Feature dongle

76 77TELE-audiovision International — The World‘s Leading Digital TV Industry Publication — 01-02/2015 — www.TELE-audiovision.com www.TELE-audiovision.com — 01-02/2015 — TELE-audiovision International — 全球发行量最大的数字电视杂志
• plenty of free software available
• external antenna recommended
• do not use the software which comes with the dongle
• add-ons widen the spectrum to include AM and SW
Software
Defined Radio
with a
DVB-T Dongle
Self-Made Broadband ReceiverFEATURE

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78 TELE-audiovision International — The World‘s Leading Digital TV Industry Publication — 01-02/2015 — www.TELE-audiovision.com
DVB-T and DVB-T2 are the
terrestrial digital tv standards
in many parts of the world. If
you own a laptop or a desktop
computer, then a very eco-
nomic way to receive those
tv signals is the use of those
thumb-sized dongles. They
run off the USB port, are pow-
ered by five volts, and most
of them receive from the low
end of the VHF band all up to
the top of the UHF band.
In other parts of the world
the terrestrial digital tv stand-
ards are ISDB-Tb (most of
South America) and ATSC
(North America). So in those
parts of the world such a DVB-
Use of Digital Video Broadcast-
Terrestrial (DVB-T) Dongles as
Broadband Receiversby Mario Filippi, N2HUN
1. Typical R820T DVB-T dongle
covering 25 - ~1700 MHz.
2. Terratec TStick+ dongle
covering 64 - ~2400 MHz with
Elonics 4000 tuner.
T dongle is of no use, right?
To the contrary! Amazingly,
these dongles support listen-
ing modes of interest to the
hobbyist everywhere in the
world, such as AM (Amplitude
Modulation), FM (Frequency
Modulation, both narrow and
wideband), USB (Upper Side-
band), LSB (Lower Sideband),
CW (Continuous Wave, a.k.a.
Morse code) and even DRM
(Digital Radio Mondiale). Add
to this the feature of view-
ing a two MHz wide portion of
spectrum (using companion
software) you’ll have a verita-
ble receiving powerhouse that
opens up a world of listening
pleasure.
Prices of those DVB-T don-
gles range from $12.00 to
$90.00 USD depending on the
chipset. By chipset I’m refer-
ring to the two most impor-
tant electronic components;
the tuner and demodulator,
which govern not only the
price but the receive frequen-
cy range. For example, DVB-T
dongles with the Elonics 4000
tuner covering 64 – 2300
MHz cost upwards of $90.00
USD while those based on the
R820T chipset cover 25 - 1700
MHz and are more reasonably
priced around $16.00 USD.
Some points to ponder
before purchasing a dongle
are: compatibility with your
computer, the type of operat-
ing system, need for at least
one USB port, what software
to use, access to the Inter-
net (for downloading soft-
ware programs), soundcard
requirement, user’s level of
computer literacy, what an-
tenna to use for reception,
coaxial cable for the antenna,
and coax adapters for con-
necting the DVB-T dongle to
an external antenna. Last-
ly and most importantly is
choosing a reputable vendor
since very little documenta-
tion exists for this adaptation
of the dongle for radio recep-
tion.
My first dongle was pur-
chased from Nooelec (www.
nooelec.com) and my experi-
ence has been very positive
as their customer service is
superb and they supply de-
tailed product specifications
for most of their dongles.
Keep in mind that this is not
a “plug and play” endeavor
so be prudent when buying,
check out the customer feed-
back on the product and the
seller, and see what the speci-
fications of the dongle are pri-
or to purchase.
When you’ve finally pur-
chased your dongle it will in-
clude accessories such as a
miniature magnetic/suction
cup mount antenna for DAB
Self-Made Broadband ReceiverFEATURE

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radio, FM radio (64 – 108
MHz), and DVB-T television re-
ception, a Quick Setup Guide
CD, user manual, sometimes
a short USB to USB cable, and
possibly an infrared remote
control. The CD contains in-
structions for using the don-
gle for DVB TV, FM and DAB
radio reception along with the
application software and re-
quired drivers. However, do
not download those drivers
as they are completely irrele-
vant for using the dongle as a
broadband receiver. Later on
in the article we’ll talk about
software, including the driver
program necessary for the
computer and dongle to com-
municate with each other. For
our purposes the only useful
item will be the DVB-T dongle.
