How-To MyBro DV-235T Green Packet Firmware Upgrade

First of all I would like to thanks Joker a friend from Visayas the person who donated me this myBro 4G WiMAX wireless modem router which is equip with WLAN unlike the Huawei CPEs that don't have. The "myBro wireless home broadband Dito tayo @ home" is the new product of   SmartBro that has been reBranded to myBro and uses Green Packet of Malaysia CPEs such as DV235T for indoor unit, OX230 for outdoor unit and the U series shuttle UH235 MiFi  portable modem.

If you have subscribed the promo of My Bro Abot Kaya 499 from PLDT and Smart recently then you probably will be so lucky and you will have also this device the myBro DV235T on your desk now. But unfortunately if you wanted to tweak this 4G wireless modem make some changes on the configuration such as port forwarding or fun of torrenting that needs administrator rights then you will be in trouble because the firmware is customized by Smart ISP. Inshort all subscriber of the Smart Telcos has limited access to their 4G WiMAX wireless broadband modem. You have to used the myBro DV235T as it is because no one ever leak the root username password or the admin username password, the only alternative is to upgrade this CPE with the Green Packet firmware v2.10.14-g1.0.4-gp to gain the administrative privileges.

So here's how-to Do-It-Yourself, first open any web browser and point to http://192.168.15.1 which is the default web graphical user interface (gui) IP address. Login with the default username and password as "smart" without quote.

After you have login navigate to the Menu Management then click the sub-menu Upgrade browse or locate were the Green Packet firmware you have saved and upload it on to the myBro DV235T CPE.

Upon clicking the Upload button the myBro Green Packet DV235T will show up a progress bar it will indicate that the firmware is being written wait until it finish. The CPE will reboot automatically in 60 seconds you will be prompted again with login page.

You will notice now the login page is no longer the myBro logo instead it is the greenpacket already which is the factory default firmware, another this is the default IP address for the web gui its http://10.1.1.254 and no longer http://192.158.15.1 so if set your PC as static IP address you must change it to DHCP otherwise you will be able to access the DV235T.

To be able to login the Green Packet DV235T after upgrading the firmware, the username and password is still "smart" as of the moment since we didn't save it yet permanently to the NAND flash memory Hynix H27U1G8F2BTR. Next navigate to Management menu, go to Recovery sub-menu and then  click Factory Default to make the firmware changes permanently.

The modem will then reboot automatically in 60 seconds again, you can now login with the default username and password as "admin" likewise when using the command line interface (cli) via telnet or ssh. The changes of tweaking the the myBro DV235T is now 101% possible, not only that even changing the MAC address of this CPE is even more applicable. Additionally you will now have the full access and full control of your 4G WiMAX wireless modem router with limitless privileges.

If you have you this kind of 4G WiMAX CPE in you and have doubt or hesitant to do so, feel free to comment just leave your message I will answer your queries. Enjoy!

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MyBro : How-To Change MAC Green Packet DV-235T

We all know that the new product of SmartBro the "MyBro Abot Kaya Broadband" 4G WIMAX is a super secured customized firmware by Smart/PLDT ISP as of today. Saying that so its not insecured because many of us has already have tried navigating it graphical interface (gui) including the telnet portion with used of "smart" username and password account but end up with limited privileged, some of the menus are missing likewise on the command line interface (cli) if your wireless modem device is already updated with the firmware v2.10.14-g1.0.6-smart over the air (OTA) then the chances on tweaking your MyBro CPE is none of the above.

In this section, the oldest released of MyBro 4G WiMAX DV-235T that the firmware has not been updated OTA is firmware version v2.8.7.2-154 if you have this kind of CPE customized firmware by Smart/PLDT then you are all the way to be able to change the WAN MAC address of your Green Packet DV235T.

So here's the DIY on how-to change the MAC address of MyBro 4G WiMAX Green Packet DV-235T.

First, if you are not at eased with telnet utility then you can use Putty as an alternative to it you can download from here. Extract anywhere on your desktop, then login to the Web gui default address http://192.168.0.254 with the username and password as "admin".

Check the Network Status, take note of your current WAN MAC address in case you want to put it back just save it on a notepad. Next is open the Putty utility via SSH or Telnet the option is yours with the default IP address 192.168.0.254.

Login as "admin" for the username and password its same with the web gui account.

