Satellite TV On Your PC - The 5 Facts You Should Know

There is a big buzz in the satellite television and entertainment arena at the moment, and that buzz is all about being able to watch free satellite TV on your PC, did you know that you can access this free satellite technology right from the convenience of your computer or laptop, and even record any of the shows and come back and watch them later? Not only that but you can easily connect the satellite TV on your PC signal to your plasma TV or entertainment Centre!
What hardware is required?
To watch satellite TV on your computer, you need either a PCTV card or Specific Satellite TV Software. There are two types of PC TV cards for internet satellite TV. One type has a built in processor that allows you to watch satellite TV on your PC in a designated window, while the PC continues to run other programs. Other PCTV cards use the PC's infrastructure to decode satellite signals, allowing you to enjoy free-to-air digital TV and radio. Both kinds of PCTV cards are compatible with broadband internet via satellite.
To watch satellite TV on your PC, you will need a relatively new computer. At worst, you'll need a Pentium II 333 MHz processor, and you will need to be running at least Windows 98/ME/2000/XP. For satellite TV on PC, you'll also need a sound card, a spare USB port and a CD-ROM drive.
How do I connect to a satellite network?
You can access PC satellite TV in a few ways. First, you can directly connect your PC to a satellite dish using a designated product, such as Hauppauge 3000, or directly through your internet cable. It's also possible to connect via the satellite box of your network provider. Several satellite TV companies recommend that you use their proprietary satellite TV receiver box when setting up satellite TV for PC.
One important factor you must be aware of when choosing a satellite TV for your PC provider, is that there are no free lunches! It seems nowadays everywhere we look people are advertising " free satellite TV on PC". But, is it really free? And in short the answer is yes and no! What I mean by that is that some PC satellite TV vendors to provide software that streams satellite TV over the Internet to your computer and gives you a selection of hundreds of channels. This software is not free, but he is very inexpensive and typically costs less than one months subscription fee to the likes of DirecTV. The best part is the top satellite TV on your PC vendors do not charge any monthly fees at all, and the very best providers offer regular free updates to their service.
What should I look out for?
Some other examples of where you may see " free PC satellite TV" advertised is where a company hacks into a satellite signal from a company such as DirecTV and steal their signal. This is highly illegal of course but many unsuspecting people are using these signals to watch free satellite TV on their PC. The problem is it is not free, the pirate companies that hack into these signals have to buy equipment to gain access to these satellite TV signals, and often require that you purchase and access card. The companies who own these satellite TV signals like DirecTV, often hit these cards and scramble the signals and the only way for you to regain your satellite TV feed is to have your card reprogrammed, which of course can get very expensive if that happens often.
Final Thoughts Satellite TV for PC is a great, straightforward way to access digital television, especially if you a computer geek with great screen and sound on your PC!

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Discover The Dirty Little Secrets About All Those Free Satellite TV Deals

