Benefit from the week-long BOOT CAMP training, with the same instructors, materials, interaction and knowledge transfer via live videoconferencing.
Specifically designed for non‑engineers, Teracom’s renowned telecommunications training is two courses back-to-back to make a full week called BOOT CAMP:
Core training Course 101: Broadband, Telecom, Datacom and Networking for Non‑Engineers Monday – Wednesday, then Course 130: Voice over IP, SIP, Security, 5G and IoT Thursday and Friday. You may register for individual courses or the full week as best meets your needs. Most people attend all five days, designated as Course 111 BOOT CAMP, to get the most comprehensive and highest quality telecommunications training available, at a discounted price, with three TCO Certifications included: CTNS, CVA and the prestigious TCO CTA Certification.
You will bust the buzzwords, understand the jargon and technologies, and most importantly, the underlying ideas, and how it all fits together …knowledge you can’t get on the job, talking to salespeople or reading articles.
Plus, you’ll get two printed course books with detailed notes bringing all of this material together and sure to be valuable references for years to come. With a total of 25 bonus online certification courses, plus 3 TCO Certification exams, both with unlimited repeats and no time limits.
Your knowledge skills, accuracy, productivity and buzzword-frustration level will all be improved with this career-enhancing training. What’s not to like?
TCO Certified Wireless Analyst Course 2231 Wireless Fundamentals Lesson 1 Introduction and Radio Fundmentals
Enjoy this free sample video from CWA.
Course 2231 Wireless Fundamentals
Radio fundamentals • Spectrum • Digital radio • Modems and Modulation • Propagation, Penetration and Fading
Wireless Fundamentals is the first course in the CWA Certification Package. We begin with the basics: what radio is, how it’s organized and how and it’s used to communicate information.
We begin by understanding what radio actually is, and why we use it for communications. We’ll understand how radio frequencies are in the Gigahertz range, used within frequency bands measured in the Megahertz wide.
Then we will look at the spectrum, i.e. standardized bands of frequencies, how they are allocated and the need for licenses. You will learn which bands are used for what, from cordless phones to WiFi and cellular, including the new 700-MHz bands.
Next, we’ll understand how information is represented using radio. The first stop is a quick review of old-fashioned analog radio and TV, followed by what most systems use today: digital. We’ll spend some time understanding digital, how 1s and 0s are communicated by modems and familiarize you with jargon and buzzwords like QAM and QPSK.
We’ll finish off with radio transmission issues, including propagation, penetration and fading.
Course Lessons 1. Radio Fundamentals 2. Wireless Spectrum and Radio Bands 3. Analog Radio 4. Digital Radio: How Modems Work 5. Propagation, Penetration and Fading
Click here to watch the video :
This is just a small sample of the vast online telecommunication training and certification available through Teracom Training.
Mobile Network Operator (MNO) is the term
usually used to refer to a facilities-based carrier, i.e. a company that owns
base stations, a mobile switch, backhaul between them, and spectrum licenses,
and sells services to the public… and to other carriers.
The MNO implements external links to other
carriers for PSTN phone calls and for Internet traffic.
For PSTN phone calls, the MNO implements a
fiber optic connection to a building traditionally called a Toll Center or
Class 4 switching office. The termination of their fiber in that building is
called a POP. It is their physical point of presence in the building.
Many other carriers have POPs in the
building, including the ILEC, IXCs, CATV companies, other mobile carriers, and
any other company that wants to connect phone calls to a phone on the MNO’s
network.
The operator of the toll center, usually the
ILEC, provides a switch in the Toll Center to switch phone calls from one
carrier’s POP to a different carrier’s POP.
For Internet access, the MNO implements a
fiber optic connection to one or more Internet Exchange buildings, where they
pay the operator of the IX to route packets to other carriers with whom the MNO
has established IP packet transit and peering arrangements.
9.7.2 Mobile Virtual Network Operator
Mobile Virtual Network Operator (MVNO) is the
term used to refer to a non-facilities-based carrier… one that does not own
the hardware or spectrum licenses or POPs.