The next item on your
agenda should be choosing a
receiving antenna as the sup-
plied mini-antenna has very
limited capture area and will
not work optimally. In the
world of radio the old adage
“bigger and higher is better
and outside is better” applies.
That is, mount your antenna
as high as possible, prefer-
ably outdoors, and the larger
antenna the better. Antennas
can be “homebrewed” (home-
made) or purchased and a
plethora of choices exist de-
pending on one’s budget, lo-
cation, neighborhood restric-
tions, etc. An omni-directional
broadband antenna would be
a good first choice so again
do some data mining on the
Internet using search strings
such as “scanner antenna” or
“broadband antenna” and dis-
cover what is available. At my
location I use a commercially
available antenna purchased
from Universal Radio Inc.
(www.universal-radio.com),
namely the Procomm Spider
SP-800 (www.procommprod-
ucts.com) which covers 30 –
1200 MHz and costs $39.95
USD. For an antenna feed line
use a good quality coaxial ca-
ble for broadband use such
as low loss, double shielded
75 Ohm RG-6 which is read-
ily available at most “big box”
stores and is economically
priced at about $20.00 USD
per 100 foot roll. RG-6 coax
usually comes supplied with
male F type compression con-
nectors on each end so you’ll
have to purchase the proper
adapters to connect the feed
line to the dongle and anten-
na. Remember to keep coaxial
cable runs as short as possi-
ble to minimize loss.
Another consideration is
that DVB-T dongles will have
either a PAL (IEC 169-2) or
MCX connector for attaching
the antenna so you’ll need to
purchase an adapter connec-
tor such as a PAL-to-F adaptor
or MCX-to-F adapter. These
are readily available at a rea-
sonable cost from websites
3. DVB-T Dongle along with
typical accessories supplied by
vendor.
4. Author’s Procomm Spider
broadband antenna covers 30 –
1200MHz.
Science (www.hamradiosci-
ence.com) and RTL-SDR.com
(www.rtl-sdr.com). Also,
searching the Internet using
search strings such as “DVB-
T dongle,” “SDR dongle,” or
“RTL-SDR” will supply enough
hits to keep one occupied until
doomsday!
So, what can one hear and
“see” when firing up the don-
gle radio along with HDSDR or
SDR#? Well the fun certainly
commences once you have
your dongle running and an-
tenna attached; you’ll spend
many hours surfing the ethers
due to the prodigious width
of the radio spectrum that’s
available to you and the nu-
merous signals inhabiting the
airwaves. You may initially
suffer from option paralysis
as to what to listen to first but
my suggestion is to tune into
the FM broadcast band ini-
tially, as these high powered
24/7 stations are the easiest
to hear and known by many.
Try “getting your feet wet” (as
we Americans say) in this 20
MHz sliver of the spectrum (
generally from 87.9 – 107.9
MHz depending on your loca-
tion) and experiment using the
various user options in HDS-
such as Ebay (www.ebay.
com), Amazon (www.ama-
zon.com ), or Nooelec (www.
nooelec.com). The best ap-
proach is to purchase the cor-
rect adapter(s) when order-
ing your dongle to minimize
additional delays in getting
started.
Software choice is the next
major and challenging de-
cision point as there are a
number of types to choose
from based on your comput-
er’s Operating System (OS).
Some are PC based using
Windows, others are Linux
based, and some are for the
MAC. The application soft-
ware and drivers required to
transform your dongle into a
Software Defined Radio (SDR)
receiver are easily obtainable
from the Internet and a ma-
jority of them are free. Again,
your OS will dictate what soft-
ware you’ll download. For this
article I am using Windows 8
as this is the OS for my Dell
Inspiron 15 laptop computer.
The two most common ap-
plications software are HDS-
DR (High Definition Software
Defined Radio) and SDR#
(a.k.a. SDR Sharp) and you
can find information on their
respective websites, www.
hdsdr.de and www.sdrsharp.
com. These sites offer no-
cost downloads along with
detailed installation instruc-
tions, so carefully read the
specifications and recom-
mendations carefully prior to
downloading. Both of these
excellent programs not only
convert the dongle into a
low cost SDR (Software De-
fined Radio) receiver but also
come with a mind-boggling
array of user options such as
mode selection (AM, FM, SSB,
etc.) RF/AF gain, AGC (Auto-
matic Gain Control,) variable
bandwidth filters, spectral
analysis/waterfall display, in-
finite channel memory, vari-
able squelch, signal strength
(S meter), digital noise re-
duction, noise blanker and
choices of different FFT (Fast
Fourier Transform) displays.