Free satellite TV is considered one of the internet's biggest myths. There are several factors you should review and understand to avoid possible scams. You probably will encounter a few sites which are offering free satellite TV deals. There are also examples where some people are researching information about pirating signals for satellite TV reception.
Free satellite TV offers usually talk about giving you free equipment and a free setup that Dish Network and DirecTV traditionally provide. After the system's free installation, you will find that you're charged a monthly bill as payment for the minimum package on your new programming system. Long ago Dish Network and DirecTV offered 3 to 5 rooms of free equipment and free setup but that's long gone now.
Because of the numerous free satellite offers on the internet, you might accidentally believe some of the scammers since most of them have great sales copy pitching their deal. Most of these pirates claim they have programmed Dishnet cards or DTV enabling buyers to receive every channel. This is what free satellite TV normally means. But next, you'll discover they will charge you for reprogramming your access card whenever you run into a problem. You will then discover that you have to pay the setup and equipment all by yourself.
But if you dig a little deeper, you will learn that "free satellite TV" has never really existed. Police departments are doing considerable work to stop the stealing of satellite signals. Recently, they've raided several companies which provided equipment for pirating Dish Network and DirecTV satellite signals. In the end, this means that the all hassles and costs of stealing these signals will only increase.
Bottom line is that free satellite TV is not real. What's confusing though is that there are different conditions used in describing free satellite TV deals. First is when satellite signals are stolen by pirates. Second is when Dish Network and DirecTV legitimately advertise their free satellite TV deals. What they're really offering just pertains to the initial setup and equipment costs. Many will be shocked when you're charged a 30-dollar monthly fee for programming. And when you add more channels, the monthly costs also increases. However, satellite TV is far better compared to cable TV costs and quality of programming selections.
However, special equipment is utilized to obtain all stolen satellite channels for free; this is what the pirate's mean by free satellite TV which is obviously illegal. But the truth is that it is not really free at all. They are going to buy the dish, receiver, LNB, access card, and other peripherals for you. Then they look for the person who will install what they've called free satellite TV. And when you encounter a continuously messed up satellite signal, you will then be charged high costs (which in reality cover all the supposedly "no cost" equipment expenses they previously made on your "behalf") just for reprogramming your new satellite's access cards.
DirecTV regularly confuses these pirates satellite cards signals. Usually they are jumbling the pirate's satellite cards every Friday evening. Then there goes your supposedly free satellite TV. The person who originally installed your free satellite TV cards will charge you about 25-50 dollars monthly for all this. But then adding in the time for running the free satellite TV will actually cost you at least double that amount.
Other genuine satellite TV providers will mess up pirates satellite signals about 3 times each week. Soon you will end up talking to the person who initially installed your "free satellite TV". However, you'll find many of these individuals have simply left this illegal business just when you start having problems like endless and annoying TV viewing interruptions. You might have enjoyed free satellite TV for a couple of weeks but the rest of your days will be spent talking to the person in charge of installation over and over again.
So don't rush towards these supposedly "free" offers. Like the saying goes, if it sounds too good to be true, it usually is.

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Satellite Communication The Artificial Satellites Part 2

