Tag: MiFi routers

Article

AT&T adds new a Netgear 5G hotspot that you will actually be able to buy | CNet

From the horse’s mouth

AT&T

NETGEAR Nighthawk 5G Hotspot Pro Arrives at AT&T Sept. 18 (Press Release)

5G Product Page (announcing pending arrival of this Mi-Fi hotspot)

NETGEAR

NIGHTHAWK® M5 MOBILE ROUTER (MR5200) – Product Page

My Comments

Telstra has become the first telco in the world to offer a “Mi-Fi” mobile-broadband router that supports both 5G mobile broadband across all bands including mmWave on the Internet side and Wi-Fi 6 connectivity on the LAN side. This was offered when they initially launched their 5G mobile broadband service and this kind of coverage was important for Australian use where 5G services are likely to be deployed in sparsely-populated regional and rural areas.

AT&T now is offering to the general American public a Mi-Fi device that works on the full 5G waveband for its Internet connection side, and Wi-Fi 6 for its local network side. Here, that covers the lower frequencies of the 5G waveband along with the higher frequencies associated with mmWave coverage.

They previously offered a 5G Mi-Fi device but this was offered to a very limited customer base. Also Verizon offers a similar device with 5G and Wi-Fi 6 but their device only works the mmWave bands rather than the whole of the 5G band.

In addition, the Netgear Nighthawk 5G Mobile Hotspot Pro, also known as the MR5200,  that AT&T offers has an Ethernet LAN connection for use with printers, network-attached storage devices, desktop computers and smart TVs. It has USB-C connectivity, most likely for power and data (5G modem) functionality.

The Netgear Nighthawk 5G Mobile Hotspot Pro is fit for purpose with American emergency service thanks to its ability to work with FirstNet, which is AT&T’s LTE emergency-services communications network,

This device is expected to cost US$510 upfront or US$17 / month over 30 months before service costs. As well, AT&T are offering data service plans for this device with you paying US$60 per month for a 15Gb monthly data allowance or US$85 per month for 35Gb.

Their overage fee is US$10 for every 2Gb over your plan’s limit and, at the moment, they don’t have a “throttled bandwidth” option available for their plans in lieu of that. That will limit AT&T’s 5G mobile-broadband service’s role to a secondary or temporary Internet service. It is symptomatic of an American telecommunications and Internet-service that has become highly concentrated over the last five years with it heading slowly back to the “Ma Bell” days.

AT&T is rolling out 5G mobile-broadband coverage over most of the key cities in the USA that matter with this coverage increasing at the moment.

But AT&T’s Netgear Nighthawk 5G Mobile Hotspot Pro is one of the first devices of this kind offered to a dense Northern-Hemisphere country that ticks all the boxes for the latest wireless mobile-communications technologies. That is to provide 5G mobile broadband across the low frequency bands and high-frequency mmWave bands and supply this data across a Wi-Fi 6 LAN.

It is showing that mobile-telephony carriers are fronting up with Mi-Fi devices that work the 5G mobile broadband and WI-Fi 6 standards, leading to some very capable devices and services.

Article

Telstra now have a mmWave-capable 5G hotspot | PC World

From the horse’s mouth

Telstra

Telstra 5G Wi-Fi Pro router

Press Release

Product Page – has latest pricing and mobile-broadband service contracts

5G mmWave Mobile Broadband Technology

White Paper

My Comments

Telstra has fronted up with their latest premium portable mobile broadband router for the 5G mobile-broadband infrastructure. But this “Mi-Fi” known as the Telstra 5G Wi-Fi Pro ticks all the boxes as far as being future-proof is concerned.

Here, on the WAN (Internet) side, this device supports 5G with mmWave technology while on the LAN (local network) side, it works on the latest Wi-Fi 6 standard for 2.4GHz and 5GHz bands thus bringing your mobile network up to date with the latest standards.Of course it can work with existing 4G LTE networks and exploits what Telstra has to offer in this context.  This has a 4500mAh battery that can be removed and can run for nine hours providing full data transfer. It can be charged via a USB-C connection according to the QC 3.0 protocol and the open-frame Power Delivery 2.0 protocol, meaning you can charge it with your brand-new Ultrabook’s charger or run it for a long time using a USB-C PD powerbank.

