAN 1 WAN |
12V 1A |
— | K26 build 18687 20120307 |
Install Guide |
RT-N12 | D1 | MSQ- RTN12D |
Broadcom BCM5357 @300 |
32 | 4 | SOC | b/g/n 2×2:2 | — | 1 | 1 | 4 LAN 1 WAN |
12V 1A |
— | K26 build 33215 20170825 |
Install Guide |
RT-N13U | — | MSQ- RTN13U |
Ralink RT3052 @380 |
32 | 4 | SOC | b/g/n 2×2:2 | — | 1 | — | 4 LAN 1 WAN |
12V 1A |
1 USB 2.0 | rtn13u build 14594 20100612 |
ext3 optware addon |
RT-N13U | B1 | MSQ- RTN13U |
Ralink RT3052 @380 |
64 | 8 | SOC | b/g/n 2×2:2 | — | 1 | — | 4 LAN 1 WAN |
12V 1A |
1 USB 2.0 | rtn13ub1 Build 16796 20110414 |
— |
RT-N14U | C1 | MSQ- RTN14U |
MediaTek MT7620N @600 |
64 | 16 | SOC | b/g/n 2×2:2 | — | 1 | — | 4 LAN 1 WAN |
12V 1A |
1 USB 2.0 | TBD | donated router needed |
RT-N15 | — | MSQ- RTN15 |
Ralink RT2880 @266 |
32 | 4 | Ralink RT2820 |
b/g/n 2×2:2 | — | 1 | — | 4 LAN 1 WAN |
5V 2.5A |
Gbit switch | rt-n15 build 16023 20110113 |
— |
RT-N15U | — | MSQ- RTN15U |
Broadcom BCM5357r2 @500 |
64 | 8 | SOC | b/g/n 2×2:2 | — | 1 | 1 | 4 LAN 1 WAN |
12V 1A |
1 USB 2.0 Gbit switch |
TBD | donated router needed |
RT-N16 | — | MSQ RTN16 |
Broadcom BCM4718A1 @480 |
128 | 32 | SOC | b/g/n 2×3:2 | — | 1 | 1 | 4 LAN 1 WAN |
12V 1.25A |
2 USB 2.0 Gbit switch |
K26 build 13297 20091123 |
— |
RT-N18U | — | MSQ- RTN18U |
Broadcom BCM47081A0 @800 |
256 | 128 | Broadcom BCM4360 |
b/g/n 3×3:3 | — | 1 | 1 | 4 LAN 1 WAN |
12V 1.5A |
1 USB 2.0 1 USB 3.0 Gbit switch |
rt-n18u build 24118 20140523 |
— |
RT-N53 | — | MSQ- RTN53 |
Broadcom BCM5358U @300 |
32 | 8 | SOC & Broadcom BCM43236 |
b/g/n 2×2:2 a/n 2×2:2 |
— | 1 | 1 | 4 LAN 1 WAN |
12V 1A |
5 GHz not functional |
K26 build 17967 20111206 |
|
RT-N66U | — | MSQ- RTN66U |
Broadcom BCM4706 @600 |
256 | 32 | Broadcom BCM4331 x2 |
a/b/g/n | — | 1 | 1 | 4 LAN 1 WAN |
19V 1.6A |
2 USB 2.0 Gbit switch |
K26 build 17967 20111206 |
Install Guide |
WL-300g | — | MSQ WL300G |
Broadcom BCM4702 @125 |
16 | 4 | Broadcom BCM4306 |
b/g | — | — | 1 | 1 LAN | 5V 2A |
— | v24 must use VINT build |
|
WL-330gE | — | MSQ WL330GE |
Broadcom BCM5354r2 @240 |
16 | 4 | SOC | b/g | 1 | — | ? | 1 LAN | 5V 1A |
— | v24 build 10633 20081027 |
— |
WL-500b | — | MSQ WL500B |
Broadcom BCM4702 @125 |
16 | 4 | Broadcom BCM4301 |
b | 1 | — | 1 | 4 LAN 1 WAN |
5V 2A |
1 USB 1.1 1 LPT |
v23 SP2 | Install Guide |
WL-500g | — | MSQ WL500G |
Broadcom BCM4702 @125 |
16 | 4 | Broadcom BCM4306 |
b/g | 1 | — | 1 | 4 LAN 1 WAN |
5V 2A |
1 USB 1.1 1 LPT |
v24 must use VINT build |
Install Guide |
WL-500g Deluxe |
— | MSQ WL500GD |
Broadcom BCM5365 @200 |
32 | 4 | SOC | b/g | — | 1 | ? | 4 LAN 1 WAN |
5V 2A |
2 USB 2.0 | v23 SP2 | Install Guide |
WL-500gP | — | MSQ WL500GP |
Broadcom BCM4704 @264 |
32 | 8 | Broadcom BCM4318 |
b/g | 1 | 1 | ? | 4 LAN 1 WAN |
5V 2.5A |
2 USB 2.0 | v23 | Install Guide |
WL-500gP | v2 | MSQ WL500GP V2 |
Broadcom BCM5354 @240 |
32 | 8 | SOC | b/g | — | 1 | ? | 4 LAN 1 WAN |
5V 2.5A |
2 USB 2.0 | v24 build 9264 20080307 |
Install Guide |
WL-500W | — | MSQ WL500W |
Broadcom BCM4704 @264 |
32 | 8 | Broadcom BCM4321 |
b/g/n | 1 | 1 | — | 4 LAN 1 WAN |
5V 2.5A |
2 USB 2.0 | v24 build 7823 20070905 |
Install Guide |
WL-520g | — | MSQ WL520G |
Broadcom BCM5350 @200 |
8 | 2 | SOC | b/g | ? | 1 | ? | 4 LAN 1 WAN |
9V 0.8A |
— | V24 micro build 8679 20071225 |
Install Guide |
WL-520gC | — | MSQ WL520GUGC |
Broadcom BCM5354 @240 |
16 | 2 | SOC | b/g | — | 1 | — | 4 LAN 1 WAN |
5V 2A |
— | v24 micro build 8257 20071023 |
Install Guide |
WL-520gU | — | MSQ WL520GUGC |
Broadcom BCM5354 @240 |
16 | 4 | SOC | b/g | — | 1 | — | 4 LAN 1 WAN |
5V 2A |
1 USB 2.0 | v24 build 8257 20071023 |
Install Guide |
WL-550gE | — | MSQ WL550GE |
Broadcom BCM5352 @200 |
16 | 4 | SOC | b/g | ? | — | — | 4 LAN 1 WAN |
5V 2A |
2 USB 1.1 (internal) |
v24 build 8751 20080107 |
Install Guide |
WL-700gE | — | MSQ WL700GE |
Broadcom BCM4780 @266 |
64 | 2 | Broadcom BCM4318 |
b/g | — | 1 | — | 4 LAN 1 WAN |
12V 3A |
2 USB 2.0, 3.5″ IDE 250GB int.: can part. as flash |
k24 micro 15940(?) 18dec2010 |
Partially working? |
[edit] Belkin
WARNING: Always use TFTP to flash Belkin routers if at all possible! Upgrading dd-wrt from the web interface can lead to a bricked (nonfunctional) unit!
Model | H.W rev. |
FCC ID | Platform & Frequency [MHz] |
RAM [MB] |
Flash [MB] |
Wireless NIC |
WLAN standard [802.11] |
mini PCI |
Serial port |
JTAG port |
Eth. port count |
Power Input [V/A] |
Special Features Notes |
Min usable DD-WRT version |
Notes for running DD-WRT |
---|---|---|---|---|---|---|---|---|---|---|---|---|---|---|---|
F5D7130 | — | K7S F5D7130 |
Broadcom BCM4702 @125 |
8 | 2 | Broadcom BCM4306 |
b/g | 1 | — | 1 | 1 LAN or WAN |
5V 2A | Wireless G Acess Point |
Use VINT micro build!! |
|
F5D7130 | v2xxx | K7S F5D7130A |
Broadcom BCM4702 @125 |
8 | 2 | Broadcom BCM4306 |
b/g | 1 | — | 1 | 1 LAN or WAN |
5V 2A | Wireless G Acess Point |
Use VINT micro build!! |
First flash use Tftp flash |
F5D7130uk | v3xxx | — | Broadcom BCM4712 @200 |
8 | 2 | SOC | b/g | — | — | 1 | 1 LAN or WAN |
5V 2A | Wireless G Acess Point |
micro | First flash use Tftp flash |
F5D7130-4 | 1010 1112 |
QDS -BRCM1005 |
Broadcom BCM4702 @125 |
8 | 2 | Broadcom BCM4306 |
b/g | 1 | — | 1 | 4 LAN 1 WAN |
5V 2A | Use VINT micro build!! |
Always use Tftp flash |
|
F5D7230-4 | 1000 1010 11xx 12xx |
H8N -RT210W QDS -BRCM1005 |
Broadcom BCM4702 @125 |
16 | 4 | Broadcom BCM4306 |
b/g | 1 | 1 | 1 | 4 LAN 1 WAN |
5V 2A | Same h/w as Gigaset SE505v1 |
Use VINT micro build!! |
Always use Tftp flash see also |
F5D7230-4 | 1000fr 1444 |
K7S F5D7230-4 |
Broadcom BCM4712 @200 |
8 | 2 | SOC | b/g | yes | 1 | 1 | 4 LAN 1 WAN |
5V 2A | USB 1.1 mod | v23 sp2 micro | Always use Tftp flash |
F5D7230-4 | v2xxx | K7S F5D7234A |
Broadcom BCM4712 @200 |
8 | 2 | SOC | b/g | — | 1 | 1 | 4 LAN 1 WAN |
5V 2A | USB 1.1 mod | «serial flash» device Use SF build!! |
Important Notes |
F5D7230-4 | v3xxx | PD5 F5D72304 |
Broadcom BCM5350 @200 |
8 | 2 | SOC | b/g | — | 2 | 1 | 4 LAN 1 WAN |
7.5V 1A | v24 build 10018 20080728 |
First flash use Tftp flash |
|
F5D7231-4 | v10xx | K7S F5D72304 |
Broadcom BCM4712 @200 |
8 | 2 | SOC | b/g | — | ? | — | 4 LAN 1 WAN |
5V 2A | v24 micro build 8425 20071122 |
First flash use Tftp flash |
|
F5D7231-4 | v11xx | K7S F5D7234A |
Broadcom BCM4712 @200 |
8 | 2 | SOC | b/g | — | 1 | 1 | 4 LAN 1 WAN |
5V 2A | USB 1.1 mod | «serial flash» device Use SF build!! |
First flash use Tftp flash |
F5D7231-4 | v12xx | H8N RT2406W |
Broadcom BCM5352 @200 |
8 | 2 | SOC | b/g | — | ? | ? | 4 LAN 1 WAN |
5V 2A | — | v24 micro | First flash use Tftp flash |
F5D7231-4 | v2xxx | K7S F5D7231B |
Broadcom BCM5352 @200 |
8 | 2 | SOC | b/g | — | 1 | 1 | 4 LAN 1 WAN |
5V 2A | — | v24 micro build 11546 20090204 |
First flash use Tftp flash |
F5D7231-4P | v1xxx | K7S F5D7231P |
Broadcom BCM4712 @200 |
16 | 4 | SOC | b/g | — | — | — | 4 LAN 1 WAN |
5V 2A | 1 USB 1.1 | — | First flash use Tftp flash |
F5D7330 | v1xxx v20xx |
K7S F5D7130A |
Broadcom BCM4702 @125 |
8 | 2 | Broadcom BCM4306 |
b/g | 1 | — | 1 | 1 LAN or WAN |
5V 2A | Wifi bridge Game adapter |
Use VINT micro build!! |
First flash use Tftp flash |
F5D8230-4 | v1xxx | SA3 -AGN0901 AP0100 |
Broadcom BCM4704 @264 |
16 | 4 | Airgo must be replaced |
b/g | 1 | 1 | 1 | 4LAN 1 WAN |
12V 1A | — | v24 build 9360 20080330 |
First flash use Tftp flash |
F5D8232-4 | 1000 1021uk |
K7S F5D8232-4 |
Atheros AR7141 @300 |
16 | 8 | Atheros | b/g/n | — | 1 | 1 | 4 LAN 1 WAN |
12V 1.4A | 3″ B/W LCD Gbit switch |
Test build | |
F5D8235-4 | v20xx | K7S F5D8235-4B |
Ralink RT3052F @380 |
32 | 8 | SOC | b/g/n 2×2:2 | — | 1 | — | 4 LAN 1 WAN |
12V 1.5A | 1 USB 2.0 Gbit switch |
F5D8235-4_v2 build 15965 20101225 |
— |
F7D3301 F7D7301 «Share Max» |
v1 | K7S F7D3301V1 |
Broadcom BCM4718 @480 |
64 | 8 | SOC | b/g/n 2×2:2 | — | 1 | 1 | 4 LAN 1 WAN |
12V 1.5A | 2 USB 2.0 Gbit switch |
K26 build 15337 20101002 |
— |
F7D3302 F7D7302 «Share» |
v1 | K7S F7D3302V1 |
Broadcom BCM4718 @480 |
64 | 8 | SOC | b/g/n 2×2:2 | — | 1 | 1 | 4 LAN 1 WAN |
12V 1.5A | 1 USB 2.0 | K26 build 15337 20101002 |
— |
F7D4301 F7D8301 «Play Max» |
v1 | K7S F7D4301V1 |
Broadcom BCM4718 @480 |
64 | 8 | SOC & Broadcom BCM43224 |
b/g/n 2×2:2 a/n 2×2:2 |
— | 1 | 1 | 4 LAN 1 WAN |
12V 1.5A | 2 USB 2.0 Gbit switch |
K26 build 15230 20100918 |
First flash use CFE Web Server |
F7D4302 F7D8302 F7D9302 «Play» |
v1 | K7S F7D4302V1 |
Broadcom BCM4718 @480 |
64 | 8 | SOC & Broadcom BCM43224 |
b/g/n 2×2:2 a/n 2×2:2 |
— | 1 | 1 | 4 LAN 1 WAN |
12V 1.5A | 1 USB 2.0 | K26 build 15230 20100918 |
First flash use CFE Web Server |
[edit] Bountiful
Model | H.W rev. |
FCC ID | Platform & Frequency [MHz] |
RAM [MB] |
Flash [MB] |
Wireless NIC |
WLAN standard [802.11] |
mini PCI |
Serial port |
JTAG port |
Eth. port count |
Power Input [V/A] |
Special Features Notes |
Min usable DD-WRT version |
Notes for running DD-WRT |
---|---|---|---|---|---|---|---|---|---|---|---|---|---|---|---|
BWRG500 | — | TDK-BWRG500 | Atheros AR2316A @180 |
16 | 4 | SOC @26dBm |
b/g | — | 1 | yes | 4 LAN 1 WAN |
5V 4A | =bwrg1000 | bwrg1000- build 11803 20090401 |
needs dd-wrt activation |
BWRG1000 | — | TDK-BWR54G1 | Atheros AR2316A @180 |
16 | 4 | SOC @29dBm |
b/g | — | 1 | yes | 4 LAN 1 WAN |
5V 4A | — | bwrg1000- build 11803 20090401 |
needs dd-wrt activation |
[edit] Buffalo
Model | H.W rev. |
FCC ID | Platform & Frequency [MHz] |
RAM [MB] |
Flash [MB] |
Wireless NIC |
WLAN standard [802.11] |
mini PCI |
Serial port |
JTAG port |
Eth. port count |
Power Input [V/A] |
Special Features Notes |
Min usable DD-WRT version |
Notes for running DD-WRT |
---|---|---|---|---|---|---|---|---|---|---|---|---|---|---|---|
BHR-4GRV | — | Atheros AR7242 @400 |
64 | 32 | — | — | — | 1 | 1 | 4 LAN 1 WAN |
12V 1.5-2A |
1 USB 2.0 Gbit switch |
bhr_4grv build 22118 20130724 |
— | |
WAPM-HP- AM54G54 |
— | Japan model | Broadcom BCM4704 @264 |
64 | 8 | Broadcom BCM4309 & BCM4306 |
a + b/g | 2 | 1 | 1 | 4 LAN | 5V | — | v24 build 6431 20070403 |
— |
WBMR-HP- G300H |
— | RAX AR7516VW |
Lantiq AR9 @333 |
64 | 32 | Atheros AR9223 |
b/g/n 2×2:2 | 1 | 1 | 1 | 4 LAN 1 WAN |
12V 2A | ADSL2+ Modem 1 USB 2.0 |
wbmr_g300h build 18740 20120308 |
— |
WBR-B11 | — | — | Broadcom BCM4702 @125 |
16 | 4 | Broadcom BCM4301 |
a/b | 1 | 1 | 1 | 4 LAN 1 WAN |
3.3V 2A | — | v23 SP2 | Use ddadder WLAN does not work due to lack of driver |
WBR-G54 | — | — | Broadcom BCM4702 @125 |
16 | 4 | Broadcom BCM4306 |
b/g | 1 | 1 | 1 | 4 LAN 1 WAN |
3.3V 2A | — | v23 build 1907 20060515 |
First flash use ddadder or Tftp_flash |
WBR2-G54 | — | FDI -04600142-0 |
Broadcom BCM4712 @200 |
16 | 4 | SOC | b/g | — | — | ? | 4 LAN 1 WAN |
3.3V 2A | — | v23 build 1907 20060515 |
First flash use ddadder or Tftp_flash |
WBR2-G54S | — | FDI -04600142-0 |
Broadcom BCM4712 @200 |
16 | 4 | SOC | b/g | — | — | ? | 4 LAN 1 WAN |
3.3V 2A | — | v23 build 1907 20060515 |
First flash use ddadder or Tftp_flash |
WCR-GN | — | FDI -09101676-0 |
Ralink RT3350F @320 |
16 | 4 | SOC | b/g/n 1×1:1 | — | 1 | — | 4 LAN 1 WAN |
12V 1A | — | wcr-gn build 18024 20111220 |
— |
WHR-300HP2 | v1 | FDI 000000010 |
MediaTek MT7620A @580 |
64 | 8 | SOC | b/g/n 2×2:2 | — | 1 | ? | 4 LAN 1 WAN |
12V 1A | — | whr_300hp2 build 22761 20131107 |
— |
WHR-300HP2D | v1 | FDI 000000010 |
MediaTek MT7620A @580 |
64 | 8 | SOC | b/g/n 2×2:2 | — | 1 | ? | 4 LAN 1 WAN |
12V 1A | — | whr_300hp2 build 22761 20131107 |
— |
WHR-600D | v1 | FDI 000000011 |
MediaTek MT7620A @580 |
64 | 8 | SOC & MediaTek RT5592 |
b/g/n 2×2:2 a/n 2×2:2 |
— | 1 | ? | 4 LAN 1 WAN |
12V 1A | — | whr_600d build 23503 20140204 |
— |
WHR-1166D (AC1200) |
v1 | FDI 000000020 |
MediaTek MT7620A @580 |
128 | 8 | SOC & MediaTek MT7612E |
b/g/n 2×2:2 an/ac 2×2:2 |
— | 1 | ? | 4 LAN 1 WAN |
12V 1A | — | whr_1166d build 25139 20141022 |
— |
WHR-AMG54 | — | Japan model | Broadcom BCM5351G @200 |
16? | 4 | Broadcom BCM4318 |
a/b/g | 1 | ? | ? | 4 LAN 1 WAN |
? | — | v24 build 9526 20080524 |
use build for WHR-HP-G54 |
WHR-G54S | — | FDI -04600264-0 |
Broadcom BCM5352 @200 |
16 | 4 | SOC | b/g | — | 1 | 1 | 4 LAN 1 WAN |
3.3V 2A | — | v23 build 2892 20060704 |
First flash use Tftp_flash |
WHR-G125 | — | FDI -09101584-0 |
Broadcom BCM5354 @240 |
16 | 4 | SOC | b/g | — | 1 | 1 | 4 LAN 1 WAN |
3.3V 2A | — | v24 -build 7013 20070509 |
First flash use Tftp_flash |
WHR-G300N | v1 | FDI -09101538-0 |
Ralink RT3052F @384 |
32 | 4 | SOC | b/g/n 2×2:2 | — | 1 | ? | 4 LAN 1 WAN |
12V 2A | — | WHR-G300N build 13637 20100116 |
Install Guide |
WHR-G300N | v2 | FDI -09101561-0 |
Atheros AR7240 @400 |
32 | 4 | Atheros AR9283 |
b/g/n 2×2:2 | — | 1 | ? | 4 LAN 1 WAN |
12V 1A | — | whr_g300nv2 build 14684 20100630 |
Install Guide |
WHR-HP-AG108 | ? | FDI -09101540-0 |
Atheros AR5312 @220 |
32 | 4 | Atheros AR5112 & AR2112 |
a/h + b/g | — | 1 | ? | 4 LAN 1 WAN |
5V 2A | — | v24 build 5798 20070208 |
Install Guide |
WHR-HP-G300N | ? | FDI -09101621-0 |
Atheros AR7240 @400 |
32 | 4 | Atheros AR9283 |
b/g/n 2×2:2 | — | 1 | ? | 4 LAN 1 WAN |
5V 2.3A | — | whr_hp_g300n build 13406 20091207 |
Install Guide |
WHR-HP-G54 | — | FDI -09101577-0 |
Broadcom BCM5352 @200 |
16 | 4 | SOC | b/g | — | 1 | 1 | 4 LAN 1 WAN |
5V 2.6A | — | v24 build 9526 20080524 |
Install Guide |
WHR-HP-GN | ? | FDI -09101567-0 |
Atheros AR7240 @400 |
32 | 4 | Atheros AR9283 |
b/g/n 1×1:1 | — | 1 | ? | 4 LAN 1 WAN |
5V 2.3A | — | whr_hp_gn build 13406 20091207 |
— |
WHR2-A54G54 | — | Japan model | Broadcom BCM4704 @264 |
64 | 4 | Broadcom BCM4309 & BCM4306 |
a + b/g | 2 | ? | ? | 4 LAN 1 WAN |
5V ?A? | — | v24 build 3956 20060927 |
— |
WHR3-AG54 | — | Japan model | Broadcom BCM4704 @264 |
64 | 4 | Broadcom BCM4309 |
a/b/g | 1 | 1 | 1 | 4 LAN 1 WAN |
3.3V 2A | External Antenna Connector |
v24 build 3025 20060710 |
Use tftp for all updates |
WLA-G54 | — | ? | Broadcom BCM4702 @125 |
16 | 4 | Broadcom BCM4306 |
b/g | 1 | — | ? | 4 LAN | 3.3V 2A | — | v23 build 1907 20060515 |
First flash use ddadder or Tftp_flash |
WLA-G54C | — | ? | Broadcom BCM4702 @125 |
16 | 4 | Broadcom BCM4306 |
b/g | 1 | — | ? | 1 LAN | 3.3V 2A | — | v23 build 1907 20060515 |
First flash use ddadder or Tftp_flash |
WLA2-G54C | — | FDI -09101669-0 |
Broadcom BCM4712 @200 |
16 | 4 | SOC | b/g | — | 1 | 1 | 1 LAN | 3.3V 2A | — | v23 build 2892 20060704 |
First flash use ddadder or Tftp_flash |
WLA2-G54L | — | FDI -04600142-0 |
Broadcom BCM4712 @200 |
16 | 4 | SOC | b/g | — | 1 | 1 | 4 LAN | 3.3V 2.5A | — | v23 build 1907 20060515 |
First flash use ddadder or Tftp_flash |
WLAE-AG-300N | — | FDI -09101592-0 |
Atheros AR7240 @400 |
32 | 4 | Atheros AR9280 |
b/g/n 2×2:2 | — | 1 | 1 | 2 LAN | 100-240V AC |
— | wlae-ag-300h build 15962 20101224 |
— |
WLAH-G54 | — | Japan model | Broadcom BCM4702 @125 |
16 | 4 | Broadcom BCM4306 |
b/g | — | 1 | 1 | 1 LAN | 3.3V 2A | — | v24 build 6431 20070403 |
First flash use ddadder or Tftp_flash |
WLI-H4-D1300 | — | FDI -09101695-0 |
Broadcom BCM4706 @600 |
128 | 128 | Broadcom BCM4360 & BCM4331 |
an+ac 3×3:3 b/g/n 3×3:3 |
4 LAN 1 WAN |
12V 3A | Gbit switch | wli-d1300 build 21061 20130325 |
— | |||
WLI-TX1-G54 | — | ? | Broadcom BCM5352 @200 |
16 | 4 | SOC | b/g | — | ? | ? | 1 LAN | 5V 2.6A | — | v24 build 6211 20070312 |
First flash use ddadder or Tftp_flash |
WLI-TX4-G54HP | — | ? | Broadcom BCM5352 @200 |
16 | 4 | SOC | b/g | — | ? | ? | 4 LAN | 5V 2.6A | — | v24 build 5814 20070209 |
First flash use ddadder or Tftp_flash |
WLI2-TX1-G54 | — | ? | Broadcom BCM5352 @200 |
16 | 4 | SOC | b/g | — | ? | ? | 1 LAN | 5V 2A | — | v23 build 3955 20060925 |
First flash: use Tftp_flash |
WLI3-TX1-G54 | — | FDI -09101669-0 |
Broadcom BCM4712 @200 |
16 | 4 | SOC | b/g | — | 1 | 1 | 1 LAN | 3.3V 2A | Same PCB as WLA2-G54C |
v23 build 2892 20060704 |
First flash use ddadder or Tftp_flash |
WVR-G54-NF | — | Japan model | Broadcom BCM4704 @264 |
64 | 8 | Broadcom BCM4306 |
b/g | 1 | 1 | 1 | 4 LAN 1 WAN |
?V ?A | — | v24 build 3923 20060912 |
First flash use ddadder or Tftp_flash |
WXR-1900DHP | — | FDI 000000022 |
Broadcom BCM4709 @1000 |
512 | 128 | Broadcom BCM4360 x2 |
a/c 1300 b/g/n 600 |
— | 1 | 1 | 4 LAN 1 WAN |
12V 3A | 2 USB 2.0/3.0 Gbit switch |
wxr-1900dhp build 24461 20140623 |
— |
WZR-300HP | FDI -09101896-0 |
Atheros AR7242 @400 |
64 | 32 | Atheros AR9280 |
b/g/n 2×2:2 | — | 1 | 1 | 4 LAN 1 WAN |
12V 1.5A | 1 USB 2.0 Gbit switch |
wzr-300hp build 20675 20130211 |
— | |
WZR-450HP2 | FDI 000000026 |
Qualcomm QCA9558 @720 |
128 | 16 | SOC | b/g/n 3×3:3 | — | 1 | 1 | 4 LAN 1 WAN |
12V 1A | Gbit switch | wzr-450hp2 build 28112 20151110 |
— | |
WZR-600DHP | FDI -09101889-0 |
Atheros AR7161 @680 |
128 | 32 | Atheros AR9220 & AR9223 |
a/n 2×2:2 b/g/n 2×2:2 |
— | 1 | 1 | 4 LAN 1 WAN |
12V 2A | 1 USB 2.0 Gbit switch |
wzr-600dhp build 20629 20130202 |
Install Guide |
|
WZR-600DHP2 | — | FDI 000000013 |
Broadcom BCM47081A0 @800 |
256 | 128 | Broadcom BCM43228 & BCM43217 |
a/n 2×2:2 b/g/n 2×2:2 |
4 LAN 1 WAN |
12V 3A | 1 USB 2.0 Gbit switch |
wzr-600dhp2 build 21676 20130527 |
— | |||
WZR-900DHP | — | FDI 000000014 |
Broadcom BCM47081A0 @800 |
256 | 128 | Broadcom BCM4331 x2 |
a/n 3×3:3 b/g/n 3×3:3 |
4 LAN 1 WAN |
12V 3A | 1 USB 2.0 Gbit switch |
wzr-900dhp build 21676 20130527 |
— | |||
WZR-1166DHP (AC1200) |
— | FDI 000000015 |
Broadcom BCM4708A0 @800 |
256 | 128 | Broadcom BCM4352 & BCM43217 |
an/ac 2×2:2 b/g/n 2×2:2 |
4 LAN 1 WAN |
12V 3A | 1 USB 3.0 Gbit switch |
wzr-1166dhp build 22118 20130724 |
— | |||
WZR-1750DHP (AC1750) |
— | FDI 000000009 |
Broadcom BCM4708A0 @800 |
512 | 128 | Broadcom BCM4360 & BCM4331 |
an/ac 3×3:3 b/g/n 3×3:3 |
4 LAN 1 WAN |
12V 4A | 1 USB 3.0 1 USB 2.0 Gbit switch |
wzr-1750dhp build 21676 20130527 |
— | |||
WZR-D1100 | — | Japan model | Broadcom BCM4706 @600 |
128 | 128 | Broadcom BCM4360 & BCM4331 |
an/ac 3×3:3 b/g/n 3×3:3 |
4 LAN 1 WAN |
12V 3A | 1 USB 2.0 Gbit switch |
wzr-d1100h build 21061 20130325 |
— | |||
WZR-D1800H (AC1750) |
— | FDI -09101695-0 |
Broadcom BCM4706 @600 |
128 | 128 | Broadcom BCM4360 & BCM4331 |
an/ac 3×3:3 b/g/n 3×3:3 |
4 LAN 1 WAN |
12V 3A | 1 USB 2.0 Gbit switch |
wzr-d1800h build 21061 20130325 |
Install Guide |
|||
WZR-G54 | — | Japan model | Broadcom BCM4704 @264 |
16 | 4 | Broadcom BCM4306 |
b/g | 1 | ? | ? | 4 LAN 1 WAN |
5V 1.5A | — | v24 build 4179 20061015 |
First flash use ddadder or Tftp_flash |
WZR-G108 | — | Japan model | Broadcom BCM4704 @264 |
32 | 8 | Airgo (must be replaced) |
b/g | 1 | ? | ? | 4 LAN 1 WAN |
12V 0.8A | — | v24? | First flash use ddadder or Tftp_flash |
WZR-G144NH | Japan model | Broadcom BCM4785 @300 |
32 | 4 | Broadcom | b/g/n | — | — | ? | 4 LAN 1 WAN |
? | Gbit switch | v24 build 6551 20070413 |
First flash use ddadder or Tftp_flash |
|
WZR-HP- AG300H |
v1 | FDI -09101592 |
Atheros AR7161 @680 |
128 | 32 | Atheros AR9220 & AR9223 |
a/n 2×2:2 b/g/n 2×2:2 |
— | 1 | 1 | 4 LAN 1 WAN |
12V 2A | 1 USB 2.0 Gbit switch |
wzr-hp-ag300h build 15962 20101224 |
Install Guide |
WZR-HP-G54 | — | FDI -09101457-0 |
Broadcom BCM4704 @264 |
16 | 4 | Broadcom BCM4306 |
b/g | 1 | 1 | ? | 4 LAN 1 WAN |
5V 1.5A | — | v23 build 2505 20060608 |
First flash use ddadder or Tftp_flash |
WZR-HP-G300NH | v1 | FDI -09101560-0 |
Atheros AR9132 @400 |
64 | 32 | Atheros AR9103 |
b/g/n 2×3:2 | — | 1 | 1 | 4 LAN 1 WAN |
12V 1.5A | 1 USB 2.0 Gbit switch |
wzr-hp-g300nh build 13525 20091228 |
Install Guide |
WZR-HP- G300NH2 |
FDI -09101896-0 |
Atheros AR7242 @400 |
64 | 32 | Atheros AR9280 |
b/g/n 2×2:2 | — | 1 | 1 | 4 LAN 1 WAN |
12V 1.5A | 1 USB 2.0 Gbit switch |
wzr-hp-g300nh2 build 17201 20110614 |
— | |
WZR-HP-G301NH | v1 | Japan model | Atheros AR9132 @400 |
64 | 32 | Atheros AR9103 |
b/g/n 2×3:2 | — | 1 | 1 | 4 LAN 1 WAN |
12V 1.5A | 1 USB 2.0 Gbit switch |
wzr-hp-g301nh build 14280 20100415 |
— |
WZR-HP-G302H | FDI -09101896-0 |
Atheros AR7242 @400 |
64 | 32 | Atheros AR9280 |
b/g/n 2×2:2 | — | 1 | 1 | 4 LAN 1 WAN |
12V 1.5A | 1 USB 2.0 Gbit switch |
wzr-hp-g300nh2 build 20629 20130202 |
= WZR-HP- G300NH2 |
|
WZR-HP-G450H | FDI -09101912-0 |
Atheros AR7242 @400 |
64 | 32 | Atheros AR9381 |
b/g/n 3×3:3 | — | 1 | 1 | 4 LAN 1 WAN |
12V 1.5A | 1 USB 2.0 Gbit switch |
wzr_hp_g450h build 22118 20130724 |
— | |
WZR-RS-G54 | ? | FDI -09101457-0 |
Broadcom BCM4704 @264 |
64 | 8 | Broadcom BCM4306 |
b/g | 1 | 1 | ? | 4 LAN 1 WAN |
3.3V 1.5A | — | v23 build 2892 20060704 |
First flash use ddadder or Tftp_flash |
[edit] Cisco
- see Linksys
[edit] Comfast
Model | H.W rev. |
FCC ID | Platform & Frequency [MHz] |
RAM [MB] |
Flash [MB] |
Wireless NIC |
WLAN standard [802.11] |
mini PCI |
Serial port |
JTAG port |
Eth. port count |
Power Input [V/A] |
Special Features Notes |
Min usable DD-WRT version |
Notes for running DD-WRT |
---|---|---|---|---|---|---|---|---|---|---|---|---|---|---|---|
CF-E325N | Atheros AR9341 @533 |
64 | 16 | SOC | b/g/n 2×2:2 | 1 | 1 LAN 1 WAN |
48V 0.32A | H/W Watchdog POE |
comfast-e325n build 29621 20160510 |
needs DD-WRT activation |
||||
CF-E355AC (AC1200) |
Qualcomm QCA9531 @650 |
64 | 16 | SOC & Qualcomm QCA9882 |
b/g/n 2×2:2 an/ac 2×2:2 |
1 | 1 LAN 1 WAN |
48V 0.32A | H/W Watchdog POE |
comfast-e355ac build 29607 20160509 |
needs DD-WRT activation |
||||
CF-E380AC (AC1750) |
Qualcomm QCA9558 @720 |
256 | 16 | SOC & Qualcomm QCA9880 |
b/g/n 3×3:3 an/ac 3×3:3 |
1 | 1 LAN or WAN |
48V 0.5A | H/W Watchdog POE Gbit switch |
comfast-e380ac build 29721 20160518 |
needs DD-WRT activation |
||||
CF-WR615N | Qualcomm QCA9531 @650 |
128 | 16 | SOC | b/g/n 2×2:2 | 1 | 4 LAN 1 WAN |
12V 1.5A | 1 USB 2.0 | comfast-wr615n build 29739 20160519 |
needs DD-WRT activation |
||||
CF-WR650AC (AC1750) |
Qualcomm QCA9558 @720 |
256 | 16 | SOC & Qualcomm QCA9880 |
b/g/n 3×3:3 an/ac 3×3:3 |
1 | 4 LAN 1 WAN |
12V 2A | H/W Watchdog 1 USB 2.0 Gbit switch |
comfast-wr650ac build 29607 20160509 |
needs DD-WRT activation |
[edit] Compex
Model | H.W rev. |
FCC ID | Platform & Frequency [MHz] |
RAM [MB] |
Flash [MB] |
Wireless NIC |
WLAN standard [802.11] |
mini PCI |
Serial port |
JTAG port |
Eth. port count |
PoE | Power Input [V/A] |
Special Features Notes |
Min usable DD-WRT version |
Notes for running DD-WRT |
---|---|---|---|---|---|---|---|---|---|---|---|---|---|---|---|---|
MMC543 | — | ? | Atheros AR7130 @300 |
32-64 | 4-16 | 1 | a/h/n @23dBm |
2 | 1 | 1 | 1 LAN WAN |
yes | 24-48V | Indoor box | wp543 build 13102 20091017 |
needs DD-WRT activation |
MMJ2N | — | ? | Atheros AR7130 @300 |
32 | 4 | 1 | b/g/n @28dBm |
2 | 1 | 1 | 1 LAN WAN |
yes | 24-48V | Outdoor box 8dBi dual pol ant. 2 x RP-SMA |
wp543 build 13102 20091017 |
needs DD-WRT activation |
MMJ5N | — | ? | Atheros AR7130 @300 |
32 | 4 | 1 | a/h/n @28dBm |
2 | 1 | 1 | 1 LAN WAN |
yes | 24-48V | Outdoor box 17dBi dual pol ant. 2 x RP-SMA |
wp543 build 13102 20091017 |
needs DD-WRT activation |
MMS2N | — | ? | Atheros AR7130 @300 |
32 | 4 | 1 | b/g/n @29dBm |
2 | 1 | 1 | 1 LAN WAN |
yes | 24-48V | Outdoor box 14dBi dual pol ant. 2 x RP-SMA |
wp543 build 13102 20091017 |
needs DD-WRT activation |
MMS5N | — | ? | Atheros AR7130 @300 |
32 | 4 | 1 | a/h/n @29dBm |
2 | 1 | 1 | 1 LAN WAN |
yes | 24-48V | Outdoor box 19dBi dual pol ant. 2 x RP-SMA |
wp543 build 13102 20091017 |
needs DD-WRT activation |
NP25G | 6A | ? | Atheros AR2317 @180 |
16 | 4 | SOC | b/g | — | 1 | 1 | 4 LAN 1 WAN |
? | ? | ? | np25g build 12612 20090805 |
initial tftp upload |
NP27G | — | ? | Infineon ADM5120 @175 |
16 | 4 | — | b/g | 1 | 1 | 1 | 4 LAN 1 WAN |
yes | 12- 24V? | 2 USB 1.1 | NP27G build 12035 20090501 |
needs DD-WRT activation |
NP28G | — | ? | Infineon ADM5120 @175 |
32 | 4 | — | b/g | 1 | 1 | 1 | 3 LAN 1 WAN |
yes | 12-24V? | 4 USB 2.0 | NP28G build 11267 20081220 |
needs DD-WRT activation |
WPE53G | ? | TK4 -08-WPE53G |
Atheros AR2317 @180 |
16 | 4 | SOC | b/g | — | ? | ? | 1 LAN WAN |
? | ? | ? | wpe53g build 14121 20100316 |
|
WPE72 | ? | ? | Atheros AR7240 @400 |
32-64 | 4-32 | — | — | 1 | 1 | 1 | 2 LAN WAN |
passive PoE |
12-24V | — | wpe72 build 21931 20130627 |
needs DD-WRT activation |
WPE72NX | ? | ? | Atheros AR7240 @400 |
32-64 | 4-32 | — | a/b/g/h/n @21dBm |
— | 1 | 1 | 2 LAN WAN |
passive PoE |