The first thought of an artificial satellite was to bring about a global communication facility. By that time, transatlantic telephone calls were quite established and telegraph broadcast, through under water cables, existed for the last 50 years. At about this time, a new thought came into the mind, the thought of broadcasting live television pictures. But greater amount of information were required on this technology, with its operation in a much higher frequency than the common radio broadcasts. The first ever radio broadcast was done at 1,020 Kilo Hz. Frequency is the measure of the number of times a signal repetition occurs in one second. If the signal completes one full cycle in one second, the measurement term for that signal is one Hertz, which, in short form, is 1Hz. Therefore, 1,020 Kilo Hz would mean that the signal completes 1,020,000 cycles in one second. As far as television is concerned, a much higher frequency was required to transmit pictures and such a typical transmission would need a frequency of 175 MHz. As a result, television could not be broadcasted with the frequency of that of a radio.
The frequency bands required for radio and television signal transmission can directly propagate from transmitter to receiver. The signal band is quite dependable and more or less limited the line of sight. Hence, you will find the television transmitting antenna is set up on a high tower, so the purpose of the line of sight to the receiving antenna is served. The radio signals, transmitted for thousands of miles, used the charged layer of the atmosphere (ionosphere) to bounce back to Earth. But higher frequencies did not bounce and disappeared into the atmosphere, in a relatively short space.
Therefore, as far as television frequency was concerned, it depended on absolute line of sight and restricted to 30 miles as the crow flies, or perhaps by co-axial cables across continents for live broadcasts. Transatlantic broadcasts were out of question and for example, news was delayed by 12 hours to reach Europe. The appetite for transatlantic radio entertainment and telephone was increasing rapidly. The demand for the new television medium could not take off with the existing communication facilities. The frequency requirement could not match the existing ones, which were simply not able to handle all of the requirements. Towards the end of 1950s, television transmission became hopeful with the newly developed artificial satellites.
In 1960, the first ever communication satellite was launched. It was the simplest kind and was called Echo. It consisted of a large, 1,000 feet diameter aluminised plastic balloon. Radio and television signals transmitted to this satellite would bounce back to Earth and would be received by the earth receiving stations at the line of sight principle.
Echo was launched at low Earth orbit and unfortunately at this orbit, Echo encircled the Earth every 90 minutes. Therefore, it was visible at any single point for only 10 minutes out of its 90 minutes orbital time. In 1958, Score satellite was launched, which carried a tape recorder and would record the transmitting signals, which would be played back when it passed over the destination. However, since it also had a 90 minute orbital time, no real-time communication could be achieved.
In 1962, NASA launched the Telstar satellite for AT&T. This satellite was launched at such a height that it could see Europe and USA simultaneously during one point of its orbit. Therefore, this satellite was able to provide real-time communication between two points for a few minutes during its orbital path.
Continuous real-time communication was not possible with low polar Earth orbital satellites. The solution to the problem was ofcourse use of geosynchronous orbit. In 1963, the rocket booster power to launch such a satellite became available and the first ever geosynchronous orbital satellite, Syncom 2, was launched by NASA. This had an orbital path which scanned the Earth's rotational speed and it stayed constantly visible through 24 hours, and it could view approximately 42% of the Earth's surface. A real-time communication became possible within that area and outside of this viewing area, no communication could be set up.
However, a system of three satellites was set up, where one satellite would relay the communication to the other, which would in turn, either relay it to the third or transmit the signal to the destination it was meant for. The disadvantage with the geosynchronous orbit is that, it took 1/4th of a second to transmit a signal to the satellite from Earth and receive back the signal again, The signal needs to travel 22,000 miles up, and down again by another 22,000 miles to complete the transmit and receive.
For data transmission, this signal delay was not so much significant, but with telephone communication, this delay was indeed annoying. Syncom 2 was put at a height of 22,000 miles above earth. The principle followed the cannon ball example, as illustrated in Part 1 of the article. After the success of Syncom 2, a spurt of launching such satellites took effect, especially with the success of geosynchronous satellite technology.
There are 100 satellites in geosynchronous orbit today out of 150 communication satellites that have been launched. One of the well known satellite development was Intelsat, launched by an internationally-owned corporation. This organisation has launched 8 different satellites of 4 or 5 of each series. The satellites have been launched in a period of 30 years. With such a satellite network, and with relaying signals from one satellite to other, it has been possible to handle large telephone traffic between any two points on the Earth. It was also possible to transmit live television pictures between any two virtual points on the Earth. By 1964, one could watch the Olympics from Tokyo, live. A few years later, live television broadcast became a reality.
Finally it arrived. A reliable toll quality voice communication was made available through satellite communication. Using the state-of-art technology, satellite application gives you the quickest reliable access to your corporate network or to the public switched telephone network (PSTN) system, disregarding where-ever you are. You just need to pick up your telephone receiver and get connected in seconds, no matter where you are calling from and where you are calling to. As for data communication, file transfers, E-mail, access to databases at a much higher speed is now conceivable, to and from any part of the world. With reliable security built-in in these systems, the signals are all digitally coded providing you with a very safe and secured communication. Today, distant learning has become the possibility with those satellites up in the sky.

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Satellite Communication - A General Discussion PART 1