The Telstra 5G Wi-Fi Pro costs AUD$599 straight up. Or you could buy this device on a post-paid Telstra service plan for AUD$24.95 / month on 24-month plan plus mobile data plan the cost of the mobile-broadband data service.

What is this mmWave 5G mobile broadband all about?

The mmWave 5G mobile broadband technology is an extremely-high-frequency variant of 5G mobile broadband technology which works between 24GHz to 100GHz. Telstra’s initial trial run of this technology at Gold Coast worked on 26GHz. The same technology has been sued with various fixed point-to-point wireless links and satellite-Internet services but is use as a mobile broadband technology is what is being identified here.

Due to the very short wavelength, mmWave 5G technology will have a short operating range of a few hundred metres from the base station. This means that to cover a significant area, the service provider will need to install many “femtocell” base stations across the area and they will typically operate at a signal strength similar to a Wi-Fi access point or router. It means that the electromagnetic energy levels are 1000 times below the maximum energy level expected for safe operation.

Therefore mmWave 5G technology is pitched for operating environments where there is a high concentration of users so as to avoid “loading” very few base stations with many users, thus denying the users adequate bandwidth. This is a situation most of us will have experienced when attempting to benefit from an Internet resource on our mobile devices while on a packed commuter train.

Here, you will see this technology be used at busy public-transport interchanges including airports; event venues like convention centres or sports stadiums; or shopping centres. You may even find it being used in high-rise residential, commercial and hotel developments where there is expected to be many people within the development.

At the moment, Telstra has to license the necessary spectrum in order to set up a mmWave 5G service and will need to see other devices come on board prepared for this technology.

mmWave 5G mobile broadband will simply be pressed in to service as a complementary technology to the existing 5G mobile broadband technologies. In this case it is about highly-concentrated operating environments with many devices.

Articles

Telstra’s new Wi-Fi 4G modem first to work with LTE-Advanced | PC World Australia

Telstra introduces its next-generation LTE-Advanced 4G hotspot | CNet

My Comments

Telstra have released the latest iteration of their premium “Mi-Fi” device for the 4G mobile-broadband network. This device seems to have “all the fruit” when it comes to the design of these devices such as a colour touchscreen as its on-device interface as well as the use of the dual-band Wi-Fi technology for its LAN side.

But it is also the first to exploit the newer “LTE-Advanced” technology which Telstra are trialling up in the Sunshine Coast in Queensland. This implements the use of both the 900MHz and 1800MHz wavebands and bonds the output of two “cells” together to create a “fatter” WAN pipe this increasing the bandwidth available, much in a similar way to how the MIMO functionality on the 802.11n Wi-Fi networks and HomePlug AV powerline networks work.

This device has been built by Netgear since it took over Sierra Wireless who made most of the previous USB wireless-broadband modems and “Mi-Fi” hotspots that are in circulation like the currently-issued device that Telstra is running as their premium “Mi-Fi” option.

As for battery runtime, the supplied 2500mAh battery can run for 10 hours. But I am not sure if this device will offer more than the typical “Mi-Fi” functionality like mobile NAS functionality. Telstra are intending to run it at a similar cost to the existing premium Mi-Fi device i.e. for AUD$6 per month on a AUD$50 per month 24-month contract with 8Gb data allowance. I am not sure if they will offer this as a shared plan where many mobile-broadband devices like a smartphone and a “Mi-Fi” can share the same allowance pool.

Article – From the horse’s mouth

Netcomm

NTC-30WV-02 – Marine WiFi Router : NetComm Wireless (Product Page)

My Comments

You have that narrowboat, houseboat or large cabin cruiser that has effectively become your home away from home. In some cases, you may be spending a lot of your retirement years on this boat. But what about your Internet connection?

Netcomm have answered this need with their NTC-30WV-02 which is a “Mi-Fi” router that is optimised for the marine life in freshwater and saltwater. It works with most 3G wireless broadband services which will cover most inland freshwater and 60km off the Australian coast. That figure may be accurate for the East of Australia and similar coastlines that have many towns and cities and use the 800Mhz and 950Mbz spectrum for 3G wireless broadband.

For the LAN side of the equation, it uses 802.11n dual-stream MIMO for the Wi-Fi segment and 10/100BaseT Ethernet as its wired segment. This is being pitched not just for smartphones, tablets and laptops but also for network-capable navigation devices that will start to exist on the bridge of many pleasure craft.