The next thing we do is use these following commands orderly to change the WAN MAC address successfully.

enable

router

wan mac
commit
exit
wimax
wmx freq add 2505000 10
wmx freq add 2507500 10
wmx freq add 2510000 10
wmx freq add 2602000 10
wmx freq add 2612000 10
wmx freq add 2622000 10
wmx freq add 2638000 10
commit
wmx widescan add 2505000 2639000 1000 10
commit
exit
reboot

From the screenshot above we have just successfully change the WAN MAC address of MyBro 4G WiMAX Green Packet DV-235T likewise the allotted working frequency of the wireless broadband modem. Please wait the CPE will reboot, login again verify that your MyBro DV235T WAN MAC address now has totally changed.

The MyBro firmware version v2.8.7.2-154 is very rare to find since all CPEs are being updated thru TR069 over the air (OTA) by the Smart/PLDT system the chances to get this firmware is very reluctant because the person who have this don't want to leak or seed it to any forum (their business). Its not totally a hopeless for us since there is already an alternative of doing this, there is another Green Packet firmware its a stock firmware you can upload the firmware via web gui if you do not have the NAND flash programmer or write it directly with the TSOP48 socket with any alternative NAND flasher.

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Dissecting MyBro 4G WiMAX Green Packet DV-235T

I have been wishing to really have on my desk bench the MyBro 4G WiMAX  aka Green Packet DV-235T until then a friend whom I only knew from this blog commenter with the extend of Facebook a guy from Visayas, we chatted rarely and not that much telling about if he has the new SmartBro product whom the Telcos always promoting the "Abot Kaya MyBro" asking him if he has a disconnected device that I wanted to dissect and experiment it. Thankfully few weeks later he offered his disconnected Mybro and donated it to me send via LBC express. Luckily the CPE arrived not long ago that is why I am having it today and posting this screenshots taken by my nephew with his iPhone 5S, I was unfortunate to take the shoots with my Canon Rebel T3 that was included the last September 09 fire crisis here in our beloved City of Flowers.

By the way if you wanted to remove the cover or open up the casing of your MyBro 4G WiMAX wireless modem router Green Packet DV235T, first of all you have to lift the sticker on the left side of it that has named  "my Bro dito na tayo @ home" there are four (4) crossheaded screws for you to be able to see the internal hardware of the CPE worry not because there is no absolutely locks.

On the left photo, here you will see that there is internal antenna for WiFi because of the antenna socket, also equip with bg 802.1 only. The above heatsink that you can see is for the transceiver it has 2Tx 2Rx aka MiMo for thermal dissipation. The MediaTek CPU MT7901 series is protected and covered by metal likewise the wireless LAN section including the system memory. Obviously downside you there is a 12pin header for the console you can also use this for JTAGging the device for special purposes like downloading and uploading the customized firmware by the ISPs.

From the right photo, there are two (2) antenna socket for WiMAX signal its MiMO aka 2Tx 2Rx, the metal covered section is the RF. You can see also the NAND Flash memory of DV235T its 48pin SMD Chips. Next is the power socket it uses 12V 1.5Amp, 1 port of RJ45 for LAN and 1 port of RJ11 for VoIP to be use for analog or traditional telephone aka POTS.

As you can see on the above screenshot its Hynix H27U1G8F2BTR a 1GB NAND Flash memory Chips were the firmware of Mybro DV-235T stored. The IC is a TSOP48 package similar to BM622m and BM623 device made by Huawei only NAND flash memory programmer can read, erase, write or reflashed this SMD Chips. Unfortunately my Minipro TL866CS will not support this type of flash memory although I have TSOP48 IC socket that will fits onto it. Perhaps the Arduino via Linux the firmware can be dump with further research.

Hopefully soon I will be posting the dumpfile of Hynix H27U1G8F2BTR for my guest and blog readers/commenters to be downloaded and examine the possibility to snipped the Administrator account or the root password instead of username and password as "smart" only.

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SmartBro : How-To Setup Wireless Router with MyBro Green Packet OX230

I intend to write this article to help my guest blog reader/s and commenter/s to help them setup their SmartBro 4G WiMAX wireless broadband internet connection to extend wirelessly. The new product of SmartBro that is being reBranded to MyBro that uses Green Packet Technology from Malaysia CPEs such as DV235T for indoor and OX230 for outdoor unit with license frequency 2.3GHz. Whereas SmartBro Motorola Canopy antenna is a fixed wireless broadband internet connection obtain license frequency 5.7GHz LOS that soon to end of its life by Smart Telcos.