By the terms of the dictionary, a satellite is an object which revolves around another object. For example, the Moon is a satellite of the Earth, and the Earth is one of the Sun. The phenomenon interested mankind to investigate more on this idea and experiment on man-made satellite en-circling the Earth. It was thought that if such a satellite was put in the space, communication could be set up from one part of the world to the other. A communication satellite orbits around the earth and in effect is an artificial satellite, stationed in space for the purpose of telecommunication. These satellites use the geosynchronous orbits, Molniya orbits or low polar Earth orbits.
A geosynchronous orbit is essentially a geocentric orbit, which takes the same time as the Earth to complete one orbit. If this satellite could be seen from ground, it would seem that the satellite is stationary and not moving at all. Satellites in such orbits are useful for telecommunication applications. Satellites in Molniya orbit have a highly elliptical, set at an angle, taking 12 hours to make a complete the orbit. A satellite in a low polar Earth orbit passes right above both the poles, inclined at a certain angle relative to the equator.
How are the objects kept in orbit?
Since man have been able to lift his head towards the sky, he has looked up at the sky and wondered how that Sun is held up high above there, and why does not the Moon fall on us. It has only been about 300 years now, that we have developed the scientific reason as to the things we were wondering about in the past. It was in the late 17th century that Sir Isaac Newton put forth this fundamental law. The first law says that, every object of matter in this universe attracts another, with a force, which is proportional to the product of their masses and inversely proportional to the square of the distance between the two. Therefore, with the larger mass having greater power to attract, this attraction gets weaker as the distance between the two objects are increased.
Newton's law of gravity means that the Sun pulls the Earth and the other entire planet in this universe, and the Earth also pulling on the Sun. Since both are quite large masses, the force of attraction must be large. The question comes, if the Sun is pulling all other planets, why don't the planets fall on the Sun?
The explanation to this is, that the planets are moving sideways too at a great velocity. Therefore, taking the example of the Earth, by the time the Earth has fallen the 93,000,000 miles to the Sun, it has moved 93,000,000 miles sideways, far enough to miss the Sun. Likewise, by the time the Moon has fallen 240,000 miles to the Earth, it has moved 240,000 miles sideways, missing the Earth. This process is repeated continually and the Earth orbits the Sun and the Moon the earth, in a never-ending way. If any planet stops moving sideways and finds itself closer to the Sun, it will fall quickly without missing the Sun. This sideways movement, called the "angular velocity" prevents the Earth in falling into the Sun. The same is true for all planets en-circling the Sun. The Moon would fall on to Earth if it had not had that angular velocity.
If the gravity of the Earth were to be turned off, the Earth would leave its circular trajectory and travel straight with a high velocity, reaching 50 billion miles out from the Sun in a century's time. Hence, it is the gravitational forces of both the Sun and the Earth, that holds the Earth in a orbit around the Sun. The orbiting Earth may be compared to a piece of stone tied to a string, which is swung in a circle holding the string at one end. If you were to let go of the string, the stone, tied at the other end of the string, will fly off at a straight trajectory, just as Earth would do, if the gravity were to be turned off. This force is termed as the 'Centrifugal force.'
There can be a question about the time required to complete one orbit. Does that depend upon the distance at which the object is orbiting? After years of experiments, it was found out, that the greater the distance, the more time it takes to complete one orbit. This was deduced from the formula, that the time taken, is directly proportional to the distance of the object around which it is orbiting. Thus, the planet which is at a larger distance from the Sun, takes longer to complete one orbit. This time taken to complete one orbit is termed as 'orbital period.'
Artificial Satellites
Looking at the first law of Newton, it was understood that in principle it should be possible to put up a man-made satellite in the sky, which would orbit the Earth. As has been seen, this satellite would need a sideways velocity, like the earth, so that it does not fall back on Earth. If such a satellite is put up in the sky at a distance of 4,000 miles, it will have an orbital period of approximately 90 minutes. To miss falling on to the Earth, this satellite would have to have a sideways velocity of 17,000 miles per hour.
Let us consider firing of a cannon ball. If the firing is quite weak, the cannon ball describes a parabolic path and lands up few hundred yards away. If we bring a heavier cannon ball, and try and shoot it a bit further with greater force, the ball describes a parabolic path to the earth's surface and lands up a few hundred miles away. This time the cannon ball goes over the Earth's curvature to describe its path. If now, the a super-heavy cannon ball is shot very forcefully to land a few thousand miles away, the ball would travel much further than what it would if the Earth was flat. Clearly it can be deduced that the Earth's curvature had some effect on the distance that this cannon ball traveled. Imagine that the velocity of this cannon ball is 5 miles per second, i.e., 17,000 miles per hour. As it falls to the Earth, it misses the Earth's surface and the Earth's gravitational force makes the ball continuously change its course in its the fall to the Earth. Thus this cannon ball starts orbiting the Earth. Till the concept of rocket came in, such velocity was unthinkable and putting up a satellite in the sky remained a dream. Eventually the technology evolved and the first artificial satellite 'Sputnik,' was launched by the Russians in 1957. This satellite was not much more than a basket ball and had a radio transmitter on board. It made 'Beep. Beep. Beep' sounds and would appear and disappear, again to re-appear in 90 minutes time.
A few years before the Americans put John Glen into the orbit, on-board an artificial satellite, the Russians had already launched Yuri Gagarin, the first man in space. All these satellites were launched at the same altitude, give or take a few hundred miles, and both had the orbital time of 90 minutes. If these satellites were launched higher, for example at a height of 22,300 miles, the orbital time would have been orbiting the Earth every 24 hours. The skill required to launch the artificial satellites, so as to achieve a geosynchronous orbit, did not happen till 1963. This required the satellite to be launched at a much higher altitude.
When you, look back to the dawn of space travel, the landing on the Moon by Apollo in 1969, seemed to be a giant step forward in space travel. Since that time, weather forecasting has technologically improved with geostationary meteorological satellites, sending the pictures that we see on television everyday. The television broadcast has taken a leap with these satellites, where live telecasts are being beamed from one side of the world to the other. The satellite aided voice communication has had a remarkable effect in getting help in a remote area, where other communication is not available, delivering the highest speech quality with reliability.
With globalisation, factories and offices have come up in the remote part of the world. These locations are often in those parts where modern communication network does not exist. Despite this, business needs to go on and communication is vital. Satellite communication has virtually brought these places quite close, bringing the communication network virtually to any location around the world. This has been done without the need of an infrastructure of wireless network, fiber optics, or even copper cabling.
End of Part I