12-24V | Indoor box | wpe72 build 21931 20130627 |
needs DD-WRT activation |
WPMA54- 2.4G14 |
— | ? | Infineon ADM5120 @175 |
16 | 4 | — | depends on card |
1 | 1 | 1 | 2 LAN WAN |
yes | 12-24V | Outdoor box 14dBi b/g ant. |
WP54 build 11165 20081211 |
needs DD-WRT activation |
WPMA54- 5G17 |
— | ? | Infineon ADM5120 @175 |
16 | 4 | — | depends on card |
1 | 1 | 1 | 2 LAN WAN |
yes | 12-24V | Outdoor box 17dBi A ant. |
WP54 build 11165 20081211 |
needs DD-WRT activation |
WPM54 | — | ? | Infineon ADM5120 @175 |
16 | 4 | — | depends on card |
1 | 1 | 1 | 2 LAN WAN |
yes | 12-24V | Outdoor box | WP54 build 11165 20081211 |
needs DD-WRT activation |
WP54-6E | 6E | ? | Infineon ADM5120 @175 |
16 | 4 | — | depends on card |
1 | 1 | 1 | 2 LAN WAN |
yes | 12-24V | — | WP54 build 11165 20081211 |
needs DD-WRT activation |
WP54- 7A&C |
7A or 7C | ? | Infineon ADM5120 @175 |
16 | 4 | — | depends on card |
1 | 1 | 1 | 2 LAN WAN |
yes | 12-24V | — | WP54 build 11165 20081211 |
needs DD-WRT activation |
WP54G | — | ? | Infineon ADM5120 @175 |
16 | 4 | — | b/g | 1 | 1 | 1 | 2 LAN WAN |
yes | 12-24V | WP54G build 11165 20081211 |
needs DD-WRT activation |
|
WP54AG | — | ? | Infineon ADM5120 @175 |
16 | 4 | — | a/b/g/h | 1 | 1 | 1 | 2 LAN WAN |
yes | 12-24V | WP54AG build 11165 20081211 |
needs DD-WRT activation |
|
WPP54AG | — | ? | Infineon ADM5120 @175 |
32 | 4 | — | a/b/g/h | 1 | 1 | 1 | 2 LAN WAN |
yes | 12-24V | Outdoor box 8.5dBi a/g ant. |
WPP54AG build 11165 20081211 |
needs DD-WRT activation |
WPP54G | — | ? | Infineon ADM5120 @175 |
32 | 4 | — | b/g | 1 | 1 | 1 | 2 LAN WAN |
yes | 12-24V | Outdoor box 8.5dBi a/g ant. |
WPP54G build 11165 20081211 |
needs DD-WRT activation |
WP188 | 6B | ? | Xscale IXP425 @533 |
128 | 16 | — | depends on card |
4 | 1 | 1 | 2 LAN | 802.3af | 24-48V | h/w-watchdog sd-card socket |
wp188 build 9360 20080330 |
needs DD-WRT activation |
WP188 | 6C | ? | Xscale IXP425 @533 |
64 | 8 | — | depends on card |
4 | 1 | 1 | 1 LAN | 802.3af | 24-48V | h/w-watchdog sd-card socket |
wp188 build 9360 20080330 |
needs DD-WRT activation |
WPM 188 | — | ? | Xscale IXP425 @533 |
64 | 8 | — | 2 a/b/g/h 2 b/g |
4 | 1 | 1 | 1 LAN | 802.3af | 24-48V | Outdoor box h/w-watchdog sd-card socket |
wp188 build 9360 20080330 |
needs DD-WRT activation |
WP188MA- 2.4G14 |
— | ? | Xscale IXP425 @533 |
64 | 8 | — | 2 a/b/g/h 2 b/g |
4 | 1 | 1 | 1 LAN | 802.3af | 24-48V | Outdoor box 14dBi 2.4GHz ant h/w-watchdog sd-card socket |
wp188 build 9360 20080330 |
needs DD-WRT activation |
WP188MA- 5G17 |
— | ? | Xscale IXP425 @533 |
64 | 8 | — | 2 a/b/g/h 2 b/g |
4 | 1 | 1 | 1 LAN | 802.3af | 24-48V | Outdoor box 17dBi 5GHz ant h/w-watchdog sd-card socket |
wp188 build 9360 20080330 |
needs DD-WRT activation |
WP543 | 6C (to 6H) | ? | Atheros AR7130 @300 |
32 | 4-16 | — | depends on card |
1-2 | 1 | 1 | 1 LAN WAN |
802.3af | 10-24V | — | wp543 build 13102 20091017 |
needs DD-WRT activation |
WP543A- 6ANX |
— | ? | Atheros AR7130 @300 |
16 | 4 | 1 | a/b/g/h/n @20dBm |
2 | 1 | 1 | 1 LAN WAN |
yes | 12-28V | Indoor box 13dBi 5GHz dual pol ant. |
wp543 build 13102 20091017 |
needs DD-WRT activation |
WP543AHV | ? | ? | Atheros AR7161 @680 |
32-64 | 8-16 | — | depends on card |
2 | 1 | 1 | 1 LAN WAN |
802.3af | 24-48V | 2 USB 2.0 | wp543 build 13102 20091017 |
needs DD-WRT activation |
WP546HV | — | ? | Atheros AR7161 @680 |
64 | 8 | — | depends on card |
2 | 1 | 1 | 2 LAN WAN |
802.3af | 24-48V | Optional 2 USB 2.0 Gbit switch |
wp546 build 19108 20120425 |
needs DD-WRT activation |
WPJ72 | ? | ? | Atheros AR7240 @400 |
32-64 | 4-16 | — | a/n @29dBm |
— | 1 | 1 | 1 LAN WAN |
passive PoE |
12-24V | remote hw-reset |
? | needs DD-WRT activation |
WPJ72 R5N29 |
? | ? | Atheros AR7240 @400 |
32-64 | 8-16 | — | depends on card |
1 | 1 | 1 | 2 LAN WAN |
passive PoE |
5-24V | remote hw-reset |
? | needs DD-WRT activation |
WPJ543 | 6C | ? | Atheros AR7130 @300 |
32 | 4-16 | — | depends on card |
1-2 | 1 | 1 | 1 LAN WAN |
802.3af | 10-24V | — | wp543 build 13102 20091017 |
needs DD-WRT activation |
WPMN543- 5G16dBi |
— | ? | Atheros AR7130 @300 |
32 | 4 | 1 | a/b/g/h/n | 2 | 1 | 1 | 1 LAN WAN |
yes | 10-24V | Outdoor box 16dBi 5GHz dual pol ant. |
wp543 build 13102 20091017 |
needs DD-WRT activation |
WPP543A- 7CNX |
— | ? | Atheros AR7130 @300 |
16 | 4 | 1 | a/b/g/h/n | 2 | 1 | 1 | 1 LAN WAN |
yes | 10-24V | Outdoor AP 13dBi 5GHz dual pol ant. |
wp543 build 13102 20091017 |
needs DD-WRT activation |
[edit] Corega
Model | H.W rev. |
FCC ID | Platform & Frequency [MHz] |
RAM [MB] |
Flash [MB] |
Wireless NIC |
WLAN standard [802.11] |
mini PCI |
Serial port |
JTAG port |
Eth. port count |
Power Input [V/A] |
Special Features Notes |
Min usable DD-WRT version |
Notes for running DD-WRT |
---|---|---|---|---|---|---|---|---|---|---|---|---|---|---|---|
CG- WLBARN20 | — | U2M-SR97908003 | Ralink RT3052 @384 |
32 | 4 | SOC | b/g/n 2×2:2 | — | 1 | ? | 4 LAN 1 WAN |
12V 1A | — | ESR9752SC build 12527 20090719 |
ESR-9752 ODM |
[edit] Dell
Model | H.W rev. |
FCC ID | Platform & Frequency [MHz] |
RAM [MB] |
Flash [MB] |
Wireless NIC |
WLAN standard [802.11] |
mini PCI |
Serial port |
JTAG port |
Eth. port count |
Power Input [V/A] |
Special Features Notes |
Min usable DD-WRT version |
Notes for running DD-WRT |
---|---|---|---|---|---|---|---|---|---|---|---|---|---|---|---|
TrueMobile 2300 |
vA00 or A01 | MXF-R920401G | Broadcom BCM4702 @125 |
16 | 4 | Broadcom BCM4306 |
b/g | 1 | ? | adding possible |
4 LAN 1 WAN |
5V 2A | — | v24 must use VINT build |
— |
TrueMobile 2300 |
v1 | MXF-R920401G | Broadcom BCM4702 @125 |
16 | 4 | Broadcom BCM4306 |
b/g | 1 | ? | adding possible |
4 LAN 1 WAN |
5V 2A | — | v24 must use VINT build |
— |
TrueMobile 2300 |
vA00 or v2 | MXF-R921212G | Broadcom BCM4712 @200 |
16 | 4 | SOC | b/g | — | ? | 1 | 4 LAN 1 WAN |
5V 2A | — | v24 build 6165 20070309 |
[edit] D-Link
Model | H.W rev. |
FCC ID | Platform & Frequency [MHz] |
RAM [MB] |
Flash [MB] |
Wireless NIC |
WLAN standard [802.11] |
mini PCI |
Serial port |
JTAG port |
Eth. port count |
Power Input [V/A] |
Special Features Notes |
Min usable DD-WRT version |
Notes for running DD-WRT |
---|---|---|---|---|---|---|---|---|---|---|---|---|---|---|---|
DAP-2230 | A1 | SOC@26dBm | b/g/n 2×2:2 | — | — | — | 1 LAN | 12V 1A | 802.3af POE | dap2230 build 27297 20150615 |
— | ||||
DAP-2330 | A1 | KA2 AP2330A1 |
Qualcomm QCA9557 @720 |
64 | 16 | SOC@26dBm | b/g/n 2×2:2 | — | 1 | 1 | 1 LAN WAN | 12V 1A |
POE GBit switch |
dap2330 build 27297 20150615 |
— |
DAP-2660 (AC1200) |
A1 | KA2 AP2660A1 |
Qualcomm QCA9557 @720 |
128 | 16 | SOC@26dBm QCA9882 @26dBm |
b/g/n 2×2:2 an/ac 2×2:2 |
— | 1 | 1 | 1 LAN WAN | 12V 1A |
POE GBit switch |
dap2660 build 27297 20150615 |
— |
DAP-3310 | SCD OW141000001 |
Atheros AR1321 @400 |
32 | 8 | SOC@10dBm | b/g/n 2×2:2 | — | 1 | 1 | 2 LAN WAN | POE | Integrated 10dBI sector ant. |
dap3310 build 26332 20150222 |
— | |
DAP-3320 | A1 | KA2 AP3320A1 |
b/g/n 2×2:2 | — | POE | dap3320 build 27297 20150615 |
— | ||||||||
DAP-3410 | SCD OW161000001 |
Atheros AR9342 @560 |
32 | 8 | SOC@15dBm | a/n 2×2:2 | — | 1 | 1 | 2 LAN WAN | POE | Integrated 15dBI sector ant. |
dap3410 build 26332 20150222 |
— | |
DAP-3662 (AC1200) |
A1 | KA2 AP3662A1 |
Qualcomm QCA9557 @720 |
128 | 16 | SOC@26dBm QCA9882 @26dBm |
b/g/n 2×2:2 an/ac 2×2:2 |
— | 1 | 1 | 2 LAN WAN | 48V 0.5A |
POE Gbit switch |
dap3662 build 27297 20150615 |
— |
DHP-1565 | A1 | KA2 HP1565A1 |
Atheros AR9344 @560 |
128 | 16 | SOC | b/g/n 2×2:2 | — | 1 | 1 | 4 LAN 1 WAN |
5V 1.2A |
PowerLine 1 USB 2.0 Gbit switch |
dhp1565-a1 build 26332 20150222 |
— |
DIR-300 | A1 | KA2 DIR300A1 |
Atheros AR2317 @182 |
16 | 4 | SOC | b/g | — | 1 | 1 | 4 LAN 1 WAN |
5V 1.2A |
clone of AR335W |
v24rc5 | Install Guide |
DIR-300 | B1 | KA2 DIR300B1 |
Ralink RT3050 @320 |
32 | 4 | SOC | b/g/n 1×1:1 | — | 1 | — | 4 LAN 1 WAN |
5V 1.2A |
dir300b1 build 12729 20090824 |
Install Guide |
|
DIR-320 | A1 | KA2 DIR320A1 |
Broadcom BCM5354 @240 |
32 | 4 | SOC | b/g | — | 1 | 1 | 4 LAN 1 WAN |
5V 2A |
1 USB 2.0 | v24 build 7989 20070920 |
|
DIR-320 | A2 | KA2 DIR320A1 |
Broadcom BCM5354 @240 |
32 | 4 | SOC | b/g | — | 1 | 1 | 4 LAN 1 WAN |
5V 2A |
1 USB 2.0 | v24 build 7989 20070920 |
|
DIR-330 | A1 | KA2 DIR330A1 |
Broadcom BCM5836 @264 |
32 | 8 | Broadcom BCM4318 |
b/g | 1 | 1 | 1 | 4 LAN 1 WAN |
5V 2.5A |
1 USB 2.0 | v24 rc7 build 9016 20080211 |
Install Guide |
DIR-400 | A1 | KA2 IR400A1 |
Atheros AR2318 @182 |
16 | 4 | SOC | b/g | — | 1 | 1 | 4 LAN 1 WAN |
5V 2.5A |
— | dir400 build 9120 20080226 |
Install Guide |
DIR-600 | A1 | KA2 DIR600A1 |
Atheros AR7240 @400 |
32 | 4 | Atheros AR9285 |
b/g/n 1×1:1 | — | 1 | 1 | 4 LAN 1 WAN |
5V 1.2A |
— | dir601a1 build 16172 20110209 |
|
DIR-600 | B1 B2 |
KA2 DIR300B1 |
Ralink RT3050F @320 |
32 | 4 | SOC | b/g/n 1×1:1 | — | 1 | — | 4 LAN 1 WAN |
5V 1.2A |
— | dir600b build 13064 20091010 |
Install Guide |
DIR-601 | A1 | KA2 DIR601A1 |
Atheros AR7240 @400 |
32 | 4 | Atheros AR9285 |
b/g/n 1×1:1 | — | 1 | 1 | 4 LAN 1 WAN |
5V 1.2A |
— | dir601a1 build 16172 20110209 |
Install Guide |
DIR-615 | C1 C2 |
KA2 DIR615C1 |
Atheros AR9130 @400 |
32 | 4 | Atheros AR9102 |
b/g/n 2×2:2 | — | 1 | 1 | 4 LAN 1 WAN |
5V 2.5A |
dir615c1 build 14144 20100324 |
Install Guide Forum |
|
DIR-615 | D1 | KA2 DIR605B1 |
Ralink RT3052F @384 |
32 | 4 | SOC | b/g/n 2×2:2 | — | 1 | ? | 4 LAN 1 WAN |
5V 2.5A |
dir615d build 14929 20101208 |
||
DIR-615 | D2 | KA2 DIR605B1 |
Ralink RT3052F @384 |
32 | 4 | SOC | b/g/n 2×2:2 | — | 1 | ? | 4 LAN 1 WAN |
5V 2.5A |
dir615d build 13435 20091209 |
||
DIR-615 | D3 | KA2 DIR605B1 |
Ralink RT3052F @384 |
32 | 4 | SOC | b/g/n 2×2:2 | — | 1 | ? | 4 LAN 1 WAN |
5V 2.5A |
dir615d build 13435 20091209 |
Install Guide |
|
DIR-615 | D4 | KA2 DIR605B1 |
Ralink RT3052F @384 |
32 | 4 | SOC | b/g/n 2×2:2 | — | 1 | ? | 4 LAN 1 WAN |
5V 2.5A |
dir615d build 14929 20101208 |
||
DIR-615 | E1 | KA2 IR615E1 |
Atheros AR7241 @400 |
32 | 4 | Atheros AR9283 |
b/g/n 2×2:2 | — | 1 | 1 | 4 LAN 1 WAN |
5V 1.2A |
dir615e1 build 14774 20100712 |
||
DIR-615 | E3 E4 |
KA2 IR615E3 |
Atheros AR7240 @400 |
32 | 4 | Atheros AR9287 |
b/g/n 2×2:2 | — | 1 | 1 | 4 LAN 1 WAN |
5V 1.2A |
dir615e3 build 13874 201002079 |
Install Guide |
|
DIR-615 | H1 H2 |
KA2 IR615H1 |
Ralink RT3352F @400 |
32 | 4 | SOC | b/g/n 2×2:2 | — | 1 | 1 | 4 LAN 1 WAN |
5V 1.2A |
dir-615h build 19327 20120606 |
||
DIR-615 | I1 | KA2 IR615I1 |
Atheros AR9341 @535 |
32 | 4 | SOC | b/g/n 2×2:2 | — | 1 | 1 | 4 LAN 1 WAN |
5V 1A |
dir615i build 19519 20120720 |
||
DIR-615 | I2 | KA2 IR615I1 |
Atheros AR9341 @535 |
32 | 4 | SOC | b/g/n 2×2:2 | — | 1 | 1 | 4 LAN 1 WAN |
5V 1A |
dir615i2 build 22200 20130815 |
||
DIR-615 | I3 | KA2 IR615I3 |
Atheros AR9341 @535 |
32 | 4 | SOC | b/g/n 2×2:2 | — | 1 | 1 | 4 LAN 1 WAN |
5V 1A |
dir615i3 build 22200 20130815 |
||
DIR-632 | A1 | KA2 IR632A1 |
Atheros AR724x @400 |
32 | 8 | Atheros AR9287 |
b/g/n 2×2:2 | — | 1 | ? | 8 LAN 1 WAN |
5V 2.5A |
1 USB 2.0 | dir632a build 17967 20111207 |
Install Guide |
DIR-810L (AC750) |
A1 | KA2 IR810LA1 |
MediaTek MT7620A @580 |
64 | 8 | SOC & MediaTek MT7610E |
b/g/n 2×2:2 an/ac 1×1:1 |
— | 1 | ? | 4 LAN 1 WAN |
12V 1A |
dir810l-a1 build r25815 20150101 |
Install Guide |
|
DIR-810L (AC750) |
B1 | KA2 IR810LB1 |
MediaTek MT7620A @580 |
64 | 8 | SOC & MediaTek MT7610E |
b/g/n 2×2:2 an/ac 1×1:1 |
— | 1 | ? | 4 LAN 1 WAN |
12V 1A |
dir810l-b1 build r25815 20150107 |
Install Guide |
|
DIR-810L (AC750) |
C1 | KA2 IR810LC1 |
MediaTek MT7620A @580 |
64 | 8 | SOC & MediaTek MT7610E |
b/g/n 2×2:2 an/ac 1×1:1 |
— | 1 | ? | 4 LAN 1 WAN |
12V 1A |
dir810l-c1 build r25815 20150107 |
Install Guide |
|
DIR-825 | B1 | KA2DIR825B1 | Atheros AR7161r2 @680 |
64 | 8 | Atheros AR9220 & AR9223 |
a/n 2×2:2 b/g/n 2×2:2 |
— | 1 | 1 | 4 LAN 1 WAN |
12V 2A |
1 USB 2.0 Gbit switch |
dir825-revb build 13516 20091225 |
Install Guide |
DIR-825 | B2 | KA2 DIR825B1 |
Atheros AR7161r2 @680 |
64 | 8 | Atheros AR9220 & AR9223 |
a/n 2×2:2 b/g/n 2×2:2 |
— | 1 | 1 | 4 LAN 1 WAN |
12V 2A |
1 USB 2.0 Gbit switch |
dir825-revb build 13516 20091225 |
Install Guide |
DIR-825 | C1 | KA2 IR825C1 |
Atheros AR9344 @560 |
128 | 16 | SOC & Atheros AR9382 |
b/g/n 2×2:2 a/n 2×2:2 |
— | 1 | 1 | 4 LAN 1 WAN |
12V 2A |
1 USB 2.0 Gbit switch |
dir825c1 build 20086 20121006 |
|
DIR-835 | A1 | KA2 IR835A1 |
Atheros AR9344 @560 |
128 | 16 | SOC & Atheros AR9380 |
b/g/n 2×2:2 a/n 3×3:3 |
— | 1 | 1 | 4 LAN 1 WAN |
12V 2A |
1 USB 2.0 Gbit switch |
dir835a1 build 20449 20121229 |
|
DIR-859 (AC1750) |
A1 | KA2 IR859A1 |
Qualcomm QCA9563 @750 |
64 | 16 | SOC & Qualcomm QCA9880 |
b/g/n 3×3:3 an/ac 3×3:3 |
— | 1 | 1 | 4 LAN 1 WAN |
12V 1.5A |
Gbit switch | dir859 build 26947 20150519 |
|
DIR-860L (AC1200) |
A1 | KA2 IR860LA1 |
Broadcom BCM47081A0 @800 |
128 | 128 | Broadcom BCM4352 & BCM43217 |
an/ac 2×2:2 b/g/n 2×2:2 |
1 | 1 | 1 | 4 LAN 1 WAN |
12V 2A |
1 USB 3.0 Gbit switch |
dir860l-a1 build 26534 20150324 |
|
DIR-860L (AC1200) |
B1 | KA2 IR860LB1 |
MediaTek MT7621AT @880 |
128 | 128 | MediaTek MT7612E & MT7602E |
an/ac 2×2:2 b/g/n 2×2:2 |
— | 1 | 1 | 4 LAN 1 WAN |
12V 2A |
1 USB 3.0 Gbit switch |
dir860l-b1 build 25974 20150120 |
|
DIR-862L (AC1750) |
A1 | KA2 IR862LA1 |
Qualcomm QCA9558 @720 |
128 | 16 | SOC & Qualcomm QCA9880 |
b/g/n 3×3:3 an/ac 3×3:3 |
1 | 1 | 1 | 4 LAN 1 WAN |
12V 2A |
1 USB 2.0 Gbit switch |
dir862 build 26947 20150519 |
Install Guide |
DIR-865L (AC1750) |
A1 | KA2 IR865LA1 |
Broadcom BCM4706 @600 |
256 | 16 | Broadcom BCM4360 & BCM4331 |
an/ac 3×3:3 b/g/n 3×3:3 |
1 | 1 | 1 | 4 LAN 1 WAN |
12V 3A |
1 USB 2.0 Gbit switch |
TBD | donated router needed |
DIR-866L (AC1750) |
A1 | KA2 IR863A1 |
Qualcomm QCA9558 @720 |
128 | 32 | SOC & Qualcomm QCA9880 |
b/g/n 3×3:3 an/ac 3×3:3 |
1 | 1 | 1 | 4 LAN 1 WAN |
12V 2A |
1 USB 2.0 Gbit switch |
dir866 build 26947 20150519 |
|
DIR-868L (AC1750) |
A1 | KA2 IR868LA1 |
Broadcom BCM47081A0 @800 |
128 | 128 | Broadcom BCM4360 & BCM4331 |
an/ac 3×3:3 b/g/n 3×3:3 |
1 | 1 | 1 | 4 LAN 1 WAN |
12V 2A |
1 USB 3.0 Gbit switch |
dir868l build 22118 20130724 |
Install Guide |
DIR-868L (AC1750) |
B1 | KA2 IR868LA1 |
Broadcom BCM47081A0 @800 |
128 | 128 | Broadcom BCM4360 & BCM4331 |
an/ac 3×3:3 b/g/n 3×3:3 |
1 | 1 | 1 | 4 LAN 1 WAN |
12V 2A |
1 USB 3.0 Gbit switch |
dir868l-revb build 27147 20150601 |
|
DIR-868L (AC1750) |
C1 | KA2 IR868LC1 |
Broadcom BCM47081A0 @800 |
128 | 128 | Broadcom BCM4360 & BCM4331 |
an/ac 3×3:3 b/g/n 3×3:3 |
— | 1 | 1 | 4 LAN 1 WAN |
12V 2A |
1 USB 3.0 Gbit switch |
dir868l-revc build 27240 20150605 |
|
DIR-869 (AC1900) |
A1 | KA2 IR869A1 |
Qualcomm QCA9563 @750 |
64 | 16 | SOC & Qualcomm QCA9880 |
b/g/n 3×3:3 an/ac 3×3:3 |
— | 1 | 1 | 4 LAN 1 WAN |
12V 1.5A |
Gbit switch | dir869 build 29607 20160509 |
|
DIR-878 (AC1900) |
A1 | KA2 IR878A1 |
MediaTek MT7621AT @880 |
128 | 128 | MediaTek MT7615N x2 |
an/ac 4×4:3 b/g/n 4×4:3 |
— | 1 | 1 | 4 LAN 1 WAN |
12V 1.5A |
Gbit switch | dir878-a1 build 33006 20170803 |
|
DIR-880L (AC1900) |
A1 | KA2 IR880LA1 |
Broadcom BCM4708A0 @1000 |
256 | 128 | Broadcom BCM4360 x2 |
an/ac 3×3:3 b/g/n 3×3:3 |
— | 1 | 1 | 4 LAN 1 WAN |
12V 3A |
1 USB 2.0 1 USB 3.0 Gbit switch |
dir880l build 26332 20150222 |
|
DIR-882 (AC2600) |
A1 | KA2 IR882A1 |
MediaTek MT7621AT @880 |
128 | 16 | MediaTek MT7615N x2 |
an/ac 4×4:4 b/g/n 4×4:4 |
— | 1 | 1 | 4 LAN 1 WAN |
12V 2.5A |
1 USB 2.0 1 USB 3.0 Gbit switch |
dir882-a1 build 33006 20170803 |
|
DIR-882 (AC2600) |
R1 | — | MediaTek MT7621AT @880 |
128 | 16 | MediaTek MT7615N x2 |
an/ac 4×4:4 b/g/n 4×4:4 |
— | 1 | 1 | 4 LAN 1 WAN |
12V 2.5A |
1 USB 2.0 1 USB 3.0 Gbit switch |
dir882-r1 build 51729 20230216 |
Forum Thread |
DIR-885L (AC3100) |
A1 | KA2 IR885LA1 |
Broadcom BCM4709C0 @1400 |
512 | 128 & 32 |
Broadcom BCM4366 x2 |
an/ac 4×4:4 b/g/n 4×4:4 |
— | 1 | 1 | 4 LAN 1 WAN |
12V 5A |
1 USB 2.0 1 USB 3.0 Gbit switch |
dir885l build 27944 20151009 |
|
DIR-890L (AC3200) |
A1 | KA2 IR890LA1 |
Broadcom BCM4709A0 @1000 |
256 | 128 | Broadcom BCM43602 x3 |
an/ac 3×3:3 b/g/n 3×3:3 |
— | 1 | 1 | 4 LAN 1 WAN |
12V 5A |
1 USB 2.0 1 USB 3.0 Gbit switch Dual 5GHz radio |
dir890l build 26332 20150222 |
|
DIR-895L (AC5300) |
A1 | KA2 IR895LA1 |
Broadcom BCM4709C0 @1400 |
256 | 128 | Broadcom BCM4366 x3 |
an/ac 4×4:4 b/g/n 4×4:4 |
— | 1 | 1 | 4 LAN 1 WAN |
12V 5A |
1 USB 2.0 1 USB 3.0 Gbit switch Dual 5GHz radio |
dir895l build 27944 20151009 |
Forum |
[edit] Doodle Labs
Model | H.W rev. |
FCC ID | Platform & Frequency [MHz] |
RAM [MB] |
Flash [MB] |
Wireless NIC |
WLAN standard [802.11] |
mini PCI |
Serial port |
JTAG port |
Eth. port count |
Power Input [V/A] |
Special Features Notes |
Min usable DD-WRT version |
Notes for running DD-WRT |
---|---|---|---|---|---|---|---|---|---|---|---|---|---|---|---|
DLM101 | ? | ? | Atheros AR2315 @180 |
16 | 4 | SOC@24dBm | b/g | — | — | — | 1 LAN WAN | 9-18V | — | DLM101 build 12517 20090716 |
[edit] Dynex
Model | H.W rev. |
FCC ID | Platform & Frequency [MHz] |
RAM [MB] |
Flash [MB] |
Wireless NIC |
WLAN standard [802.11] |
mini PCI |
Serial port |
JTAG port |
Eth. port count |
Power Input [V/A] |
Special Features Notes |
Min usable DD-WRT version |
Notes for running DD-WRT |
---|---|---|---|---|---|---|---|---|---|---|---|---|---|---|---|
DX-NRUTER | — | K7SDXNRUTER | Broadcom BCM4703 @264 |
32 | 4 | Broadcom | b/g/n | — | 1 | 1 | 4 LAN 1 WAN |
12V 1A | v24 build 13567 20091231 |
[edit] Edimax
Model | H.W rev. |
FCC ID | Platform & Frequency [MHz] |
RAM [MB] |
Flash [MB] |
Wireless NIC |
WLAN standard [802.11] |
mini PCI |
Serial port |
JTAG port |
Eth. port count |
Power Input [V/A] |
Special Features Notes |
Min usable DD-WRT version |
Notes for running DD-WRT |
---|---|---|---|---|---|---|---|---|---|---|---|---|---|---|---|
BR-6224N | NDD9562240922 | Ralink RT3050 @320 |
16 | 4 | SOC | b/g/n 1×1:1 | — | — | — | 4 LAN 1 WAN |
12V 1A | Same h/w as RT-N10+ B |
|||
BR-6574N | A | NDD9565740806 | Ralink RT2880F @266 |
16 | 4 | Ralink RT2820L |
b/g/n 2×2:2 | — | — | — | 4 LAN 1 WAN |
12V 1A | Gbit switch | BR-6574N build 13354 20091203 |
|
EW-7303APn EW-7303HPn |
v2 | NDD9573031016 | Ralink RT3050F @320 |
32 | 4 | SOC | b/g/n 1×1:1 | — | — | — | 1 LAN 1 WAN |
12V 1A | Outdoor unit 2x 12dBi H/V Ant. |
wcr-gn build 18024 20111220 |
flash buffalo wcr-gn firmware.tftp via serial |
[edit] Encore
Model | H.W rev. |
FCC ID | Platform & Frequency [MHz] |
RAM [MB] |
Flash [MB] |
Wireless NIC |
WLAN standard [802.11] |
mini PCI |
Serial port |
JTAG port |
Eth. port count |
Power Input [V/A] |
Special Features Notes |
Min usable DD-WRT version |
Notes for running DD-WRT |
---|---|---|---|---|---|---|---|---|---|---|---|---|---|---|---|
ENHWI-2AN3 | — | U2M-SR97908003 | Ralink RT3052 @384 |
32 | 4 | SOC | b/g/n 1×1:1 | — | 1 | 4 LAN 1 WAN |
12V 1A | Senao ESR9752 OEM | ESR9752SC build 12527 20090720 |
Serial Flash firmware.bin |
|
ENHWI-N2 | A1 A2 B1 | NHPWLN2206 | Atheros AR9130 @400 |
32 | 4 | Atheros AR9102 |
b/g/n 2×2:2 | — | 1 | 1 | 4 LAN 1 WAN |
5V 2.5A | Same h/w as DIR-615c1 & TEW-632BRP |
DIR-615 C1 or TEW-632BRP build |
Forum thread |
ENHWI-N3 | — | U2M-SR97908005 | Ralink RT3050F @320 |
16 | 4 | SOC | b/g/n 1×1:1 | — | 1 | 4 LAN 1 WAN |
12V 1A | Senao ESR9753 OEM | ESR9752SC build 12527 20090720 |
Serial Flash firmware.bin WAN,LAN LEDs Do not work after flash |
[edit] EnGenius
- see Senao
[edit] Exel Networks
Model | H.W rev. |
FCC ID | Platform & Frequency [MHz] |
RAM [MB] |
Flash [MB] |
Wireless NIC |
WLAN standard [802.11] |
mini PCI |
Serial port |
JTAG port |
Eth. port count |
Power Input [V/A] |
Special Features Notes |
Min usable DD-WRT version |
Notes for running DD-WRT |
---|---|---|---|---|---|---|---|---|---|---|---|---|---|---|---|
ExelLent ExelMed ExelMin Series |
— | ? | Xscale IXP425 @533 |
64 | 8? | Atheros AR5006X |
1-4x a/b/g/h @22-28dBm |
2 | 1 | 1 | 1 LAN | ? | Outdoor enclosure on selected models w/integrated 20dBi antenna |
Avila v24 build | a rough guess: they use the avila platform |
[edit] Fluidmesh
Model | H.W rev. |
FCC ID | Platform & Frequency [MHz] |
RAM [MB] |
Flash [MB] |
Wireless NIC |
WLAN standard [802.11] |
mini PCI |
Serial port |
JTAG port |
Eth. port count |
PoE | Power Input [V/A] |
Special Features Notes |
Min usable DD-WRT version |
Notes for running DD-WRT |
---|---|---|---|---|---|---|---|---|---|---|---|---|---|---|---|---|
2200 Duo |
— | — | Geode LX @433-500? |
128- 256? | depends on cf card |
2 | a/b/g/h @18dBm |
2 | 1 | — | 2 | yes | 7-18V | Outdoor box h/w-watchdog tempsensor |
x86 version | write image via physdiskwrite to cf pcengines alix based |
2200 Endo |
— | — | Geode LX @433-500? |
128- 256? | depends on cf card |
2 | a/b/g/h @18dBm |
2 | 1 | — | 2 | yes | 7-18V | h/w-watchdog tempsensor |
x86 version | write image via physdiskwrite to cf pcengines alix based |
2200 Duo |
— | — | Geode LX @433-500? |
128- 256? | depends on cf card |
2 | a/b/g/h @18dBm |
2 | 1 | — | 2 | yes | 7-18V | Outdoor box h/w-watchdog tempsensor 13dBi@2.4GHz 15dBi@5GHz |
x86 version | write image via physdiskwrite to cf pcengine alix based |
[edit] FON
Model | H.W rev. |
FCC ID | Platform & Frequency [MHz] |
RAM [MB] |
Flash [MB] |
Wireless NIC |
WLAN standard [802.11] |
mini PCI |
Serial port |
JTAG port |
Eth. port count |
Power Input [V/A] |
Special Features Notes |
Min usable DD-WRT version |
Notes for running DD-WRT |
---|---|---|---|---|---|---|---|---|---|---|---|---|---|---|---|
La Fonera | 2100 | HED-FON2100 | Atheros AR2315 @180 |
16 | 8 | SOC | b/g | — | 1 | ? | 1 WAN | 5V 2A | FON version | ||
La Fonera | 2200 | UVA-FON2200 | Atheros AR2315 @180 |
16 | 8 | SOC | b/g | — | 1 | 1 | 1 WAN | 7.5 1A | fonera build 7438 20070710 |
Install Guide |
|
La Fonera+ | 2201 | UVA-FON2201 | Atheros AR2315A @180 |
16 | 8 | SOC | b/g | — | 1 | 1 | 1 LAN 1 WAN |
7.5 1A | FON version | ||
La Fonera 2.0g | 2202 | UVA-FON2201 | Atheros AR2315A @180 |
32 | 8 | SOC | b/g | — | 1 | 1 | 1 LAN 1 WAN |
7.5 1A | 1 USB 2.0 | FON version | |
La Fonera 2.0n | 2303B | NDD9564250816 | Ralink RT3052F @384 |
64 | 8 | SOC | b/g/n 2×2:2 | — | 1 | 1 | 4 LAN 1 WAN |
12 1A | 1 USB 2.0 | FON version |
[edit] Fry’s Electronics
Model | H.W rev. |
FCC ID | Platform & Frequency [MHz] |
RAM [MB] |
Flash [MB] |
Wireless NIC |
WLAN standard [802.11] |
mini PCI |
Serial port |
JTAG port |
Eth. port count |
Power Input [V/A] |
Special Features Notes |
Min usable DD-WRT version |
Notes for running DD-WRT |
---|---|---|---|---|---|---|---|---|---|---|---|---|---|---|---|
FR-54RTR | A1 | KA2DIR600A1 | Atheros AR7240 @400 |
32 | 4 | Atheros AR9285 |
b/g/n 1×1:1 | — | 1 | 1 | 4 LAN 1 WAN |
5V 1.2A | Rebranded DIR-600 A1 |
dir601a1 build 16172 20110209 |
|
FR-300RTR | A1 | KA2IR615E1 | Atheros AR7241 @400 |
32 | 4 | Atheros AR9287 |
b/g/n 2×2:2 | — | 1 | 1 | 4 LAN 1 WAN |
5V 1.2A | Rebranded DIR-615 E1 |
dir615e1 build 13874 201002079 |
Install Guide |
[edit] Gateworks
Model | H.W rev. |
FCC ID | Platform & Frequency [MHz] |
RAM [MB] |
Flash [MB] |
Wireless NIC |
WLAN standard [802.11] |
mini PCI |
Serial port |
JTAG port |
Eth. port count |
PoE | Power Input [V/A] |
Special Features Notes |
Min usable DD-WRT version |
Notes for running DD-WRT |
---|---|---|---|---|---|---|---|---|---|---|---|---|---|---|---|---|
Avila GW2343 |
— | — | Xscale IXP425 @533 |
64 | 16 | — | depends on card |
4 | 1 | ? | 4 LAN 1 WAN |
— | 6-28V | h/w-watchdog tempsensor voltsensor CF socket, rtc 1 USB |
gateworks-16M build 13637 20100116 |
needs DD-WRT activation |
Avila GW2345 |
— | — | Xscale IXP425 @533 |
64 | 16 | — | depends on card |
4 | 1 | ? | 4 LAN 1 WAN |
— | 6-28V | h/w-watchdog tempsensor voltsensor CF socket, rtc 1 USB |
gateworks-16M build 13637 20100116 |
needs DD-WRT activation |
Avila GW2347 |
— | — | Xscale IXP420 @266 |
32 | 8 | — | depends on card |
1 | 1 | 1 LAN | yes | 9-20V | h/w-watchdog | gateworks-8M build 13637 20100116 |
needs DD-WRT activation |
|
Avila GW2348-2 |
— | — | Xscale IXP420 @266 |
32 | 8 | — | depends on card |
2 | 1 | 1 | 1 LAN 1 WAN |
yes | 9-48V | h/w-watchdog tem sensor voltsensor |