The OX230 is an outdoor unit built-in with antenna similar to Motorola Canopy except it is a 4G WiMAX wireless modem also serves as a router but lack of wireless LAN aka WiFi. It is not equip with VoIP port so there is no way of plugging in your POTS unlike the Huawei 4G WiMAX devices. It has only one (1) RJ45 port where you can plug your PC/Lappy likewise where the power inline to the cable with the use of PoE, this device that can be extended up to  90-100meters as long as there is conduit.

Here we go, the above screenshot of my battery operated portable wireless router  from TP-Link MR3040 it has a Standard AP (access point) this is the simplest aka Plug&Play, the easiest way to extend the MyBro OX230 with headache. If you don not have this kind of device that is capable as Standard AP then do not bother. Will take what is available in our garage, CD-R King WR-NET-018-CC this is the cheapest wireless router that we Pinoy loves to buy.

The second screenshot is CD-R King WR-NET-018-CC similar to the TP-Link they are both a wireless router, MR3040 has four operation mode while the WR-NET-018-CC don't have the other capabilities as the first one have more features.

What we do to make the  CD-R King WR-NET-018-CC act just like the Standard AP (MR3040), first we will be going to disable the DHCP Server mode likewise its no longer serves as a router but as a Standard Wireless Access Point only. Now we are going to plug the MyBro OX230 to any LAN port from 1-4 instead onto the WAN port. Automatically the CPE OX230 now will serves as the DHCP server any device will connect to CD-R King it will gives an IP address from 192.168.15.2 to 254.

On the other hand, if you wan to make the CD-R King WR-NET-018-CC (or any wireless router) act as wireless router AP that will works also with MyBro Green Packet OX230 still its possible. First you have to enable the DHCP Server mode, then plug the OX230 to WAN port. The Cons is that since OX230 has an IP address of 192.168.15.1/24 or has 253 host it will consume time routing the packets. Second on the other part of CD-R King wireless router that has also another IP address of 192.168.10.1/24 likewise has 253 host it will another consume additonal routing to the packets will prolong.

If you have any comment about your MyBro Abot Kaya internet having the same issue on extending your connection wirelessly feel free to leave message.

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Huawei BM622 BlankWAN Infinity 2013

Today a friend of a friend of mine came to my house bringing me three (3) units of Huawei BM622 4G WiMAX wireless modem telling me that he wanted to let me repair his 3 CPE's which is defective. I took one of the modem plug the AC/DC power adapter then turn ON the power button as its finish the system initializing the 3 WiMAX LED indicator still ON obviously the device is already BlankWAN.

To confirm it I plugged the  Cat5 cable to the PC likewise to the modem port, the GUI (graphical user interface) is accessible with default username and password such as user and admin I can navigate all the menu and configure the settings but the WAN MAC is totally Blank.

I immediately removed all 4 screws and open it, get my SMD Aeulos 850C hot air and removed the STMicro M25P32 SPI flash memory I know this is just an easy task just read, erase, check if blank and upload the firmware reprogram/reflashed that's it, then plugged again the Chips done. I was surprised since I have a spare of ten (10) M25P32 SPI Flash memory I have tested it to the BM622 all it appears to be empty at all, it all happen to be BlankWAN the ten Chips on the said defective 4G WiMAX modem.

I also took the other second Huawei BM622 modem and do same process hoping that this is different from the first one, I have come out with the conclusion to be the same including the third BM622 brought by the friend of my friend.

With further experimentation to pinpoint where really the error that cause the STMicro M25P32 to be empty or totally causing to be "BlankWAN Infinity" upon plugging the Chips on the CPE, I have one unit that is fully working and shifted the the two Chips the flash memory S29GL064 and M25P32 to the defective unit the result gives me the same BlankWAN. 

On the other hand, last experiment I did is that I took the S29GL064 from the defective and plugged this Chips to the good working BM622  the result of my test did not give me BlankWAN. Inshort, the thing that causing the "BlankWAN Inifinity" is the SoC (system on chips) its not on the two flash memory e.i. the Spansion S29GL064/STMirco M29W640 and M25P32.

For this solution, I am still collecting some information that will help this BlankWAN Infinity problem to be solve.

