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WaveAccess 4522

ONU interoperable con WiFi ac


ONU HGU for residential and small business use that unifies ONU and Router functionalities in a single device , offering WIFI, 4x1GbE ports and 2xPOTS. By implementing  802.11 ac , it offers a great WiFi range and allows to take full adventage of the available speed because of that WiFi-LAN/WAN switching  is done at hardware level allowing that way the protocol  maxium bandwidth.

All WaveAccess family ONUs are 100% compatible with TELNET’s SmartOLT, and its web management system, the TGMS (TELNET GPON Management System). Using the TGMS, the operator can configure triple playoffers in a matter of minutes , and manage all the SmartOLTs and ONUs deployed, all of this from a single web interface, and in a easy and intutive way,

*For futher information about compatibles OLT’s please contact TELNET Redes Inteligentes.

WaveAccess 4022 vista trasera

Back side waveAccess 4022

WaveAccess 4022

Side view WaveAccess 4022

NB-IoT presentation at MWC

The GSMA Mobile World Congress shall be held in Barcelona from 27th February to 2nd March, TELNET will present one of world’s first IoT solutions with NB-IoT connectivity, this solution has been develop in collaboration with Telefonica and Ericsson. Among other features, NB-IoT allows operators to increase the capabilities of existing mobile networks allowing connection to thousands of sensors with a low power consumption and that need a real time communication.

This device developed and manufactured by TELNET Redes Inteligentes is bases on Intel Quark C1000 microcontroller and on a Telit‘s NB-IoT modem. Both components represent the art of developing smart devices intended for such different sectors as goods logistic or digital urbanism. This device that shall be shown on Telefonica and Ericsson booth has motion detection capabilities through a magnetometer and an accelerometer.

TELNET Redes Inteligentes is a Spanish company with more than 20 years of experience. Since its foundation TELNET has a commitment with R&D and with self-manufacturing as differentiating elements. This technological autonomy allows to offer its customers a wide portfolio of products and solutions within optical communication sector (cable and optical fiber components, GPON equipment and xWDM) mobile (low visual impact antennas for base stations) and IoT (sensors, M2M gateways and data analysis).
TELNET shall be present on booth 18 within Spanish pavilion located at Congress Square (CS60 and CS73).

NB-IoT device

We will attend the next Mobile World Congress

Barcelona will receive a new Mobile Word Congress edition from February 27th – 2d March and  TELNET could not miss this event. “The Next Element” is the slogan which embraces the most important telecommunications fair, a clear sign that this event will be full with innovations that will revolutionize the market. Nearly 101,000 attendees came to Mobile World Congress 2016 from 204 countries and territories  and more than 3,600 members of the international press and media covering an ecosystem formed by more than 2.200 companies that were participating on the event. This year we’ll be again within the Spanish pavillion where you’ll find us at booth 18.

Secretary of State of the Information Society and Digital Agenda, through public entity, organizes for fifth consecutive year Spanish Pavilion within Mobile World Congress (MWC17). This institutional space will be located at the Congress Square (CS60 y CS73) and will have an innovative image that will serve as a showcase for 64 Spanish companies, 47 of them with their own stand, expand their contacts network , close commercial agreements and carry out all kinds of demonstrations.

We’ll be giving further information about our participation.

Guillermo Fraile (left) y Adolfo García Yagüe (right) on last MWC edition

G-fast implementation in United Kingdom

G-fast technology allow reaching speeds in cooper networks that only seemed possible with fiber optic networks. On a previous article, we talked about the international award obtained by the Celtic HFCC G-fast project in which TELNET R&D team was deeply involved.

Little by little this technology is leading its way as an alternative for those operators who refuse to take the step to FTTH. British telecommunication company BT has begun implementing this technology in United Kingdom, reaching download speeds superior to the 300 Mbps and 50 Mbps on uploads just by using cooper cable. By 2020, this british company plans to reach 10 millon users.

Big Data Workshop

From 22 to 24 November, TELNET will organise at the Palafox hotel in Zaragoza the first workshop session within the European H2020 project “Methodologies and Data mining techniques for the analyis of Big Data based on Longitudinal Population and Epidemiological Registers”. During the sessions,which will be taugh in english, the advances and forecasts of Big Data technology as a transversal tool to the rest of sectors will be discussed among other topics.

In case of being interested in attending in the event, please fill this form by 17 November. 

Saragossa is well conected by frequent high speed trains (AVE) with Barcelona (Duration= 100 minutes aprox) and Madrid (Duration=75 minutes to 90 minutes depending on the trains). You can find information on trains here:

Route from Madrid

Route from Barcelona

Embebed Gateway: Globalrider

Project origins

Hugo Scagnetti who had overcome a degenerative disease was about to confront an ambitious solidarity project, becoming the Phileas Fogg of nowadays, being the first person traveling all around the world riding a connected motorbike, to raise funds for research of the disease he had managed to overcome.