Note that there are some
differences in user options
between the two programs
so do your homework and
investigate all they have to
offer and make an informed
decision. Having extensive
experience using both HDSDR
and SDR# I can unequivocally
state that these programs are
all you need to pursue endless
hours of radio listening en-
tertainment consisting of FM
broadcasts, police, fire, EMS
(Emergency Medical Service),
NOAA (National Oceanic and
Atmospheric Administration)
weather broadcasts, marine
radio, aeronautical, ham ra-
dio, pagers, railroads, busi-
ness band and utility radio
transmissions.
In this article we’ll not delve
into the specifics of how to
download the application
software, but basically you’ll
first download the driver from
the aforementioned websites,
along with the software spe-
cific for the dongle radio and
your computer’s OS. Another
excellent source of informa-
tion on how to set up a dongle
radio is YouTube (www.you-
tube.com) where you’ll find
countless how-to’s from hob-
byists around the world who
have discovered innovative
uses for this mini-receiver.
Other websites specializing
in this hobby are HamRadio-
5. Examples of adapter
connectors for external
antennas.
6. SDR # dashboard of local
New Jersey broadcaster
101.5. Notice RDS (Radio Data
Service) info above the spectral
display.

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DR or SDR#. This is a great
starting point for neophytes
to become accustomed to and
comfortable with the intrica-
cies of software defined radio.
Be sure to plug in headphones
or ear buds and listen in as
these SDR radios sound very
similar to good quality FM re-
ceivers.
One of the powerful features
of both SDR# and HDSDR
is the RF (Radio Frequency)
spectral display and waterfall.
These visual parameters are
of immense value to the ra-
dio hobbyist; for example the
upper spectral display can be
used to determine the band-
width, signal strength, signal
fade, waveform and distor-
tion of a received signal. The
lower or “waterfall” display is
a time recording of the sig-
nal and an indicator of signal
intensity as red indicates a
very strong signal and white
indicates a weak signal. Some
of the SDR# user options are
visible to the left such as, AF
Gain (volume control), AGC,
and slider bars to adjust the
FFT. Slider bars on the right
are to zoom in on a smaller
portion of the spectrum, wa-
terfall contrast, and speed of
7. HDSDR dashboard of NJ
101.5 on the FM band. Other FM
stations peaks are at 200 KHz
intervals.
8. Two MHz scan of the
aircraft band showing peaks
at 134.2, 134.6 from pilot
communications.
the spectral/waterfall display.
Spend your first few hours
with the dongle on the FM
band and familiarize yourself
with all the plentiful features

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better. Aircraft communica-
tions are of very short du-
ration with minimal words
exchanged, so you have to
be very quick and move the
frequency cursor selector
around the band quite fre-
quently. Pilot and ground sta-
tion traffic will be found in the
118 – 137 MHz portion of the
band so keep that in mind.
With experience you’ll even-
tually find commonly-used
frequencies where you can
sit back and wait patiently for
the next radio transmission
from a pilot or air traffic con-
trol tower. An outside antenna
mounted well above ground is
almost mandatory to enjoy
this portion of the band with
any success.
Global warming, whether
man-made or not has re-
sulted in an uptick of Mother
Nature’s wrath in all portions
of the globe. Not a day goes
by without media reports of
some area of the world un-
der siege from catastrophic
meteorological, geological
or oceanographic events. To
stay informed, especially dur-
ing emergencies such as fire,
floods, mudslides, tornadoes,
ice storms, tsunamis, earth-
quakes, and hurricanes the
dongle radio is your pipeline
to important information as
it is happening. During emer-
gencies the public service
sector shifts into high gear,
responding to flooded ar-
eas, downed power lines and
trees, attending and rescuing
the sick and injured, respond-
ing to accidents and traffic
troubles along with an array
of other catastrophes that
plague neighborhoods when
disasters strike. A wideband
receiver such as a DVB-T don-
gle will allow one to monitor a
very wide swath of frequen-
cies used by first responders
and will keep you informed
with what is happening long
before discovery by the news
media.