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CIDG arrested 3 Wimax modem modifiers in Bacolod

Wednesday, October 10 ’13 – Criminal Investigation and Detection Group (CIDG) has conducted an entrapment operation in Bacolod City named as ““Oplan Salikup” where three men were arrested.

CIDG led by Chief Insp. Fernando Salvatierra identified the suspects as according to PhilippinesToday, Martian Sibuja, 18; Charles Andrew Chang, 23; and Reynal Bisuena, 23, all living in the City.

The entrapment operation followed after Jojo Viray, head of Security Operations of Globe Telecom-Visayas filed complaints against the suspects.

According to Viray, the suspects were selling Globe Wi-max modems online without the authority of the telecom company.

Viray further said the suspects are guilty of “hacking and cloning,” selling the units at P5,000 each.

Seized from the Wimax modem hackers were four internet modems, three pieces LAN (local area network cable), and three pieces adaptors.

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Huawei BM622m Best NAND Flasher Programmer

As we all know the new BM622m is the replacement of the legacy Huawei Echolife BM622 and BM622i 4G WiMAX wireless broadband modem router. This new device have more advantages than those two old model wireless residential gateway. Taking a look on the hardware of the BM622m it is equip with a NAND flash memory HYNIX HY27US08561A  using TSOP48 package unlike BM622 built with NOR flash memory such as Spansion S29GL064 or STMicro M29W640 likewise same 48pins. 

The hardest part of BM622m is the reverse engineering, if you wanted to dump the flash memory into a raw file of this CPE its not as easy as that of BM622 and BM622i unit were MiniPro TL866CS programmer won't support for dumping it.

One of the best NAND programmer I have found on the net is the Flash Doctor, in contrast to MiniPro TL866CS  programmer that support more than 11 thousand of Chips except for NAND flash memory.

Flash Doctor supports all NAND-based flash storage devices (SD, SM, MMC, XD, USB Pendrive, MemoryStick, CompactFlash etc.), with damaged controller or any other front ends (PCB, etc.) since Flash Data Recovery Doctor needs to work on the flash memory only when users carry out Flash Data Recovery.

Hopefully this article will help my avid reader and commenter who has been longing for their BM622m to dump the firmware to be able for them to downgrade their WiMAX CPE.

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Legacy Huawei Echolife BM622 4G WiMAX Modem Router Endless Life

The Huawei Echolife BM622 4G WiMAX broadband modem router is a legacy wireless residential gateway CPE manufactured by Huawei Technologies for Globe Telecom ISP in the Philippines.  The BM622 device is still popular until to date although this device has been already ended its life by the makers likewise the supplier has no longer issuing for their new user on internet wireless broadband subscriber.

It is astonishing for this legacy CPE the BM622 without any technical support by the Huawei Technologies and likewise the Globe Telecom ISP it can still be up and running. As a repairman like me I have reviewed this bulky 4G WiMAX broadband wireless modem router that even for a less techie person this equipment is handful to be fix, servicing this unit is not as difficult if compared to other SOHO gateways.

In addition to that, there are so many pdf and html file format tutorial that can be download with help of Google search engine to locate this manual. Forumers also did their part making step-by-step guide on how-to fix/repair this device, not only that but they have also provide a chat for interaction such Facebook on how-to Do-It-Yourself (DIY) for the homemade hardware flasher kit.

Even myself I have contributed the cross-reference Chips/IC for easy substitution of none local availability of ST Micro M25P32 4Mbit Serial Flash Memory likewise for the Spansion S29GL064 64Mbit NOR Flash Memory of this legacy residential wireless broadband modem router.