gateworks-8M build 13637 20100116 |
needs DD-WRT activation |
Avila GW2348-4 |
— | — | Xscale IXP425 @533 |
64 | 16 | — | depends on card |
4 | 1 | 1 | 1 LAN 1 WAN |
yes | 9-48V | h/w-watchdog tempsensor voltsensor 1 USB |
gateworks-16M build 13637 20100116 |
needs DD-WRT activation |
Avila GW2348-4 LIGHT |
— | — | Xscale IXP420 @400 |
32 | 8 | — | depends on card |
4 | 1 | 1 | 1 LAN 1 WAN |
yes | 9-48V | h/w-watchdog tempsensor voltsensor |
gateworks-8M build 13637 20100116 |
needs DD-WRT activation |
Avila GW2353 |
— | — | Xscale IXP425 @533 |
64 | 64 | — | depends on card |
2 | 1 | 1 | 1 LAN or WAN |
yes | 9-48V | h/w-watchdog tempsensor voltsensor Nexperia PNX1520 Media Coprocessor |
gateworks-16M build 13637 20100116 |
needs DD-WRT activation |
Avila GW2355 |
— | — | Xscale IXP425 @533 |
64 | 16 | — | depends on card |
4 | 1 | 1 | 4 LAN 1 WAN |
yes | 9-48V | h/w-watchdog tempsensor voltsensor rtc |
gateworks-16M build 13637 20100116 |
needs DD-WRT activation |
Avila GW2357 |
— | ? | Xscale IXP422 @266 |
32 | 16 | — | depends on card |
1 | 1 | ? | 1 LAN or WAN |
802.3af & Passive |
10-15V 20-60V |
h/w-watchdog tempsensor voltsensor |
gateworks-16M build 13637 20100116 |
needs DD-WRT activation |
Cambria GW2350 |
— | — | Xscale IXP435 @667 |
128 | 32 | — | depends on card |
1 | 1 | 1 | 1 LAN 1 WAN |
yes | 9-48V | h/w-watchdog tempsensor voltsensor usb |
v24 pre SP2 cambria build |
needs DD-WRT activation |
Cambria GW2358-4 |
— | — | Xscale IXP435 @667 |
128 | 32 | — | depends on card |
4 | 1 | 1 | 1 LAN 1 WAN |
yes | 9-48V | h/w-watchdog tempsensor voltsensor usb, rtc, CF-slot |
v24 final cambria build |
needs DD-WRT activation |
Laguna GW2380 |
— | — | Cavium ECONA CN3411 @300 |
128 | 16 | — | depends on card |
1 mPCIe | 2 | 1 | 1 (Gbit) LAN or WAN |
yes | 8-42V | h/w-watchdog tempsensor voltsensor rtc |
gw2380 build 17967 20111207 |
needs DD-WRT activation |
Laguna GW2382 |
— | — | Cavium ECONA CN3411 @300 |
128 | 16 | — | depends on card |
1 mPCIe | 2 | 1 | 1 (Gbit) LAN or WAN |
yes | 8-42V | h/w-watchdog tempsensor voltsensor rtc, USB2.0 |
gw2382 build 20086 20121006 |
needs DD-WRT activation |
Laguna GW2383 |
— | — | Cavium ECONA CN3411 @300 |
128 | 16 | — | depends on card |
1 mPCIe | 2 | 1 | 1 (Gbit) LAN or WAN |
yes | 8-42V | h/w-watchdog tempsensor voltsensor rtc, USB2.0 |
laguna v24 SP2 |
needs DD-WRT activation |
Laguna GW2387 |
— | — | Cavium ECONA CN3411 @300 |
256 | 16 | — | depends on card |
1 mPCIe | 2 | 1 | 1 (Gbit) LAN or WAN |
Passive /802.3at |
8-60V | h/w-watchdog tempsensor voltsensor rtc, 2 USB2.0 |
laguna v24 SP2 |
needs DD-WRT activation |
Laguna GW2388-4 |
— | — | Cavium ECONA CN3420 @2×600 |
256 | 16 | — | depends on card |
4 | 2 | 1 | 2 (Gbit) LAN or WAN |
yes | 8-48V | h/w-watchdog tempsensor voltsensor usb, rtc, sata micro-sd |
gw2388-16M build 17967 20111207 |
needs DD-WRT activation |
Laguna GW2389 |
— | — | Cavium ECONA CN3420 @2×600 |
256 | 16 | — | depends on card |
2 unknown & 2 mPCIe |
2 | 1 | 1 (Gbit) LAN or WAN |
yes | 8-48V | h/w-watchdog tempsensor voltsensor 2 USB, rtc micro-sd |
laguna v24 SP2 |
needs DD-WRT activation |
Laguna GW2391 |
— | — | Cavium ECONA CN3410 @300 |
256 | 16 | — | depends on card |
2 mPCIe | 2 | 1 | 1 (Gbit) LAN or WAN |
Passive /802.3at |
8-60V | h/w-watchdog tempsensor voltsensor usb, rtc micro-sd |
gw2391 build 20086 20121006 |
needs DD-WRT activation |
[edit] GL.iNet
Model | H.W rev. |
FCC ID | Platform & Frequency [MHz] |
RAM [MB] |
Flash [MB] |
Wireless NIC |
WLAN standard [802.11] |
mini PCI |
Serial port |
JTAG port |
Eth. port count |
Power Input [V/A] |
Special Features Notes |
Min usable DD-WRT version |
Notes for running DD-WRT |
---|---|---|---|---|---|---|---|---|---|---|---|---|---|---|---|
GL-AR150 | — | — | Atheros AR9331 @400 |
64 | 16 | SOC @18dBm |
b/g/n 1×1:1 | — | 1 | — | 1 LAN 1 WAN |
5V 1A | 1 USB 2.0 | GL.iNet-AR150 build 29519 20160425 |
|
GL-AR300M | — | — | Atheros AR9531 @650 |
128 | 16+128 | SOC @20dBm |
b/g/n 2×2:2 | 1 | 1 | — | 1 LAN 1 WAN |
5V 1A | 1 USB 2.0 | TBD | donated router needed |
[edit] Guest Internet Solutions
Model | H.W rev. |
FCC ID | Platform & Frequency [MHz] |
RAM [MB] |
Flash [MB] |
Wireless NIC |
WLAN standard [802.11] |
mini PCI |
Serial port |
JTAG port |
Eth. port count |
PoE | Power Input [V/A] |
Special Features Notes |
Min usable DD-WRT version |
Notes for running DD-WRT |
---|---|---|---|---|---|---|---|---|---|---|---|---|---|---|---|---|
GIS-R5 | — | — | Atheros AR7161 @680 |
64 | 16 | — | depends on card |
3 | 1 | yes | 2 LAN 1 WAN |
yes | 5-24V | = UBNT Routerstation |
RouterStation- build 10907 20081113 |
needs DD-WRT activation |
GIS-R6 | — | — | Atheros AR7161 @680 |
64 | 16 | — | depends on card |
3 | 1 | yes | 2 LAN 1 WAN |
yes | 5-24V | = UBNT Routerstation |
RouterStation- build 10907 20081113 |
needs DD-WRT activation |
GIS-R10 | — | — | Atheros AR7161 @680 |
64 | 16 | — | depends on card |
3 | 1 | yes | 2 LAN 1 WAN |
yes | 5-24V | = UBNT Routerstation |
RouterStation- build 10907 20081113 |
needs DD-WRT activation |
[edit] Hame
Model | H.W rev. |
FCC ID | Platform & Frequency [MHz] |
RAM [MB] |
Flash [MB] |
Wireless NIC |
WLAN standard [802.11] |
mini PCI |
Serial port |
JTAG port |
Eth. port count |
Power Input [V/A] |
Special Features Notes |
Min usable DD-WRT version |
Notes for running DD-WRT |
---|---|---|---|---|---|---|---|---|---|---|---|---|---|---|---|
MPR-A15 | — | ? | Ralink RT5350F @360 |
32 | 4 | SOC | b/g/n 1×1:1 | — | ? | — | 1 LAN or WAN |
5V 1A | v24 build 20810 20130302 |
[edit] JJPlus
Model | H.W rev. |
FCC ID | Platform & Frequency [MHz] |
RAM [MB] |
Flash [MB] |
Wireless NIC |
WLAN standard [802.11] |
mini PCI |
Serial port |
JTAG port |
Eth. port count |
PoE | Power Input [V/A] |
Special Features Notes |
Min usable DD-WRT version |
Notes for running DD-WRT |
---|---|---|---|---|---|---|---|---|---|---|---|---|---|---|---|---|
AC622 | — | — | Atheros AR7240 @400 |
32 | 8 | — | ? | — | 1 | 1 | ? LAN or WAN |
yes | 12V 1A | AC622 build 20657 20130207 |
needs DD-WRT activation |
|
AC722 | — | — | Atheros AR7240 @400 |
32 | 8 | — | ? | — | 1 | 1 | ? LAN or WAN |
yes | 12V 1A | AC722 build 20657 20130207 |
needs DD-WRT activation |
|
JA76PF | — | — | Atheros AR7161 @680 |
64 | 8 | — | depends on card |
3 | 1 | 1 | 4 LAN 1 WAN |
yes | 8-12V 9-48V |
h/w-watchdog 2 USB 2.0 |
ja76pf build 14262 20100414 |
needs DD-WRT activation |
JJAP93 | — | — | Atheros AR7240 @400 |
32 | 8 | — | ? | — | 1 | 1 | ? LAN or WAN |
yes | 12V 1A | JJAP93 build 20657 20130207 |
needs DD-WRT activation |
|
JWAP003 | — | — | Atheros AR7130 @300 |
32 | 8 | — | depends on card |
1 | 1 | 1 | 2 LAN or WAN |
yes | 12-18V | h/w-watchdog tempsensor 2 USB 2.0 |
jwap003 build 14439 20100517 |
needs DD-WRT activation |
JWAP005 | — | — | Atheros AR7240 @400 |
64 | 8 | Atheros AR9285 @27dBm |
b/g/n 1×1:1 |
— | 1 | 1 | 4 LAN 1 WAN |
yes | 12V 1A | jwap005 build 20657 20130207 |
needs DD-WRT activation |
|
JWAP501 | — | — | Atheros AR7240 @400 |
32 | 8 | — | ? | — | 1 | 1 | ? LAN or WAN |
yes | 12V 1A | JWAP501 build 20657 20130207 |
needs DD-WRT activation |
|
JWAP606 | — | — | Atheros AR9344 @533 |
128 | 16 | Atheros AR9382 @24dBm |
a/b/g/n 2×2:2 |
— | 1 | 1 | 1 LAN or WAN |
yes | 36-57V | Gbit ethernet Dual a/n radio Dual b/g/n radio |
WIP | needs DD-WRT activation |
[edit] Linksys
Now a division of Belkin, formerly Cisco.
[edit] Linksys (Wireless a/b/g/n/ac)
Model | H.W rev. |
FCC ID | Platform & Frequency [MHz] |
RAM [MB] |
Flash [MB] |
Ant. Conn. Type |
Wireless NIC |
WLAN standard [802.11] |
mini PCI |
Serial port |
JTAG port |
Eth. port count |
Power Input [V/A] |
Special Features Notes |
Min usable DD-WRT version |
Notes for running DD-WRT |
---|---|---|---|---|---|---|---|---|---|---|---|---|---|---|---|---|
E800 | 1.0 | Q87 -E800 |
Broadcom BCM5357C0 @300 |
32 | 8 | Internal | SOC | b/g/n 1×1:1 | — | 1 | 1 | 4 LAN 1 WAN |
12V 0.5A | — | K26 build 21676 20130526 |
Install Guide |
E900 | 1.0 | Q87 -E900 |
Broadcom BCM5357C0 @300 |
32 | 8 | Internal | SOC | b/g/n 2×2:2 | — | 1 | 1 | 4 LAN 1 WAN |
12V 0.5A | — | K26 build 18852 20120329 |
Install Guide |
E1000 | 1.0 | Q87 -E1000 |
Broadcom BCM4716B0 @300 |
32 | 4 | Internal | SOC | b/g/n 2×2:2 | — | 1 | 1 | 4 LAN 1 WAN |
12V 0.5A | — | K26 build 15264 20101101 |
Install Guide |
E1000 | 2.0 | Q87 -E1000V2 |
Broadcom BCM5357B0 @300 |
32 | 4 | Internal | SOC | b/g/n 2×2:2 | — | 1 | 1 | 4 LAN 1 WAN |
12V 0.5A | — | K26 build 16758 20110409 |
Install Guide |
E1000 | 2.1 | Q87 -E1000V21 |
Broadcom BCM5357B0 @300 |
32 | 4 | Internal | SOC | b/g/n 2×2:2 | — | 1 | 1 | 4 LAN 1 WAN |
12V 0.5A | — | K26 build 16968 20110503 |
Install Guide |
E1200 | 1.0 | Q87 -E1200 |
Broadcom BCM5357B0 @300 |
32 | 4 | Internal | SOC | b/g/n 2×2:2 | — | 1 | 1 | 4 LAN 1 WAN |
12V 0.5A | — | K26 build 18946 20120407 |
Install Guide |
E1200 | 2.0 | Q87 -E1200V2 |
Broadcom BCM5357C0 @300 |
32 | 8 | Internal | SOC | b/g/n 2×2:2 | — | 1 | 1 | 4 LAN 1 WAN |
12V 0.5A | — | K26 build 18946 20120407 |
Install Guide |
E1500 | 1.0 | Q87 -E1500 |
Broadcom BCM5357B0 @300 |
32 | 8 | Internal | SOC | b/g/n 2×2:2 | — | 1 | 1 | 4 LAN 1 WAN |
12V 0.5A | — | K26 build 18946 20120407 |
Install Guide |
E1550 | 1.0 | Q87 -E1550 |
Broadcom BCM5358UB0 @300 |
64 | 16 | Internal | SOC | b/g/n 2×2:2 | — | 1 | 1 | 4 LAN 1 WAN |
12V 1A | 1 USB 2.0 | K26 build 18946 20120407 |
Install Guide |
E1700 | 1.0 | Q87 -E1700 |
MediaTek MT7620A @580 |
32 | 8 | External | SOC | b/g/n 2×2:2 | — | 1 | 1 | 4 LAN 1 WAN |
12V 0.5A | Gbit switch | e1700- build 25139 20141022 |
|
E2000 | 1.0 | Q87 -E2000 |
Broadcom BCM4717A1 @354 |
32 | 8 | Internal | SOC | a/b/g/n 2×2:2 | — | 1 | 1 | 4 LAN 1 WAN |
12V 1A | Gbit switch | K26 build 14567 20100608 |
Install Guide |
E2100L | 1.0 | Q87 -E2100L |
Atheros AR9130 @400 |
64 | 8 | — | Atheros AR9102 |
b/g/n 2×2:2 | — | 1 | ? | 4 LAN 1 WAN |
12V 1.5A | 1 USB 2.0 | E2100L build 14935 20100813 |
Install Guide |
E2500 | v1 & v2 | Q87 -E2500 |
Broadcom BCM5358UB0 @300 |
64 | 8 | Internal | SOC & Broadcom BCM43236 |
b/g/n 2×2:2 a/n 2×2:2 |
— | 1 | 1 | 4 LAN 1 WAN |
12V 1A | no 5 GHz | K26 build 18946 20120407 |
Install Guide (& v3 mod) |
E3000 | 1.0 | Q87 -E3000 |
Broadcom BCM4718A1 @480 |
64 | 8 | Internal | SOC & Broadcom BCM4322 |
b/g/n 2×2:2 a/n 2×2:2 |
— | 1 | 1 | 4 LAN 1 WAN |
12V 2A | 1 USB 2.0 Gbit switch |
K26 build 14567 20100608 |
Install Guide |
E3200 | 1.0 | Q87 -E3200 |
Broadcom BCM5357r1 @500 |
64 | 16 | Internal | SOC & Broadcom BCM43236 |
b/g/n 2×2:2 a/n 2×2:2 |
— | 1 | 1 | 4 LAN 1 WAN |
12V 2A | 1 USB 2.0 Gbit switch no 5 GHz |
K26 build 17041 20110514 |
Install Guide |
E4200 | 1.0 | Q87 -E4200 |
Broadcom BCM4718A1 @480 |
64 | 16 | Internal | SOC & Broadcom BCM4331 |
b/g/n 2×2:2 an 2×2:2 |
— | 1 | 1 | 4 LAN 1 WAN |
12V 2A | 1 USB 2.0 Gbit switch |
K26 build 16773 20110411 |
Install Guide |
EA2700 | 1.0 | Q87 -EA2700 |
Broadcom BCM5358U @480 |
64 | 64 | Internal | SOC & Broadcom BCM43236 |
b/g/n 2×2:2 a/n 2×2:2 |
— | 1 | 1 | 4 LAN 1 WAN |
12V 1A | Gbit switch no 5 GHz |
ea2700- build 21676 20130527 |
— |
EA6200 (AC900) |
1.0 | Q87 -EA6200 |
Broadcom BCM47081A0 @800, 1 core |
128 | 128 | Internal | Broadcom BCM4352 & BCM43217 |
an/ac 2×2:2 b/g/n 2×2:2 |
— | 1 | 1 | 4 LAN 1 WAN |
12V 2A | 1 USB 3.0 Gbit switch |
ea6350- build 29396 20160404 |
Use EA6300 Guide |
EA6300 (AC1200) |
no version |
Q87 -EA6300 |
Broadcom BCM47081A0 @800, 1 core |
128 | 128 | Internal | Broadcom BCM4352 & BCM43217 |
an/ac 2×2:2 b/g/n 2×2:2 |
— | 1 | 1 | 4 LAN 1 WAN |
12V 2A | 1 USB 3.0 Gbit switch |
ea6350- build 28139 20151113 |
Use EA6300 Guide |
EA6300 (AC1600) |
1.0 | Q87 -EA6400 |
Broadcom BCM4708A0 @800 |
128 | 128 | Internal | Broadcom BCM4360 & BCM43217 |
an/ac 3×3:3 b/g/n 2×2:2 |
— | 1 | 1 | 4 LAN 1 WAN |
12V 2A | 1 USB 3.0 Gbit switch |
ea6300- build 27700 20150820 |
Use EA6400 Guide |
EA6350 (AC1200) |
1.0 | Q87 -EA6350 |
Broadcom BCM47081A0 @800, 1 core |
128 | 128 | Internal | Broadcom BCM4352 & BCM43217 |
an/ac 2×2:2 b/g/n 2×2:2 |
— | 1 | 1 | 4 LAN 1 WAN |
12V 2A | 1 USB 3.0 Gbit switch |
ea6350- build 28139 20151113 |
Use EA6300 Guide |
EA6350 (AC1200) |
2.0 | Q87 -EA6350V2 |
Broadcom BCM4708C0 @1000 |
128 | 128 | Internal | Broadcom BCM4352 & BCM43217 |
an/ac 2×2:2 b/g/n 2×2:2 |
— | 1 | 1 | 4 LAN 1 WAN |
12V 2A | 1 USB 3.0 Gbit switch |
Requires EA6350 serial flash |
Use EA6300 Guide |
EA6400 (AC1600) |
1.0 | Q87 -EA6400 |
Broadcom BCM4708A0 @800 |
128 | 128 | Internal | Broadcom BCM4360 & BCM43217 |
an/ac 3×3:3 b/g/n 2×2:2 |
— | 1 | 1 | 4 LAN 1 WAN |
12V 3A | 1 USB 3.0 Gbit switch |
ea6400- build 27700 20150820 |
Install Guide |
EA6500 (AC1750) |
1.0 | Q87 -EA6500 |
Broadcom BCM4706 @600 |
128 | 128 | Internal | Broadcom BCM4360 & BCM4331 |
an/ac 3×3:3 b/g/n 3×3:3 |
1 | 1 | 1 | 4 LAN 1 WAN |
12V 3A | 2 USB 2.0 Gbit switch |
ea6500- build 23194 20131222 |
Use EA6700 Guide |
EA6500 (AC1750) |
2.0 | Q87 -EA6500v2 |
Broadcom BCM4708A0 @800 |
256 | 128 | Internal | Broadcom BCM4360 & BCM4331 |
an/ac 3×3:3 b/g/n 3×3:3 |
— | — | — | 4 LAN 1 WAN |
12V 3.5A | 1 USB 2.0 1 USB 3.0 Gbit switch |
ea6500v2- build 23194 20131222 |
Use EA6700 Guide |
EA6700 (AC1750) |
1.0 | Q87 -EA6700 |
Broadcom BCM4708A0 @800 |
256 | 128 | Internal | Broadcom BCM4360 & BCM4331 |
an/ac 3×3:3 b/g/n 3×3:3 |
— | — | — | 4 LAN 1 WAN |
12V 3.5A | 1 USB 2.0 1 USB 3.0 Gbit switch |
ea6700- build 23213 20131224 |
Install Guide |
EA6900 (AC1900) |
1.0 | Q87 -EA6900 |
Broadcom BCM4708A0 @800 |
256 | 128 | Internal | Broadcom BCM4360 x2 |
an/ac 3×3:3 b/g/n 3×3:3 |
— | — | — | 4 LAN 1 WAN |
12V 3.5A | 1 USB 2.0 1 USB 3.0 Gbit switch |
ea6900- build 23194 20131222 |
Install Guide |
EA8500 (AC2600) |
1.0 | Q87 -EA8500 |
Qualcomm IPQ8064 @1400 |
512 | 128 | — | Qualcomm QCA9980 x2 |
an/ac 4×4:4 b/g/n 4×4:4 |
— | 1 | 1 | 4 LAN 1 WAN |
12V 3.5A | 1 USB 2.0 1 USB 3.0 1 eSATA Gbit switch |
ea8500- build 28846 20160116 |
Install Guide |
EA9200 (AC3200) |
1.0 | Q87 -EA9200 |
Broadcom BCM4709A0 @1000 |
256 | 128 | — | Broadcom BCM43602 x3 |
an/ac 3×3:3 b/g/n 3×3:3 |
— | 1 | 1 | 4 LAN 1 WAN |
12V 3.5A | 1 USB 2.0 1 USB 3.0 Gbit switch Dual 5GHz |
TBD | |
EA9500 (AC5300) |
1.0 | Q87 -EA9500 |
Broadcom BCM4709C0 @1400 |
256 | 128 | — | Broadcom BCM4366 x3 |
an/ac 4×4:4 b/g/n 4×4:4 |
— | 1 | 1 | 8 LAN 1 WAN |
12V 5A |
1 USB 2.0 1 USB 3.0 Gbit switch Dual 5GHz |
TBD | donated router needed |
WRT150N | 1.0 | Q87 -WRT150N |
Broadcom BCM4704 @264 |
16 | 4 | Fixed | Broadcom BCM4321 |
b/g/n 2×2:2 | — | 1 | 1 | 4 LAN 1 WAN |
12V 1.0A | v24 build 6384 20070329 |
Install Guide |
|
WRT150N | 1.1 | Q87 -WRT150NV11 |
Broadcom BCM4704 @264 |
16 | 4 | Fixed | Broadcom BCM4321 |
b/g/n 2×2:2 | — | 1 | 1 | 4 LAN 1 WAN |
12V 1.0A | v24 build 8790 20080118 |
Install Guide |
|
WRT160N | 1.0 | Q87 -WRT160N |
Broadcom BCM4704 @264 |
16 | 4 | Internal | Broadcom BCM4321 |
b/g/n 2×2:2 | — | 1 | 1 | 4 LAN 1 WAN |
12V 1A | — | v24 build 12548 20090722 |
Install Guide |
WRT160N | 1.1 | Q87 -WRT160NV11 |
Broadcom BCM4704 @264 |
16 | 4 | Internal | Broadcom BCM4321 |
b/g/n 2×2:2 | — | 1 | 1 | 4 LAN 1 WAN |
12V 1A | — | v24 build 12548 20090722 |
Install Guide |
WRT160N | 3.0 | Q87 -WRT160NV3 |
Broadcom BCM4716A @300 |
32 | 4 | Internal | SOC | b/g/n 2×2:2 | — | 1 | 1 | 4 LAN 1 WAN |
12V 0.5A | — | K26 build 13253 20091117 |
Install Guide |
WRT160NL | 1.0 | Q87 -WRT160NL |
Atheros AR9130 @400 |
32 | 8 | RP-SMA | Atheros AR9102 |
b/g/n 2×2:2 | — | 1 | 1 | 4 LAN 1 WAN |
12V 1.5A | 1 USB 2.0 | WRT160NL build 13977 20100224 |
Install Guide |
WRT300N | 1.0 | Q87 -WRT300N |
Broadcom BCM4704 @264 |
32 | 4 | Fixed | Broadcom BCM4321 |
b/g/n 2×2:2 | — | 1 | 1 | 4 LAN 1 WAN |
12V 1A | — | v24 build 3344 20060802 |
Install Guide |
WRT300N | 1.1 | Q87 -WRT300NV11 |
Broadcom BCM4785 @300 |
32 | 8 | Fixed | Broadcom BCM4321 |
b/g/n 2×2:2 | — | 1 | 1 | 4 LAN 1 WAN |
12V 1A | — | v24 build 9763 20080619 |
Install Guide |
WRT310N | 1.0 | Q87 -WRT310N |
Broadcom BCM4785 @300 |
32 | 4 | Internal | Broadcom BCM4321 |
b/g/n 2×2:2 | — | 1 | 1 | 4 LAN 1 WAN |
12V 1A | Gb switch | v24 build 9524 20080524 |
Install Guide |
WRT310N | 2.0 | Q87 -WRT310N |
Broadcom BCM4716 @300 |
32 | 4 | Internal | SOC | b/g/n | — | 1 | 1 | 4 LAN 1 WAN |
12V 1A | Gbit switch | K26 build 13594 20100111 |
Install Guide |
WRT320N | 1.0 | Q87 -WRT320N |
Broadcom BCM4717A @354 |
32 | 8 | Internal | SOC | b/g/n 2×2:2 | — | 1 | 1 | 4 LAN 1 WAN |
12V 1A | Gbit switch | K26 build 12956 20090923 |
Install Guide |
WRT350N | 1.0 | Q87 -WRT350N |
Broadcom BCM4785 @300 |
32 | 8 | Fixed | Broadcom BCM4321 |
b/g/n 2×2:2 | 1 | 1 | 1 | 4 LAN 1 WAN |
12V 1.5A | 1 USB 2.0 Gbit switch |
v24 build 5248 20061211 |
Install Guide |
WRT400N | 1.0 | Q87 -WRT400N |
Atheros AR7161 @680 |
32 | 8 | Internal | Atheros AR9223 & AR9220 |
b/g/n 2×2:2 a/n 2×2:2 |
— | 1 | 1 | 4 LAN 1 WAN |
12V 1.5A | — | WRT400N build 14026 20100304 |
Install Guide |
WRT600N | 1.0 | Q87 -WRT600NV1 |
Broadcom BCM4705 @300 |
32 | 8 | Fixed | Broadcom BCM4321 x2 |
b/g/n 2×2:2 a/n 2×2:2 |
2 | 1 | — | 4 LAN 1 WAN |
12V 2A | 1 USB 2.0 Gbit switch |
v24 build 8383 20071116 |
Install Guide |
WRT600N | 1.1 | Q87 -WRT600NV11 |
Broadcom BCM4785 @300 |
32 | 8 | Fixed | Broadcom BCM4321 x2 |
b/g/n 2×2:2 a/n 2×2:2 |
2 | 1 | — | 4 LAN 1 WAN |
12V 2A | 1 USB 2.0 Gbit switch |
v24 TNG | Install Guide |
WRT610N | 1.0 | Q87 -WRT610N |
Broadcom BCM4705 @300 |
64 | 8 | Internal | Broadcom BCM4322 x2 |
b/g/n 2×2:2 a/n 2×2:2 |
— | 1 | 1 | 4 LAN 1 WAN |
12V 2A | 1 USB 2.0 Gbit switch |
v24 build 10005 20080726 |
Install Guide |
WRT610N | 2.0 | Q87 -WRT610NV2 |
Broadcom BCM4718 @480 |
64 | 8 | Internal | SOC & Broadcom BCM4322 |
b/g/n 2×2:2 a/n 2×2:2 |
— | 1 | 1 | 4 LAN 1 WAN |
12V 2A | 1 USB 2.0 Gbit switch |
K26 build 13364 20091203 |
Install Guide |
WRT1200AC | v1 | Q87 -WRT1200AC |
Marvell 88F6820 @1332 |
512 | 128 | RP-SMA | Marvell 88W8864 x2 |
an/ac 2×2:2 b/g/n 2×2:2 |
— | 1 | 1 | 4 LAN 1 WAN |
12V 2.5A | 1 USB 2.0 1 USB 3.0 1 eSATA Gbit switch |
wrt1200ac build 27700 20150820 |
Install Guide |
WRT1200AC | v2 | Q87 -WRT1200AC |
Marvell 88F6820 @1332 |
512 | 128 | RP-SMA | Marvell 88W8864 x2 |
an/ac 2×2:2 b/g/n 2×2:2 |
— | 1 | 1 | 4 LAN 1 WAN |
12V 2.5A | 1 USB 2.0 1 USB 3.0 1 eSATA Gbit switch |
wrt1200acv2 build 30534 20160901 |
Install Guide |
WRT1900AC | v1 | Q87 -WRT1900AC |
Marvell MV78230-B0 @1200 |
256 | 128 | RP-SMA | Marvell 88W8864 x2 |
an/ac 4×4:3 b/g/n 4×4:3 |
2 | 1 | 1 | 4 LAN 1 WAN |
12V 4A | 1 USB 2.0 1 USB 3.0 1 eSATA Gbit switch |
wrt1900ac build 27700 20150820 |
Install Guide |
WRT1900AC | v2 | Q87 -WRT1900ACV2 |
Marvell 88F6820 @1333 |
512 | 128 | RP-SMA | Marvell 88W8864 x2 |
an/ac 4×4:3 b/g/n 4×4:3 |
— | 1 | 1 | 4 LAN 1 WAN |
12V 3A | 1 USB 2.0 1 USB 3.0 1 eSATA Gbit switch |
wrt1900acv2 build 27700 20150820 |
Install Guide |
WRT1900ACS | v1 | Q87 -WRT1900ACV2 |
Marvell 88F6820 @1600 |
512 | 128 | RP-SMA | Marvell 88W8864 x2 |
an/ac 4×4:3 b/g/n 4×4:3 |
— | 1 | 1 | 4 LAN 1 WAN |
12V 3A | 1 USB 2.0 1 USB 3.0 1 eSATA Gbit switch |
wrt1900acs build 28015 20151023 |
Install Guide |
WRT1900ACS | v2 | Q87 -WRT1900ACV2 |
Marvell 88F6820 @1600 |
512 | 128 | RP-SMA | Marvell 88W8864 x2 |
an/ac 4×4:3 b/g/n 4×4:3 |
— | 1 | 1 | 4 LAN 1 WAN |
12V 3A | 1 USB 2.0 1 USB 3.0 1 eSATA Gbit switch |
wrt1900acsv2 build 30605 20160809 |
Install Guide |
WRT3200ACM | Q87 -WRT3200ACM |
Marvell 88F6925 @1800 |
512 | 256 | RP-SMA | Marvell 88W8964 x2 |
an/ac 4×4:4 b/g/n 4×4:4 |
— | 1 | 1 | 4 LAN 1 WAN |
12V 3A | 1 USB 2.0 1 USB 3.0 1 eSATA Gbit switch |
wrt3200acm build 30605 20160909 |
Install Guide |
|
WRT32X | Q87 -WRT3200ACM |
Marvell 88F6925 @1800 |
512 | 256 | RP-SMA | Marvell 88W8964 x2 |
an/ac 4×4:4 b/g/n 4×4:4 |
— | 1 | 1 | 4 LAN 1 WAN |
12V 3A | 1 USB 2.0 1 USB 3.0 1 eSATA Gbit switch |
wrt32x build 33413 20170927 |
Install Guide |
[edit] Linksys (Wireless a/b/g)
Model | H.W rev. |
FCC ID | Platform & Frequency [MHz] |
RAM [MB] |
Flash [MB] |
Ant. Conn. Type |
WLAN NIC |
WLAN standard [802.11] |
mini PCI |
Serial port |
JTAG port |
Eth. port count |
Power Input [V/A] |
Special Features Notes |
Min usable DD-WRT version |
Notes for running DD-WRT |
---|---|---|---|---|---|---|---|---|---|---|---|---|---|---|---|---|
WAP54G | 1.0 | PKW -WAP54G |
Broadcom BCM4702 @125 |
8/16 | 2/4 | RP-TNC | Broadcom BCM4306 |
b/g | 1 | — | Yes | 1 LAN | 5V 2.5A | — | Micro VINT only |
Install Guide |
WAP54G | 1.1 | PKW -WAP54G |
Broadcom BCM4702 @125 |
8/16 | 2/4 | RP-TNC | Broadcom BCM4306 |
b/g | 1 | — | Yes | 1 LAN | 5V 2.5A | — | Micro VINT only |
Install Guide |
WAP54G | 2.0 | Q87 -WAP54GV2 |
Broadcom BCM4712 @200 |
8 | 2 | RP-TNC | SOC | b/g | — | Yes | Yes | 1 LAN | 12V 0.5A | — | Micro only | Install Guide |
WAP54G | 3.0 | Q87 -WAP54GV3 |
Broadcom BCM5352 @200 |
8 | 2 | RP-TNC | SOC | b/g | — | Yes | Yes | 1 LAN | 12V 0.5A | — | Micro only | Install Guide |
WAP54G | 3.1 | Q87 -WAP54GV31 |
Broadcom BCM5352 @200 |
8 | 2 | RP-TNC | SOC | b/g | — | Yes | Yes | 1 LAN | 12V 0.5A | — | Micro only | Install Guide |
WRE54G | v1 | Q87 -WRE54G |
Broadcom BCM4712 @200 |
8 | 2 | RP-TNC | SOC | b/g | — | 1 | — | — | 3.3V 1A | — | v24 sp2 build 12624 |
Install Guide |
WRH54G | ? | Q87 -WRH54G |
Broadcom BCM5354 @240 |
8 | 2 | RP-TNC | SOC | b/g | — | Yes | Yes | 4 LAN 1 WAN |
12V 0.5A | — | v24 micro build 9063 |
Install Guide |
WRT54G | 1.0 | PKW -WM54G |
Broadcom BCM4702 @125 |
16 | 4 | RP-TNC | Broadcom BCM4306 |
b/g | 1 | Yes | Yes | 4 LAN 1 WAN |
5V 2A | — | v24 must use VINT build |
Install Guide |
WRT54G | 1.1 | Q87 -WRT54G11 |
Broadcom BCM4702 @125 |
16 | 4 | RP-TNC | Broadcom BCM4306 |
b/g | — | Yes | Yes | 4 LAN 1 WAN |
12V 1A | — | v24 must use VINT build |
Install Guide |
WRT54G | 2.0 | Q87 -WRT54GV2 |
Broadcom BCM4712 @200 |
16 | 4 | RP-TNC | SOC | b/g | — | Yes | Yes | 4 LAN 1 WAN |
12V 1A | — | Install Guide |
|
WRT54G | 2.2 | Q87 -WT54GV22 |
Broadcom BCM4712 @216 |
16 | 4 | RP-TNC | SOC | b/g | — | Yes | Yes | 4 LAN 1 WAN |
12V 1A | — | Install Guide |
|
WRT54G | 3.0 | Q87 -WT54GV22 |
Broadcom BCM4712 @216 |
16 | 4 | RP-TNC | SOC | b/g | — | Yes | Yes | 4 LAN 1 WAN |
12V 1A | — | Install Guide |
|
WRT54G | 3.1 | Q87 -WT54GV22 |
Broadcom BCM4712 @216 |
16 | 4 | RP-TNC | SOC | b/g | — | Yes | Yes | 4 LAN 1 WAN |
12V 1A | — | Install Guide |
|
WRT54G | 4.0 | Q87 -WT54GV40 |
Broadcom BCM5352 @200 |
16 | 4 | RP-TNC | SOC | b/g | — | Yes | Yes | 4 LAN 1 WAN |
12V 1A | — | Install Guide |
|
WRT54G | 5.0 | Q87 -WRT54GV5 |
Broadcom BCM5352 @200 |
8 | 2 | RP-TNC | SOC | b/g | — | Yes | Yes | 4 LAN 1 WAN |
12V 0.5A | — | Micro Only | Install Guide |
WRT54G | 5.1 | Q87 -WRT54GV5 |
Broadcom BCM5352 @200 |
8 | 2 | RP-TNC | SOC | b/g | — | Yes | Yes | 4 LAN 1 WAN |
12V 0.5A | — | Micro Only | Install Guide |
WRT54G | 6.0 | Q87 -WT54GV60 |
Broadcom BCM5352 @200 |
8 | 2 | RP-TNC | SOC | b/g | — | Yes | Yes | 4 LAN 1 WAN |
12V 0.5A | — | Micro Only | Install Guide |
WRT54G | 7.2 | ? | Broadcom BCM5354 @240 |
8 | 2 | RP-TNC | SOC | b/g | — | Yes | Yes | 4 LAN 1 WAN |
12V 0.5A | — | Micro Only | Install Guide |
WRT54G | 8.0 | Q87 -WRT54GV8 |
Broadcom BCM5354 @240 |
8 | 2 | Fixed | SOC | b/g | — | Yes | Yes | 4 LAN 1 WAN |
12V 0.5A | — | Micro Only | Install Guide |
WRT54G | 8.1 | Q87 -WRT54GV81 |
Broadcom BCM5354 @240 |
8 | 2 | Fixed | SOC | b/g | — | Yes | Yes | 4 LAN 1 WAN |
12V 0.5A | — | Micro Only | Install Guide |
WRT54G | 8.2 | Q87 -WRT54GV82 |
Broadcom BCM5354 @240 |
8 | 2 | Fixed | SOC | b/g | — | Yes | Yes | 4 LAN 1 WAN |
12V 0.5A | — | Micro Only | Install Guide |
WRT54G2 | 1.0 | Q87 -WRT54G2V1 |
Broadcom BCM5354 @240 |
16 | 2 | Internal | SOC | b/g | — | Yes | Yes | 4 LAN 1 WAN |
12V 0.5A | — | Micro only | Install Guide |
WRT54G2 | 1.1 | ? | Atheros AR2317 @180 |
16 | 4 | Internal | SOC | b/g | — | ? | ? | 4 LAN 1 WAN |
12V 0.5A | — | v24 SP2 build 12427 |
Install Guide |
WRT54G2 | 1.3 | Q87 -WRT54G2V13 |
Broadcom BCM5354 @240 |
8 | 2 | Internal | SOC | b/g | — | 1 | Yes | 4 LAN 1 WAN |
12V 0.5A | — | Micro only | Install Guide |
WRT54GL | 1.0 1.1 |
Q87 -WT54GV40 |
Broadcom BCM5352 @200 |