Both sides of the equation are serviced by proper user-replaceable dipole aerials (antennas) which have a greater chance of yielding better 3G and Wi-Fi performance than the typical “Mi-Fi” router with its integrated aerials. It also could mean that a boatie could install stronger 3G aerials on this 3G router to satisfy more reliable performance when the anchors are up or they decide to

The same device also has a socket where you can connect a standard telephone handset or analogue / DECT cordless base station so you use the 3G connection to make and take calls on the boat. This can make things “sound normal” if you want to contact someone on land or they want to contact you out on the water because of the mobile number associated with the SIM card associated with your service.

This modem would come in to its own with “shared” and “family” data plans that cover multiple devices and use a large data allowance. But it can come in handy with “high-end” data and mobile plans that have higher data capacity if this is your sole connection like, for example, a retiree who lives out on the water.

The device can connect to a 12VDC 580mA (peak-demand) power supply which would apply to most of the “live-in” boats.

What I would like to see for this device is some support for WPS-PBC connectivity such as a membrane switch or terminal block so one can add on a “WPS PBC connect” button. Here, this can provide the quick wireless-network enrolment for devices and software that support it like Windows 7/8 computers, Android phones and most consumer electronics.

Similarly, this unit could be in a good position to support the new Wi-Fi PassPoint standards for hotspot login especially on the WAN side. Here, this function, along with a “range extender” or Wi-Fi to Wi-Fi routing function would team up well with the increasing number of marinas that are offering complementary Wi-Fi hotspot service as a service to the boaties who moor there. These features could cut out the extra hassle required with logging in to the Internet service whenever they arrive and tie up; and could allow for seamless cost-saving handover between Internet services.

Who know what this device and others like it could offer to the pleasure-boating community who work the coastline or inland waterways of many different countries in their vessels.

Article

BMW’s Car Hotspot LTE means Bavarian Motor WiFi

BMW promeut une mini borne Wi-Fi connectée en 4G dans ses voitures | 01net.com (France – French language)

My Comments

The concept of the in-vehicle Wi-Fi network has been examined as an infotainment option by both the vehicle manufacturers and the aftermarket infotainment scene, with system like Chrysler’s AutoNET being used as examples of this application.

But BMW have put up an LTE 4G MiFi router as an accessory for their newer vehicles that are sold in Europe. Here, this unit docks in to the centre console of the vehicle and uses direct connection to the vehicle’s power supply and aerial. The aerial is used for the LTE signals so as to provide that improved performance.

As I have always said, this could yield a lot for the connected vehicle. For example, the fact that devices like the Chrysler AutoNET and the BMW router integrating with the vehicle could allow for access to Internet resources by the infotainment system. This could lead to always-updated maps or business directories accessible through the navigation function or access to podcasts and Internet radio from the car audio system.

A question that still needs to be raised as far as in-vehicle Internet is concerned is interlinking with the home network when the vehicle is at home or in the scope of a trusted network like a friend’s or workplace’s network. This could lead to thinks like syncing or sharing of media between the vehicle (equipped with a hard drive) and these networks or large-scale map or feature updates occurring overnight at a cheaper service cost via the home network.

Articles

AT&T’s new MiFi Liberate is LTE-capable, ‘world’s first’ with touchscreen display – Engadget

AT&T Shoved a Touchscreen in Its Latest LTE MiFi Hotspot Because, Hey, Why Not! | Gizmodo

AT&T’s MiFi Liberate LTE is first touch-screen hot spot | CNet

From the horse’s mouth

AT&T – Press Release

My Comments

AT&T have released a new “MiFi” router for 4G wireless broadband networks in the form of the AT&T-Novatel MiFi Liberate. Here, this device is not your “father’s old station wagon”.

The device borrows the P-shaped design cues from the Apple Magic Trackpad and some door-handles rather than Microsoft’s newer input devices. Users can manage their connection using a colour LCD touchscreen rather than the typical Web user interface and, in some cases, a monochrome LCD or OLED display.

It can connect up to 10 concurrent Wi-Fi devices to the 4G LTE wireless-broadband connection and can do this for 11 hours on its own battery. What also impresses me about this MiFi is that it, like a few recent AT&T MiFis, has the ability to share files off a microSD card, including the ability to share media to UPnP AV / DLNA devices like Internet radios. This function could be taken further if the MiFi could mount microSDXC cards of 64-128Gb capacity.