If your thirst for adventure
needs to be assuaged then
adding a converter in tandem
such as the Ham It Up RF up-
converter (www.nooelec.com)
will expand the frequency
range of the dongle down to
the LF (Low Frequency), MF
(Medium Frequency), and HF
(High Frequency) areas of the
radio spectrum thus allow-
ing you to listen to shortwave
broadcasts, shortwave util-
ity stations, the AM broad-
cast band, and the Longwave
band. As a avid shortwave
listener since the 1960’s I
purchased the Ham It Up up-
converter from Nooelec.com
with undue haste after my
dongle arrived since my in-
terests included reception of
shortwave radio broadcasts,
time signal stations such as
WWV and CHU, RTTY (Radio-
TeleType), WEFAX (Weather
Facsimile), DGPS (Differential
Global Position System), NAV-
TEX (Navigational Telex), CW
(Morse Code), ALE (Automatic
Link Establishment), Sitor B
(Simplex Teletype Over Ra-
dio Mode B), and many other
non-voice digital modes that
abound on shortwave.
Several versions of upcon-
verters are on the market that
will pair with the SDR dongle
ranging in cost from $40.00
that the software provides.
HDSDR is another of the
popular software application
programs available from the
Internet and presents quite a
different appearing operating
screen but has many com-
monalities with SDR# such
mode (AM, FM, USB, LSB,
CW etc.), bandwidth, vol-
ume, noise reduction, AFC,
squelch level, noise blanker,
soundcard selection, and slid-
ers for adjusting the spec-
tral/waterfall displays. One
conspicuous difference is
the large S (Signal Strength)
meter which comes with a
calibration protocol for those
analytical types. Whether you
choose SDR# or HDSDR is a
personal preference but why
not utilize both as I do? They
are both excellent performers
but you still may prefer one
over the other. Note that both
programs have a Frequency
Manager option which allows
the user to store an unlimited
amount of memories and re-
cording options for playback
at a later date.
Once you’ve become com-
fortable using the DVB-T don-
gle on the FM broadcast band
you can now navigate the oth-
er thousand or so megahertz
of the VHF/UHF band to satis-
fy your curiosity. Perhaps the
VHF aeronautical band is of
interest to you so let’s ride the
magic carpet a few megahertz
up to the 108 - 137 MHz por-
tion of the radio spectrum and
see what’s happening in the
skies above. Be sure to select
the AM mode as all voice com-
munications between pilots
and ground stations commu-
nicate via Amplitude Modula-
tion. Best time to listen to air
traffic is during rush hour and
the closer you are to a main
air traffic route or airport the
USD and up. Some, like the
Ham It Up require a sepa-
rate five volt power source,
additional connectors, and of
course another antenna de-
signed for shortwave recep-
tion. The Ham It Up upcon-
verter uses a 125 MHz crystal
oscillator to shift the dongle’s
LO (Local Oscillator) up by 125
MHz. It is a very well-made,
well-documented, and excel-
lent product that comes at a
very low price, $44.95 USD.
Once you have your upcon-
verter you’ll have to erect an
antenna such as simple out-
door 30 to 50 foot wire strung
as high as possible. This an-
tenna will suffice initially but
again, there’s a limitless sup-
ply of commercially available
shortwave antennas on the
market and many antenna
designs available Do-It-Your-
selfers on the Internet. For
apartment dwellers and those
with antenna restrictions all is
not lost, as there are several
manufacturers of indoor “ac-
tive antennas.” By “active” is
meant that the antenna has
built in circuitry to amplify re-
ceived signals and attenuate
unwanted signals. One such
supplier if MFJ Enterprises
Inc., (www.mfjenterprises.
com), a long-time reputable
manufacturer of an array of
amateur radio and shortwave
products. You can also check
Universal Radio Inc., (www.
universal-radio.com) for their
selection of active indoor an-
tennas. And happily, SDR#
and HDSDR will work per-
fectly when using the dongle/
converter combination.
Let’s discuss a bit more
about what’s to be heard on
shortwave using your dongle
with an upconverter. The high
frequency (HF) band by con-
vention spans the range of 2
– 30 MHz and in this 28 MHz
of spectrum you’ll find for-
eign broadcast stations such
as Radio Habana Cuba, BBC,
WBCQ, VOA (Voice of Amer-
ica), Voice of Vietnam, Radio
Japan, and Radio Romania to
name a few. Stations broad-
casting on HF use AM mode
and are found in distinct,
designated regions of the HF
spectrum. These distinct re-
gions are called “shortwave
bands” and are classified ac-
cording to wavelength such
as the 60m (60 meter), 41m,
31m, 25m bands etc. In all,
there are approximately a
9. Activity abounds in the public
service portion of the VHF band
with signals from police, fire,
emergency medical services,
and pagers.