16 | 4 | RP-TNC | SOC | b/g | — | Yes | Yes | 4 LAN 1 WAN |
12V 1A | Install Guide |
||
WRT54G-LA | 8.0 | Q87 -WRT54GV8 |
Broadcom BCM5354 @240 |
8 | 2 | Fixed | SOC | b/g | — | Yes | Yes | 4 LAN 1 WAN |
12V 0.5A | WRT54G v8.0 clone |
v24 micro build ? |
Install Guide |
WRT54G-RG | ? | Q87 -WT54GV40 |
Broadcom BCM5352 @200 |
32 | 8 | RP-TNC | SOC | b/g | — | 2 | Yes | 4 LAN 1 WAN |
12V 1A | v24-SP2 build 12548 |
Install Guide |
|
WRT54G-TM | Q87 -WT54GV40 |
Broadcom BCM5352 @200 |
32 | 8 | RP-TNC | SOC | b/g | — | 2 | Yes | 4 LAN 1 WAN |
12V 1A | v24-SP2 build 12548 |
Install Guide |
||
WRT54GS | 1.0 | Q87 -WRT54GV2 |
Broadcom BCM4712 @200 |
32 | 8 | RP-TNC | BCM2050 | b/g | — | — | 4 LAN 1 WAN |
12V 1A | Install Guide |
|||
WRT54GS | 1.1 | Q87 -WT54GV22 |
Broadcom BCM4712 @200 |
32 | 8 | RP-TNC | BCM2050 | b/g | — | 2 | Yes | 4 LAN 1 WAN |
12V 1A | ? | ? | Install Guide |
WRT54GS | 2.0 | Q87 -WT54GV22 |
Broadcom BCM4712 @200 |
32 | 8 | RP-TNC | SOC | b/g | — | 2 | Yes | 4 LAN 1 WAN |
12V 1A | Install Guide |
||
WRT54GS | 2.1 | Q87 -WT54GV22 |
Broadcom BCM4712 @216 |
32 | 8 | RP-TNC | SOC | b/g | — | 2 | Yes | 4 LAN 1 WAN |
12V 1A | Install Guide |
||
WRT54GS | 3.0 | Q87 -WT54GV40 |
Broadcom BCM5352 @200 |
32 | 8 | RP-TNC | SOC | b/g | — | 2 | Yes | 4 LAN 1 WAN |
12V 1A | Install Guide |
||
WRT54GS | 4.0 | Q87 -WT54GV40 |
Broadcom BCM5352 @200 |
16 | 4 | RP-TNC | SOC | b/g | — | 2 | Yes | 4 LAN 1 WAN |
12V 1A | Install Guide |
||
WRT54GS | 5.0 | Q87 -WT54GV40 |
Broadcom BCM5352 @200 |
16 | 2 | RP-TNC | SOC | b/g | — | 2 | Yes | 4 LAN 1 WAN |
12V 0.5A | Micro only | Install Guide |
|
WRT54GS | 5.1 | Q87 -WT54GV40 |
Broadcom BCM5352 @200 |
16 | 2 | RP-TNC | SOC | b/g | — | 2 | Yes | 4 LAN 1 WAN |
12V 0.5A | Micro only | Install Guide |
|
WRT54GS | 6.0 | Q87 -WT54GV60 |
Broadcom BCM5352 @200 |
16 | 2 | RP-TNC | SOC | b/g | — | 2 | Yes | 4 LAN 1 WAN |
12V 0.5A | Micro only | Install Guide |
|
WRT54GS | 7.0 | Q87 -WRT54GSV7 |
Broadcom BCM5354 @240 |
16 | 2 | RP-TNC | SOC | b/g | — | 2 | Yes | 4 LAN 1 WAN |
12V 0.5A | Micro only | Install Guide |
|
WRT54GS | 7.2 | Q87 -WRT54GSV72 |
Broadcom BCM5354 @240 |
16 | 2 | RP-TNC | SOC | b/g | — | 2 | Yes | 4 LAN 1 WAN |
12V 0.5A | Micro only | Install Guide |
|
WRT54GS2 | 1.0 | Q87 -WRT54G2V1 |
Broadcom BCM5354 @240 |
8 | 2 | Internal | SOC | b/g | — | Yes | Yes | 4 LAN 1 WAN |
12V 0.5A | v24 sp2 ? | Install Guide |
|
WRT54GX | 1.0 | Q87 -WRT54GX |
Broadcom BCM4704 @266 |
16 | 4 | RP-TNC | Airgo must be replaced |
b/g | 1 | — | 4 LAN 1 WAN |
12V 1A | No official support (Airgo) |
Install Guide |
||
WRT55AG | 1.0 | PKW -WRT55AG |
Broadcom BCM4702 @125 |
32 | 4 | Fixed | Broadcom BCM4306 & Atheros AR5002A |
a/b/g | 2 | — | Yes | 4 LAN 1 WAN |
5V 2.5A | 20 LEDs on front panel |
TRX hack disables 5GHz radio |
Install Guide |
WRT55AG | 2.0 | Q87 -WRT55AGV2 |
Atheros AR5312 @220 |
16 | 4 | Fixed | Atheros AR5112 & AR2112 |
a/h + b/g | — | — | Yes | 4 LAN 1 WAN |
5V 2.5A | Install Guide |
||
WRTSL54GS | all | Q87 -WTSLGS |
Broadcom BCM4704 @266 |
32 | 8 | Fixed | Broadcom BCM4318E |
b/g | — | Yes | Yes | 4 LAN 1 WAN |
12V 1A | 1 USB 2.0 | V23 ??? | Install Guide |
WTR54GS | 1.0 | Q87 -WTR54GS |
Broadcom BCM5350 @200 |
16 | 4 | Internal | SOC | b/g | — | 1 | 1 | 1 LAN 1 WAN |
110-240V 1.5A |
Travel router |
v24 rc5 build 8246 |
Install Guide |
WTR54GS | 2.0 | Q87 -WTR54GS |
Broadcom BCM5350 @200 |
8 | 2 | Internal | SOC | b/g | — | 1 | 1 | 1 LAN 1 WAN |
110-240V 1.5A |
Travel router |
v24 rc6 | Install Guide |
WTR54GS | 2.1 | Q87 -WTR54GSV21 |
Broadcom BCM5350 @200 |
8 | 2 | Internal | SOC | b/g | — | 1 | — | 1 LAN 1 WAN |
110-240V 1.5A |
Travel router |
v24 rc6 | Install Guide |
[edit] Linksys Valet
Model | H.W rev. |
FCC ID | Platform & Frequency [MHz] |
RAM [MB] |
Flash [MB] |
Wireless NIC |
WLAN standard [802.11] |
mini PCI |
Serial port |
JTAG port |
Eth. port count |
Power Input [V/A] |
Special Features Notes |
Min usable DD-WRT version |
Notes for running DD-WRT |
---|---|---|---|---|---|---|---|---|---|---|---|---|---|---|---|
M10 | 1.0 | Q87-M10 | Broadcom BCM4716A @300 |
32 | 4 | SOC | b/g/n 2×2:2 | — | 1 | ? | 4 LAN 1 WAN |
12V 0.5A | — | K26 build 15334 20101001 |
|
M20 | 1.0 | Q87-M20 | Broadcom BCM4716 @300 |
32 | 4 | SOC | b/g/n 2×2:2 | — | 1 | ? | 4 LAN 1 WAN |
12V 1A | Gbit switch | K26 build 14929 20100812 |
[edit] Logilink
Model | H.W rev. |
FCC ID | Platform & Frequency [MHz] |
RAM [MB] |
Flash [MB] |
Wireless NIC |
WLAN standard [802.11] |
mini PCI |
Serial port |
JTAG port |
Eth. port count |
Power Input [V/A] |
Special Features Notes |
Min usable DD-WRT version |
Notes for running DD-WRT |
---|---|---|---|---|---|---|---|---|---|---|---|---|---|---|---|
WL0129 | NDD9573031016 | Ralink RT3050F @320 |
32 | 4 | SOC | b/g/n 1×1:1 | — | — | — | 1 LAN 1 WAN |
12V 1A | Outdoor unit 12dBi ant. Ext. RP-SMA |
wcr-gn build 18024 20111220 |
flash buffalo wcr-gn firmware.tftp via serial |
[edit] Meraki
Model | H.W rev. |
FCC ID | Platform & Frequency [MHz] |
RAM [MB] |
Flash [MB] |
Wireless NIC |
WLAN standard [802.11] |
mini PCI |
Serial port |
JTAG port |
Eth. port count |
PoE | Power Input [V/A] |
Special Features Notes |
Min usable DD-WRT version |
Notes for running DD-WRT |
---|---|---|---|---|---|---|---|---|---|---|---|---|---|---|---|---|
Mini | — | UDX-MERAKI -MINI |
Atheros AR2315 @180 |
32 | 8 | SOC | b/g | — | 1 | 1 | 1 LAN | — | 4.5-18V | — | Meraki build 6999 20070508 |
— |
Outdoor (Sparky) |
— | UDX-MERAKI -OTDR |
Atheros AR2317 @180 |
32 | 8 | SOC | b/g | — | 1 | 1 | 2 LAN | yes | 4.5-18V | Outdoor box | Meraki build 6999 20070508 |
— |
[edit] Microsoft
Model | H.W rev. |
FCC ID | Platform & Frequency [MHz] |
RAM [MB] |
Flash [MB] |
Wireless NIC |
WLAN standard [802.11] |
mini PCI |
Serial port |
JTAG port |
Eth. port count |
Power Input [V/A] |
Special Features Notes |
Min usable DD-WRT version |
Notes for running DD-WRT |
---|---|---|---|---|---|---|---|---|---|---|---|---|---|---|---|
MN-700 | v3 | C3KMN700 | Broadcom BCM4702 @125 |
16 | 4 | Broadcom BCM4306 |
b/g | 1 | — | — | 4 LAN 1 WAN |
12V 1A | — | v23 build 3953 20060920 |
Install Guide |
[edit] Mikrotik Routerboard
Model | H.W rev. |
FCC ID | Platform & Frequency [MHz] |
RAM [MB] |
Flash [MB] |
Wireless NIC |
WLAN standard [802.11] |
mini PCI |
Serial port |
JTAG port |
Eth. port count |
PoE | Power Input [V/A] |
Special Features Notes |
Min usable DD-WRT version |
Notes for running DD-WRT |
---|---|---|---|---|---|---|---|---|---|---|---|---|---|---|---|---|
RB2xx | — | — | Geode SC1100 @266 |
1 SoDimm up to 256 |
2 | — | depends on card |
no, but PCMCIA & pci card |
1 | — | 2 LAN | 802.3af | 20-56V | h/w-watchdog tempsensor CF-slot, USB IDE-port |
x86 version | write image via physdiskwrite to cf-card |
RB-532 | A to C | — | MIPS 4Kc @200-400 |
32-64 | 128 | — | depends on card |
2-6 | 1 | ? | 2 LAN 1 WAN |
yes | 6-22V or 25-56V |
h/w-watchdog CF-slot |
rb532 build 6042 20070226 |
— |
RB-600 | — | — | Freescale MPC8343E @266-533 |
128 | 64 | — | depends on card |
4-8 | 1 | ? | 3 LAN or WAN 1000 BT (up to 19) |
yes | 10-56V | h/w-watchdog 2 CF-slot |
rb600 build 14144 20100324 |
write image via physdiskwrite to cf-card, needs DD-WRT activation |
RB-800 | — | — | Freescale MPC8544 @800 |
256 | 64 | — | depends on card |
4-8 | 1 | ? | 3 LAN or WAN 1000 BT (up to 19) |
yes | 10-56V or 38-56V |
h/w-watchdog 2 CF-slot, mPCIe |
rb800 build 14289 20100416 |
needs DD-WRT activation |
RB-1000 | — | — | Freescale MPC8548 @1333 |
512 | 64 | — | — | — | 1 | ? | 3 LAN or WAN |
yes | 12V or 230V (depends on housing) |
h/w-watchdog 2 CF-slot SODIMM-slot |
rb1000 build 14289 20100416 |
needs DD-WRT activation |
[edit] Mitsubishi
Model | H.W rev. |
FCC ID | Platform & Frequency [MHz] |
RAM [MB] |
Flash [MB] |
Wireless NIC |
WLAN standard [802.11] |
mini PCI |
Serial port |
JTAG port |
Eth. port count |
Power Input [V/A] |
Special Features Notes |
Min usable DD-WRT version |
Notes for running DD-WRT |
---|---|---|---|---|---|---|---|---|---|---|---|---|---|---|---|
R100 | ? | ? | Broadcom BCM4702 @125 |
16 | 4 | Broadcom BCM4306 |
b/g | 1 | — | — | 4 LAN 1 WAN |
5 | equal to WL500g |
v24 | — |
[edit] Motorola
Model | H.W rev. |
FCC ID | Platform & Frequency [MHz] |
RAM [MB] |
Flash [MB] |
Wireless NIC |
WLAN standard [802.11] |
mini PCI |
Serial port |
JTAG port |
Eth. port count |
Power Input [V/A] |
Special Features Notes |
Min usable DD-WRT version |
Notes for running DD-WRT |
---|---|---|---|---|---|---|---|---|---|---|---|---|---|---|---|
WE800G | v1 | ACQWE800G | Broadcom BCM4702 @125 |
16 | 4 | Broadcom BCM4306 |
b/g | 1 | ? | — | 1 LAN | 5V 2A | JTAG mod |
v24 build 5342 20061218 |
Install Guide |
WR850G | v1 | ACQWR850G | Broadcom BCM4702 @125 |
16 | 4 | Broadcom BCM4306 |
b/g | 1 | — | — | 4 LAN 1 WAN |
5V 2A | JTAG mod |
v24 build 5793 20070207 |
Install Guide |
WR850G | v2 | ACQWR850GV2 | Broadcom BCM4712 @200 |
16 | 4 | SOC | b/g | — | ? | ? | 4 LAN 1 WAN |
12V 0.5A | — | v24 build 5538 20070109 |
Install Guide |
WR850G | v3 | ACQWR850GV2 | Broadcom BCM4712 @200 |
16 | 4 | SOC | b/g | — | ? | ? | 4 LAN 1 WAN |
12V 0.5A | — | v24 build 5538 20070109 |
Install Guide |
WR850GP | ? | ACQWR850GV2 | Broadcom BCM4712 @200 |
16 | 4 | SOC | b/g | — | 1 | 1 | 4 LAN 1 WAN |
12V 0.75A | — | v24 build 5538 20070109 |
Install Guide |
[edit] MSI
Model | H.W rev. |
FCC ID | Platform & Frequency [MHz] |
RAM [MB] |
Flash [MB] |
Wireless NIC |
WLAN standard [802.11] |
mini PCI |
Serial port |
JTAG port |
Eth. port count |
Power Input [V/A] |
Special Features Notes |
Min usable DD-WRT version |
Notes for running DD-WRT |
---|---|---|---|---|---|---|---|---|---|---|---|---|---|---|---|
RG70A | U2M-SR97908003 | Ralink RT3052F @384 |
32 | 4 | SOC | b/g/n 2×2:2 | — | 1 | — | 4 LAN 1 WAN |
12V 1A | ESR 9752 OEM |
ESR9752SC build 12527 20090719 |
[edit] MTN Electronics
Model | H.W rev. |
FCC ID | Platform & Frequency [MHz] |
RAM [MB] |
Flash [MB] |
Wireless NIC |
WLAN standard [802.11] |
mini PCI |
Serial port |
JTAG port |
Eth. port count |
Power Input [V/A] |
Special Features Notes |
Min usable DD-WRT version |
Notes for running DD-WRT |
---|---|---|---|---|---|---|---|---|---|---|---|---|---|---|---|
MT-WR855N | ? | ? | Ralink RT3052F @384 |
32 | 4 | SOC | b/g/n 2×2:2 | — | 1 | — | 4 LAN 1 WAN |
9V 1A | clone of NR22/Y |
NR22 build 12826 20090904 |
[edit] NewMedia
Model | H.W rev. |
FCC ID | Platform & Frequency [MHz] |
RAM [MB] |
Flash [MB] |
Wireless NIC |
WLAN standard [802.11] |
mini PCI |
Serial port |
JTAG port |
Eth. port count |
PoE | Power Input [V/A] |
Special Features Notes |
Min usable DD-WRT version |
Notes for running DD-WRT |
---|---|---|---|---|---|---|---|---|---|---|---|---|---|---|---|---|
Dual A/B/G Router | — | — | Xscale IXP425 @266 |
32 | 8 | — | depends on card |
2 | — | ? | 4 LAN 1 WAN |
— | 5V | = Avila | v23 build 3145 20060722 |
— |
[edit] NetComm
Model | H.W rev. |
FCC ID | Platform & Frequency [MHz] |
RAM [MB] |
Flash [MB] |
Wireless NIC |
WLAN standard [802.11] |
mini PCI |
Serial port |
JTAG port |
Eth. port count |
Power Input [V/A] |
Special Features Notes |
Min usable DD-WRT version |
Notes for running DD-WRT |
---|---|---|---|---|---|---|---|---|---|---|---|---|---|---|---|
NP804N | — | U2M-SR97908003 | Ralink RT3052F @384 |
16 | 4 | SOC | b/g/n 2×2:2 | — | 1 | ? | 4 LAN 1 WAN |
12V 1A | ESR9752 OEM |
ESR9752SC build 12527 20090719 |
— |
[edit] Netcore
Model | H.W rev. |
FCC ID | Platform & Frequency [MHz] |
RAM [MB] |
Flash [MB] |
Wireless NIC |
WLAN standard [802.11] |
mini PCI |
Serial port |
JTAG port |
Eth. port count |
Power Input [V/A] |
Special Features Notes |
Min usable DD-WRT version |
Notes for running DD-WRT |
---|---|---|---|---|---|---|---|---|---|---|---|---|---|---|---|
NW618 | PB20 | Broadcom BCM5354 @240 |
16 | 4 | SOC | b/g | — | 1 | 1 | 4 LAN 1 WAN |
9V 0.7A | Same h/w as RNX-G4 |
V24 build 9307 20080313 |
[edit] Netgear
Model | H.W rev. |
FCC ID | Platform & Frequency [MHz] |
RAM [MB] |
Flash [MB] |
Wireless NIC |
WLAN standard [802.11] |
mini PCI |
Serial port |
JTAG port |
Eth. port count |
Power Input [V/A] |
Special Features Notes |
Min usable DD-WRT version |
Notes for running DD-WRT |
---|---|---|---|---|---|---|---|---|---|---|---|---|---|---|---|
AC1450 | v1 | PY313200227 | Broadcom BCM4708A0 @800 |
256 | 128 | Broadcom BCM4360 & BCM4331 |
an/ac 3×3:3 b/g/n 3×3:3 |
1 | 1 | 4 LAN 1 WAN |
12V 2.5A | 1 USB 2.0 1 USB 3.0 Gbit switch |
ac1450 build 25139 20141022 |
Install Guide |
|
AC2100 | PY316200344 | MT7621AT @880 |
256 | 128 | MT7615N MT7615N |
b/g/n 4×4:4 an/ac 4×4:3 |
yes | 4 LAN 1 WAN |
12 V 2.5 A | 1 USB 2.0 1 USB 3.0 Gbit switch |
ac2100 build 45820 20210223 |
||||
AC2400 | PY316200344 | MT7621AT @880 |
256 | 128 | MT7615N MT7615N |
b/g/n 4×4:3 an/ac 4×4:4 |
yes | 4 LAN 1 WAN |
12 V 2.5 A | 1 USB 2.0 1 USB 3.0 Gbit switch |
ac2400 build 45820 20210223 |
||||
EX6200 (AC1200) |
v1 | PY313200230 | Broadcom BCM4708A0 @800 |
128 | 8 | Broadcom BCM4352 & BCM43217 |
an/ac 2×2:2 b/g/n 2×2:2 |
— | 1 | 1 | 5 LAN | 12V 2.5A | Gbit switch | ex6200 build 25139 20141022 |
|
R6000 (AC750) |
v1 | PY312400225 | Atheros AR9344 @560 |
128 | 128 | SOC & Qualcom QCA9882 |
b/g/n 2×2:2 an/ac 1×1:1 |
— | 1 | 1 | 4 LAN 1 WAN |
12V 1.5A | 1 USB 2.0 | TBD | donated router needed |
R6100 (AC1200) |
v1 | PY312400225 | Atheros AR9344 @560 |
128 | 128 | SOC & Qualcom QCA9882 |
b/g/n 2×2:2 an/ac 2×2:2 |
— | 1 | 1 | 4 LAN 1 WAN |
12V 1.5A | 1 USB 2.0 | TBD | donated router needed |
R6200 (AC1200) |
v1 | PY312100189 | Broadcom BCM4718A1 @480 |
128 | 16 | SOC & Broadcom BCM4352 |
an/ac 2×2:2 b/g/n 2×2:2 |
— | 1 | 1 | 4 LAN 1 WAN |
12V 2.5A | 1 USB 2.0 Gbit switch |
R6200 build 49081 20220604 |
|
R6200 (AC1200) |
v2 | PY312400218 | Broadcom BCM47081A0 @800 |
256 | 128 | Broadcom BCM4360 & BCM43217 |
an/ac 2×2:2 b/g/n 2×2:2 |
— | 1 | 1 | 4 LAN 1 WAN |
12V 2.5A | 1 USB 3.0 Gbit switch |
TBD | donated router needed |
R6220 (AC1200) |
PY314200274 | MT7621ST @880 |
128 | 128 | MT7603EN MT7612EN |
b/g/n 2×2:2 an/ac 2×2:2 |
yes | 4 LAN 1 WAN |
12 V 1.5 A | 1 USB 2.0 Gbit switch |
r6220 build 45820 20210223 |
||||
R6250 (AC1600) |
v1 | PY312400219 | Broadcom BCM4708A0 @800 |
256 | 128 | Broadcom BCM4360 & BCM43217 |
an/ac 3×3:3 b/g/n 2×2:2 |
— | 1 | 1 | 4 LAN 1 WAN |
12V 2.5A | 1 USB 3.0 Gbit switch |
r6250 build 23082 20131212 |
|
R6260 (AC1600) |
PY317300390 | MT7621AT @880 |
128 | 128 | MT7603E MT7615 |
b/g/n 2×2:2 an/ac 3×3:3 |
yes | 4 LAN 1 WAN |
12 V 1.5 A | 1 USB 2.0 Gbit switch |
r6260 build 45820 20210223 |
||||
R6300 (AC1750) |
v1 | PY312100188 | Broadcom BCM4706 @600 |
128 | 128 | Broadcom BCM4360 & BCM4331 |
an/ac 3×3:3 b/g/n 3×3:3 |
— | 1 | 1 | 4 LAN 1 WAN |
12V 5A | 2 USB 2.0 Gbit switch |
r6300 build 21676 20130527 |
Install Guide |
R6300 (AC1750) |
v2 | PY313200227 | Broadcom BCM4708A0 @800 |
256 | 128 | Broadcom BCM4360 & BCM4331 |
an/ac 3×3:3 b/g/n 3×3:3 |
— | 1 | 1 | 4 LAN 1 WAN |
12V 2.5A | 1 USB 2.0 1 USB 3.0 Gbit switch |
r6300v2 build 23082 20131212 |
Install Guide |
R6350 (AC1750) |
PY317300390 | MT7621AT @880 |
128 | 128 | MT7603E MT7615 |
b/g/n 2×2:2 an/ac 4×4:4 |
yes | 4 LAN 1 WAN |
12 V 1.5 A | 1 USB 2.0 Gbit switch |
r6350 build 45820 20210223 |
||||
R6400 (AC1750) |
v1 | PY315100300 | Broadcom BCM4708A0 @800 |
256 | 128 | Broadcom BCM4360 & BCM4331 |
an/ac 3×3:3 b/g/n 3×3:3 |
— | 1 | 1 | 4 LAN 1 WAN |
12V 2.5A | 1 USB 2.0 1 USB 3.0 Gbit switch |
r6400 build 29968 20160617 |
Install Guide |
R6400 (AC1750) |
v2 | PY316200342 | Broadcom BCM4708C0 @1000 |
256 | 128 | Broadcom BCM4360 & BCM4331 |
an/ac 3×3:3 b/g/n 3×3:3 |
— | 1 | 1 | 4 LAN 1 WAN |
12V 2.5A | 1 USB 2.0 1 USB 3.0 Gbit switch |
r6400v2 build 36995 20180919 |
Install Guide |
R6700 (AC1750) |
v1 | PY313200233 | Broadcom BCM4709A0 @1000 |
256 | 128 | Broadcom BCM4360 x2 |
an/ac 3×3:3 b/g/n 3×3:3 |
— | 1 | 1 | 4 LAN 1 WAN |
12V 2.5A | 1 USB 3.0 Gbit switch |
r6700 build 25251 20141103 |
|
R6700 (AC1750) |
v2 | PY316200344 | MT7621AT @880 |
256 | 128 | MT7615N MT7615N |
b/g/n 4×4:3 an/ac 4×4:3 |
yes | 4 LAN 1 WAN |
12 V 2.5 A | 1 USB 3.0 Gbit switch |
r6700v2 build 45820 20210223 |
|||
R6700 (AC1750) |
v3 | PY316200342 | Broadcom BCM4708C0 @1000 |
256 | 128 | Broadcom BCM4360 & BCM4331 |
an/ac 3×3:3 b/g/n 3×3:3 |
— | 1 | 1 | 4 LAN 1 WAN |
12V 2.5A | 1 USB 2.0 1 USB 3.0 Gbit switch |
r6700v3 build 36995 20180919 |
Install Guide |
R6800 (AC1900) |
PY316200344 | MT7621AT @880 |
128 | 128 | MT7615N x2 |
b/g/n 4×4:3 an/ac 4×4:3 |
yes | 4 LAN 1 WAN |
12 V 1.5 A | 1 USB 2.0 Gbit switch |
r6800 build 45820 20210223 |
||||
R6850 (AC2000) |
PY317300390 | MT7621AT @880 |
128 | 128 | MT7603E MT7615 |
b/g/n 2×2:2 an/ac 4×4:3 |
4 LAN 1 WAN |
12 V 1.5 A | 1 USB 2.0 Gbit switch |
r6850 build 45820 20210223 |
|||||
R6900 (AC1900) |
v2 | PY316200344 | MT7621AT @880 |
256 | 128 | MT7615N x2 | b/g/n 4×4:3 an/ac 4×4:3 |
4 LAN 1 WAN |
12 V 2.5 A | 1 USB 3.0 Gbit switch |
r6900v2 build 45820 20210223 |
||||
R7000 (AC1900) |
v1 | PY313200233 | Broadcom BCM4709A0 @1000 |
256 | 128 | Broadcom BCM4360 x2 |
an/ac 3×3:3 b/g/n 3×3:3 |
— | 1 | 1 | 4 LAN 1 WAN |
12V 2.5A | 1 USB 2.0 1 USB 3.0 Gbit switch |
r7000 build 23082 20131212 |
Install Guide |
R7000P (AC1900) |
v1 | PY316200351 | Broadcom BCM4708C0 @1000 |
256 | 128 | Broadcom BCM4365E & BCM4360 |
an/ac 3×3:3 b/g/n 3×3:3 |
— | 1 | 1 | 4 LAN 1 WAN |
12V 3.5A | 1 USB 2.0 1 USB 3.0 Gbit switch |
r7000p build 32945 2017/07/31 |
Install Guide |
R7200 (AC2100) |
PY316200344 | MT7621AT @880 |
256 | 128 | MT7615N MT7615N |
b/g/n 4×4:4 an/ac 4×4:4 |
4 LAN 1 WAN |
12 V 2.5 A | 1 USB 2.0 1 USB 3.0 Gbit switch |
r7200 build 45820 20210223 |
|||||
R7450 (AC2600) |
PY316200344 | MT7621AT @880 |
256 | 128 | MT7615N MT7615N |
b/g/n 4×4:4 an/ac 4×4:4 |
4 LAN 1 WAN |
12 V 2.5 A | 1 USB 2.0 1 USB 3.0 Gbit switch |
r7450 build 45820 20210223 |
|||||
R7500 (AC2350) |
v1 | PY314100258 PY314300288 |
Qualcomm IPQ8064 @1400 |
256 | 128 | Quantenna QSR1000 & Qualcomm QCA9880 |
an/ac 4×4:4 b/g/n 3×3:3 |
— | 1 | 1 | 4 LAN 1 WAN |
12V 3.5A | 2 USB 3.0 1 eSATA Gbit switch |
r7500v1 build 28598 20151224 |
NO 5GHz READ |
R7500 (AC2350) |
v2 | PY315100301 | Qualcomm IPQ8064 @1400 |
256 | 128 | Qualcomm QCA9980 & QCA9880 |
an/ac 4×4:4 b/g/n 3×3:3 |
— | 1 | 1 | 4 LAN 1 WAN |
12V 3.5A | 2 USB 3.0 1 eSATA Gbit switch |
r7500v2 build 30432 20160816 |
|
R7800 (AC2600) |
v1 | PY315100319 | Qualcomm IPQ8065 @1700 |
512 | 128 | Qualcomm QCA9984 x2 |
an/ac 4×4:4 b/g/n 4×4:4 |
— | 1 | 1 | 4 LAN 1 WAN |
19V 3.2A | 2 USB 3.0 1 eSATA Gbit switch |
r7800 build 29721 20160518 |
Installation Forum Thread |
R8000 (AC3200) |
v1 | PY314200264 | Broadcom BCM4709A0 @1000 |
256 | 128 | Broadcom BCM43602 x3 |
an/ac 3×3:3 b/g/n 3×3:3 |
— | 1 | 1 | 4 LAN 1 WAN |
12V 5A | 1 USB 2.0 1 USB 3.0 Gbit switch Dual 5GHz |
r8000 build 29968 20160617 |
Device Forum Thread |
R8500 (AC5300) |
v1 | PY315200309 | Broadcom BCM47094 @1400 |
512 | 256 | Broadcom BCM4366 x3 |
an/ac 4×4:4 b/g/n 4×4:4 |
— | 1 | 1 | 6 LAN 1 WAN |
19V 3.2A | 1 USB 2.0 1 USB 3.0 Gbit switch Dual 5GHz |
r8500 build 29968 20160617 |
|
R8900 (AD7000) |
v1 | PY316200339 PY317400405 |
Annapurna Labs Alpine AL-514 @1700 |
1024 | 512 | Qualcomm QCA9984 x2 QCA9500 |
ac 4×4:4 abgn 4×4:4 ad 1×1:1 |
— | yes | no | 6 LAN 1 WAN |
19V 3.16A | 2 USB 3.0 1 SFP+ Gbit switch |
r8900 build 33772 20171116 |
|
R9000 (AD7200) |
v1 | PY316200339 PY317400405 |
Alpine AL-514 @1700 |
1048 | 512 | Qualcomm QCA9984 x2 QCA 9500 |
ac 4×4:4 abgn 4×4:4 ad 1×1:1 |
— | 1 | 1 | 6 LAN 1 WAN |
19V 3.16A | 2 USB 3.0 Gbit switch |
r9000 build 31533 20170227 |
Install Guide |
WAC124 | PY318100410 | MT7621AT @880 |
128 | 128 | MT7603EN MT7615N |
b/g/n 2×2:2 an/ac 4×4:4 |
yes | 4 LAN 1 WAN |
12 V 1.5 A | 1 USB 2.0 Gbit switch |
wac124 build 45820 20210223 |
||||
WG302 | v1 | PY3WG302 | Xscale IXP422BB @266 |
16 | 8 | Atheros AR2112 & AR5212 |
b/g | 1 | 1 | ? | 1 LAN WAN | 12V 1.5A | PoE 802.3af |
wg302v1 build 11351 20090109 |
— |
WG302 | v2 | PY306100027 | Xscale IXP420 @266 |
16 | 8 | Atheros AR2414 |
b/g | 1 | 1 | ? | 1 LAN WAN | 12V 1.5A | PoE 802.3af |
wg302v2 build 11249 20081219 |
— |
WG602 | v3 | PY3WG602V3 | Broadcom BCM5350 @200 |
8 | 2 | SOC | b/g | — | 1 | ? | 1 LAN 1 WAN |
7.5V 1A | — | v24 micro build 8332 20110507 |
First flash use TFTP |
WG602 | v4 | PY3WG602V4 | Broadcom BCM5354 @240 |
8 | 2 | SOC | b/g | — | 1 | ? | 1 LAN 1 WAN |
7.5V 1A | — | v24 micro build 9355 20080329 |
First flash use TFTP |
WGR614 | v8 | PY306400057 | Broadcom BCM5354 @240 |
16 | 4 | SOC | b/g | — | 1 | 1 | 4 LAN 1 WAN |
12V 1A | serial flashchip device! |
sf build 9179 20080301 |
Install Guide |
WGR614L | L | PY306400057 | Broadcom BCM5354 @240 |
16 | 4 | SOC | b/g | — | 1 | 1 | 4 LAN 1 WAN |
12V 1A | serial flashchip device! |
sf build 9179 20080301 |
Install Guide |
WGR614 | WW | PY306400057 | Broadcom BCM5354 @240 |
16 | 4 | SOC | b/g | — | 1 | ? | 4 LAN 1 WAN |
12V 1A | serial flashchip device! |
sf build 9179 20080301 |
Install Guide |
WGT624 | v4 | PY307100060 | Atheros AR2318 @180 |
16 | 4 | SOC | b/g | — | 1 | — | 4 LAN 1 WAN |
12V 1A | — | wgt624v4 build 11951 20090416 |
|
WNDR3300 | v1 | PY307300072 | Broadcom BCM4704 @264 |
16 | 4 | Broadcom BCM4321 & BCM4318 |
a/b/g/n 2×2:2 b/g 2×2:2 |
— | yes | no | 4 LAN 1 WAN |
12V 1.5A | — | v24 build 9333 20080321 |
|
WNDR3400 | v1 | PY309300116 | Broadcom BCM4718A1 @480 |
64 | 8 | SOC & Broadcom BCM43224 |
b/g/n 2×2:2 a/n 2×2:2 |
— | yes | yes | 4 LAN 1 WAN |
12V 1.5A | 1 USB 2.0 | K26 build 17567 20110901 |
Install Guide |
WNDR3700 WNDR37AV |
v1 | PY308300092 | Atheros AR7161 @680 |
64 | 8 | Atheros AR9220 & AR9223 |
a/n 2×2:2 b/g/n 2×2:2 |
— | 1 | 1 | 4 LAN 1 WAN |
12V 2.5A | 1 USB 2.0 Gbit switch |
wndr3700 build 14158 20100329 |
Install Guide |
WNDR3700 WNDR37AV |
v2 | PY308300092 | Atheros AR7161 @680 |
64 | 16 | Atheros AR9220 & AR9223 |
a/n 2×2:2 b/g/n 2×2:2 |
— | 1 | 1 | 4 LAN 1 WAN |
12V 2.5A | 1 USB 2.0 Gbit switch |
wndr3700v2 build 16230 20110219 |
Install Guide |
WNDR3700 | v3 | PY311200166 | Broadcom BCM4718A @480 |
64 | 8 | SOC & Broadcom BCM 4331 |
b/g/n 2×2:2 a/n 2×2:2 |
— | 1 | 1 | 4 LAN 1 WAN |
12V 2.5A | 1 USB 2.0 Gbit switch |
K26 build 19327 20120319 |
Install Guide |
WNDR3700 | v4 | PY312100186 | Atheros AR9344 @560 |
128 | 128 | SOC & Atheros AR9582 |
b/g/n 2×2:2 a/n 2×2:2 |
— | 1 | 1 | 4 LAN 1 WAN |
12V 2.5A | 1 USB 2.0 Gbit switch |
wndr3700v4 build 20772 20130222 |
Install Guide |
WNDR3700 (N600) |
v5 | PY314200274 PY314200275 |
MT7621ST @880 |
128 | 16 | MT7603EN MT7612EN |
b/g/n 2×2:2 an/an 2×2:2 |
yes | 4 LAN 1 WAN |
12 V 1.5 A | 1 USB 2.0 Gbit switch |
wndr3700v5 build 52869 20230602 |
Install Guide |
||
WNDR3800 WNDR38AV |
PY308300092 | Atheros AR7161 @680 |
128 | 16 | Atheros AR9220 & AR9223 |
a/n 2×2:2 b/g/n 2×2:2 |
— | 1 | 1 | 4 LAN 1 WAN |
12V 2.5A | 1 USB 2.0 Gbit switch |
wndr3800 build 18687 20120308 |
Install Guide |
|
WNDR4000 | v1 | PY310400144 | Broadcom BCM4718 @480 |
64 | 8 | SOC & Broadcom BCM4331 |
b/g/n 2×2:2 a/n 3×3:3 |
— | 1 | 1 | 4 LAN 1 WAN |
12V 2.5A | 1 USB 2.0 Gbit switch |
K26 build 17201 20110614 |
Install Guide |
WNDR4300 | v1 | PY312100187 | Atheros AR9344 @560 |
128 | 128 | SOC & Atheros AR9580 |
b/g/n 2×2:2 a/n 3×3:3 |
— | 1 | 1 | 4 LAN 1 WAN |
12V 2.5A | 1 USB 2.0 Gbit switch |
wndr4300 build 20772 20130222 |
|
WNDR4500 | v1 | PY311200162 | Broadcom BCM4706 @600 |
128 | 128 | Broadcom BCM4331 x2 |
a/n 3×3:3 b/g/n 3×3:3 |
— | 1 | 1 | 4 LAN 1 WAN |
12V 5A | 2 USB 2.0 Gbit switch |
wndr4500 build 21606 20130516 |
Install Guide |
WNDR4500 | v2 | PY312300207 | Broadcom BCM4706 @600 |
128 | 128 | Broadcom BCM4331 x2 |
a/n 3×3:3 b/g/n 3×3:3 |
— | 1 | 1 | 4 LAN 1 WAN |
12V 2.5A | 2 USB 2.0 Gbit switch |
wndr4500v2 build 21656 20130522 |
Install Guide |
WNR834B | v1 | PY306100032 | Broadcom BCM4704 @264 |
16 | 4 | Broadcom BCM4321 |
b/g/n 2×2:2 | — | yes | no | 4 LAN 1 WAN |
12V 1A | — | v24 build 5966 20070222 |
|
WNR834B | v2 | PY307100061 | Broadcom BCM4704 @264 |
16 | 4 | Broadcom BCM4321 |
b/g/n 2×2:2 | — | 1 | 1 | 4 LAN 1 WAN |