At the moment it’s only through AT&T but I would like to see more carries who run LTE-compliant 4G networks offer this device in their 3G wireless router lineup. The firmware that all of the carriers who run with this device should support all of the functions including the file-sharing / DLNA functionality.

Now we come to the issue of network-infrastructure equipment that will need to support the increasing demands placed on the home network by the previously-mentioned smartphones, tablet computers and Internet-enabled TVs.

Network Infrastructure

Network Connectivity

Some newer chipsets have appeared which will increase network bandwidth for the 802.11n Wi-Fi segment and the HomePlug AV segment. The current implementations may use manufacturer-specific implementations which won’t bode well with the standards.

The first new “call” is the 450Mbps 802.11n WPA2 WPS Wi-Fi segment which is being provided by most network makes for their midrange routers and access points. Access points and routers that work with this specification use three 802.11n radio streams to maintain the high throughput. The full bandwidth may be achieved if the client device is equipped with an 802.11n wireless network adaptor that supports the three streams but your existing devices may benefit due to reduced contention for the wireless bandwidth due to the access point / router offering three streams.

Most of the routers shown at the Consumer Electronics Show this year that support the 3-stream 450Mbps level for the 802.11n wireless network functionality also offered dual-band dual-radio operation to the same specification. Here, these devices could work on both the 2.4GHz band and the 5GHz band at this level of performance.

Some manufacturers were trying out the idea of a 60GHz high-bandwidth media network which may be based on a Wi-Fi (802.11 technology) or other proprietary scheme. This could lead to three-band multimedia routers and access points that use 2.4GHz and 5GHz for regular whole-home wireless networking and 60GHz for same-room wireless networking.

The second new “call” is the 500Mbps throughput being made available on high-end HomePlug AV devices. These powerline network devices may only achieve the high bandwidth on a segment consisting of the high-bandwidth devices that are based on the same chipset. Here, I would wait for the HomePlug AV2 standard to be fully ratified before you chase the 500Mbps bandwidth on your HomePlug segment. Of course, these devices can work with HomePlug AV segments.

The third new call is for midrange high-throughput routers to have Gigabit on the WAN (Internet) port as well as the LAN ports. This is more relevant nowadays as fibre-based next-generation broadband services are rolled out in most countries.

Everyone who exhibited network-infrastructure equipment offered at least one 450Mbps dual-band dual-radio router with Gigabit Ethernet on the WAN (Internet) connection as well as the wired-LAN connection. As well, most of these routers are equipped with circuitry that supports QoS when streaming media and some of them have a USB file-server function which can also provide media files to the DLNA Home Media Network.

Trendnet also offered an access point and a wireless client bridge that worked to this new level of 802.11n performance. They also demonstrated power-saving circuitry for Wi-Fi client devices which throttles back transmission power if the device is in the presence of a strong access point signal for their network. This was ostensibly to be “green” when it comes to AC-powered devices but would yield more real benefit for devices that have to run on battery power.

They also ran with the TPL-410AP which is a HomePlug AV Wireless-N multi-function access point. Another of those HomePlug access points that can “fill in the gap” on a wireless network or extend the Wi-Fi network out to the garage, barn or old caravan.

They also issued the TEW-656BRG 3G Mobile Wireless N Router, which is an 802.11n “MiFi router” that is powered by USB and works with most 3G / 4G modem sticks available in the USA. It is of a small design that allows it to be clipped on to a laptop’s lid or a small LCD monitor.

TP-Link had their 450Mbps three-stream dual-band dual-radio router with Gigabit on bot WAN and LAN Ethernet connections. As well they fielded a single-stream 150Mbps USB stick as the TL-WNT23N.

They also tried their hand with IP surveillance with the TL-SC4171G camera . This camera can do remote pan-tilt, and 10x digital zoom. It connects to the network via Ethernet or 802.11g Wi-Fi (not that much chop nowadays) and is equipped with an IR ring for night capture, as well as a microphone and speaker.

Netgear were more active with the 450Mbps three-stream routers with Gigabit LAN. Two of the models are broadband routers with Gigabit WAN, while one is an ADSL2 modem router which I think would serve the European and Australian markets more easily. The top-end model of the series has a USB file server function which works with the DLNA Home Media Network and also with Tivo “personal-TV devices”.