10. Adding a Ham It Up RF
upconverter in line with dongle
expands frequency range down
to 150 KHz.
11. AM broadcast band, 540 –
1710 MHz, through the eyes of
the dongle radio.
12. 31m shortwave band (9.4
– 9.9 MHz) is home to several
shortwave broadcasters
including Radio Romania
International, Radio New
Zealand International, Radio
Habana Cuba, and Radio Japan.

13
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dozen shortwave bands to
choose from. If you are inter-
ested in listening to interna-
tional shortwave broadcasts
begin with the 31m band
covering frequencies 9.400 –
9.900 MHz. The 31m band is
one of the more heavily occu-
pied bands where you’ll find
plenty of interesting listening
24/7 due to favorable iono-
spheric conditions affecting
this slice of spectrum. Sadly,
many old-time shortwave
broadcasters such as Swiss
Radio International, Radio
Austria, and Radio Moscow
have “gone dark” (ceased
broadcasting) on shortwave
due the advent of satellite
and Internet radio, but plenty
of entertainment from around
the world still exists on short-
wave, so tune in and listen.
In addition to international
broadcasters, the HF spec-
trum is occupied by military,
government, aeronauti-
cal, amateur radio, marine,
weather, and other utility
(“ute”) communications using
voice (Upper or Lower Side
Band) and non-voice digital
modes such as CW, RTTY,
FAX, ALE, Sitor B, NAVTEX,
HFDL, JT65, PSK31, and
SELCAL to name a few. In-
teresting transmissions such
as synoptic marine weather
reports to mariners, QSOs
(conversations) between ham
operators using Morse code,
PSK31, and teletype, fac-
simile weather maps of dif-
ferent regions of the world,
infrared satellite images, and
emergency/welfare mes-
sages from ships at sea are
being transmitted around the
clock. The good news is that
the SDR dongle is sensitive,
selective, and stable enough
to allow decoding of many of
these non-voice digital trans-
missions. This aspect of the
radio listening hobby is re-
ferred to as HF Utility (“UTE”)
monitoring. If you are inter-
ested in these types of trans-
missions an excellent source
of information is The Spec-
trum Monitor Magazine (www.
thespectrummonitor.com ),
a monthly on-line magazine
staffed by columnists with a
wealth of experience in the
radio listening hobby.
Use of digital mode decod-
ing software will significantly
enhance the overall experi-
ence with your SDR dongle as
there are many exiting and in-
formative transmissions being
sent by commercial, military,
and amateur radio entities.
Two excellent programs wor-
thy of consideration are fldigi
(www.w1hkj.com) and MultiP-
SK (http://f6cte.free.fr/index)
which feature decoding of
many common digital modes
including RTTY, FAX, CW, PSK
31, NAVTEX, Sitor B, etc. Two
other digital modes used by
commercial interests include
SELCAL (Selective Calling)
and ALE (Automatic Link Es-
tablishment). One word of
advice though: before ventur-
ing into digital mode decoding
software become thoroughly
comfortable with using your
SDR dongle. Take your time
and remember that the learn-
ing curve will be very steep
the first few weeks. If you be-
long to a radio club perhaps a
member already has experi-
ence with an SDR dongle so
tap into their knowledge and
experience. If you are on the
fast track then I suggest you
check out YouTube as it con-
tains a prodigious number of
user videos by those already
experienced in the hobby. Fi-
nally, remember that at a cost
of $16.00 USD a dongle SDR
will not perform on par with
commercially available SDRs
costing several hundred dol-
lars. However, for its minimal
cost you’ll get a lot of “bang
for your buck” as we Ameri-
cans say.
13. RTTY (RadioTeleType) transmission from German station DDK 9 broadcasts marine weather
for locations such as Western Europe. You’ll need a good decoding program such as MultiPSK to
decipher RTTY transmissions. SDR# is running in the foreground with MultiPSK in the background.
The audio stream from SDR# is fed directly to MultiPSK.
14. Facsimile broadcast from US Coast Guard Station NMG, New Orleans, LA, with map of coastal US
and Caribbean. Many stations service the marine community with facsimiles containing important
meteorological information in the form of weather maps and satellite images. SDR# is running in the
foreground with fldigi (decoding software) in the background.

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