12V 1A | — | v24 build 9270 20080308 |
|
WNR1000 | v1 | PY308400094 | Atheros AR9130 @400 |
32 | 4 | Atheros AR9102 |
b/g/n 2×2:2 | — | 1 | 1 | 4 LAN 1 WAN |
12V 1A | Same h/w as DIR-615c1 |
— | — |
WNR2000 | v2 | PY309100105 | Broadcom BCM4716B0 @300 |
32 | 4 | SOC | b/g/n 2×2:2 | — | 1 | 1 | 4 LAN 1 WAN |
12V 1A | K26 build 14536 20100531 |
Install Guide |
|
WNR2000 | v3 | PY310200135 | Atheros AR7241 @360 |
32 | 4 | Atheros AR9287 |
b/g/n 2×2:2 | — | 1 | 1 | 4 LAN 1 WAN |
12V 1A | wnr2000v3 build 18404 20120208 |
Install Guide |
|
WNR2200 | v1 | PY310200131 | Atheros AR7241 @400 |
64 | 8 | Atheros AR9287 |
b/g/n 2×2:2 | — | 1 | 1 | 4 LAN 1 WAN |
12V 1.5A | 1 USB 2.0 | wnr2200 build 18420 20120209 |
|
WNR3500 | v2 | PY308400093 | Broadcom BCM4718A @480 |
32 | 4 | SOC | b/g/n 2×2:2 | — | — | — | 4 LAN 1 WAN |
12V 1A | Gbit switch | K26 build 12966 20090923 |
— |
WNR3500L | v1 | PY308400093 | Broadcom BCM4718A @480 |
64 | 8 | SOC | b/g/n 2×2:2 | — | — | — | 4 LAN 1 WAN |
12V 1.5A | 1 USB 2.0 Gbit switch |
K26 build 12966 20090923 |
Install Guide |
WNR3500L | v2 | PY310400153 | Broadcom BCM5357r1 @480 |
128 | 128 | SOC | b/g/n 2×2:2 | — | — | — | 4 LAN 1 WAN |
12V 1.5A | 1 USB 2.0 Gbit switch |
wnr3500Lv2 build 28112 20151110 |
Forum thread |
WNR3500U | v1 | PY308400093 | Broadcom BCM4718A @480 |
64 | 8 | SOC | b/g/n 2×2:2 | — | — | — | 4 LAN 1 WAN |
12V 1A | Gbit switch | K26 build 12966 20090923 |
— |
XR450 (AC2600) |
v1 | PY315100319 | Qualcomm IPQ8065 @1700 |
512 | 256 | Qualcomm QCA9984 x2 |
an/ac 4×4:4 b/g/n 4×4:4 |
— | 1 | 1 | 4 LAN 1 WAN |
12V 3.5A | 2 USB 3.0 1 eSATA Gbit switch |
xr450 build 38060 20181220 |
R7800 / XR500 rebrand |
XR500 (AC2600) |
v1 | PY315100319 | Qualcomm IPQ8065 @1700 |
512 | 256 | Qualcomm QCA9984 x2 |
an/ac 4×4:4 b/g/n 4×4:4 |
— | 1 | 1 | 4 LAN 1 WAN |
12V 3.5A | 2 USB 3.0 1 eSATA Gbit switch |
xr500 build 38060 20181220 |
R7800 rebrand |
XR700 (AD7200) |
v1 | PY316200339 PY317400405 |
Annapurna Labs Alpine AL-514 @1700 |
1024 | 512 | Qualcomm QCA9984 x2 QCA9500 |
ac 4×4:4 abgn 4×4:4 ad 1×1:1 |
— | yes | no | 6 LAN 1 WAN |
19V 3.16A | 2 USB 3.0 1 SFP+ Gbit switch |
xr700 build 38060 20181220 |
R9000 rebrand |
[edit] Nokia
Model | H.W rev. |
FCC ID | Platform & Frequency [MHz] |
RAM [MB] |
Flash [MB] |
Wireless NIC |
WLAN standard [802.11] |
mini PCI |
Serial port |
JTAG port |
Eth. port count |
Power Input [V/A] |
Special Features Notes |
Min usable DD-WRT version |
Notes for running DD-WRT |
---|---|---|---|---|---|---|---|---|---|---|---|---|---|---|---|
IP110 | — | — | Geode@300 | 64 | 5GB HDD | — | — | — | 2 | ? | 3 LAN or WAN |
5V 5A | IDE port | x86 build | — |
IP120 | — | — | Geode@300 | 128 | 5GB HDD | — | — | — | 2 | ? | 3 LAN or WAN |
5V 5A | IDE port | x86 build | — |
IP130 | — | — | Geode@300 | 256 | 5GB HDD | — | — | — | 2 | ? | 3 LAN or WAN |
5V 5A | IDE port | x86 build | — |
IP330 | — | — | x86@166-550 | 64 | 4-8GB HDD | — | — | — | 1 | ? | 3 LAN or WAN |
110-230V | IDE port SD-RAM slot |
x86 build | — |
[edit] OpenMesh
Model | H.W rev. |
FCC ID | Platform & Frequency [MHz] |
RAM [MB] |
Flash [MB] |
Wireless NIC |
WLAN standard [802.11] |
mini PCI |
Serial port |
JTAG port |
Eth. port count |
PoE | Power Input [V/A] |
Special Features Notes |
Min usable DD-WRT version |
Notes for running DD-WRT |
---|---|---|---|---|---|---|---|---|---|---|---|---|---|---|---|---|
OM1P | — | WT8-OM1P | Atheros AR2315A @180 |
32 | 8 | SOC | b/g | — | 1 | ? | 1 LAN or WAN |
— | 12V 1A | clone of Fonera 2100 |
fonera 2100 build |
watchdog problem! install micro redboot first! |
[edit] OpenRB
Model | H.W rev. |
FCC ID | Platform & Frequency [MHz] |
RAM [MB] |
Flash [MB] |
Wireless NIC |
WLAN standard [802.11] |
mini PCI |
Serial port |
JTAG port |
Eth. port count |
PoE | Power Input [V/A] |
Special Features Notes |
Min usable DD-WRT version |
Notes for running DD-WRT |
---|---|---|---|---|---|---|---|---|---|---|---|---|---|---|---|---|
OpenRB Light |
— | — | IBM PPC405 @266-333 |
32 | 8 | — | depends on card |
1 | 1 | 2 | 2 LAN | passive PoE |
5-40V | Watchdog CF-Slot |
openrb build 12000 20090423 |
— |
OpenRB Medium |
— | — | IBM PPC405 @266-333 |
32-64 | 8 | — | depends on card |
2 | 1 | 2 | 2 LAN | passive PoE |
5-40V | Watchdog CF-Slot |
openrb build 12000 20090423 |
— |
[edit] OSBRiDGE
Model | H.W rev. |
FCC ID | Platform & Frequency [MHz] |
RAM [MB] |
Flash [MB] |
Wireless NIC |
WLAN standard [802.11] |
mini PCI |
Serial port |
JTAG port |
Eth. port count |
PoE | Power Input [V/A] |
Special Features Notes |
Min usable DD-WRT version |
Notes for running DD-WRT |
---|---|---|---|---|---|---|---|---|---|---|---|---|---|---|---|---|
5GXi(-HP) | — | — | Infineon ADM5120 @175 |
16 | 2 | Atheros AR5006XS @24dBm |
a | — | ? | ? | 1 LAN or WAN |
802.3af | 15V 1.5A | Outdoor box Integrated 23dBi ant. |
5XLi build 10579 20081023 |
needs DD-WRT activation |
5Si | — | — | Atheros AR2313 @180 |
16 | 4 | Atheros AR5112 @24dBm |
a/h | — | 1 | ? | 1 LAN | yes | 12V 1A | clone of NanoStation5 Integrated 14dBi dual pol ant. External SMA |
ns5 build 9377 20080403 |
needs DD-WRT activation miroredboot must be installed |
5XLi | — | — | Infineon ADM5120 @175 |
16 | 2 | Atheros AR5006XS @18dBm |
a | — | ? | ? | 1 LAN or WAN |
802.3af | 15V 1.5A | Outdoor box Integrated 15dBi ant. |
5XLi build 10579 20081023 |
needs DD-WRT activation |
[edit] Ovislink
- see Airlive
[edit] PC-Engines
Model | H.W rev. |
FCC ID | Platform & Frequency [MHz] |
RAM [MB] |
Flash [MB] |
Wireless NIC |
WLAN standard [802.11] |
mini PCI |
Serial port |
JTAG port |
Eth. port count |
PoE | Power Input [V/A] |
Special Features Notes |
Min usable DD-WRT version |
Notes for running DD-WRT |
---|---|---|---|---|---|---|---|---|---|---|---|---|---|---|---|---|
Alix | — | — | Geode LX @433-500 |
128-256 | depends on cf card |
depends on card |
depends on card |
1-2 | 1 | ? | 1-3 | yes | 7-18V | h/w-watchdog tempsensor 0-2 USB 2.0 |
x86 version |
write image via physdiskwrite to cf |
Wrap | — | — | Geode SC1100 @233-266 |
64-128 | depends on cf card |
depends on card |
depends on card |
1-2 | 1 | ? | 1-3 | yes | 7-18V | h/w-watchdog tempsensor |
x86 version |
write image via physdiskwrite to cf |
APU | — | — | AMD T40E @1GHz |
2-4GB | depends on cf card or m-SATA |
depends on card |
depends on card |
2 | 1 | ? | 3 Gbit | — | 12V 1A | h/w-watchdog tempsensor |
x86_64 version |
write image via physdiskwrite to SD-card or m-SATA |
[edit] Planex aka PCi
Model | H.W rev. |
FCC ID | Platform & Frequency [MHz] |
RAM [MB] |
Flash [MB] |
Wireless NIC |
WLAN standard [802.11] |
mini PCI |
Serial port |
JTAG port |
Eth. port count |
Power Input [V/A] |
Special Features Notes |
Min usable DD-WRT version |
Notes for running DD-WRT |
---|---|---|---|---|---|---|---|---|---|---|---|---|---|---|---|
GW-MF54G2 | ? | MQ4WAP2102 | Atheros AR2317 @180 |
16 | 4 | SOC | b/g | ? | ? | ? | 1 LAN | 3.3V 1.5A | — | gw-mf54g2 build 12110 20090514 |
[edit] Ravo
Model | H.W rev. |
FCC ID | Platform & Frequency [MHz] |
RAM [MB] |
Flash [MB] |
Wireless NIC |
WLAN standard [802.11] |
mini PCI |
Serial port |
JTAG port |
Eth. port count |
Power Input [V/A] |
Special Features Notes |
Min usable DD-WRT version |
Notes for running DD-WRT |
---|---|---|---|---|---|---|---|---|---|---|---|---|---|---|---|
W54-RT | — | H8N-RT210W | Broadcom BCM4702 @125 |
16 | 4 | Broadcom BCM4306 |
b/g | 1 | 1 | 1 | 4 LAN 1 WAN |
5V 2A | Same h/w as Gigaset SE505v1 |
v23,v24 must use VINT build |
First flash use Tftp_flash |
[edit] Repotec
Model | H.W rev. |
FCC ID | Platform & Frequency [MHz] |
RAM [MB] |
Flash [MB] |
Wireless NIC |
WLAN standard [802.11] |
mini PCI |
Serial port |
JTAG port |
Eth. port count |
Power Input [V/A] |
Special Features Notes |
Min usable DD-WRT version |
Notes for running DD-WRT |
---|---|---|---|---|---|---|---|---|---|---|---|---|---|---|---|
RP-WR5422 | ? | ? | Ralink RT3052F @380 |
32 | 4 | SOC | b/g/n 2×2:2 | — | 1 | — | 4 LAN 1 WAN |
9V 1A | RP-WR5422 build 15577 20101029 |
[edit] Rosewill
Model | H.W rev. |
FCC ID | Platform & Frequency [MHz] |
RAM [MB] |
Flash [MB] |
Wireless NIC |
WLAN standard [802.11] |
mini PCI |
Serial port |
JTAG port |
Eth. port count |
Power Input [V/A] |
Special Features Notes |
Min usable DD-WRT version |
Notes for running DD-WRT |
---|---|---|---|---|---|---|---|---|---|---|---|---|---|---|---|
RNX-EasyN4 | — | U2M-SR97908003 | Ralink RT3052 @384 |
32 | 4 | SOC | b/g/n 2×2:2 | — | 1 | — | 4 LAN 1 WAN |
12V 1A | Same h/w as ESR-9752 |
ESR9752SC build 12527 20090719 |
Serial Flash firmware.bin WAN,LAN LEDs don’t work after flash |
RNX-GX4 | — | W6RRNX-GX4 | Broadcom BCM5354 @240 |
16 | 4 | SOC | b/g | — | 1 | 1 | 4 LAN 1 WAN |
9V 0.7A | — | v24 build 13780 20100129 |
|
RNX-N150RT | TE7WR741NX | Atheros AR7240 @400 |
32 | 4 | Atheros AR9285@17dBm |
b/g/n 1×1:1 | — | 1 | ? | 4 LAN 1 WAN |
9V 0.85A | rnx-n150rt build 19327 20120606 |
|||
RNX-N300RT | TE7WR841NXV7 | Atheros AR7241 @400 |
32 | 4 | Atheros AR9287@20dBm |
b/g/n 2×2:2 | — | 1 | — | 4 LAN 1 WAN |
9V 0.85A | — | rnx-n300rt build 19327 20120606 |
— |
[edit] Ruckus
Model | H.W rev. |
FCC ID | Platform & Frequency [MHz] |
RAM [MB] |
Flash [MB] |
Wireless NIC |
WLAN standard [802.11] |
mini PCI |
Serial port |
JTAG port |
Eth. port count |
Power Input [V/A] |
Special Features Notes |
Min usable DD-WRT version |
Notes for running DD-WRT |
---|---|---|---|---|---|---|---|---|---|---|---|---|---|---|---|
VF2111 | ? | HED-FON2100 | Atheros AR2315 @180 |
16 | 8 | SOC | b/g | — | 1 | ? | 1 WAN | 12V 1A | clone of Fonera 2100 |
FON version | Install Guide |
[edit] Senao / EnGenius
Model | H.W rev. |
FCC ID | Platform & Frequency [MHz] |
RAM [MB] |
Flash [MB] |
Wireless NIC |
WLAN standard [802.11] |
mini PCI |
Serial port |
JTAG port |
Eth. port count |
PoE | Power Input [V/A] |
Special Features Notes |
Min usable DD-WRT version |
Notes for running DD-WRT |
---|---|---|---|---|---|---|---|---|---|---|---|---|---|---|---|---|
EAP-350v2 | — | A8J -EAP350 |
Atheros AR9344 @560 |
32 | 4 | SOC @20dBm |
b/g/n 2×2:2 | — | ? | ? | 1 Gbit LAN |
802.3af | 12V 1A | 2x 5dBi integrated antenna |
will need DD-WRT activation |
|
EAP-600 | — | A8J -EAP600 |
Atheros AR9344 @560 |
64 | 8 | SOC @30dBm & Atheros AR9382 @29dBm |
b/g/n 2×2:2 a/n 2×2:2 |
— | ? | ? | 1 Gbit LAN |
802.3af | 12V 2A | 4x ?dBi integrated antenna |
will need DD-WRT activation |
|
EAP-900 | — | A8J -EAP900 |
Qualcomm QCA9558 @720 |
128 | 16 | SOC @30dBm & Atheros AR9580 @29dBm |
b/g/n 3×3:3 a/n 3×3:3 |
1 | ? | ? | 1 Gbit LAN |
802.3af | 12V 2A | 4x ?dBi integrated antenna |
will need DD-WRT activation |
|
EAP-3660 / M36 |
— | U2M -AP36600801 |
Atheros AR2316 @180 |
16 | 4 | SOC @27dBm |
b/g | — | 1 | ? | 1 LAN | 802.3af | 12V 1A | integrated 4dBi ant. |
eap3660 build 10527 20081016 |
needs DD-WRT activation |
EAP-9550 | — | U2M -AP9550 |
Ralink RT3052 @380 |
32 | 4 | SOC @18dBm |
b/g/n 2×2:2 | — | 1 | ? | 1 LAN | 802.3af | 12V 1A | integrated 4dBi ant. |
EAP9550 build 13055 20091009 |
needs DD-WRT activation |
ECB-3500 | — | — | Atheros AR2315 @180 |
32 | 8 | SOC @27dBm |
b/g | — | ? | ? | 1 LAN | yes | 24V 0.6A | eoc2610 build 11392 20090112 |
needs DD-WRT activation |
|
ECB-9500 | — | U2M -CB97508001 |
Ralink RT2880 @266 |
32 | 8 | Ralink RT2820 |
b/g 2×2:2 | — | 1 | ? | 1 LAN or WAN |
yes | 12V 1A | rp-tnc plug | ECB9750 build 11289 20081225 |
needs DD-WRT activation |
ECB-9750 | — | U2M -CB97508001 |
Ralink RT2880 @266 |
32 | 8 | Ralink RT2820 |
b/g 2×2:2 | — | 1 | ? | 1 LAN or WAN |
yes | 12V 1A | rp-tnc plug | ECB9750 build 11289 20081225 |
needs DD-WRT activation |
EOA-3650 | — | — | Atheros AR2315 @180 |
32 | 8 | SOC @28dBm |
b/g | — | ? | ? | 1 LAN | yes | 24V 0.6A | Integrated 18dBi Ant External N-Bulkhead |
eoc2610 build 10527 20081016 |
needs DD-WRT activation |
EOA-8670 | — | U2M -OA86708001 |
Xscale IXP425 @533 |
64 | 16 | — | 2x a/b/g/h | 2 | 2 | 1 | 2 LAN | 802.3af | 5V 3A | IP65 outdoor box |
nop8670 build |
needs DD-WRT activation |
EOC-1630 | — | — | Atheros AR2315 @180 |
32 | 8 | SOC @23dBm |
b/g | — | ? | ? | 1 LAN | yes | 24V 0.6A | 1 Ext. SMA | eoc1650 build 11646 20090218 |
needs DD-WRT activation |
EOC-1650 | — | U2M OC1650 |
Atheros AR2315 @180 |
32 | 8 | SOC @23dBm |
b/g | — | ? | ? | 1 LAN | yes | 24V 0.6A | Integrated 7dBi Ant 1 Ext. SMA |
eoc1650 build 11646 20090218 |
needs DD-WRT activation |
EOC-2610 / M2000 |
— | U2M -OC26100801 |
Atheros AR2315 @180 |
32 | 8 | SOC @27dBm |
b/g | — | 1 | ? | 1 LAN | yes | 12V 1A | Integrated 10dBi Dual Pol 1 Ext. SMA |
eoc2610 build 10527 20081016 |
needs DD-WRT activation |
EOC-2611 | — | — | Atheros AR2316 @180 |
32 | 8 | SOC @28dBm |
b/g | — | 1 | ? | 1 LAN | yes | 12V 1A | Integrated 10dBi Dual Pol 1 Ext. SMA |
eoc2611 build 14627 20100623 |
needs DD-WRT activation |
EOC-5510 | — | — | Atheros AR2313 @180 |
32 | 8 | Atheros AR5112 @28dBm |
a/h | — | 1 | ? | 1 LAN | yes | 12V 1A | Integrated 5dBi 2.4GHz & 13dBi 5GHz Panel Ant. 2 Ext. SMA |
eoc5610 build 14627 20100623 |
needs DD-WRT activation |
EOC-5610 / M5000 |
— | U2M -OC5610 |
Atheros AR2313 @180 |
32 | 8 | Atheros AR5112 @23dBm |
a/b/g/h | — | 1 | ? | 1 LAN | yes | 12V 1A | Integrated 8dBi 5GHz Panel Ant. 1 Ext. SMA |
eoc5610 build 11772 20090318 |
needs DD-WRT activation |
EOC-5611 | — | — | Atheros AR2313 @180 |
32 | 8 | Atheros AR5112 @27dBm |
a/b/g/h | — | 1 | ? | 1 LAN | yes | 12V 1A | Integrated 5dBi 2.4GHz & 14dBi 5GHz Panel Ant. 2 Ext. SMA |
eoc5611 build 14627 20100623 |
needs DD-WRT activation |
EOM-8670 | — | U2M -OA86708001 |
Xscale IXP425 @533 |
64 | 16 | — | 2x a/b/g/h | 2 | 2 | 1 | 2 LAN | 802.3af | 5V 3A | IP65 outdoor box |
nop8670 build |
needs DD-WRT activation |
EOP-8670 NOP-8670 |
— | U2M -OA86708001 |
Xscale IXP425 @533 |
64-128 | 16 | — | depends on card |
2 | 2 | 1 | 2 LAN | 802.3af | 5V 3A | nop8670 build |
needs DD-WRT activation |
|
EOR-7550 | — | U2M -OR7750801 |
Ralink RT2880 @266 |
32 | 8 | — | a/b/g/h & b/g/n |
2 | 2 | 1 | 1 LAN or WAN |
802.3af | 48V | IP65 outdoor box |
device needed for port |
will need DD-WRT activation |
ESR-6650 | — | U2M -SR97908005 |
Ralink RT3050 @320 |
32 | 4 | SOC | b/g/n 1×1:1 | — | 1 | ? | 2 LAN 1 WAN |
? | 12V 1.25A | 1 USB 2.0 | ESR6650 build 12962 20090923 |
— |
ESR-9752 | — | U2M -SR97908003 |
Ralink RT3052 @384 |
16 | 4 | SOC | b/g/n 2×2:2 | — | 1 | ? | 4 LAN 1 WAN |
? | 12V 1A | — | ESR9752SC build 12527 20090719 |
Serial Flash firmware.bin WAN,LAN LEDs Do not work after flash |
ESR-9752B | — | U2M -SR97908003 |
Ralink RT3052 @384 |
32 | 4 | SOC | b/g/n 2×2:2 | — | 1 | ? | 4 LAN 1 WAN |
? | 12V 1A | — | ESR9752SC build 12527 20090719 |
Serial Flash firmware.bin WAN,LAN LEDs Do not work after flash |
ESR-9753 | — | U2M SR97908005 |
Ralink RT3050F @320 |
16 | 4 | SOC | b/g/n 1×1:1 | — | 1 | ? | 4 LAN 1 WAN |
? | 12V 1A | — | ESR9752SC build 12527 20090719 |
Serial Flash firmware.bin WAN,LAN LEDs Do not work after flash |
[edit] Siemens
Model | H.W rev. |
FCC ID | Platform & Frequency [MHz] |
RAM [MB] |
Flash [MB] |
Wireless NIC |
WLAN standard [802.11] |
mini PCI |
Serial port |
JTAG port |
Eth. port count |
Power Input [V/A] |
Special Features Notes |
Min usable DD-WRT version |
Notes for running DD-WRT |
---|---|---|---|---|---|---|---|---|---|---|---|---|---|---|---|
Gigaset SE505 |
v1 | H8N-RT210W | Broadcom BCM4702 @125 |
16 | 4 | Broadcom BCM4306 |
b/g | 1 | 1 | 1 | 4 LAN 1 WAN |
5V 2A | JTAG mod | v23, v24 must use VINT build |
First flash use Tftp_flash |
Gigaset SE505 |
v2 | H8NRT480W | Broadcom BCM4712 @200 |
8 | 4 | SOC | b/g | — | 1 | 1 | 4 LAN 1 WAN |
12V 1A | USB 1.1 mod | v24 micro |
First flash use Tftp_flash |
Gigaset SE505 |
v3 | ? | Broadcom BCM4712 @200 |
8 | 4 | SOC | b/g | — | 1 | 1 | 4 LAN 1 WAN |
12V 1A | serial flash device wan not working |
v23 SP3 micro sf-build 8171 |
First flash use Tftp_flash |
Gigaset SX550 |
? | ? | Broadcom BCM4702 @125 |
16 | 4 | Broadcom BCM4306 |
b/g | 1 | 1 | 1 | 1 LAN 1 WAN |
? | close to SE505 v1 + DECT base for analoge phone |
v23, v24 must use VINT build |
First flash use Tftp_flash |
Gigaset SX550i |
? | ? | Broadcom BCM4702 @125 |
16 | 4 | Broadcom BCM4306 |
b/g | 1 | 1 | 1 | 1 LAN 1 WAN |
? | close to SE505 v1 + DECT base for isdn phone |
v23, v24 must use VINT build |
First flash use Tftp_flash |
Gigaset SX763 |
? | TVU-SX762 -SX765 |
Lantiq Danube @333 |
32 | 8 | Atheros AR2414 |
b/g | 1 | 1 | 1 | 4 LAN | 12V 1.5A | — |
[edit] Sitecom
Model | H.W rev. |
FCC ID | Platform & Frequency [MHz] |
RAM [MB] |
Flash [MB] |
Wireless NIC |
WLAN standard [802.11] |
mini PCI |
Serial port |
JTAG port |
Eth. port count |
Power Input [V/A] |
Special Features Notes |
Min usable DD-WRT version |
Notes for running DD-WRT |
---|---|---|---|---|---|---|---|---|---|---|---|---|---|---|---|
WL105b | — | MXF-A910910AB | Broadcom BCM4702 @125 |
16 | 4 | Broadcom BCM4306 |
b/g | 1 | — | yes | 1 LAN or WAN |
5V 2.5A | — | v24 must use VINT build |
— |
WL111 | — | ? | Broadcom BCM4702 @125 |
16 | 4 | Broadcom BCM4306 |
b/g | 1 | ? | 1 | 4 LAN 1 WAN |
5V 2A | Same h/w as WX-6615 & TEW-411BRP |
v24 must use VINT build |
— |
WL341 | v2 | U2M-SR97908003 | Ralink RT3052 @384 |
16 | 4 | SOC | b/g/n 2×2:2 | — | 1 | ? | 4 LAN 1 WAN |
12V 1A | ESR9752 ODM |
ESR9752SC build 12527 20090719 |
— |
WL342 | v2 | U2M-SR97908003 | Ralink RT3052 @384 |
16 | 4 | SOC | b/g/n 2×2:2 | — | 1 | ? | 4 LAN 1 WAN |
12V 1A | ESR9752 ODM |
ESR9752SC build 12527 20090719 |
— |
[edit] SOEKRIS Engineering
Model | H.W rev. |
FCC ID | Platform & Frequency [MHz] |
RAM [MB] |
Flash [MB] |
Wireless NIC |
WLAN standard [802.11] |
mini PCI |
Serial port |
JTAG port |
Eth. port count |
PoE | Power Input [V/A] |
Special Features Notes |
Min usable DD-WRT version |
Notes for running DD-WRT |
---|---|---|---|---|---|---|---|---|---|---|---|---|---|---|---|---|
net4801-XX | — | — | Geode SC1100 @233-266 |
32-256 | depends on cf or hdd |
— | depends on card |
1 | 2 | ? | 3 | — | 6-20V | h/w-watchdog tempsensor voltsensor USB 1.1 |
x86 version | write image via physdiskwrite to cf |
net4826-XX | — | — | Geode SC1100 @233-266 |
32-256 | depends on cf or hdd |
— | depends on card |
1-2 | 1 | ? | 1 | 802.3af | 11-56V | h/w-watchdog tempsensor voltsensor |
x86 version | write image via physdiskwrite to cf |
net5501-XX | — | — | Geode LX @433-500 |
128-1024 | depends on cf or hdd |
— | depends on card |
1 | 2 | ? | 1-4 | — | 6-25V | h/w-watchdog tempsensor voltsensor USB 2.0 pata & sata |
x86 version | write image via physdiskwrite to cf |
[edit] SparkLAN
Model | H.W rev. |
FCC ID | Platform & Frequency [MHz] |
RAM [MB] |
Flash [MB] |
Wireless NIC |
WLAN standard [802.11] |
mini PCI |
Serial port |
JTAG port |
Eth. port count |
PoE | Power Input [V/A] |
Special Features Notes |
Min usable DD-WRT version |
Notes for running DD-WRT |
---|---|---|---|---|---|---|---|---|---|---|---|---|---|---|---|---|
WAPD-182N | — | — | Atheros AR7161 @680 |
64 | 8 | — | depends on card |
3 | 1 | 1 | 4 LAN 1 WAN |
yes | 8-12V or 9-48V |
h/w-watchdog 2 USB 2.0 |
JA76PF build 14262 20100414 |
clone of JA76PF |
WX6615 | MXF-R920220G | Broadcom BCM4702 @125 |
16 | 4 | Broadcom BCM4306 |
b/g | 1 | ? | 1 | 4 LAN 1 WAN |
— | 5V 2A | Same h/w as WL-111 & TEW-411BRP |
V24 build 7953 20070913 |
— |
[edit] Techniclan
Model | H.W rev. |
FCC ID | Platform & Frequency [MHz] |
RAM [MB] |
Flash [MB] |
Wireless NIC |
WLAN standard [802.11] |
mini PCI |
Serial port |
JTAG port |
Eth. port count |
Power Input [V/A] |
Special Features Notes |
Min usable DD-WRT version |
Notes for running DD-WRT |
---|---|---|---|---|---|---|---|---|---|---|---|---|---|---|---|
WAR-54GAT | v2 | ? | Atheros AR2317@180 |
16 | 4 | SOC | b/g | 1 | ? | ? | 4 LAN 1 WAN |
9V 0.8A | WGT624v4 build 11951 20090416 |
flash via redboot |
[edit] Tonze
Model | H.W rev. |
FCC ID | Platform & Frequency [MHz] |
RAM [MB] |
Flash [MB] |
Wireless NIC |
WLAN standard [802.11] |
mini PCI |
Serial port |
JTAG port |
Eth. port count |
PoE | Power Input [V/A] |
Special Features Notes |
Min usable DD-WRT version |
Notes for running DD-WRT |
---|---|---|---|---|---|---|---|---|---|---|---|---|---|---|---|---|
AP-120 | — | ? | Infineon ADM5120 @175 |
32 | 2(4) | — | depends on card |
1 | ? | ? | 1 LAN | yes | 12-18V | h/w-watchdog? | AP120 build 10153 20080819 |
— |
AP-425 | — | ? | Xscale IXP425 @533 |
64 | 8 | — | depends on card |
2 | 1 | 1 | 2 LAN | yes | 12-48V | h/w-watchdog | ap425- build |
— |
AW-6660 | — | ? | Atheros AR5312 @220 |
16? | 4? | Atheros AR5112 & AR2112 |
a/h + b/g | — | 1 | 1 | 1 LAN | ? | 5V 2A | Same h/w as WRT55AGv2 |
aw6660- build |
needs DD-WRT activation |
[edit] Toshiba
Model | H.W rev. |
FCC ID | Platform & Frequency [MHz] |
RAM [MB] |
Flash [MB] |
Wireless NIC |
WLAN standard [802.11] |
mini PCI |
Serial port |
JTAG port |
Eth. port count |
PoE | Power Input [V/A] |
Special Features Notes |
Min usable DD-WRT version |
Notes for running DD-WRT |
---|---|---|---|---|---|---|---|---|---|---|---|---|---|---|---|---|
Magnia SG-20 | ? | ? | Celeron @566 |
64 | depends on hdd / cf |
— | depends on card |
1+1 PC Card-Slot | ? | ? | 8 LAN 1 WAN |
yes | 230 | Modemport Parallelport |
X86 | — |
[edit] TP-Link
Model | H.W rev. |
FCC ID | Platform & Frequency [MHz] |
RAM [MB] |
Flash [MB] |
Wireless NIC |
WLAN standard [802.11] |
mini PCI |
Serial port |
JTAG port |
Eth. port count |
Power Input [V/A] |
Special Features Notes |
Min usable DD-WRT version |
Notes for running DD-WRT |
---|---|---|---|---|---|---|---|---|---|---|---|---|---|---|---|
Archer A7 (AC1750) |
5.x | TE7 C7V5 |
Qualcomm QCA963 @750 |
128 | 16 | SOC | b/g/n 3×3:3 an/ac 3×3:3 |
1 | 4 LAN 1 WAN |
12V 1.5 A | 1 USB 2.0 Gbit switch |
archer-a7-v5 build 37932 20181208 |
Install Guide |
||
Archer C25 (AC900) |
1.x | Qualcomm QCA9561 @775 |
64 | 8 | SOC & Qualcomm QCA9887 |
b/g/n 3×3:3 an/ac 1×1:1 |
1 | 4 LAN 1 WAN |
9V 0.85 A | archer-c25-v1 build 42287 20200206 |
|||||
Archer C5 (AC1200) |
1.x | TE7 C5 |
Qualcomm QCA9558 @720 |
128 | 16 | SOC & Qualcomm QCA9880v2 |
b/g/n 3×3:3 an/ac 3×3:3 |
— | 1 | 1 | 4 LAN 1 WAN |
12V 2.5A | 2 USB 2.0 Gbit switch |
archer-c5-v1 build 25697 20141222 |
|
Archer C7 (AC1750) |
1.x | TE7 C7 |
Qualcomm QCA9558 @720 |
128 | 8 | SOC & Qualcomm QCA9880-AR1A |
b/g/n 3×3:3 an/ac 3×3:3 |
1 | 1 | 1 | 4 LAN 1 WAN |
12V 2.5A | 2 USB 2.0 Gbit switch |
archer-c7-v1 build 26424 20150302 |
Install Guide |
Archer C7 (AC1750) |
2.x | TE7 C7V2 |
Qualcomm QCA9558 @720 |
128 | 16 | SOC & Qualcomm QCA9880-BR4A |
b/g/n 3×3:3 an/ac 3×3:3 |
1 | 1 | 1 | 4 LAN 1 WAN |
12V 2.5A | 2 USB 2.0 Gbit switch |
archer-c7-v2 build 24118 20140523 |
Install Guide |
Archer C7 (AC1750) |
3.x | TE7 C7V3 |
Qualcomm QCA9558 @720 |
128 | 16 | SOC & Qualcomm QCA9880-BR4A |
b/g/n 3×3:3 an/ac 3×3:3 |
1 | 1 | 1 | 4 LAN 1 WAN |
12V 2.5A | 2 USB 2.0 Gbit switch |
archer-c7-v3 build 31533 20170227 |
Install Guide |
Archer C7 (AC1750) |
4.x | TE7 C7V4 |
Qualcomm QCA9563 @750 |
128 | 16 | SOC & Qualcomm QCA9880-BR4A |
b/g/n 3×3:3 an/ac 3×3:3 |
1 | 1 | 1 | 4 LAN 1 WAN |
12V 2A | 2 USB 2.0 Gbit switch |
archer-c7-v4 build 33492 20171010 |
Install Guide |
Archer C7 (AC1750) |
5.x | TE7 C7V5 |
Qualcomm QCA9563 @750 |
128 | 16 | SOC & Qualcomm QCA9880-BR4A |
b/g/n 3×3:3 an/ac 3×3:3 |
1 | 1 | 1 | 4 LAN 1 WAN |
12V 1.5A | 1 USB 2.0 Gbit switch |
archer-c7-v5 build 37837 20181123 |
Install Guide |
Archer C8 (AC1750) |
1.x | TE7 C8 |
Broadcom BCM4708A0 @800 |
128 | 16 | Broadcom BCM4360 & BCM4331 |
an/ac 3×3:3 b/g/n 3×3:3 |
— | 1 | 1 | 4 LAN 1 WAN |
12V 3.3A | 1 USB 2.0 1 USB 3.0 Gbit switch |
archer-c8v1 build 28112 20151110 |
Install Guide |
Archer C8 (AC1750) |
2.x | TE7 C8V2 |
Broadcom BCM4708A0 @800 |
128 | 16 | Broadcom BCM4360 & BCM4331 |
an/ac 3×3:3 b/g/n 3×3:3 |
— | 1 | 1 | 4 LAN 1 WAN |
12V 3.3A | 1 USB 2.0 1 USB 3.0 Gbit switch |
archer-c8v2 build 45820 20210223 |
Install Guide |
Archer C8 (AC1750) |
3.x | TE7 C8V2 |
Broadcom BCM4708A0 @800 |
128 | 16 | Broadcom BCM4360 & BCM4331 |
an/ac 3×3:3 b/g/n 3×3:3 |
— | 1 | 1 | 4 LAN 1 WAN |
12V 3.3A | 1 USB 2.0 1 USB 3.0 Gbit switch |