4G WiMAX CPE / Huawei Echolife BM622 Cross Reference 64Mbit Parallel Flash Memory Substitution
Manufacturer	Part Number
AMD	AM29LV64XD	link1 link2 link3 link4
AMIC	A29L640	link1 link2 link3 link4
Atmel	AT49BV642D	link1 link2 link3 link4
EON	EN29GL064A, EN29LV640A, EN29LV640H/L, EN29LV640T/B, EN29PL064, ES29LV640	link1 link2 link3 link4
FUJITSU	MBM29DL640E	link1 link2 link3 link4
Macronix	MX29GL640E, MX29LV640D, MX29LV640E	link1 link2 link3 link4
Micron	JR28F064M29EW, JS28F064M29EW, PC28F064M29EW, PZ28F064M29EW, M29DW640F, M29DW641F, M29W064F, M29W640F, M29W640G	link1 link2 link3 link4
Samsung	K8D6316UTM/K8D6316UBM, K8P6415UQB, K8P6515UQB	link1 link2 link3 link4
Spansion	S29GL064	link1 link2 link3 link4
SST	SST38VF6401/2/3/4, SST39VF6401B/2B	link1 link2 link3 link4
Winbond	W29GL064C	link1 link2 link3 link4
4G WiMAX CPE / Huawei Echolife BM622 Cross Reference 32Mbit Serial Flash Memory Substitution
Manufacturer	Part Number	link1 link2 link3 link4
AMIC	A25L032, A25LQ032, A25LQ032A	link1 link2 link3 link4
Atmel	AT25DF321, AT25DF321A, AT25DQ321A	link1 link2 link3 link4
EON	EN25B32, EN25F32, EN25P32, EN25QH32	link1 link2 link3 link4
ESMT	F25L32PA, F25L32QA	link1 link2 link3 link4
GigaDevice	GD25Q32, GD25Q32B	link1 link2 link3 link4
Macronix	MX25L3205D, MX25L3206E, MX25L3225D, MX25L3235D, MX25L3235E, MX25L3236D, MX25L3237D, MX25L3237E,	link1 link2 link3 link4
Micron	M25P32, M25PX32, N25Q032,	link1 link2 link3 link4
Spansion	S25FL032P	link1 link2 link3 link4
SST	SST25VF032B, SST26VF032,	link1 link2 link3 link4
Winbond	W25Q32BV, W25Q32FV, W25Q32V, W25X32AV, W25X32BV, W25X32V	link1 link2 link3 link4

Courtesy of SPANSION Cross Reference Guide.

I have concluded that the Huawei Echolife BM622 4G WiMAX broadband wireless modem router will have an endless life as long as the Globe Telecom will provide its network connectivity in the Philippines. There is no doubt that this CPE will have an endless life!  If you have any question regarding about the Huawei Echolife BM622 you can leave your comment I am willing to answer your queries, I can repair it for you my services is available nationwide.

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Undertanding HSPA+ and LTE

We have all marveled at the revolution in mobile communications technology. The 1980′s saw the introduction of the “brick” style wireless mobile phone accessible to a privileged few. Since then, we have seen a lot of shifting trends in designs and capabilities, but an exponential increase in availability and popularity. We now live in a world boasting over 6 billion mobile phone users, with most high-end devices mimicking the capabilities of a computer, featuring dual-core or even quad-core processing capability.

I still recall a time when the primary purpose of a mobile phone was voice communication. Now, with smartphones bursting onto the scene in ever growing numbers, the mobile landscape is changing rapidly. With devices now featuring messaging, social networking connectivity, email and browsing capabilities, and the ability to stream or download high-quality music and videos, making and receiving calls has almost become a secondary feature.

Of course, none of this would be possible without an equally impressive evolution in mobile networking technology. From first generation communication networks to the current 4G craze, these advances have made it incredibly easy for any user to always be connected. Today we will compare the latest networking technologies, namely HSPA+ and LTE, and take a look at what the future holds.

History

Courtesy of Ofcom

First generation mobile networks were basic analog systems designed purely for voice calls. Mobile devices and call rates were very expensive and therefore not available to everybody. The early nineties saw the introduction of the first digital cellular networks. 2G brought with it improved sound quality and a higher capacity, allowing for data services, albeit at very low speeds up to 14.4 kbps. Further advances in this technology introduced GPRS and EDGE features with quicker data speeds between 40kpbs to 100kbps.

This was followed by the 3G revolution. Apart from wide-area voice telephony, it introduced high-speed internet access, far improved audio and video streaming capabilities, support for video calls and conferences, and internet TV. With effective speeds ranging from 128kbps to 384kbps, the advent of 3G completely changed the way people use their mobile phones.

The effective entry of the tablet and increasing dependency on handheld mobile devices led to demand for even faster speeds and connectivity options, leading to a new standard, HSPA+, followed by 4G LTE.

What is HSPA+ and LTE?

