How To Track Any Tv Satellite With Android Smart Phone Easily
There are several apps designed
to help you locate and track TV satellites in the sky. These apps can help you
find the correct azimuth, elevation, and tilt for pointing your satellite dish
to connect to a TV satellite.
Some popular apps for tracking
TV satellites include:
- Satellite
Finder (Dishpointer) (Android & iOS)
- SatFinder
(Android)
- DishPointer
Pro (Android)
- Satellite
Director (iOS)
These apps show you the
direction to point your satellite dish to receive a signal from a specific
satellite.
2. Steps to Track TV Satellites:
Here’s how to use these apps to
track and align your satellite dish:
a) Install the App:
Download and install one of
the satellite finder apps on your mobile device.
b) Enter Your Location:
Most apps will ask you to
input your location (latitude and longitude) or will automatically use your
phone’s GPS to determine it. This is important for the app to calculate which
satellites will be visible to you based on your location.
c) Select the Satellite:
Choose the TV satellite you
wish to track (e.g., DirectTV, Dish Network, or other satellites depending on
your provider). Some apps have a large list of satellites, and you can search
by name or by satellite provider.
d) Align Your Dish:
The app will display the azimuth, elevation, and LNB
skew (for satellite dish alignment) in real-time, showing you the
exact direction where to point your dish. These readings will help you
correctly aim the dish towards the satellite.
e) Fine-Tune the Dish:
As you adjust your satellite
dish, the app will often show you a signal strength indicator. Adjust the dish
until you get the best signal.
3. Use the Compass Feature:
Most satellite finder apps
also have a compass feature, so you can point your phone in the right direction
and match the compass reading to align your satellite dish. Make sure your
phone’s location services and compass are calibrated.
C & KU BAND SATELLITES
The C-band and Ku-band are two different frequency ranges
used by satellites for communication, including satellite TV broadcasting. The
primary difference between them lies in their frequency range, coverage, signal
strength, and the type of applications they are used for. Here's a breakdown of
the differences:
1. Frequency
Range
- C-band:
- C-band operates at a lower frequency compared
to the Ku-band.
- Ku-band:
- Ku-band operates at a higher frequency than
C-band.
2. Signal Size and Coverage:
- C-band:
- Larger
Antennas Required: C-band satellites tend to use larger antennas
(often 6 to 12 feet) for optimal reception.
- Better
Coverage in Bad Weather: Due to its lower frequency, C-band
signals can penetrate rain, clouds, and other atmospheric conditions
better than Ku-band signals. This makes it more reliable in areas with
frequent rain or storms.
- Wider
Coverage Area: C-band satellites usually provide broader
coverage, making them ideal for wide-area services like global
broadcasting and military applications.
- Ku-band:
- Smaller
Antennas: Ku-band satellites can use smaller dishes, typically
around 18 inches to 3 feet in diameter, as they operate at a higher
frequency.
- More
Affected by Weather: Ku-band signals are more susceptible to
signal degradation during heavy rain or storms, a phenomenon known as rain fade. This can lead to
service interruptions, particularly in tropical and wet regions.
- Finer
Beam Focus: Ku-band satellites tend to have a more focused beam,
which makes them suitable for providing targeted services, such as
satellite TV, broadband internet, and other high-speed data
communications.
3. Applications:
- C-band:
- Used primarily for large-scale TV
broadcasting, telecommunications, and satellite services, especially in
regions where weather conditions might cause interruptions in the higher
frequency bands.
- C-band is also commonly used for
satellite-based internet services, especially in rural and remote areas.
- Ku-band:
- Often used for direct-to-home (DTH) satellite TV, as the smaller
dish sizes make it more practical for residential use.
- It's also widely used for satellite internet, particularly
in commercial and consumer broadband applications, and for mobile communications (e.g., in
airplanes, ships, and vehicles).
4. Bandwidth and Data Transmission:
- C-band:
- Due to its lower frequency, C-band has
lower bandwidth compared to Ku-band. This means it can carry fewer data
streams simultaneously.
- Ku-band:
- The higher frequency of Ku-band allows for
greater bandwidth and higher data transfer rates, making it more suitable
for high-demand applications like high-definition satellite TV, internet
browsing, and video conferencing.
5. Cost and Availability:
- C-band:
- Typically requires larger dishes, so the
hardware (like antennas) can be more expensive. However, it is still a
reliable choice in areas where atmospheric conditions could disrupt
higher-frequency signals.
- Ku-band:
- Less expensive hardware, with smaller
antennas that are easier to install and maintain. Because of the
popularity of Ku-band for DTH TV and internet, there is widespread
availability of Ku-band satellites.
6. Interference:
- C-band:
- C-band has less interference from
terrestrial sources (like microwave towers) due to its lower frequency
range. However, it can still be affected by interference from other
satellites and storms.
- Ku-band:
- More prone to interference from terrestrial
microwave transmissions and weather conditions. Rain fade can
significantly reduce signal quality during heavy rain or thunderstorms.
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