archer-c8v3 build 45820 20210223 |
Install Guide |
Archer C9 (AC1900) |
1.x< | TE7 C9 |
Broadcom BCM4709 @1000 |
128 | 16 | Broadcom BCM4360 x2 |
an/ac 3×3:3 b/g/n 3×3:3 |
— | 1 | 1 | 4 LAN 1 WAN |
12V 3.3A | 1 USB 2.0 1 USB 3.0 Gbit switch |
archer-c9v# build 26081 20150129 |
Install Guide |
Archer C9 (AC1900) |
2.x | TE7 C9V2 |
Broadcom BCM4709 @1000 |
128 | 16 | Broadcom BCM4360 x2 |
an/ac 3×3:3 b/g/n 3×3:3 |
— | 1 | 1 | 4 LAN 1 WAN |
12V 3.3A | 1 USB 2.0 1 USB 3.0 Gbit switch |
archer-c9v# build 28112 20151110 |
Install Guide |
Archer C9 (AC1900) |
3.x 4.x (EU) |
TE7 C9V2 |
Broadcom BCM4709A0 @1000 |
128 | 16 | Broadcom BCM4360 x2 |
an/ac 3×3:3 b/g/n 3×3:3 |
— | 1 | 1 | 4 LAN 1 WAN |
12V 3.3A | 1 USB 2.0 1 USB 3.0 Gbit switch |
archer-c9v# build 33525 20171017 |
Install Guide |
Archer C9 (AC1900) |
4.x (US) |
TE7 C9V4 |
Broadcom BCM4709A0 @1000 |
? | ? | Broadcom BCM4360 x2 |
an/ac 3×3:3 b/g/n 3×3:3 |
— | 1 | 1 | 4 LAN 1 WAN |
12V 3.3A | 1 USB 2.0 1 USB 3.0 Gbit switch |
WIP | |
Archer C1900 | 1.x | TE7 C9 |
Broadcom BCM4709 @1000 |
128 | 16 | Broadcom BCM4360 x2 |
an/ac 3×3:3 b/g/n 3×3:3 |
— | 1 | 1 | 4 LAN 1 WAN |
12V 3.3A | 1 USB 2.0 1 USB 3.0 Gbit switch |
archer-c1900 build 28397 20151201 |
Install Guide |
Archer C2600 | 1.x | TE7 C2600 |
Qualcomm IPQ8064 @1400 |
256 | 128 | Qualcomm QCA9980 x2 |
b/g/n 4×4:4 an/ac 4×4:4 |
— | 1 | 1 | 4 LAN 1 WAN |
12V 4A | 2 USB 3.0 Gbit switch |
TBD | donated router needed |
Archer C3150 | 1.x | TE7 C3150 |
Broadcom BCM4709C0 @1400 |
256 | 128 | Broadcom BCM4366 x2 |
an/ac 4×4:4 b/g/n 4×4:4 |
— | 1 | 1 | 4 LAN 1 WAN |
12V 5A | 1 USB 2.0 1 USB 3.0 Gbit switch |
WIP | |
Archer C3200 | 1.x | TE7 C3200 |
Broadcom BCM4709A0 @1000 |
256 | 128 | Broadcom BCM43602 x3 |
an/ac 3×3:3 b/g/n 3×3:3 |
— | 1 | 1 | 4 LAN 1 WAN |
12V 5A | 1 USB 2.0 1 USB 3.0 Gbit switch 2x 5GHz radio |
WIP | |
MR3020 | 1.x | TE7 MR3020 |
Atheros AR9331 @400 |
32 | 4 | SOC | b/g/n 1×1:1 | — | 1 | — | 1 LAN or WAN |
5V via mini-USB |
1 USB 2.0 mode switch |
tl-mr3020 build 19342 20120608 |
|
MR3220 | 1.x | TE7 MR3220 |
Atheros AR7241 @400 |
32 | 4 | Atheros AR9285 @20dBm |
b/g/n 1×1:1 | — | 1 | — | 4 LAN 1 WAN |
12V 1A | 1 USB 2.0 for 3G |
tl-mr3220v1 build 20451 20121230 |
|
MR3220 | 2.x | TE7 MR3220V2 |
Atheros AR9331 @400 |
32 | 4 | SOC | b/g/n 1×1:1 | — | 1 | — | 4 LAN 1 WAN |
9V 0.85A | 1 USB 2.0 for 3G |
tl-mr3220v2 build 30016 20160624 |
|
MR3420 | 1.x | TE7 MR3420 |
Atheros AR7241 @400 |
32 | 4 | Atheros AR9287 @23dBm |
b/g/n 2×2:2 | — | 1 | — | 4 LAN 1 WAN |
12V 1A | 1 USB 2.0 for 3G |
tl-mr3420v1 build 19327 20120606 |
|
MR3420 | 2.x | TE7 MR3420V2 |
Atheros AR9341 @535 |
32 | 4 | SOC | b/g/n 2×2:2 | — | 1 | — | 4 LAN 1 WAN |
12V 1A | 1 USB 2.0 for 3G |
TBD | donated router needed |
MR3420 | 3.x | TE7 MR3420V3 |
Qualcomm QCA9531 @650 |
32 | 4 | SOC | b/g/n 2×2:2 | — | 1 | — | 4 LAN 1 WAN |
12V 1A | 1 USB 2.0 for 3G |
TBD | donated router needed |
WA701ND | 1.x | TE7 WA701ND |
Atheros AR7240 @400 |
32 | 4 | Atheros AR9285 @20dBm |
b/g/n 1×1:1 | — | 1 | — | 1 LAN or WAN |
9V 0.85A | Forum thread Test build |
||
WA701ND | 2.x | TE7 WA701NDV2 |
Atheros AR9331 @400 |
32 | 4 | SOC | b/g/n 1×1:1 | — | 1 | — | 1 LAN or WAN |
9V 0.6A | TBD | donated router needed |
|
WA730RE | 1.x | TE7 WA730RE |
Atheros AR7240 @400 |
32 | 4 | Atheros AR9285 @20dBm |
b/g/n 1×1:1 | — | 1 | — | 1 LAN or WAN |
9V 0.85A | Forum thread Test build |
||
WA730RE | 2.x | TE7 WA730REV2 |
Atheros AR9331 @400 |
32 | 4 | SOC | b/g/n 1×1:1 | — | 1 | — | 1 LAN or WAN |
9V 0.6A | TBD | donated router needed |
|
WA801ND | 1.x | TE7 WA801ND |
Atheros AR7240 @400 |
32 | 4 | Atheros AR9283 |
b/g/n 2×2:2 | — | 1 | — | 1 LAN or WAN |
12V 1A | tl-wa801ndv1 build 19327 20120606 |
||
WA801ND | 2.x | TE7 WA801NDV2 |
Atheros AR9341 @535 |
32 | 4 | SOC | b/g/n 2×2:2 | — | 1 | — | 1 LAN or WAN |
9V 0.6A | TBD | donated router needed |
|
WA830RE | 1.x | TE7 WA830RE |
Atheros AR7240 @400 |
32 | 4 | Atheros AR9283 @20dBm |
b/g/n 2×2:2 | — | 1 | — | 1 LAN or WAN |
9V 0.85A | Forum thread Test build |
||
WA830RE | 2.x | TE7 WA830REV2 |
Atheros AR9341 @535 |
32 | 4 | SOC | b/g/n 2×2:2 | — | 1 | — | 1 LAN or WAN |
9V 0.6A | Forum thread Test build |
||
WA850RE | 1.x | TE7 WA850RE |
Atheros AR9341 @535 |
32 | 4 | SOC @20dBm |
b/g/n 2×2:2 | — | 1 | — | 1 LAN or WAN |
100-240 VAC 50/60 Hz 0.3 A |
tl-wa850rev1 build 50927 20221121 |
||
WA860RE | 1.x | TE7 WA860RE |
Atheros AR9341 @535 |
32 | 4 | SOC @20dBm |
b/g/n 2×2:2 | — | 1 | — | 1 LAN or WAN |
100-240 VAC 50/60 Hz 0.3 A |
tl-wa860rev1 build 50927 20221121 |
||
WA901ND | 1.x | — | Atheros AR7240 @400 |
32 | 4 | Atheros AR9285 @20dBm |
b/g/n 1×1:1 | — | 1 | — | 1 LAN or WAN |
9V 0.85A | tl-wa901ndv1 build 15655 20101103 |
||
WA901ND | 2.x | TE7 WA901ND |
Atheros AR9132 @400 |
32 | 4 | Atheros AR9103 @20dBm |
b/g/n 2×3:3 | — | 1 | — | 1 LAN or WAN |
12V 1A | tl-wa901ndv2 build 20548 20130124 |
Forum Thread |
|
WA901ND | 3.x | TE7 WA901NDV3 |
Atheros AR9341 @535 |
32 | 4 | SOC | b/g/n 2×2:2 | — | 1 | — | 1 LAN or WAN |
9V 0.85A | tl-wa901ndv3 build 28069 20151101 |
||
WA901ND | 4.x | TE7 WA901NDV4 |
Atheros TP9343 @750 |
32 | 4 | SOC | b/g/n 3×3:3 | — | 1 | — | 1 LAN or WAN |
12V 1A | tl-wa901ndv4 build 42054 20200121 |
||
WA901ND | 5.x | TE7 WA901NDV5 |
Atheros TP9343 @750 |
32 | 4 | SOC | b/g/n 3×3:3 | — | 1 | — | 1 LAN or WAN |
9V 0.85A | tl-wa901ndv5 build 42054 20200121 |
||
WA7210N | 2.x | TE7 WA7210N |
Atheros AR9331 @400 |
32 | 4 | SOC | b/g/n 1×1:1 | — | 1 | — | 1 LAN or WAN |
12V 1A | 2x 12dBi ant + ext. rp-sma |
Forum thread | donated router needed |
WA7510N | 1.x | TE7 WA7510N |
Atheros AR7240 @400 |
32 | 4 | Atheros AR9280 @15dBm |
a/n 1×1:1 | — | 1 | — | 1 LAN or WAN |
12V 1A | 2x 12dBi ant + ext. rp-sma |
tl-wa7510n build 20371 20121211 |
|
WDR3500 | 1.x | TE7 WDR3500 |
Atheros AR9344 @560 |
128 | 8 | SOC & Atheros AR9582 |
b/g/n 2×2:2 a/n 2×2:2 |
— | 1 | 1 | 4 LAN 1 WAN |
12V 1A | 1 USB 2.0 | tl-wdr3500v1 build 23503 20140204 |
|
WDR3600 | 1.x | TE7 WDR3600 |
Atheros AR9344 @560 |
128 | 8 | SOC & Atheros AR9582 |
b/g/n 2×2:2 a/n 2×2:2 |
— | 1 | 1 | 4 LAN 1 WAN |
12V 1.5A | 2 USB 2.0 Gbit switch |
tl-wdr3600v1 build 20119 20121012 |
|
WDR4300 | 1.x | TE7 WDR4300 |
Atheros AR9344 @560 |
128 | 8 | SOC & Atheros AR9580 |
b/g/n 2×2:2 a/n 3×3:3 |
— | 1 | 1 | 4 LAN 1 WAN |
12V 1.5A | 2 USB 2.0 Gbit switch |
tl-wdr4300v1 build 19644 20120808 |
|
WDR4310 | 1.x | N/A (China model) |
Atheros AR9344 @560 |
128 | 8 | SOC & Atheros AR9580 |
b/g/n 2×2:2 a/n 3×3:3 |
— | 1 | 1 | 4 LAN 1 WAN |
12V 1.5A | 2 USB 2.0 Gbit switch |
tl-wdr4310v1 build 19670 20120813 |
|
WDR4320 | 1.x | N/A (China model) |
Atheros AR9344 @560 |
128 | 8 | SOC & Atheros AR9580 |
b/g/n 2×2:2 a/n 3×3:3 |
— | 1 | 1 | 4 LAN 1 WAN |
12V 1.5A | 2 USB 2.0 Gbit switch |
tl-wdr4310v1 build 19670 20120813 |
WDR4310 +2 more antennas |
WDR4900 | 1.x | TE7 WDR4900 |
Freescale P1014 @800 |
128 | 16 | Atheros AR9580 & AR9381 |
b/g/n 3×3:3 a/n 3×3:3 |
— | 1 | 1 | 4 LAN 1 WAN |
12V 2.5A | 2 USB 2.0 Gbit switch |
tl-wdr4900v1 build 21318 20130418 |
|
WDR4900 | 2.x | N/A (China model) |
Qualcomm QCA9558 @720 |
128 | 8 | SOC & Atheros AR9580 |
b/g/n 3×3:3 a/n 3×3:3 |
— | 1 | 1 | 4 LAN 1 WAN |
12V 2.5A | 2 USB 2.0 Gbit switch |
tl-wdr4900v2 build 24118 20140523 |
|
WR703N | 1.x | N/A (China model) |
Atheros AR9331 @400 |
32 | 4 | SOC | b/g/n 1×1:1 | — | 1 | — | 1 LAN or WAN |
5V 1A | 1 USB 2.0 | tl-wr703nv1 build 18740 20120315 |
|
WR710N(EU) | 1.x | TE7 WR710N |
Atheros AR9331 @400 |
32 | 8 | SOC | b/g/n 1×1:1 | — | 1 | — | 1 LAN 1 WAN |
100V- 230V |
1 USB 2.0 | tl-wr710nv1 build 26839 20150506 |
|
WR710N(US) | 1.x | TE7 WR710N |
Atheros AR9331 @400 |
32 | 8 | SOC | b/g/n 1×1:1 | — | 1 | — | 1 LAN 1 WAN |
100V- 230V |
1 USB 2.0 | tl-wr710nv1 build 29147 20160223 |
|
WR710N(EU) | 2.0 | TE7 WR710N |
Atheros AR9331 @400 |
32 | 4 | SOC | b/g/n 1×1:1 | — | 1 | — | 1 LAN 1 WAN |
100V- 230V |
1 USB 2.0 | tl-wr710nv2 build 26839 20150506 |
|
WR710N(EU) | 2.1 | TE7 WR710N |
Atheros AR9331 @400 |
32 | 8 | SOC | b/g/n 1×1:1 | — | 1 | — | 1 LAN 1 WAN |
100V- 230V |
1 USB 2.0 | tl-wr710nv2.1 build 29147 20160223 |
|
WR740N | 1.x | TE7 WR740N |
Atheros AR7240 @400 |
32 | 4 | Atheros AR9285 @20dBm |
b/g/n 1×1:1 | — | 1 | — | 4 LAN 1 WAN |
9V 0.85A | tl-wr740nv1 build 15663 20101103 |
||
WR740N | 2.x | TE7 WR740N |
Atheros AR7240 @400 |
32 | 4 | Atheros AR9285 @20dBm |
b/g/n 1×1:1 | — | 1 | — | 4 LAN 1 WAN |
9V 0.85A | tl-wr740nv2 build 15663 20101103 |
||
WR740N | 3.x | TE7 WR740N |
Atheros AR7240 @400 |
32 | 4 | Atheros AR9285 @20dBm |
b/g/n 1×1:1 | — | 1 | — | 4 LAN 1 WAN |
9V 0.85A | tl-wr740nv3 build 17990 20111209 |
||
WR740N | 4.x | TE7 WR741NDV4 |
Atheros AR9331 @400 |
32 | 4 | SOC | b/g/n 1×2:1 | — | 1 | — | 4 LAN 1 WAN |
9V 0.6A | tl-wr740nv4 build 18740 20120315 |
||
WR740N | 5.x | TE7 WR741NXv5 |
Atheros AR9331 @400 |
32 | 4 | SOC | b/g/n 1×2:1 | — | 1 | — | 4 LAN 1 WAN |
5V 1A | tl-wr740nv5 build 26464 20150314 |
||
WR741ND | 1.x 2.x |
TE7 WR741NX |
Atheros AR7240 @400 |
32 | 4 | Atheros AR9285 @17dBm |
b/g/n 1×1:1 | — | 1 | — | 4 LAN 1 WAN |
9V 0.85A | tl-wr741ndv1 build 14911 20100810 |
||
WR741ND | 4.x | TE7 WR741NDV4 |
Atheros AR9331 @400 |
32 | 4 | SOC | b/g/n 1×2:1 | — | 1 | — | 4 LAN 1 WAN |
9V 0.6A | tl-wr741ndv4 build 18740 20120315 |
||
WR741ND | 5.x | TE7 WR741NXv5 |
Atheros AR9331 @400 |
32 | 4 | SOC | b/g/n 1×2:1 | — | 1 | — | 4 LAN 1 WAN |
5V 1A | Same h/w as tl-wr740nv5 |
tl-wr740nv5 build 26464 20150314 |
|
WR743ND | 1.x | TE7 WR743ND |
Atheros AR7240 @400 |
32 | 4 | Atheros AR9285 @17dBm |
b/g/n 1×1:1 | — | 1 | — | 4 LAN 1 WAN |
9V 0.85A | passive poe |
tl-wr743ndv1 build 17990 20111209 |
|
WR743ND | 2.x | TE7 WR743NDV2 |
Atheros AR9331 @400 |
32 | 4 | SOC | b/g/n 1×1:1 | — | 1 | — | 4 LAN 1 WAN |
9V 0.6A | tl-wr743ndv2 build 27944 20151009 |
||
WR800N | 1.x | Chinese model ONLY |
Atheros AR9341 @535 |
32 | 4 | SOC @20dBm |
b/g/n 2×2:2 | — | 1 | — | 1 LAN or WAN |
100V- 230V |
— | TBD | donated router needed |
WR810N(EU) | 1.1 | TE7 WR810N |
Qualcomm QCA9531 @650 |
64 | 8 | SOC | b/g/n 2×2:2 | — | 1 | — | 1 LAN 1 WAN |
100V- 230V |
1 USB 2.0 | TBD | donated router needed |
WR840N | 1.x | Chinese model ONLY |
Atheros AR7241 @400 |
32 | 4 | Atheros AR9287 @20dBm |
b/g/n 2×2:2 | — | 1 | — | 4 LAN 1 WAN |
9V 0.85A | — | tl-wr840nv1 build 17990 20111209 |
— |
WR841ND | 3.x | TE7 WR841ND |
Atheros AR9132 @400 |
32 | 4 | Atheros AR9103 @20dBm |
b/g/n 2×3:3 | — | 1 | — | 4 LAN 1 WAN |
12V 1A | — | tl-wr841ndv3 build 14589 20100611 |
Install Guide |
WR841ND | 5.x | TE7 WR841NXV5 |
Atheros AR7240 @400 |
32 | 4 | Atheros AR9283 @20dBm |
b/g/n 2×2:2 | — | 1 | — | 4 LAN 1 WAN |
9V 0.85A | — | tl-wr841ndv5 build 14911 20100810 |
Install Guide |
WR841ND | 7.x | TE7 WR841NXV7 |
Atheros AR7241 @400 |
32 | 4 | Atheros AR9287 @20dBm |
b/g/n 2×2:2 | — | 1 | — | 4 LAN 1 WAN |
9V 0.6A | — | tl-wr841ndv7 build 15778 20101121 |
Install Guide |
WR841ND | 8.x | TE7 WR841NXV8 |
Atheros AR9341 @535 |
32 | 4 | SOC @20dBm |
b/g/n 2×2:2 | — | 1 | — | 4 LAN 1 WAN |
9V 0.6A | — | tl-wr841ndv8 build 21262 20130413 |
Install Guide |
WR841ND | 9.x | TE7 WR841NXV9 |
Qualcomm QCA9533 @550 |
32 | 4 | SOC @20dBm |
b/g/n 2×2:2 | — | 1 | — | 4 LAN 1 WAN |
9V 0.6A | — | tl-wr841ndv9 build 24118 20140523 |
Install Guide |
WR841ND | 10.x | TE7 WR841NXV10 |
Qualcomm QCA9533 @550 |
32 | 4 | SOC @20dBm |
b/g/n 2×2:2 | — | 1 | — | 4 LAN 1 WAN |
9V 0.6A | — | tl-wr841ndv10 build 28366 20151127 |
Install Guide |
WR841ND | 11.x | TE7 WR841NXV11 |
Qualcomm QCA9533 @550 |
32 | 4 | SOC @20dBm |
b/g/n 2×2:2 | — | 1 | — | 4 LAN 1 WAN |
9V 0.6A | — | tl-wr841ndv11 build 29147 20160223 |
Install Guide |
WR841ND | 12.x | International or US only |
Qualcomm QCA9533 @550 |
32 | 4 | SOC @20dBm |
b/g/n 2×2:2 | — | 1 | — | 4 LAN 1 WAN |
9V 0.6A | — | tl-wr841ndv12 build 31825 20170406 |
Install Guide |
WR842ND | 1.x | TE7 WR842ND |
Atheros AR7241 @400 |
32 | 8 | Atheros AR9287 @20dBm |
b/g/n 2×2:2 | — | 1 | — | 4 LAN 1 WAN |
12V 1A | 1 USB 2.0 | tl-wr842ndv1 build 19327 20120606 |
|
WR842ND | 2.x | TE7 WR842NDV2 |
Atheros AR9341 @535 |
32 | 8 | SOC @20dBm |
b/g/n 2×2:2 | — | 1 | — | 4 LAN 1 WAN |
12V 1A | 1 USB 2.0 | tl-wr842ndv2 build 23204 20131224 |
|
WR842N(EU) | v3.x | TE7 WR842NV3 |
Qualcomm QCA9531 @650 |
64 | 16 | SOC @20dBm |
b/g/n 2×2:2 | — | 1 | — | 4 LAN 1 WAN |
12V 1A | 1 USB 2.0 | TBD | donated router needed |
WR940N | 1.x | TE7 WR940N |
Atheros AR9132 @400 |
32 | 4 | Atheros AR9103 @20dBm |
b/g/n 2×3:3 | — | 1 | — | 4 LAN 1 WAN |
9V 0.85A | WR941NDv4 without detachable antennas |
tl-wr940nv1 build 14918 20100810 |
|
WR940N | v2 | TE7 WR941NXV5 |
Atheros AR9341 @535 |
32 | 4 | SOC @20dBm |
b/g/n 2×2:2 | — | 1 | — | 4 LAN 1 WAN |
9V 0.6A | WR941NDv5 without detachable antennas |
TBD | donated router needed |
WR940N | v3 | TE7 WR941NXV6 |
Atheros TP9343 @750 |
32 | 4 | Atheros TP9343 @20dBm |
b/g/n 3×3:3 | — | 1 | — | 4 LAN 1 WAN |
12V 1A | WR941NDv6 without detachable antennas |
tl-wr940ndv3 build 29621 20160510 |
|
WR941ND | 1.x 2.x 3.x |
TE7 WR941NX |
Atheros AR9132 @400 |
32 | 4 | Atheros AR9103 @20dBm |
b/g/n 2×3:3 | — | 1 | — | 4 LAN 1 WAN |
9V 0.85A | tl-wr941ndv2 build 14581 20100609 |
||
WR941ND | 4.x «old» 5.x |
TE7 WR941NXV4 |
Atheros AR7241 @400 |
32 | 4 | Atheros AR9103 @20dBm |
b/g/n 2×3:3 | — | 1 | — | 4 LAN 1 WAN |
9V 0.85A | tl-wr941ndv4 build 14918 20100810 |
||
WR941ND | «new» 5.x | TE7 WR941NXV5 |
Atheros AR9341 @535 |
32 | 4 | SOC @20dBm |
b/g/n 2×2:2 | — | 1 | — | 4 LAN 1 WAN |
9V 0.6A | Forum thread Test build |
donated router needed |
|
WR941ND | 6.x | TE7 WR941NXV6 |
Atheros TP9343 @750 |
32 | 4 | Atheros TP9343 @20dBm |
b/g/n 3×3:3 | — | 1 | — | 4 LAN 1 WAN |
12V 1A | tl-wr941ndv6 build 29621 20160510 |
||
WR941ND | 6.x | (China Only) | Atheros AR9344 @560 |
32 | 4 | Atheros AR9381 |
b/g/n 3×3:3 | — | 1 | — | 4 LAN 1 WAN |
12V 1A | tl-wr941ndv6-cn build 51855 20250223 |
Forum Thread |
|
WR1043ND | 1.x | TE7 WR1043NX |
Atheros AR9132 @400 |
32 | 8 | Atheros AR9103 |
b/g/n 2×3:3 | — | 1 | 1 | 4 LAN 1 WAN |
12V 1.5A | 1 USB 2.0 Gbit switch |
tl-wr1043nd build 13972 20100223 |
|
WR1043ND | 2.x | TE7 WR1043NDV2 |
Qualcomm QCA9558 @720 |
64 | 8 | SOC | b/g/n 3×3:3 | — | 1 | 1 | 4 LAN 1 WAN |
12V 1.5A | 1 USB 2.0 Gbit switch |
tl-wr1043ndv2 build 24118 20140523 |
|
WR1043ND | 3.x | TE7 WR1043NDV3 |
Qualcomm QCA9558 @720 |
64 | 8 | SOC | b/g/n 3×3:3 | — | 1 | 1 | 4 LAN 1 WAN |
12V 1.5A | 1 USB 2.0 Gbit switch |
tl-wr1043ndv3 build 29193 20160302 |
|
WR1043ND | 4.x | TE7 WR1043NDV4 |
Qualcomm QCA9563 @750 |
64 | 16 | SOC | b/g/n 3×3:3 | — | 1 | 1 | 4 LAN 1 WAN |
12V 1.5A | 1 USB 2.0 Gbit switch |
tl-wr1043ndv4 build 35831 20180426 |
|
WR1043N | 5.x | TE7 WR1043NV5 |
Qualcomm QCA9563 @750 |
64 | 16 | SOC | b/g/n 3×3:3 | — | 1 | 1 | 4 LAN 1 WAN |
9V 0.85A | Gbit switch | tl-wr1043nv5 build 50313 20221003 |
Forum Thread Ticket 6300 |
WR2543ND | 1.x | TE7 WR2543N |
Atheros AR7242 @400 |
64 | 8 | Atheros AR9380 |
a/b/g/n 3×3:3 | — | 1 | 1 | 4 LAN 1 WAN |
12V 1.5A | 1 USB 2.0 Gbit switch |
tl-wr2543 build 20537 20130119 |
[edit] Tranzeo
Model | H.W rev. |
FCC ID | Platform & Frequency [MHz] |
RAM [MB] |
Flash [MB] |
Wireless NIC |
WLAN standard [802.11] |
mini PCI |
Serial port |
JTAG port |
Eth. port count |
PoE | Power Input [V/A] |
Special Features Notes |
Min usable DD-WRT version |
Notes for running DD-WRT |
---|---|---|---|---|---|---|---|---|---|---|---|---|---|---|---|---|
ER1000 (HG) | ? | ? | Xscale IXP425@533 |
64 | 16 | — | b/g@26dBm | 2 | 1 | Yes | 1 LAN or WAN |
yes | 9-48V | Outdoor box clone of GW2348-4 |
v24 avila build |
needs DD-WRT activation gateworks redboot must be flashed via jtag first |
[edit] TRENDnet
Model | H.W rev. |
FCC ID | Platform & Frequency [MHz] |
RAM [MB] |
Flash [MB] |
Wireless NIC |
WLAN standard [802.11] |
mini PCI |
Serial port |
JTAG port |
Eth. port count |
Power Input [V/A] |
Special Features Notes |
Min usable DD-WRT version |
Notes for running DD-WRT |
---|---|---|---|---|---|---|---|---|---|---|---|---|---|---|---|
TEW-410APB+ | — | MXF -A930209G |
Broadcom BCM4712 @125 |
8 | 2 | SOC | b/g | — | Yes | Yes | 1 LAN | 12V 0.5A | Same h/w as WAP54GV2 & WX-6800-II & BeWAN BWIFI-AP54T |
Micro only |
|
TEW-411BRP | — | MXF -R920220G |
Broadcom BCM4702 @125 |
16 | 4 | Broadcom BCM4306 |
b/g | 1 | ? | 1 | 4 LAN 1 WAN |
5V 2A | Same h/w as WL-111 & WX-6615 |
V24 build 7953 20070913 |
— |
TEW-511BRP | — | RYK -7615A |
Atheros AR5312 @220 |
16 | 4 | Atheros AR2112 & AR5112 |
a/b/g/h | — | 1 | 1 | 4 LAN 1 WAN |
5V 2A | clone of WX7615A |
needs DD-WRT activation |
|
TEW-632BRP | A1.xR | S9Z TEW632BRP |
Atheros AR9130 @400 |
32 | 4 | Atheros AR9102 |
b/g/n 2×2:2 | — | Yes | Yes | 4 LAN 1 WAN |
5V 2.5A | Same h/w as DIR-615c1 |
tew632brp build 13828 20100203 |
— |
TEW-652BRP | V1.xR | S9Z TEW652BRP |
Atheros AR9130 @400 |
32 | 4 | Atheros AR9102 |
b/g/n 2×2:2 | — | Yes | Yes | 4 LAN 1 WAN |
5V 2.5A | tew652brp build 13828 20100203 |
May need f/w recovery mode to flash DD-WRT |
|
TEW-653AP | ? | S9Z TEW653AP |
Ralink RT3052 @380 |
32 | 4 | SOC @18dBm |
b/g/n 2×2:2 | — | ? | 802.3af | 1 LAN or WAN |
12V 1A | 2x 4dBi Antenna Same h/w as EAP9550 |
EAP9550 build 13055 20091009 |
needs DD-WRT activation |
TEW-673GRU | V1.0R | XU8 TEW673GRU |
Atheros AR7161 @680 |
64 | 8 | Atheros AR9220 & AR9223 |
a/n 2×2:2 b/g/n 2×2:2 |
— | 1 | 1 | 4 LAN 1 WAN |
12V 2A | 2 USB 2.0 Gbit switch |
v24 build 16454 20110317 |
Install Guide |
TEW-811DRU (AC1200) |
v1 | XU8 TEW1200AC |
Broadcom BCM47081A0 @800 |
64 | 8 | Broadcom BCM4352 & BCM43217 |
an/ac 2×2:2 b/g/n 2×2:2 |
— | 1 | 1 ? | 4 LAN 1 WAN |
12V 2A | 1 USB 2.0 Gbit switch |
811DRU build 23189 20131221 |
|
TEW-812DRU (AC1750) |
v1 | XU8 TEW1750AC |
Broadcom BCM4706 @600 |
64 | 8 | Broadcom BCM4360 & BCM4331 |
an/ac 3×3:3 b/g/n 3×3:3 |
1 | 1 | 1 ? | 4 LAN 1 WAN |
12V 2A | 1 USB 2.0 Gbit switch |
donated router needed |
|
TEW-812DRU (AC1750) |
v2 | XU8 TEW1750ACv2 |
Broadcom BCM4708A0 @800 |
64 | 8 | Broadcom BCM4360 & BCM4331 |
an/ac 3×3:3 b/g/n 3×3:3 |
1 | 1 | 1 | 4 LAN 1 WAN |
12V 2A | 1 USB 3.0 Gbit switch |
812DRUv2 build 23189 20131221 |
|
TEW-818DRU (AC1900) |
v1 | XU8 TEW818DRU |
Broadcom BCM4708A0 @800 |
128 | 16 | Broadcom BCM4360 & BCM4360 |
an/ac 3×3:3 b/g/n 3×3:3 |
— | 1 | 1 | 4 LAN 1 WAN |
12V 2.5A | 1 USB 2.0 1 USB 3.0 Gbit switch |
818DRU build 23720 20140313 |
|
TEW-824DRU (AC1750) |
v1 | XU8 TEW823824 |
Qualcomm QCA9558 @720 |
256 | 16 | SOC & Qualcomm QCA9880 |
an/ac 3×3:3 b/g/n 3×3:3 |
1 | 1 | 1 | 4 LAN 1 WAN |
12V 2A | 1 USB 2.0 Gbit switch |
824DRU build 27700 20150820 |
|
TEW-827DRU (AC2600) |
— | XU8 TEW827DRU |
Qualcomm IPQ8064 @1400 |
512 | 128 | Qualcomm QCA9980 x2 |
an/ac 4×4:4 b/g/n 4×4:4 |
— | 1 | 1 | 4 LAN 1 WAN |
12V 3A | 2 USB 3.0 Gbit switch |
WIP | |
TEW-828DRU (AC3200) |
v1 | XU8 TEW828DRU |
Broadcom BCM4709A0 @1000 |
256 | 128 | BCM43602 x3 |
an/ac 3×3:3 b/g/n 3×3:3 |
— | 1 | 1 | 4 LAN 1 WAN |
12V 3.5A | 1 USB 2.0 1 USB 3.0 Gbit switch Dual 5GHz radio |
828DRU build 27332 20150616 |
[edit] T&W
Model | H.W rev. |
FCC ID | Platform & Frequency [MHz] |
RAM [MB] |
Flash [MB] |
Wireless NIC |
WLAN standard [802.11] |
mini PCI |
Serial port |
JTAG port |
Eth. port count |
Power Input [V/A] |
Special Features Notes |
Min usable DD-WRT version |
Notes for running DD-WRT |
---|---|---|---|---|---|---|---|---|---|---|---|---|---|---|---|
ZXV10 H618B/H118B | — | ? | Broadcom BCM5354 @240 |
32 | 16 | SOC | b/g | — | 1 | — | 4 LAN 1 WAN |
12V 1A | 1 USB 2.0 | v24sp2 | M29W128 is not supported |
RG100E-AA | — | ? | Broadcom BCM5354 @240 |
32 | 16 | SOC | b/g | — | 1 | — | 4 LAN 1 WAN |
12V 1A | 1 USB 2.0 Same h/w as H618B |
v24sp2 | M29W128 is not supported |
DI-524SU | E1/E8 | ? | Broadcom BCM5354 @240 |
32 | 16 | SOC | b/g | — | 1 | — | 4 LAN 0 or 1 WAN |
12V 1A | 1 USB 2.0 Same h/w as H618B |
v24sp2 | M29W128 is not supported |
[edit] Ubiquiti
Model | H.W rev. |
FCC ID | Platform & Frequency [MHz] |
RAM [MB] |
Flash [MB] |
Wireless NIC |
WLAN standard [802.11] |
mini PCI |
Serial port |
JTAG port |
Eth. port count |
PoE | Power Input [V/A] |
Special Features Notes |
Min usable DD-WRT version |
Notes for running DD-WRT |
---|---|---|---|---|---|---|---|---|---|---|---|---|---|---|---|---|
AirGateway | — | SWX-AGW | Atheros AR9331 @400 |
32 | 8 | SOC @18dBm |
b/g/n 1×1:1 | — | 1 | 1 LAN | yes | 15-24V | ??? | needs DD-WRT activation |
||
AirGrid M2 HP |
— | SWX-M2G | Atheros AR724x @390 |
32 | 8 | Atheros AR928x @28dBm |
b/g/n 1×1:1 | — | 1 | 1 LAN | yes | 24V 0.5A | w 16dBi or 20dBi grid ant. |
AirGrid_M2 build 13280 20091120 |
needs DD-WRT activation |
|
AirGrid M5 HP |
— | SWX-M5G | Atheros AR724x @390 |
32 | 8 | Atheros AR928x @25dBm |
a/h/n 1×1:1 | — | 1 | 1 LAN | yes | 24V 0.5A | w 23dBi or 27dBi grid ant. |
AirGrid_M5 build 13280 20091120 |
needs DD-WRT activation |
|
AirGrid M5 HP XW |
— | SWX-M5GHP | Atheros AR9342 @535 |
32 | 8 | SOC @27dBm |
a/h/n 1×1:1 | — | 1 | 1 LAN | yes | 24V 0.5A | AirGrid -M5-XW build 25179 20141027 |
needs DD-WRT activation |
||
AirRouter | — | SWX-E2 | Atheros AR724x @390 |
32 | 8 | Atheros AR928x @19dBm |
b/g/n 1×1:1 | — | 1 | 4 LAN 1 WAN |
— | 5V 2A | w ant. 1 USB 2.0 |
AirRouter build 15428 20101011 |
needs DD-WRT activation |
|
AirRouter HP |
— | SWX-ARHP | Atheros AR724x @390 |
32 | 8 | Atheros AR928x @28dBm |
b/g/n 1×1:1 | — | 1 | 4 LAN 1 WAN |
— | 5V 2A | w ant. 1 USB 2.0 |
AirRouter_HP build 15428 20101011 |
needs DD-WRT activation |
|
AirWire | — | SWX-M5L | Atheros AR724x @390 |
32 | 8 | Atheros AR928x @23dBm |
a/n 2×2:2 | — | 1 | 1 LAN | yes | 15V 0.8A | w 10dBi ant. | AirWire build 15428 20101011 |
needs DD-WRT activation |
|
Bullet2 | — | SWX-B2L | Atheros AR2317 @180 |
16 | 4 | SOC @20dBm |
b/g | — | 1 | 1 LAN | yes | 12-24V 1A | Extern. N | bullet2 build 11495 20090121 |
needs DD-WRT activation |
|
Bullet2 HP | — | SWX-B2 | Atheros AR2316A @180 |
16 | 4 | SOC @28dBm |
b/g | — | 1 | 1 LAN | yes | 12-24V 1A | Extern. N | bullet2_hp build 11495 20090121 |
needs DD-WRT activation |
|
Bullet5 HP | — | SWX-B5 | Atheros AR2313 @180 |
16 | 4 | Atheros AR5112 @27dBm |
a/h | — | 1 | 1 LAN | yes | 12-24V 1A | Extern. N | bullet5 build 11488 20090121 |
needs DD-WRT activation |
|
Bullet M2 HP |
— | SWX-M2B | Atheros AR724x @390 |
32 | 8 | Atheros AR928x @25dBm |
b/g/n 1×1:1 | — | 1 | 1 LAN | yes | 12-24V 1A | Extern. N | bullet_m2_hp build 13280 20091120 |
needs DD-WRT activation |
|
Bullet M2 Titanium |
— | Atheros AR@ |
32 | 8 | @28dBm | b/g/n 1×1:1 | — | 1 | 1 LAN | yes | 12-24V 1A | Extern. N | ??? | needs DD-WRT activation |
||
Bullet M5 HP |
— | SWX-M5B | Atheros AR724x @390 |
32 | 8 | Atheros AR928x @28dBm |
a/h/n 1×1:1 | — | 1 | 1 LAN | yes | 12-24V 1A | Extern. N | bullet_m5_hp build 13280 20091120 |
needs DD-WRT activation |
|
Bullet M5 Titanium |
— | Atheros AR@ |
32 | 8 | @28dBm | a/h/n 1×1:1 | — | 1 | 1 LAN | yes | 12-24V 1A | Extern. N | ??? | needs DD-WRT activation |
||
LiteStation2 | — | SWX-LS2T | Atheros AR2316 @180 |
16 | 4 | SOC @26dBm |
b/g | — | 1 | 2 LAN | yes | 5-24V | — | ls2 build 6394 20070401 |
needs DD-WRT activation |
|
LiteStation5 | — | SWX-LS5T | Atheros AR5312 @220 |
16 | 4 | Atheros AR5112 @26dBm |
a/h | — | 1 | 1 LAN | yes | 5-24V | — | ls5 build 8187 20071014 |
needs DD-WRT activation |
|
LiteStation9 | — | SWX-LS9 | Atheros AR2316 @180 |
16 | 4 | SOC @24dBm |
900MHz | — | 1 | 1 LAN | yes | 5-24V | — | ??? | needs DD-WRT activation |
|
LiteStation SR71 |
— | — | Atheros AR7161 @680 |
32 | 8 | — | depends on card |
1 | 1 | yes | 1 LAN | yes | 5-24V | — | LS-SR71A build 10020 20080728 |
needs DD-WRT activation |
Loco2 | — | SWX-L2 | Atheros AR2316 @180 |
16 | 4 | SOC @20dBm |
b/g | — | 1 | 1 LAN | yes | 12V 1A | Integrated 8dBi ant. |
loco2 build 11495 20090121 |
needs DD-WRT activation |
|
Loco5 | — | SWX-NS5 | Atheros AR2313 @180 |
16 | 4 | Atheros AR5112 @22dBm |
a/h | — | 1 | 1 LAN | yes | 12V 1A | Integrated 13dBi ant. |
loco5 build 11498 20090121 |
needs DD-WRT activation |
|
Loco M2 | — | SWX-M2L | Atheros AR724x @390 |