Instead, the MVNO enters into a long-term
contract with one or more facilities-based carriers to have them supply a
“white label” service that the MVNO sells.
Typically the MVNO will develop a unique
branding and sell smartphones and tablets to go along with its service.
When the MVNO deals exclusively with one
carrier, the MVNO bill to the customer would be typically generated by the
facilities-based carrier as a white-label service.
If the MVNO is very large and deals with
multiple carriers, the MVNO may operate their own billing system, which is a
significant investment.
The facilities-based carrier charges to the
MVNO includes a volume-discount rate for IP addresses and Internet traffic,
voice-minute airtime and switched access to the POP for PSTN phone calls.
The MVNO also has to pay for connectivity
from the POP to other toll centers for “long-distance” connections,
and the switched-access charge at the far end.
The rate plan the MVNO pays could be a mix of
fixed-rate leases and usage-based billing.
Unless the MNO is obliged to sell capacity to
MVNOs through regulations and tariffs, the nature of the plan is confidential
business information.
9.7.3 Roaming
Roaming service is very similar to the
service provided to MVNOs, in that it is the MNO that is providing the airlink,
base stations, backhaul, mobile switch and connections to the PSTN and
Internet.
In the case of roaming, the visitor uses
their own phone, and billing is usage-based.
Roaming is an important feature for smaller
players: they are facilities-based in selected cities, but to offer a national
and international service to their customers, they must have roaming agreements
in place with MNOs in other locations.
By denying roaming service to smaller or
startup carriers, or charging an exorbitant price for roaming, an incumbent
carrier can erect a barrier against competition.
In many countries, the right to roam and the
wholesale cost of roaming is regulated to encourage competition.
High-Quality Reference Book and Study Guide Covering All Major Telecommunications Topics… in Plain English.
7″ x 9″ softcover book • printed in color • 550 pages • 5th edition • published 2020 ISBN 9781894887588 (print) ISBN 9781894887595 (eBook)
Packed with information, authoritative, covering all major topics – and written in plain English – Telecom 101 is also an invaluable textbook and day-to-day reference on telecom.
Completely updated and revised for the 2020s, the new Fifth Edition of Telecom 101 is the materials from the latest version of Teracom’s famous Course 101 Broadband, Telecom, Datacom and Networking for Non-Engineers, plus additional topics and chapters.
In a user-friendly 7 x 9″ softcover version, printed in color, or in eBook format, Telecom 101 brings you in one volume consistency, completeness and unbeatable value.
Telecom 101 also serves as a study guide for the Telecommunications Certification Organization TCO Certified Telecommunications Analyst (CTA) telecommunications certification, covering all material required for the CTA Certification Exam except the security module.
Our approach can be summed up with a simple philosophy: Start at the beginning. Progress in a logical order. Build one concept on top of another. Finish at the end. Avoid jargon. Speak in plain English.
Bust the buzzwords, demystify jargon, and cut through doubletalk! Fill gaps and build a solid base of structured knowledge. Understand how everything fits together. … knowledge and understanding that lasts a lifetime.
Ideal for anyone needing a book covering all major topics in telecom, data communications, IP and networking… in plain English. A wealth of clear, concise, organized knowledge, impossible to find in one place anywhere else!
Now is the time for flexibility
and resourcefulness to rise above difficult circumstances.
Nothing
beats live, in-person instructor-led training in a classroom environment…
except not having to worry about quarantines.
For
those working from home, Teracom BOOT
CAMP Live Online is the next best thing while we wait for things to
get back to a new normal.
No travel required.
Anyone worldwide can take BOOT CAMP.
Live interactive group training.
You will be part of a class.
You will be able to see and hear everyone else.
We’ll ship you the high-quality printed color course books in advance.
The instructor will stand up at the front of the room and teach the class like any other BOOT CAMP.
The instructor will keep you focused, so you learn, like any other BOOT CAMP.
You can ask the instructor questions, like any other BOOT CAMP.
The class will run on a schedule: 9 – 5 Monday to Friday, with scheduled breaks, like any other BOOT CAMP.