HSPA+

HSPA+ or Evolved High Speed Packet Access, is a souped-up version of HSUPA and HSDPA 3G standards with speeds comparable to the newer LTE networks. Theoretical speeds are said to feature download speeds up to 168Mbps and uplink of 22Mbps. These are of course theoretical speeds, with the actual speed available to users being much lower. While most HSPA+ networks around the world boast a theoretical 21Mbps(download) speed, T-Mobile(USA) and Deutsche Telekom(Germany) feature 42Mbps networks. A hotly debated issue is the 4G tag offered by cellular network companies to advertise their HSPA+ networks(T-mobile and AT&T), while most accept that it should be considered, at most, a 3.75G network.

LTE

On the other hand, LTE, or Long Term Evolution, is considered a “true” 4G network. Theoretical speeds boast downlink speeds of 300Mbps and uploads of 75Mbps. LTE, which is an IP-based system, is a complete redesign and simplication of 3G network architecture resulting in a marked reduction in transfer latency. Because of this, LTE is not compatible with 2G and 3G networks and thus, functions on an entirely different wireless spectrum. Unfortunately, this means that erecting an LTE network requires it to be built from the ground up. This is one of the main factors behind the delayed launch of complete 4G LTE networks.

Bottom Line

HSPA+ is the tip of the mountain with 3G technology, and LTE is simply the foundation for a new mountain. LTE, also known as 4G, is the most advanced telecommunications technology currently available, and is one that defines a clear path toward future developments, making it the most attractive choice for carriers these days.

Speed Comparison

Neil Shah

The biggest question consumers have is whether the additional cost of buying an LTE-enabled device and the higher data charges are worth it, compared to the “slower” but relatively cheaper 3G and HSPA+ networks. Let’s take a look.

Under consideration are speed comparisons based on the recently conducted wireless speed tests by PCWorld, of the major network carriers in the US (AT&T, T-Mobile, Verizon, and Sprint). For our purposes, we are going to compare the LTE-based AT&T and Verizon 4G networks, against the 42 Mbps HSPA+ based T-Mobile “4G” network. While Sprint and T-Mobile both aim towards launching their LTE networks soon, as of now, they are based on Wi-Max technology and HSPA+ respectively.

PCWorld, along with their testing partners Novarum, conducted the tests using Ookla’s speed test app in 13 cities across the US including San Francisco, Los Angeles, San Jose, Seattle, Las Vegas, Denver, Dallas, Chicago, New Orleans, New York, Washington D.C., and Boston.

There are a few key points to note from the chart above:

• T-Mobile’s HSPA+42 network performs admirably against, what is supposed to be, far superior LTE networks. The high speeds offered by this network should be more than enough for most users.
• LTE is fast! While HSPA+ is definitely good enough, the LTE networks(in their current state) are 20-30% faster. A big plus for all the speed demons out there.
• Unrelated to the topic, but is anyone as surprised as I am at how poorly Sprint’s Wi-Max network performed?

Granted these results for HSPA+ aren’t standard the world over, with most networks featuring 21Mbps download capabilities. But all these network carriers are planning to upgrade to 42Mbps and even 84 Mbps networks, so HSPA+ still has a lot of potential, and is certainly “good enough” for now.

Coverage

Courtesy of GSA

As you can see from the map above, 4G LTE is certainly the network of the future. With the much faster speeds, higher efficiency, and increased reliability, it is the next logical step in network technology development. There are some key points to note about the map though, which shows that LTE coverage isn’t as “colorful” as it seems:

While a lot of countries are marked “red” indicating countries with commercial LTE services, it is slightly misleading. For example, while India as a whole is marked, only one carrier(Airtel) offers 4G LTE services in only one city(Kolkata) thus far. Of course, plans are in the works to rollout the network eventually, it will take quite a lot of time before complete coverage is achieved.

The above point is true for most countries, with none boasting a full coverage LTE network. Full coverage in some regions will be achieved at the earliest by late-2013 to early-2014, with most others much later.

On the other hand, HSPA+ is more along the lines of a software enhancement that elevates 3G data network performance. Of course, the process isn’t as simple as it sounds, but it is definitely easier than building a completely new LTE supported network. As such, any carrier that has an established 3G network, have upgraded to an HSPA+ network. With over 100 network carriers worldwide featuring HSPA+ networks with most boasting over 80% coverage. To keep up with current LTE speeds, carrier networks are also upgrading the their “slower” 21Mbps networks to 42Mbps or even 84Mbps (theoretical) download speeds.

Cost

As mentioned earlier, the biggest issue with taking advantage of the faster speeds of a 4G LTE network is coverage. Availability is still quite limited but that will of course, get better. What surprised me is the lack of a difference in cost between a carrier’s HSPA+ and LTE networks.