32 | 8 | Atheros AR928x @23dBm |
b/g/n 2×2:2 | — | 1 | 1 LAN | yes | 24V 0.5A | Integrated 8dBi dual pol ant. |
Loco_M2 build 13280 20091120 |
needs DD-WRT activation |
|
Loco M5 | — | SWX-M5LB SWX-M5LD |
Atheros AR724x @390 |
32 | 8 | Atheros AR928x @23dBm |
a/h/n 2×2:2 | — | 1 | 1 LAN | yes | 24V 0.5A | Integrated 13dBi dual pol ant. |
Loco_M5 build 13280 20091120 |
needs DD-WRT activation |
|
Loco M5 XW | — | SWX | Atheros AR9342 @535 |
32 | 8 | SOC @23dBm |
a/h/n 2×2:2 | — | 1 | 1 LAN | yes | 24V 0.5A | Integrated 13dBi dual pol ant. |
Loco_M5-XW build 25179 20141027 |
needs DD-WRT activation |
|
Loco M900 | — | SWX-M900L | Atheros AR724x @390 |
64 | 8 | Atheros AR928x @26dBm |
900MHz 2×2:2 | — | 1 | 2 LAN | yes | 24V 0.5A | Integrated 7dBi dual pol ant. Extern. SMA |
Loco_M900 build 15437 20101012 |
needs DD-WRT activation |
|
MiniStation | — | — | Atheros AR2315 @180 |
16 | 4 | SOC @26dBm |
b/g | — | 1 | 1 LAN | yes | 5-24V | — | ms2 build 11598 20090212 |
needs DD-WRT activation |
|
NanoBeam NBE-M5-16 |
— | SWX-NBM5 | Atheros AR9342 @535 |
64 | 8 | SOC @26dBm |
a/n 2×2:2 | — | 1 | 1 LAN | yes | 24V 0.5A | Integrated 16dBi dual pol ant. |
NanoBeam M5-XW build 25179 20141027 |
needs DD-WRT activation |
|
NanoBeam NBE-M5-19 |
— | SWX-NBEM5 | Atheros AR9342 @535 |
64 | 8 | SOC @26dBm |
a/n 2×2:2 | — | 1 | 1 LAN | yes | 24V 0.5A | Integrated 19dBi dual pol ant. |
NanoBeam M5-XW build 25179 20141027 |
needs DD-WRT activation |
|
NanoBeam NBE-5AC-19 (AC900) |
— | SWX-NBEM5AC | Qualcomm QCA9557 @720 |
128 | 8 | Qualcomm QCA9882 @26dBm |
an/ac 2×2:2 | — | 1 | 1Gbit LAN |
yes | 24V 0.5A | Integrated 19dBi dual pol ant. |
??? | needs DD-WRT activation |
|
NanoBridge M2 |
— | SWX-M2D | Atheros AR724x @390 |
32 | 8 | Atheros AR928x @23dBm |
b/g/n 2×2:2 | — | 1 | 1 LAN | yes | 24V 0.5A | Integrated 18dBi dual pol ant. |
NanoBridge M2 build 13654 20100118 |
needs DD-WRT activation |
|
NanoBridge M3 |
— | — | Atheros AR724x @390 |
32 | 8 | Atheros AR928x @25dBm |
3GHz 2×2:2 | — | 1 | 1 LAN | yes | 24V 0.5A | Integrated 22dBi dual pol ant. |
NanoBridge M3 build 16214 20110217 |
needs DD-WRT activation |
|
NanoBridge M365 |
— | SWX-M365N | Atheros AR724x @390 |
32 | 8 | Atheros AR928x @25dBm |
3.65GHz 2×2:2 | — | 1 | 1 LAN | yes | 24V 0.5A | Integrated 22dBi dual pol ant. |
NanoBridge M365 build 16214 20110217 |
needs DD-WRT activation |
|
NanoBridge M5 |
— | SWX-M5D SWX-NBM5D |
Atheros AR724x @390 |
32 | 8 | Atheros AR928x @25dBm |
a/h/n 2×2:2 | — | 1 | 1 LAN | yes | 24V 0.5A | Integrated 22 or 25dBi dual pol ant. |
NanoBridge M5 build 13280 20091120 |
needs DD-WRT activation |
|
NanoBridge M9 |
— | SWX-M900L | Atheros AR724x @390 |
64 | 8 | Atheros AR928x @28dBm |
900MHz 2×2:2 | — | 1 | 1 LAN | yes | 24V 1A | Integrated 11dBi dual pol ant. |
NanoBridge M900 build 16214 20110217 |
needs DD-WRT activation |
|
NanoStation2 | — | SWX-NS2 | Atheros AR2316 @180 |
16 | 4 | SOC @26dBm |
b/g | — | 1 | 1 LAN | yes | 12V 1A | Integrated 10dBi dual pol ant. Extern. SMA |
ns2 build 9377 20080403 |
needs DD-WRT activation |
|
NanoStation3 | — | SWX-NS3 | Atheros AR2313 @180 |
16 | 4 | Atheros AR2112 @24dBm |
3GHz | — | 1 | 1 LAN | yes | 12V 1A | Integrated 13dBi dual pol ant. Extern. SMA |
ns3 build 11523 20090130 |
needs DD-WRT activation |
|
NanoStation5 | — | SWX-NS5 | Atheros AR2313 @180 |
16 | 4 | Atheros AR5112 @24dBm |
a/h | — | 1 | 1 LAN | yes | 12V 1A | Integrated 14dBi dual pol ant. Extern. SMA |
ns5 build 9377 20080403 |
needs DD-WRT activation |
|
NanoStation M2 |
— | SWX-M2N | Atheros AR724x @390 |
32 | 8 | Atheros AR928x @29dBm |
b/g/n 2×2:2 | — | 1 | 2 LAN | yes | 24V 0.5A | Integrated 15dBi dual pol ant. Extern. SMA |
NanoStation m2 build 13280 20091120 |
needs DD-WRT activation |
|
NanoStation M3 |
— | — | Atheros AR724x @390 |
32 | 8 | Atheros AR928x @29dBm |
3GHz 2×2:2 | — | 1 | 2 LAN | yes | 24V 1A | Integrated 15dBi dual pol ant. Extern. SMA |
NanoStation m3 build 16214 20110219 |
needs DD-WRT activation |
|
NanoStation M365 |
— | SWX-M365N | Atheros AR724x @390 |
32 | 8 | Atheros AR928x @25dBm |
3.65GHz 2×2:2 | — | 1 | 2 LAN | yes | 24V 1A | Integrated 13dBi dual pol ant. |
NanoStation m365 build 15437 20101012 |
needs DD-WRT activation |
|
NanoStation M5 |
— | SWX-M5N SWX-NSM5D |
Atheros AR724x @390 |
32 | 8 | Atheros AR928x @27dBm |
a/h/n 2×2:2 | — | 1 | 2 LAN | yes | 24V 0.5A | Integrated 15dBi dual pol ant. |
NanoStation m5 build 13280 20091120 |
needs DD-WRT activation |
|
NanoStation M5 XW |
— | SWX- | Atheros AR9342 @535 |
32 | 8 | SOC @27dBm |
a/h/n 2×2:2 | — | 1 | 2 LAN | yes | 24V 0.5A | Integrated 15dBi dual pol ant. |
NanoStation M5-XW build 25179 20141027 |
needs DD-WRT activation |
|
PicoStation2 | — | SWX-B2L | Atheros AR2317 @180 |
16 | 4 | SOC @20dBm |
b/g | — | 1 | 1 LAN | yes | 12V 1A | Extern. N | pico2 build 11605 20090215 |
needs DD-WRT activation |
|
PicoStation2 HP | — | SWX-B2 | Atheros AR2316A @180 |
32 | 8 | SOC @28dBm |
b/g | — | 1 | 1 LAN | yes | 12V 1A | — | pico2hp build 11605 20090215 |
needs DD-WRT activation |
|
PicoStation5 HP |
— | SWX-B5 | Atheros AR2313 @180 |
32 | 8 | Atheros AR5112 @27dBm |
a/h | — | 1 | 1 LAN | yes | 12V 1A | — | pico5 build 11605 20090215 |
needs DD-WRT activation |
|
PicoStation M2 HP |
— | SWX-M2B | Atheros AR724x @390 |
32 | 8 | Atheros AR928x @27dBm |
b/g/n 1×1:1 | — | 1 | 1 LAN | yes | 15V 0.8A | Extern. SMA | Pico_M2 build 14311 20100423 |
needs DD-WRT activation |
|
PicoStation M5 HP |
— | — | Atheros AR724x @390 |
32 | 8 | Atheros AR928x @27dBm |
a/h/n 1×1:1 | — | 1 | 1 LAN | yes | 15V 0.8A | Extern. SMA | Pico_M5 build 14311 20100423 |
needs DD-WRT activation |
|
PowerAP N | — | SWX-M2 | Atheros AR724x @390 |
64 | 8 | Atheros AR9287 @28dBm |
b/g/n 2×2:2 | — | 1 | 4 LAN 1 WAN |
yes | 12V 1A | 6dBi ant. | PAPN- build 16059 20110123 ???? |
needs DD-WRT activation |
|
PowerBeam PBE-M2-400 |
— | SWX-NBM2HP | Atheros AR9342 @535 |
64 | 8 | SOC @28dBm |
b/g/n 2×2:2 | — | 1 | 1 Gbit LAN or WAN |
802.3af | 24V 0.5A | Integrated 18dBi dual pol ant. |
NanoBeam M2-XW build 25179 20141027 |
needs DD-WRT activation |
|
PowerBeam PBE-M5-300 |
— | SWX-PBEM5 | Atheros AR9342 @535 |
64 | 8 | SOC @26dBm |
an 2×2:2 | — | 1 | 1 Gbit LAN or WAN |
802.3af | 24V 0.5A | Integrated 22dBi dual pol ant. |
NanoBeam M5-XW build 25179 20141027 |
needs DD-WRT activation |
|
PowerBeam PBE-M5-400 |
— | SWX-PBEM5 | Atheros AR9342 @535 |
64 | 8 | SOC @26dBm |
an 2×2:2 | — | 1 | 1 Gbit LAN or WAN |
802.3af | 24V 0.5A | Integrated 25dBi dual pol ant. |
NanoBeam _M5-XW build 25179 20141027 |
needs DD-WRT activation |
|
PowerBeam PBE-M5-620 |
— | SWX-PBEM5 | Atheros AR9342 @535 |
64 | 8 | SOC @24dBm |
an 2×2:2 | — | 1 | 1 Gbit LAN or WAN |
802.3af | 24V 0.5A | Integrated 29dBi dual pol ant. |
NanoBeam M5-XW build 25179 20141027 |
needs DD-WRT activation |
|
PowerBridge M5 |
— | SWX-M5P | Atheros AR724x @390 |
64 | 8 | Atheros AR928x @27dBm |
a/n 2×2:2 | — | 1 | 1 LAN | yes | 24V 1A | Integrated 25dBi dual pol ant. |
PowerBridge M5 build 15437 20101012 |
needs DD-WRT activation |
|
PowerBridge M10 |
— | — | Atheros AR724x @390 |
64 | 8 | 1 @33dBm | 10GHz 2×2:2 | — | 1 | 1 LAN or WAN |
yes | 24V 1A | Integrated dual pol ant. |
PowerBridge M10 build 18687 20120308 |
needs DD-WRT activation |
|
PowerBridge M365 |
— | SWX-M365P | Atheros AR724x @390 |
64 | 8 | 10GHz 2×2:2 | — | 1 | 1 LAN | yes | 24V 1A | Integrated 20dBi dual pol ant. |
PowerBridge M365 build 15437 20101012 |
needs DD-WRT activation |
||
PowerStation2 | — | SWX-LS2T | Atheros AR2316 @180 |
16 | 4 | SOC @26dBm |
b/g | — | 1 | 2 LAN | yes | 12V 1A | LiteStation2 Outdoor box 17dBi ant. |
ls2 build 6394 20070401 |
needs DD-WRT activation |
|
PowerStation2 Ext |
— | SWX-LS2T | Atheros AR2316 @180 |
16 | 4 | SOC @26dBm |
b/g | — | 1 | 2 LAN | yes | 12V 1A | LiteStation2 Outdoor box 2 N-conn. |
ls2 build 6394 20070401 |
needs DD-WRT activation |
|
PowerStation5 | — | SWX-LS5T | Atheros AR2313 @180 |
16 | 4 | Atheros AR5112 @26dBm |
a/h | — | 1 | 1 LAN | yes | 12V 1A | LiteStation5 Outdoor box 22dBi ant. |
ls5 build 8187 20071014 |
needs DD-WRT activation |
|
PowerStation5 Ext |
— | SWX-LS5T | Atheros AR2313 @180 |
16 | 4 | Atheros AR5112 @26dBm |
a/h | — | 1 | 1 LAN | yes | 12V 1A | LiteStation5 Outdoor box 2 N-conn. |
ls5 build 8187 20071014 |
needs DD-WRT activation |
|
Rocket M2 | — | SWX-M2 | Atheros AR724x @390 |
64 | 8 | Atheros AR928x @28dBm |
b/g/n 2×2:2 | — | 1 | 1 LAN | yes | 24V 1A | Extern. SMA | rocket_m2 build 13280 20091120 |
needs DD-WRT activation |
|
Rocket M2 Titanium |
— | SWX-M2 | Atheros AR7370 @550 |
128 | 8 | Atheros AR928x @28dBm |
b/g/n 2×2:2 | — | 1 | 1 Gbit LAN or WAN |
802.3af | 48V 0.5A | Extern. SMA | Rocket_M2- Titanium-XW build 25179 20141027 |
needs DD-WRT activation |
|
Rocket M365 | — | SWX-M365 | Atheros AR724x @390 |
64 | 8 | Atheros AR928x @20dBm |
3.65GHz 2×2:2 | — | 1 | 1 LAN | yes | 24V 1A | Extern. SMA | rocket_m365 build 15334 20101002 |
needs DD-WRT activation |
|
Rocket M5 | — | SWX-RM5 | Atheros AR724x @390 |
64 | 8 | Atheros AR928x @27dBm |
a/h/n 2×2:2 | — | 1 | 1 LAN | yes | 24V 1A | Extern. SMA 1 USB 2.0 |
rocket_m5 build 13280 20091120 |
needs DD-WRT activation |
|
Rocket M5 AC-LITE (AC900) |
— | SWX-RM5ACL | Qualcomm QCA9557 @720 |
128 | 8 | Qualcomm QCA9882 @27dBm |
an/ac 2×2:2 | — | 1 | 1 Gbit LAN or WAN |
802.3af | 24V 0.5A | Extern. SMA No AirPrism |
??? | ||
Rocket M5 AC-PTP (AC900) |
— | SWX- RM5ACPTP |
Qualcomm QCA9557 @720 |
128 | 8 | Qualcomm QCA9882 @27dBm |
an/ac 2×2:2 | — | 1 | 1 Gbit LAN or WAN |
802.3af | 24V 0.5A | Extern. SMA AirPrism |
??? | needs DD-WRT activation |
|
Rocket M5 AC-PTMP (AC900) |
— | SWX- RM5ACPTMP |
Qualcomm QCA9557 @720 |
128 | 8 | Qualcomm QCA9882 @27dBm |
an/ac 2×2:2 | — | 1 | 1 Gbit LAN or WAN |
802.3af | 24V 0.5A | Extern. SMA AirPrism |
??? | needs DD-WRT activation |
|
Rocket M5 Titanium |
— | SWX-RM5 | Atheros AR7370 @550 |
64 | 8 | Atheros AR928x @27dBm |
a/h/n 2×2:2 | — | 1 | 1 LAN | yes | 48V 0.5A | Extern. SMA | Rocket_M5- Titanium-XW build 25179 20141027 |
needs DD-WRT activation |
|
Rocket M5 Titanium XW |
— | SWX-RM5T | Atheros AR9342 @535 |
128 | 8 | SOC @27dBm |
b/g/n 2×2:2 | — | 1 | 1 Gbit LAN or WAN |
802.3af | 24V 1A | Extern. SMA GPS conn. |
Rocket_M5- Titanium-XW build 25179 20141027 |
needs DD-WRT activation |
|
Rocket M5 Titanium XW |
— | SWX- RM5T-DFS |
Atheros AR9350 @ |
128 | 8 | SOC @27dBm |
b/g/n 2×2:2 | — | 1 | 1 Gbit LAN or WAN |
802.3af | 24V 1A | Extern. SMA GPS conn. |
??? | needs DD-WRT activation |
|
Rocket M900 | — | SWX-M900 | Atheros AR724x @390 |
64 | 8 | Atheros AR928x @26dBm |
900MHz 2×2:2 | — | 1 | 1 LAN or WAN |
yes | 24V 1A | Extern. SMA | rocket_m900 build 15334 20101002 |
needs DD-WRT activation |
|
RouterStation | — | — | Atheros AR7161 @680 |
64 | 16 | — | depends on card |
3 | 1 | yes | 2 LAN 1 WAN |
yes | 5-24V | — | RouterStation build 10907 20081113 |
needs DD-WRT activation |
RouterStation Pro |
— | — | Atheros AR7161 @680 |
128 | 16 | — | depends on card |
3 | 1 | yes | 4 LAN 1 WAN |
802.3af | 5-24V | 1 USB 2.0 | RouterStation _pro build 12909 20090915 |
needs DD-WRT activation |
UniFi AP | — | SWX-UAP | Atheros AR724x @390 |
32 | 8 | Atheros AR928x @20dBm |
b/g/n 1×1:1 | — | 1 | 1 LAN | yes | 24V 1A | UniFi_AP build 17276 20110705 |
needs DD-WRT activation |
||
UniFi AP Outdoor |
— | SWX-UAP OUTDOOR |
Atheros AR724x @390 |
32 | 8 | Atheros AR928x @20dBm |
b/g/n 2×2:2 | — | 1 | 1 LAN | yes | 24V 1A | UniFi_AP build 17276 20110705 |
needs DD-WRT activation |
||
UniFi AP PRO |
— | SWX-UAPRO | Atheros AR9344 @535 |
128 | 16 | SOC @22dBm & Atheros AR928x @30dBm |
an 3×3:3 b/g/n 2×2:2 |
— | 1 | 2 LAN | yes | 48V 0.5A | Gbit LAN | ??? | needs DD-WRT activation |
|
UniFi AP AC (AC1750) |
— | SWX-UAPAC | Broadcom BCM4706 @600 |
256 | 16 | Broadcom BCM4360 & BCM4331 |
an/ac 3×3:3 b/g/n 3×3:3 |
2 | 1 | 2 LAN | yes | 48V 0.5A | Gbit LAN | unifi_ac build 25408 20141120 |
needs DD-WRT activation |
|
UniFi AP AC Outdoor (AC1750) |
— | SWX-UAPAC | Broadcom BCM4706 @600 |
256 | 16 | Broadcom BCM4360 & BCM4331 |
an/ac 3×3:3 b/g/n 3×3:3 |
2 | 1 | 2 LAN | yes | 48V 0.5A | Gbit LAN | unifi_ac build 25408 20141120 |
needs DD-WRT activation |
|
WispStation5 | — | SWX-WS5 | Atheros AR5312 @220 |
16 | 4 | Atheros AR5112 @22dBm |
a | — | 1 | 2 LAN | yes | 5-24V | — | ws5 build 11075 20081205 |
needs DD-WRT activation |
|
WispStation M5 |
— | SWX-WSM5 | Atheros AR724x @390 |
32 | 8 | Atheros AR928x @22dBm |
a | — | 1 | 2 LAN | yes | 24V 0.5A | — | WispStation M5 build 18687 20120308 |
needs DD-WRT activation |
[edit] US Robotics
Model | H.W rev. |
FCC ID | Platform & Frequency [MHz] |
RAM [MB] |
Flash [MB] |
Wireless NIC |
WLAN standard [802.11] |
mini PCI |
Serial port |
JTAG port |
Eth. port count |
Power Input [V/A] |
Special Features Notes |
Min usable DD-WRT version |
Notes for running DD-WRT |
---|---|---|---|---|---|---|---|---|---|---|---|---|---|---|---|
USR5430 | Rev 1 | MXF-EB921201G | Broadcom BCM4712 @200 |
8 | 2 | SOC | b/g | — | ? | ? | 1 LAN or WAN |
12V 0.5A | — | v24 micro build 9433 20080423 |
— |
USR5432 | — | IXM-APGBR02 | Broadcom BCM5350 @200 |
8 | 2 | SOC | b/g | — | 1 | ? | 1 LAN or WAN |
5-6V 1.5-1A |
= USR5461 w/o USB w/o 4 LAN |
v24 micro build 9827 20080630 |
— |
USR5441 | — | IXM-APGBR02 | Broadcom BCM5350 @200 |
8 | 2 | SOC | b/g | — | 1 | ? | 1 LAN or WAN |
5V 1.5A | = USR5461 w/o USB w/o 4 LAN |
v24 micro build 11075 20081205 |
— |
USR5451 | — | IXM-APGBR02 | Broadcom BCM5350 @200 |
8 | 2 | SOC | b/g | — | 1 | ? | 1 LAN or WAN |
5V 1.5A | = USR5461 w/o 4 LAN |
v24 micro build 9531 20080825 |
— |
USR5453 | — | NHPUSR5453 | Atheros AR2313 @180 |
32 | 8 | Atheros AR2112 |
b/g | — | no | 1 | 1 LAN or WAN |
5V 2A | — | usr5453 build 8984 20080210 |
— |
USR5455 | — | IXM-APGBR03 | Broadcom BCM5354 @240 |
16 | 4 | SOC | b/g | — | 1 | 1 | 1 LAN or WAN |
9V 1.2A | = USR5465 w/o USB w/o 4 LAN |
custom build 13575 20091230 |
custom build (USR5455 unconfirmed) |
USR5461 | — | IXM-RTGBR02 | Broadcom BCM5350 @200 |
8 | 2 | SOC | b/g | — | 1 | ? | 4 LAN 1 WAN |
5V 1.5A | 1 USB | v24 micro+ build 10316 20080912 |
Install Guide |
USR5465 | — | IXM-RTGBR03 | Broadcom BCM5354 @240 |
16 | 4 | SOC | b/g | — | 1 | 1 | 4 LAN 1 WAN |
9V 1.2A | 1 USB 2.0 | custom build 13575 20091230 |
custom build |
USR805430 | ? | O7J-GL2454MP -0T | Broadcom BCM4712 @200 |
8 | 2 | SOC | b/g | — | ? | ? | 1 LAN or WAN |
12V 0.5A | — | v24 micro build 9433? |
— |
[edit] Valemount
Model | H.W rev. |
FCC ID | Platform & Frequency [MHz] |
RAM [MB] |
Flash [MB] |
Wireless NIC |
WLAN standard [802.11] |
mini PCI |
Serial port |
JTAG port |
Eth. port count |
PoE | Power Input [V/A] |
Special Features Notes |
Min usable DD-WRT version |
Notes for running DD-WRT |
---|---|---|---|---|---|---|---|---|---|---|---|---|---|---|---|---|
Lucaya M1020 |
— | ? | Infineon ADM5120 @175 |
16 | 4 | 1 | b/g | 1 | 1 | 1 | 2 LAN or WAN |
yes | 12-24V | Outdoor box CPX WP54-6E board based |
WP54 build 11165 20081211 |
myloader must be installed needs DD-WRT activation |
Lucaya M1023 |
— | ? | Infineon ADM5120 @175 |
16 | 4 | 1 | a/b/g/h | 1 | 1 | 1 | 2 LAN or WAN |
yes | 12-24V | Outdoor box CPX WP54-6E board based |
WP54 build 11165 20081211 |
myloader must be installed needs DD-WRT activation |
Lucaya M1208 |
— | ? | Infineon ADM5120 @175 |
32 | 4 | — | b/g | 1 | 1 | 1 | 2 LAN or WAN |
yes | 12-24V | Outdoor box 8dBi b/g ant. CPX WP54-6E board based |
WP54 build 11165 20081211 |
myloader must be installed needs DD-WRT activation |
Lucaya M1214 |
— | ? | Infineon ADM5120 @175 |
16 | 4 | — | depends on card |
1 | 1 | 1 | 2 LAN or WAN |
yes | 12-24V | Outdoor box 14dBi b/g ant. CPX WP54-6E board based |
WP54 build 11165 20081211 |
myloader must be installed needs DD-WRT activation |
Lucaya M1517 |
— | ? | Infineon ADM5120 @175 |
16 | 4 | 1 | a/h | 1 | 1 | 1 | 2 LAN or WAN |
yes | 12-24V | Outdoor box 17dBi A ant. CPX WP54-6E board based |
WP54 build 11165 20081211 |
myloader must be installed needs DD-WRT activation |
Lucaya X4000 |
— | ? | Xscale IXP425 @533 |
64 | 8 | 4 | a/b/g/h | 4 | 1 | 1 | 1 LAN | 802.3af | 24-48V | Outdoor box h/w-watchdog CPX WP188-6C board based |
wp188 build 9360 20080330 |
myloader must be installed needs DD-WRT activation |
Lucaya X4214 |
— | ? | Xscale IXP425 @533 |
64 | 8 | 4 | 1x b/g 3x a/b/g/h |
4 | 1 | 1 | 1 LAN | 802.3af | 24-48V | Outdoor box 14dBi b/g ant. h/w-watchdog CPX WP188-6C board based |
wp188 build 9360 20080330 |
myloader must be installed needs DD-WRT activation |
Lucaya X4517 |
— | ? | Xscale IXP425 @533 |
64 | 8 | 4 | a/b/g/h | 4 | 1 | 1 | 1 LAN | 802.3af | 24-48V | Outdoor box 17dBi a/h ant. h/w-watchdog CPX WP188-6C board based |
wp188 build 9360 20080330 |
myloader must be installed needs DD-WRT activation |
WAR1- CPE |
— | ? | Infineon ADM5120 @175 |
16 | 4 | — | depends on card |
1 | 1 | 1 | 2 LAN or WAN |
yes | 12-24V | CPX WP54-6E board based |
WP54 build 11165 20081211 |
myloader must be installed needs DD-WRT activation |
WAR4- MPW188B |
— | ? | Xscale IXP425 @533 |
64 | 8 | — | depends on card |
4 | 1 | 1 | 1 LAN | 802.3af | 24-48V | h/w-watchdog sd-card socket CPX WP188-6C board based |
wp188 build 9360 20080330 |
myloader must be installed needs DD-WRT activation |
[edit] Verizon
- OEM Actiontec
[edit] VSCOM
Model | H.W rev. |
FCC ID | Platform & Frequency [MHz] |
RAM [MB] |
Flash [MB] |
Wireless NIC |
WLAN standard [802.11] |
mini PCI |
Serial port |
JTAG port |
Eth. port count |
PoE | Power Input [V/A] |
Special Features Notes |
Min usable DD-WRT version |
Notes for running DD-WRT |
---|---|---|---|---|---|---|---|---|---|---|---|---|---|---|---|---|
Alena | — | — | OpenRISC ARM9@166 |
64 | 4 | — | — | 1 | 2 + 1 console | ? | 2 LAN or WAN |
— | 9-30V | cf/micro-sd slot 2x USB2.0 DIN RAIL mountable, RTC, buzzer, hw watchdog, I2C, CAN, Digital I/O, relay out, |
alekto build 14411 20100511 |
needs DD-WRT activation |
Alekto (SD/LAN) | — | — | OpenRISC ARM9@166 |
64 | 4 | (1) | (b/g) | 1 | 2 + 1 console | ? | 2 LAN or WAN |
— | 9-30V | cf/micro-sd (w. 2GB card) slot, 2x USB2.0, DIN RAIL mountable, RTC, buzzer, hw watchdog, I2C | alekto build 14411 20100511 |
needs DD-WRT activation |
[edit] Watchguard
Model | H.W rev. |
FCC ID | Platform & Frequency [MHz] |
RAM [MB] |
Flash [MB] |
Wireless NIC |
WLAN standard [802.11] |
mini PCI |
Serial port |
JTAG port |
Eth. port count |
Power Input [V/A] |
Special Features Notes |
Min usable DD-WRT version |
Notes for running DD-WRT |
---|---|---|---|---|---|---|---|---|---|---|---|---|---|---|---|
FireboxII | — | — | Pentium MMX @200 std |
64 + SD-RAM slot |
8 | — | depends on card |
2 pcmcia 2 pci |
2 | — | 3 LAN | 110V AC | CF-slot IDE-port |
x86 | — |
Firebox X1000 |
— | — | Celeron SL6C8 [1200] or [1400] |
256 PC133 |
64mb CF-card | — | — | 1 mini pci | 1 | — | 6 | 100-240V 2A | CF-slot, ide, mpci AVCVA crypto ssl accel card, pci slot | x86 | — |
[edit] WiliGear
Model | H.W rev. |
FCC ID | Platform & Frequency [MHz] |
RAM [MB] |
Flash [MB] |
Wireless NIC |
WLAN standard [802.11] |
mini PCI |
Serial port |
JTAG port |
Eth. port count |
PoE | Power Input [V/A] |
Special Features Notes |
Min usable DD-WRT version |
Notes for running DD-WRT |
---|---|---|---|---|---|---|---|---|---|---|---|---|---|---|---|---|
WBD111 | — | ? | Storlink sl3512 ARM920@300 |
32 | 8 | — | depends on card | 1 | 1 | ? | 1 LAN | yes | 9-24V | 2 USB 2.0 | wbd111 build 10041 20080729 |
— |
WBD222 | — | ? | Storlink sl3512 ARM920@300 |
32 | 8 | — | depends on card | 2 | 1 | ? | 2 LAN | yes | 9-24V | 1 SATA 2 USB 2.0 1 mPCIe |
wbd222 build 14272 20100414 |
— |
WBD500 | — | ? | Atheros AR2315@180 |
32 | 8 | SOC@27dBm | b/g | — | 1 | ? | 1 LAN | yes | 9-52V | — | wbd500 build 10147 20080817 |
— |
[edit] Wistron
Model | H.W rev. |
FCC ID | Platform & Frequency [MHz] |
RAM [MB] |
Flash [MB] |
Wireless NIC |
WLAN standard [802.11] |
mini PCI |
Serial port |
JTAG port |
Eth. port count |
PoE | Power Input [V/A] |
Special Features Notes |
Min usable DD-WRT version |
Notes for running DD-WRT |
---|---|---|---|---|---|---|---|---|---|---|---|---|---|---|---|---|
CA8-4 Pro |
— | ? | Atheros AR2313A @180 |
32 | 4 | Atheros AR5112A @23dBm |
a/b/g | ? | 1? | ? | 3 LAN | ? | ? | ca8-4pro build 9360 20080330 |
needs DD-WRT activation |
|
RDAA-81 | — | ? | Atheros AR2313A @180 |
32 | 4 | Atheros AR5112A @23dBm |
a/b/g | — | — | ? | 3 LAN | ? | 5V 2A | Same h/w as CA8-4 Pro |
ca8-4pro build 9360 20080330 |
needs DD-WRT activation |
RDAT-81 PCBA |
— | NKRRDAT | Atheros AR5312 @220 |
32 | 4 | Atheros | a/b/g | — | 1 | — | 1 LAN | 802.3af | 48V | rdat81 build 11002 20081127 |
needs DD-WRT activation |
[edit] Yuncore
Model | H.W rev. |
FCC ID | Platform & Frequency [MHz] |
RAM [MB] |
Flash [MB] |
Wireless NIC |
WLAN standard [802.11] |
mini PCI |
Serial port |
JTAG port |
Eth. port count |
Power Input [V/A] |
Special Features Notes |
Min usable DD-WRT version |
Notes for running DD-WRT |
---|---|---|---|---|---|---|---|---|---|---|---|---|---|---|---|
XD3200 (AC1200) |
— | — | Qualcomm QCA9563 @750 |
128 | 16 | SOC & Qualcomm QCA9882 |
b/g/n 2×2:2 an/ac 2×2:2 |
— | 1 LAN 1 WAN |
24V 0.7A |
Gbit switch PoE 48V |
xd3200 build 29816 20160602 |
needs DD-WRT activation |
||
SR3200 (AC1200) |
— | — | Qualcomm QCA9563 @775 |
128 | 16 | SOC & Qualcomm QCA9882 |
b/g/n 2×2:2 an/ac 2×2:2 |
— | 4 LAN 1 WAN |
12V 2A |
Gbit switch | WIP | needs DD-WRT activation |
||
CPE890 (AC1200) |
— | — | Qualcomm QCA9563 @775 |
128 | 16 | SOC & Qualcomm QCA9882 |
an/ac 2×2:2 | — | 1 LAN 1 WAN |
12V 2A |
Gbit switch | WIP | needs DD-WRT activation |
[edit] ZCOM
Model | H.W rev. |
FCC ID | Platform & Frequency [MHz] |
RAM [MB] |
Flash [MB] |
Wireless NIC |
WLAN standard [802.11] |
mini PCI |
Serial port |
JTAG port |
Eth. port count |
Power Input [V/A] |
Special Features Notes |
Min usable DD-WRT version |
Notes for running DD-WRT |
---|---|---|---|---|---|---|---|---|---|---|---|---|---|---|---|
TG2521 | — | — | Atheros AR9130 @400 |
32 | 8 | Atheros AR9102 |
b/g/n 2×2:2 | — | 1? | ? | 4 LAN 1 WAN |
12V 1A | — | tg2521 build 13839 20100204 |
— |
Without any doubt, DD-WRT routers are perhaps the best way to experience everything your Web connection has to offer. By getting a capable router and installing DD-WRT firmware, you get a whole arsenal of advanced tools that let you control, fine-tune, and optimize your Web browsing experience. Features like parental controls and content filtering, advanced optimization for different online activities, online privacy protection, and protection against malware are just the tip of a giant iceberg. However, the big question here is — what are truly the best DD-WRT routers right now? Well, let us tell you — you’ve come to the right place!
Before we get started, let’s answer some common doubts. First of all, yes — it’s true that DD-WRT routers can be quite expensive. However, we fully understand that our readers want options for different budgets and routers suitable for different needs. That’s the reason why we’ll go over a sizeable list of the best DD-WRT routers, providing answers to all your questions. And also, make sure to closely inspect the specs of your chosen router before buying it. This will help you make sure that you can use your Web connection up to its full extent, especially its speed.
How to Choose the Best DD-WRT Router?
If you’re looking for a DD-WRT router, you probably want a device that offers granular control over your Internet connection. This means taking a close look at numerous options and inspecting their specs and feature sets. Here’s what you need to know.
- Specifications: First and foremost, you must take a look at the specs. While some routers bring single-core CPUs, you’ll find more powerful CPUs and plenty of RAM in higher-end models. Some cheap DD-WRT routers could bring barely capable specs that can run only the built-in system and installing third-party firmware could provide to be problematic.