You get immediate access to three TCO Certification Packages, with their online courses.
All you need is a laptop with a webcam.
This
is an ideal time to get the training you need!
You’ll
immediately get the course materials shipped to you: two printed color books
totaling over 500 pages with copies of all graphics and detailed text notes.
You will also get immediate access to the included TCO Certification
Packages: CTNS, CTA and CVA and all of their online courses.
You’ll
get the full BOOT CAMP with our top instructor, as close as you can get without
actually being there.
If
you are an international participant, this is your opportunity to take BOOT
CAMP if you can’t travel to the USA for a public seminar. No travel visa
required!
Low-Power Wide-Area (LPWA) systems, also called Low-Power Wide-Area Networks (LPWANs) are wireless systems for sensor data reporting and remote control.
There are four main technologies, divided into two groups: technologies deployed by mobile (cellular) carriers, and technologies deployed by non-cellular carriers.
The technologies deployed by cellular operators are Narrowband Internet of Things (NB-IoT) and Long Term Evolution category M1 (LTE-M).The technologies deployed by non-cellular operators are sigfox and LoRa (short for Long Range).
Sigfox and LoRa operate in unlicensed spectrum often called Industrial, Scientific and Medical (ISM) bands, at relatively low frequencies. In Europe the 868-MHz band is used; in the US it is 915 MHz; and 923 or 433 MHz in Asia.
Sigfox is a French company that established a base of customers with water meters from the French water authority Veolia and has expanded internationally. It provides the leanest communication service, using 100 Hz of bandwidth to move tiny data packets with payloads of 12 bytes upload and 8 bytes download, with limits on the number of messages per day. The theoretical data rate is 600 bits per second. This reduces the subscription costs and extends battery life. It can support 1 million devices per base station transceiver.
LoRa is a competing technology also using ISM bands, using 125 kHz of bandwidth to achieve a theoretical 50 kb/s and 40,000 devices per base station. LoRa employs spread-spectrum coding, meaning the modem signal is spread over a wider frequency band than normal. This allows better performance in the presence of noise or jamming. The LoRa Alliance was created to foster interoperability between devices.Cellular carriers offer NB-IoT and LTE-M wireless services in licensed frequency bands.
NB-IoT operates on 200 kHz channels, often in the “guard bands”, i.e. unused spectrum between bands used for conventional cellular, supporting around 200 kb/s data rates depending on carrier implementation. It is designed for fixed, ultra-narrow-bandwidth IoT applications. It purports to provide better connectivity in subterranean locations such as basements, utility vaults and sensors located deep within buildings. It does not support mobility, i.e. maintaining connection as the sensor moves out of range of a base station.
LTE-M operates on approximately 1 MHz bands on licensed spectrum, supporting up to 1 Mb/s data rates (depending on carrier implementation), as well as voice and mobility. As the name would suggest, it is intended for existing LTE cellular networks, to provide extended coverage to IoT applications. Due to its lower latency and higher bandwidth than NB-IoT, LTE-M is suited for IoT applications where devices are in motion and real-time data is required.
The sigfox and LoRa systems gained an early market share. Carrier NB-IoT and LTE-M systems are expected to significantly outpace sigfox and LoRa in terms of connected devices going forward.
How are online courses and certifications kept up to date?
They’re based on the instructor-led BOOT CAMP courses.
When BOOT CAMP courses are updated, new lessons end up being added to the online courses, like a ripple effect. As BOOT CAMP just had a major update for 2020, new online lessons are on their way.
Anyone purchasing certification packages or courses will automatically get the updates as they are released. First up is the new lesson on 5G for CWA being added in March.
Purchase with confidence:
Lifetime access – unlimited repeats, no time limits
Register now for one of our well known Teracom Training Boot Camps and save 500$. This is a huge savings and a great way to get yourself up to speed in all things telecom; VoIP, IP Networking, 5G, Security, IoT, Wireless, and more.
Coming up in December we have one of our best instructors teaching in Atlanta, GA from the 9-13th. Reserve a spot now, they are selling out!