With Globalrider Project, TELNET faced the challenge of developing in less of 4 month a complex IoT Gateway, prepare it for any unforeseen (humidity, dust, vibrations, hits) that could arise during the journey, and manage all the information gathered for sensors and communications lines. On top, our R&D team had to face all the time taken by the advertising commitments and take care of the whole mechanical integration of the gateway in the Vehicle.

Working flow (click image to enlarge)

Hardware architecture

The Gateway has a SoC (System on Chip) E3845 from Intel Corporation.  It is a high end chip from a family of processors based on Atom and intended for the use on mobile devices and IoT equipment. The E3845 has four cores running at 1,91 Ghz. Auxiliary peripherals are also integrated for the Input and output management, memory management and video processing. This chip provides all the necessary processing power needed on any smart thing.

Hardware architecture (click image to enlarge)

Software architecture

TELNET develops its own Linux distros via Buildroot or Yocto thus ensuring perfect adaptation to customer needs and that all the security breaches that could compromise the project’s safety are covered.

Software architecture (click image to enlarge)

Six managers are executed over the IoT gateway’s kernel. These managers run agents specialized in different tasks: from analysing all the data collected from the sensors, to maintaining driver connectivity or interacting with the gateway. This Supervisor Manager is responsible of managing the other managers; interaction with the Gateway is possible through him. This manager has competency over the display and buttons on board representing the most comfortable and safest way to interact with the Gateway while riding the bike. It also offers a web interface which eases advanced configuration from a mobile or a tablet.  Likewise, this Supervision Manager is a remote gateway entrance to the whole system.

GPS Manager has the responsibility over the connection of knowing the position of the vehicle at any time. This manager delivers to the other managers (Supervisor, Sensor and Camera) an UTC (Universal Time Coordinate) time stamp with longitude, latitude and altitude coordinates. This information will be the temporal and spatial reference which will be  attached to the data collected by sensors. All the data collected by the sensors will be processed by the Sensor Manager. Within this manager we can identify an agent specialized on every single sensor (bio, enviromental, gyroscope, accelerometer,etc) In addition of the data reported by the sensors, it’ll be this manager responsibility calculate the speed of the bike by using the GPS position. Over all the collected or calculated data, Sensor Manager will stamp a time and position mark to locate every sample.   Another manager’s responsibility is related with the real time analysis from the collected data. As we said previously, the Globalrider IoT gateway owns a policy engine which allows identifying a pattern and trigger an alarm before an accident or any other event happens. Finally, Sensor Manager is responsible to pack all the collected data in a CSV (comma-separated values) file to send it later.


Functional elements (click image to enlarge)

The need of producing and manage content collected by the camera forced us to develop a specific manager for the camera management and processing the videos and photos: Camera Manager. At first instance this manager, through the Camera Agent it is responsible of the remote control of the camera. Hereafter time and position mark from the GPS Manager is applied to the content. Later, the Transcoding Agent allows recoding and compressing the multimedia content adapting, it to the available bandwidth. At last, within the Camera Manager, a manager called Secure Loop is enabled.  Then this manager runs in loop mode capturing small video fragments and sending them to the Telefonica’s Cloud services. Upload Manager is a temporal repository where the CSV files generated by the Sensor Manager and the multimedia content generated by the Camera Manager are stored.  In addition to the storage management, the Upload Manager is also responsible of sending all the data through a secure connection meaning that it is able to detect transfer errors, manage retries, partial sendings and encryption. Likewise Upload Manager is able to prioritize shipments and video security alerts. Lastly through WAN Manager the IoT Gateway connectivity is managed. This manager has competency over Telefonica’s M2M global connectivity being able to connect through any technology and mobile service.  In addition this WAN connection manager is able to stablish backup connections through WiFi.

FVP – Fiberglass and polyethylene sheath


  • Easy segregation of tubes in branching network
  • Totally dielectric, for electromagnetic compatibility with coaxial cables and existing energy


Sheath marking
TELNET-RIYearFibers No.Fiber typeSeath typeLenght
Dimensions and weight
Fo/cableNo. active tubesNo. pasive tubesfo/tubeNominal diameter (mm)Nominal weight (kg/km)

PFVP – Fiberglass and souble polyethylene seath


  • Anti-rodent protection
  • The double polyethylene covers provide optimun protection against external enviroment factors


Seath marking
TELNET-RIYearFibers No.Fiber typeSeath typeLenght
Dimensions and weight
Fo/cableNo. active tubesNo. pasive tubesfo/tubeNominal diameter (mm)Nominal weight (kg/km)

PESP- Steel and double polyethylene seath


  • Special anti-rodent protection
  • Good performance of moisture-proof and prevents water penetration
  • Provides good protection for optic fiber


Seath marking
TELNET-RIYearFibers No.Fiber typeSeath typeLenght
Dimensions and weight
Fo/cableNo. active tubesNo. pasive tubesfo/tubeNominal diameter (mm)Nominal weight (kg/km)