They also released the XAV5004 HomePlug AV switch which is the 500Mbps version of the their earlier “home-theatre” four-port HomePlug switch. Of course, they released the XAV2001 which is a compact “homeplug” adaptor which connects to the regular standards-based HomePlug AV segment.

They also have released the MBR1000 Mobile Broadband Router which works with 3G/4G wireless broadband or  Ethernet broadband. This unit is being provided “tuNrnkey” for Verizon’s new 4G LTE service.

Netgear have also fielded the VEVG3700 VDSL2/Gigabit Ethernet dual-WAN router with Gigabit Ethernet LAN, Cat-IQ DECT VoIP phone base station. This device, which is pitched at triple-play service providers also supports DLNA server functionality. As well, they also had a DECT VoIP kit available for these providers

As well, Netgear have tried their footsteps in to IP-surveillance for home and small business with a camera and an Android-driven screen for this purpose.

D-Link’s network hardware range include the three-stream 450Mbps routers with Gigabit WAN/LAN, a multifunction access point / repeater for the 802.11n network as well as a new DLNA-enabled network-attached storage range

As far as the MoCA TV-coaxial-cable network is concerned, Channel Master is the only company to release any network hardware for this “no-new-wires” network. It is in the form of a MoCA-Ethernet 4-port switch for the home theatre.

“Mi-Fi” wireless-broadband routers

Every one of the US cellular-telecommunications carriers are catching on to the 4G bandwagon not just with the smartphones and tablets but with the wireless-broadband routers.

Sprint have a unit for their WiMAX service while Verizon are fielding a Samsung LTE “Mi-Fi” as well as the aforementioned Netgear MBR1000 router.

Computer hardware and software

Monitors

Some of the companies who manufacture monitors are looking at the idea of “Internet-connected” monitors which have a basic Web browser in them so you don’t have to fire up a computer to view the Web.

CPU/GPU combo chips

These new processor chips combine a CPU which is a computer’s “brain” as well as the graphics processor which “draws” the user interface on to the screen. AMD and Intel were premiering the “Accelerated Processor Units” and the Core “Sandy Bridge” prcessors respectively at the CES this year.

Intel were trumpeting the fact that this technology could make it harder to pirate movie content but this is more about mainstream computing and small-form-factor hardware being behind this space and power saving processor hardware.

Sony had lodged a commitment to AMD to use the Zacate “Accelerated Processor Unit” in some of their VAIO laptops.

Other hardware

AMD haven’t forgotten the “performance computing” segment when it comes to processor chips and released the quad-core and 6-core “Phenom” desktop and gaming-rig CPUs.

Seagate have also made the “GoFlex” removable / dockable hard disks a standard by building alliances with third-parties to make hardware that works to this standard. Could this be another “VHS-style” alliance for dockable hard disks?

Microsoft also used this show to premiere their Touch Mouse which uses that same touch operation method as Apple’s Magic Mouse. Do I see an attempt for them to “snap at” Apple when it comes to “cool hardware” as well as software?

The Microsoft Platform

There has been some activity with the Microsoft Windows platforms now that set-top boxes and tablet computers are becoming the “order of the day”

One direction Microsoft is taking is to port the Windows Platform, which was primarily written for Intel-Architecture processors, to the Acorn ARM-architecture processors. The reason that this port is taking place is due to these energy-efficient RISC processors being commonly used in battery-driven applications like tablet computers. They are also popular with other dedicated multimedia devices like set-top boxes and TV applications.

As well, Microsoft will be working on a lightweight Windows build for TV applications like set-top boxes. This is although they have previously written Windows-CE builds for this class of device.

Microsoft also want to make a variant of the Windows Phone 7 for tablet computers and are starting work on the Windows 8 project.

Similarly, Somsung has demonstrated the second incarnation of the Microsoft Surface platform This one comes in a slimmer table-based form rather than a unit that is as thick as the 1980s-style “cocktail-table” arcade game machine.

Conclusion

The Consumer Electronics Show 2011 has certainly put the connected home on the map. This is due to affordable smartphones and tablet computers becoming more ubiquitous and Internet-provided video services becoming an increasing part of American home life.

It will be interesting to see what will happen for the other “pillar” of the consumer-electronics trade fair cycle – the Internationaler Funkaustellung; and how more prevalent the Internet TV, smartphone and tablet computer lifestyle will be in Europe and Asia.