• AT&T and Verizon have standard data rates of $50 for 5GB regardless of whether you have access to 3G, HSPA+, or 4G LTE networks.
• T-Mobile, which currently features a 42Mbps HSPA+ networks, also features the same data rates.
• In India, while available only in Kolkata so far, 4G LTE costs Rs 1399(~$28) for 9GB, with HSPA+ being Rs 1250(~$25) for 10GB.

Of course, I’ve only used the information from two places I’m most familiar with, so there might be other networks worldwide where there is a more evident price difference (or not), so if there are, do let us know in the comments section.

Device availability

HSPA+ and LTE variations of the Samsung Galaxy Nexus

Device availability is another area where I consider LTE to be at a disadvantage. Here’s why:

• Most smartphones and tablets (3G versions) released in the last 2 years or so can access the faster speeds offered by HSPA+ networks.
• On the other hand, accessing a LTE network requires a significant hardware change, i.e. the need for an LTE radio.
• Options for LTE capable devices are comparatively limited and generally range towards the higher end of the price spectrum.
• There has been an incompatibility issue with latest Nvidia quad-core Tegra 3 processor and LTE radios, as seen with the HTC One X where the international version features the quad-core processor, and the US releases with LTE radios “falling back” on Qualcomm dual-core Snapdragon S4 processors. Whether this issue will be prevalent in other quad-core processors such as the Samsung Exynos 4412, is yet to be seen.
• LTE radios are also infamous for being a huge drain on battery life.

The Future

HSPA+

Evolution of HSPA

HSPA+, with its theoretical 168Mbps downlink speeds, still wasn’t the pinnacle of HSPA technology. Back in 2010 began talk of LTHE or Long Term HSPA Evolution. LTHE brought with a lot of advantages including:

• Backward compatibility with existing WCDMA and HSPA networks. This provided the possibility of an easy transition to LTHE as opposed to a network upgrade to LTE.
• Theoretical download speeds up to a whopping 672 Mbps.
• Carriers and hardware companies claimed that LTHE could have been ready for deployment by 2013.

Unfortunately, almost every network around the world has decided to move onto LTE as their network for the future. HSPA+ networks will likely be upgraded to the 42Mbps or even 84Mbps download capability, but now, it seems like that is as far as this evolutionary technology will be pushed.

LTE

Courtesy of Teliasonera

While HSPA+ was the peak of 3G technology, the current variation of 4G LTE is only the first step in this next stage, opening up numerous possibilities for much further advancement in this field. It is somewhat strange that advances in LTE technology are already being spoken about when the “original” standard networks aren’t even close to being fully established. Yet, that is the rapid speed in which the tech world progresses. Let’s take a look at some of these developments:

• TD-LTE: TD-LTE or Time-Division LTE was developed by China Mobile over the last few years. Unlike LTE networks which carries two separate signals for data traveling in either direction, TD-LTE features a single channel and allocated upload and download bandwidth depending on your usage. This accounts for higher data speeds. TD-LTE is also compatible 4G WiMax and it will easier to upgrade from WiMax to TD-LTE than to LTE.
• LTE Advanced: LTE Advanced is a further evolution of current LTE networks which brings with it theoretical peaks of 1GBps download speeds, increased spectrum efficiency(upto 3 times more bandwidth), and reduced latency. Like the upgrade from HSPA to HSPA+, a move from LTE to LTE-Advanced is also a software deployment upgrade.
• TD-LTE will also see a shift to TD-LTE advanced in the future.

Conclusion

Advantages of LTE over HSPA+

• The most obvious advantage is the higher data speeds
• Much better spectrum efficiency
• Far lower latency
• LTE has a simpler architecture compared to an HSPA+ network

Advantages of HSPA+ over LTE

• HSPA+ is an already established network, whereas complete LTE coverage still has a while to go
• HSPA to HSPA+ evolution required much less investment in infrastructure and was less costly to upgrade as opposed to LTE which needs a completely new network built from the ground up.
• LTE requires specific LTE radio featured devices, whereas HSPA+ is available to any user with a 3G enabled phone.

As you can see, LTE is definitely the way of the future, and the potential with this technology is incredible. But I still think there are a lot of factors that lead me to conclude that HSPA+ networks are certainly more than enough for now.

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