- Connectivity Options: While a 2.4GHz connection might be sufficient for basic Web browsing, you will need to rely on a 5Ghz connection for more advanced tasks. In general, it’s highly recommended to stick to 5Ghz for streaming in HD and 4K, and for playing multiplayer games.
- DIY Flashing or Pre-Flashed: You can just buy a router directly from the manufacturer and do the firmware flash upgrade yourself. This is the cheaper option, but it means voiding the warranty of a new router and running the risk of turning the machine into a paperweight if you do it wrong. The second choice is to buy it pre-flashed from a third-party company. You’ll still get a warranty and the router is tested to work properly with DD-WRT before it ships to you.
Best DD-WRT Routers
So, let’s wait no more. Here are the 15 best DD-WRT routers in 2022. Let’s go over their specs and quick descriptions, so you can easily decide on which one to buy.
1. NETGEAR R6700
If you decide to go with the R6700, you’ll get a complete package at a very interesting price. In many ways, it’s similar to our next suggestion but also brings a few interesting compromises that average home users wouldn’t mind.
First of all, this router brings a well-known design that’s unique to routers made by NETGEAR. The company has included one front-placed USB 3.0 that can be used for external storage devices. This allows you to easily create entertainment hubs and access those from different devices. There’s also one more interesting thing. You’ll get three high-power antennas that are not only adjustable but removable as well.
In terms of performance, NETGEAR R6700 supports networks of up to 1,750 Mbps divided into two channels. And also, let’s not forget to mention that this device brings top-rated results in terms of storage performance.
- Pros: Very fast NAS performance; Great for gaming and streaming; Capable feature set.
- Cons: A bit more complicated setup procedure.
2. Netgear R7000
The R7000 may sound more like a military aircraft than a network router, but there’s a reason its name comes up often among VPN and DD-WRT fans. This router from NETGEAR is a consistent favorite and makes the top router lists of many outlets. One of the main reasons for this is the affordable price point. At well under two hundred bucks, this AC1900 dual-band router provides a lot of throughput for the money.
This router comes equipped with a 1GHz dual-core CPU. It’s an 802.11ac dual-band router with a total throughput of 1900 Mbps. Thanks to its power transmission system, this router has quite the footprint and NETGEAR says that it’s suitable for very large homes. Along with the standard four Ethernet ports, you’ll also find two USB ports on the back of the machine. One is a USB 2.0 model suitable for a printer or other low-bandwidth device. The second port is USB 3.0 and is perfect for attaching a USB 3.0 hard drive or flash stick so that you can share files across your home network.
The R7000 Nighthawk is a truly affordable high-throughput router for people who have a lot of square footage to cover and need a fast network. And also, it performs shockingly-well for the price. If you’d like to check other routers made by this manufacturer, we have our guide to the best NETGEAR routers available now.
- Pros: Incredibly stable performance; Long-range coverage; Class-leading USB performance.
- Cons: None really.
3. Linksys WRT-3200ACM
When it comes to the best Linksys routers, the WRT-3200ACM model is one of the top-rated. This is a real beast in terms of its performance and specs, and we recommend it to those who really want the very best.
Inside of this router, Linksys has packed a 1.8Ghz dual-core CPU, 512 MB of RAM and 256MB of flash storage. There are four Ethernet ports, a USB 3.0 port for sharing files and an eSATA port for file transfers. Aside from using the built-in software, you can install a custom DD-WRT management option to fine-tune this router to your needs.
What’s unique about the WRT-3200ACM router is the fact that it brings support for 160Mhz channels which can double its total bandwidth on the 5Ghz band. Therefore, it’s clear that we’re talking about a router made for power users.
- Pros: Outstanding file transfer speeds; Support MU-MIMO; Flawless wired connectivity.
- Cons: Not the best 2.4Ghz speeds.
4. Asus RT-N66U (N900)
At the moment, the RT-N66U is one of the most popular DD-WRT routers on the market. It’s been available for a while now and it’s price had dropped in the meantime. On the other hand, this router brings capable features that should meet the needs of above-average home users.
If you take a closer look at the RT-N66U, you’ll see that it brings support for 802.11ac — which isn’t the latest nor the fastest Wi-Fi standard. However, it can still support Web connections of up to 900Mbps, which is definitely more than what many of us will ever need. It’s also worth noting that you’ll get two USB 2.0 ports (which means there no USB 3.0 here) which should still serve you well in terms of creating a digital media center.
All in all, it’s easy to see why the RT-N66U is one of the best DD-WRT routers right now. It comes at an affordable price while bringing quite capable features. You can rely on its power to give you a pleasurable Web browsing experience while any tradeoffs.
- Pros: Capable wireless performance; Strong feature set; Redesigned GUI.
- Cons: Some features could be better implemented (VPN, DLNA).
5. ASUS RT-AC88U
Those of you looking for something more robust should pay attention to ASUS’ RT-AC88U. Just by the looks for this DD-WRT router, you can conclude that you’re dealing with something powerful. Perhaps the most prominent design feature of this router is its antenna design. We’re talking about 4T4R (4 transmit, 4 receive) antennas, which is why this router is recommended for large homes.
As you can expect, this is a dual-band router. It offers 5Ghz connectivity of up to 2,100 Mbps and 2.4Ghz connectivity of up to 1,000 Mbps. It also includes 8 Gigabit LAN ports, and there’s a single USB port as well (with data transfer rates of up to 100 MB/s). All of this is powered by a 1.4Ghz dual-core processor — which is also beneficial if you want to run DD-WRT on this router.
It’s also important to note that ASUS has done a wonderful job of designing its own custom firmware. You get to tweak even the smallest of details, and you can access this router via a dedicated Android/iOS app. Of course, to fully unlock its power, you’ll need DD-WRT.
- Pros: Nicely designed; Great for large homes; Dual-band connectivity; Capable CPU.
- Cons: Only one USB port on offer. Not the most affordable option.
6. Linksys E2500
Based on the hugely popular Linksys’ E3200 model, the E2500 brings a very interesting design and plenty of new options. You will get to use both 2.4Ghz and 5Ghz networks, in addition to four LAN ports and one WAN port. The device is designed to be as inconspicuous as possible and it doesn’t bring any status lights whatsoever.
The initial setup process takes less than 5 minutes thanks to the included CD that brings the Cisco Connect software. Of course, since this is a DD-WRT router, you can install custom software and fine-tune it to your liking. If you decide to stick to the built-in software, you’ll get to prioritize activities like gaming or streaming, set port forwarding, as well as FTP and HTTP servers. Finally, you should know that this router brings a very steady performance and you’ll hardly encounter a dropped connection. All in all, a very reliable and one of the best affordable DD-WRT routers, for sure.
- Pros: Good signal strength at distance; Easy setup and management.
- Cons: No bridge or AP mode.
7. D-Link DIR-878
Even though it brings a similar name to our previous suggestion, you can think of DIR-878 as a more powerful option. If you’re willing to spend a bit more, you can get access to the latest technologies and Web standards.
First of all, we think you’re going to love the way this router is designed. It brings a modern design and fits nicely into any room. Then, there’s a whole series of interesting features. The DIR-878 supports the latest 802.11ac standard and can be used for beamforming. You can install it in a matter of minutes and you’ll get to use an intuitively designed Web interface through which you can fine-tune its settings. And when it comes to its performance, you can use both 2.4Ghz and 5Ghz networks, combined up to 1.9Gbps which should make any Web-related task as smooth as possible. All in all, the DIR-878 truly brings a lot of value for its price, which is why we believe this is one of the best DD-WRT routers right now.
- Pros: Good value; Four LAN ports; Dual-band support; Beamforming.
- Cons: No USB ports.
8. D-Link DIR-859
When it originally appeared on the market, D-Link’s DIR-859 received plenty of rave reviews. In the meantime, this model managed to stick to its original success and it’s in production, which tells a lot. However, the price is now more affordable than ever before, which is why this model was highlighted in our article on DD-WRT routers under $100.
The DIR-859 is a dual-band router and it supports both 2.4Ghz and 5GHz Wi-Fi networks. Thanks to its three non-detachable antennas, it sends out a very signal and covers quite a large area. It should also be noted that you can expect top of the line performance no matter which channel you’re using, up to 1,750Mbps in total. The only downside is that you won’t find USB ports here, which means that connecting printers of creating media hubs isn’t a possibility.
- Pros: Very easy to manage; Strong performance on 2.4Ghz and 5Ghz.
- Cons: Missing USB connectivity.
9. GL.iNET GL-AR150
You are most probably surprised by the size of its router. As you can see, it’s quite small and it’s lightweight. That’s because the GL-AR150 is meant to be a travel-friendly router. As such, it can turn any wired connection into a wireless one, and reap number benefits along the way. And of course, since we’re talking about this product in our article on the best DD-WRT routers, it supports this kind of firmware as well.
You need to know that the GL-AR150 supports Web speeds of up to 150Mbps. Also, it comes with a single USB port. This means that you can also use this router with different types of external storage options. This kind of modular design is really hard to come by, especially when it comes to affordable routers.
- Pros: Pocket-sized; Powerful processor; Easy to use; Fully programmable.
- Cons: Relatively limited bandwidth.
10. D-Link DIR-866L
Next, we have D-Link’s DIR-866L and as you can see, this is the most affordable DD-WRT router you can get. You might find some that cost a few dollars less but trust us that they’re not worth your time.
The DIR-866L brings dual-band performance and you can decide whether you want to use 2.4Ghz or 5Ghz (typically used for media streaming and gaming). You can expect a very reliable performance thanks to the company’s high-powered built-in amplifier. On top of that, you get to use D-Link’s mobile app to control the router remotely and check vital stats. And finally, you should know that you can take advantage of the device’s USB port to share files and media. All in all, you get plenty of value for the price.
- Pros: Quite affordable; Easy setup; Great performance at 2.4Ghz and 5GHz.
- Cons: Can’t work as a media bridge; Somewhat limited mobile apps.
11. Linksys EA6700
In case you’re a fan of Linksys’ products, you can spend a bit more on the EA6700. This is the company’s top of the line model as well as the very first router that brings the next-generation wireless standards.
This device brings a very streamlined design and you even mount it vertically. If you take a closer look, you’ll see a series of ports on the backside. There’s one USB 2.0 and one USB 3.0 port. Then, there are four Gigabit Ethernet ports, and a set of standard control buttons. When it comes to its performance, you must know that there are 6 internal antennas with high-power amplifiers. This is more than enough to provide an incredibly smooth performance. To fine-tune the device, you can use the built-in software or install your own.
- Pros: Amazing performance (2.4Ghz and 5GHz); Smart Wi-Fi; USB 3.0 support; Simple management.
- Cons: Only four Gigabit Ethernet ports.
12. D-Link EXO DIR-869
When it comes to routers, and even DD-WRT models, you’ll see that many of them look alike. Tech companies aren’t usually willing to take big risks in terms of design decisions. And if they do, we’re usually talking about the least affordable routers. However, D-Link’s EXO might be an exception to this rule.
The EXO DIR-869 comes with a triangular design and sharp edges all around. It comes equipped with four Ethernet (Gigabit) ports, one WAN port — and sadly, it’s missing any USB ports which truly is a shame. On the upside, it supports the latest Wi-Fi standard and it’s dual-band based, which means that you can get pretty fast Web connection by using this router. And thanks to its external antennas, this model should cover pretty large homes with ease.
- Pros: Interesting design; Dual-band connectivity; Excellent range.
- Cons: No USB ports.
13. TP-Link Archer C9
Despite its somewhat odd design, TP-Link’s Archer C9 might just be the perfect router for average home users. It brings plenty of power under the hood as well as a few features typically found in more expensive models.
Since this is a DD-WRT router, we first need to take a look at its internals. The C9 model comes with a 1Ghz dual-core processor and has 128MB of RAM. This means that running DD-WRT firmware should not produce any issues, whatsoever. Once you decide to connect your devices, you can count on 2.4Ghz and 5GHz networks with a total bandwidth of up to 1,900Mbps — which is what really stands out here. And on top of all of this, the C9 includes USB 3.0 and 2.0 ports, which means that connecting other devices is a possibility.
There’s really nothing not to like about this product, and we strongly believe that even more advanced users should be covered well.
- Pros: Offers amazing value; Great wireless coverage; Plenty of bandwidth; Removable antennas.
- Cons: No major remarks.
14. D-Link AC5300 Ultra (DIR-895L)
Ultra by name, ultra by nature. That’s really the only way to describe this router behemoth. This router has a 1.4 GHz dual-core CPU on deck. It also uses the same tri-band technology for a combined throughput somewhere in the range of 5,300Mbps. Likewise, we are once again treated to four pairs of antennas. Four for receiving and four for sending.
With all that physical transmission ability, it’s unlikely your household will run out of WiFi bandwidth anytime soon. Four Gigabit Ethernet ports are present to no one’s surprise. They are flanked by two USB ports. The typical USB 2.0 printer port and the fast USB 3.0 port for USB storage.
There seems to be little difference between this router and the ASUS AC5300 (the following suggestion in our article) when it comes to specifications, so we doubt that anyone except perhaps the benchmark-obsessed could even tell the difference in performance between the two if any. However, brand-loyalty and design language may be the dividing factor for you. In the end, whether you go with the D-Link or the ASUS, you’ll have a blazingly-fast DD-WRT router to play with.
- Pros: Upgradeable antennas; Futuristic appearance; Excellent performance; Strong wireless signal.
- Cons: Missing wireless bridging.
15. ASUS RT-AC5300
The AC5300 is much more than just a conversation starter. This is a high-end hardware platform for a next-generation home networking experience. Combined with DD-WRT, this router is a force to be reckoned with. This model has at its heart a high-performance 1.4 GHz dual-core CPU. This is backed up by 512 MB of RAM. While this is not the fastest set of specifications we’ve ever seen on a router, it’s a perfect level for high-end home use.
The AC5300 is a little short on any sort of special hardware features. It has the standard 4x Gigabit Ethernet ports, a single WAN port, and one USB 3.0 port. The eight antennas are removable though, although we personally wouldn’t touch them since they are core to the aesthetic.
The ASUS AC5300 is a router that is focused on network performance above all else. For the price, you’d be hard-pressed to find something with better wireless performance. If you want to use high-speed NAS, 4K streaming or other high-bandwidth local services, this router will serve you well. It’s an excellent choice for those who need a large, fast WiFi footprint without shelling out for enterprise-class hardware. Without any doubt, this is one of the world’s best DD-WRT routers.
- Pros: Attractive design; Great built quality; Premium support; Top-rated performance.
- Cons: Wireless bridge not supported.
What’s the Best Entry-Level DD-WRT Router?
If you’re ready to make some compromises, you can find easily plenty of reliable entry-level DD-WRT routers. Our strong recommendation would be Linksys E2500 which brings dual-band connectivity, LAN and WAN ports, and comes with an easy setup. Another interesting pick would be GL.iNet’s travel-friendly router.
What’s the Best Mid-Range DD-WRT Router?
When it comes to mid-range DD-WRT routers, you can find plenty of interesting options. For example, NETGEAR’s R6700 comes as a really interesting option that brings plenty of value for its price — and it’s one of the most popular routers overall. If you’d like to expand your options, we recommend D-Link’s DIR-878, which comes equipped with everything you need to upgrade your Web browsing experience.
What’s the Best High-End DD-WRT Router?
As you can expect, this is where you can find all-in-one DD-WRT routers. These might be pricey, but they check all the right boxes. For example, NETGEAR’s R700 comes with many advanced features promising to bring out the best of your Web connection. If you need an ultra-powerful router, you should be more than happy with Linksys’ WRT-3200ACM, which has been one of the bestselling routers for a while now.
FAQ
By now, we gave you plenty of different options and we’re sure you’ll find at least one product that suits your needs. However, we’d like to take this opportunity to give you valuable information on how to select the best DD-WRT router based on your needs.
What Are DD-WRT Routers?
DD-WRT routers allow you to install and run custom firmware — called DD-WRT. This Linux-based firmware provides a nicely designed Web interface with plenty of customization options. Unlike stock firmware provided by Linksys, Asus, and Netgear, DD-WRT allows you to review additional information and fine-tune your experience of using the Web.
Plenty could be said about DD-WRT and it’s imperative to learn as much as you can before diving into this technology. This will allow you to learn the numerous benefits of DD-WRT firmware, as well as its limitations. After all, you will be changing the way your router works and you’ll get to unblock its capabilities. This is why installing DD-WRT firmware is not as simple as it might sound.
Should You Buy Pre-Flashed DD-WRT Routers?
The easiest and safest way to get a DD-WRT router is by buying one from a company that pre-flashes them. This has several benefits. For one thing, you know that the router you just bought isn’t bricked, because it was tested first. Secondly, the reseller usually provides a warranty – something you forfeit when you flash a router yourself.
In truth, there’s not much risk to this as long as you follow the instructions properly and you triple-check that the specific model you have is, in fact, on the compatibility list. If you’ve done your homework, the chances of bricking the router are minimal.
Should You Buy Used or Refurbished DD-WRT Routers?
There’s nothing wrong with buying used or refurbished routers, but you need to be extra careful if you’re considering going this way. Actually, installing DD-WRT usually voids any warranty, so getting a used router (especially if it comes with limited or no warranty) can be an affordable way to enter the world of custom firmware. However, make sure that you’re buying a used router from a reputable vendor.
Can You Install DD-WRT on Any Router?
No, you can’t install DD-WRT on just about any router. You need a device that supports custom firmware and that’s capable enough to run DD-WRT without any problems. This is why we strongly recommend you to check whether there’s a fully supported version of DD-WRT for the router you plan on buying.
Can You Remove/Uninstall DD-WRT & Revert to Stock Firmware?
In general, it’s possible to revert DD-WRT firmware to your router’s stock firmware. For many models, this option is accessible from DD-WRT’s Web interface. However, you should know that not every model supports this action.
Trying to ‘downgrade’ from DD-WRT to your router’s stock firmware comes with certain dangers. Some features might not work properly, or you can end up with a bricked device. This is why we recommend letting an expert perform this, or making sure you have clear and 100% valid instructions.
Is DD-WRT Safe to Install u0026 Use?
No matter if you use DD-WRT or any other type of firmware, you should periodically check for security-related updates. However, DD-WRT does have some advantage over any stock firmware since it’s an open-source system. This means that bugs and security vulnerabilities are typically quick to identify and fix.
It’s important to understand that your router’s security depends on you — and not on the firmware you choose to install. DD-WRT does come with numerous benefits over any stock firmware, but make sure to update it regularly to stay on top of the latest security vulnerabilities.
Will DD-WRT Speed Up My Router?
When configured properly, DD-WRT can speed your Web connection. However, please note that isn’t always the case and this ‘upgrade’ in performance depends on the reason why you were experienced slowed Web speeds, to begin with.
In case your ISP (Internet Service Provider) throttles specific services, like Netflix for example, you can use a VPN in combination with your DD-WRT to avoid such throttling. This means that you’ll get to encrypt your Web connection data and avoid any type of throttling. It’s also important to be said that DD-WRT can help you extend or boost your wireless signal.
How Do I Access My DD-WRT Router?
To access your DD-WRT router and its Web interface, you need to use your Web browser for this purpose. Access the log-in page by typing in ‘192.168.1.1’ and then use the default username (root) and password (admin).
Please note that the latest version of DD-WRT asks you to set up your own username and password, so make sure to remember your user credentials. In addition, we need to note that ‘192.168.1.1’ is typically the default IP address that you need to use. However, some routers might use ‘192.168.2.1’, ‘192.168.11.1’, or ‘192.168.10.1’.
How to Install a VPN on a DD-WRT Router?
Finally, let’s not forget to mention that VPNs can be easily installed on DD-WRT routers. Actually, this is the best way to protect all your incoming and outgoing Web traffic, as well as to be anonymous on the Web.
If you’re looking for a router that’s compatible with VPNs, your next stop should be our article on how to choose a VPN router. Once you have the general guidelines in your head, take a closer look at the options found in this article and make your final decision. Then, head over to our article on how to set up a VPN on a router. Don’t forget that you also need to choose a VPN service. Why not have a look at our VPN buyer’s guide or choose from our list of the overall best VPN services.
Dear readers, that would be all we’ve prepared for our guide to the best DD-WRT routers in 2022. In case you have any questions, make sure to post them in the comments section below. And also, make sure to follow us on Facebook and Twitter. Thanks!