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Digital Entertainment from Space Satellite

What is a satellite?
Satellite is an object that orbits another object. There are many kind of satellites used for many purposes. For communication and entertainment artificial communication satellites are used. The orbits that are in use for satellites are geosynchronous orbits, low Earth orbits, and Molniya orbits.
What is comsat?
It is an artificial communication satellite. When compared to the other two orbits the geosynchronous orbits are best suited as it can hold a ground-based antenna, which face the satellites. For television ground antenna are essential. Arthur Clarke first founded this method in 1929.
There are different satellite reception modes. To name a few there are Direct broadcast satellite and Television receive only satellite. Direct to home or direct broadcast satellite or mini dish system, is a recent development in the world of communication satellite. The direct broadcast satellite is a completely closed system and it uses proprietary reception equipment. Direct broadcast satellite uses the Ku band and sometimes it can run in C-band satellites. For the functioning of direct broadcast satellite system, encryption based on proprietary reception equipment and proprietary transport stream encoding is required. Direct broadcast satellite uses a smart card as part of the decryption system, which keeps a check on the authorization of subscribers.
Television receive-only, or TVRO, is open standard equipment and referred to as big dish satellite. Television receive-only is a well designed to receive for both television and radio as analog and digital satellite. Television receive-only uses both C-band and Ku-band transponders on the same level. Television receive-only or big dish satellite, as the name suggests uses larger satellite dish antennas. Additional receiver boxes are also used for receiving different types of digital satellite signal reception.
The digital revolution from space is altering the way that we receive information. The more advanced form of digital broadcast system is set-top box. Set-top box is a device, which receives signals, decode digital broadcast, and makes the television user interface friendly to the Internet. Its one of the main feature is to enable analog television to receive digital broadcasts.
Overall, there is a large improvement in the evolution of television relay system. That is from broadcasting through cable to broadcasting via satellites. There was again an evolution in the satellite system itself. For broad casting via satellite system, large dish were in use. Then came the mini dish to receive signal. The mini dish is sophisticated and easy to use system where tuning and maintenance was lot more easy than the traditional dish.

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RV Satellite TV Systems - Get the Best System and Service

RV Satellite TV Systems
In the good ol' days, before DISH Network and DIRECTV made satellite TV available everywhere in the U.S., RVers had to find an RV park that had satellite hook ups, then spend time hooking up their systems.
Today, RV satellite TV systems are totally self contained. You can watch satellite TV anywhere, and setting up a satellite system is a piece of cake. All you have to do is aim your dish toward the area of the southern sky where you get the best reception and your done.
In addition to the hundreds of entertainment, news, and sports channels you get with satellite TV, you can also get Internet service so you can check your email or surf the web while you're on the road.
RV satellite TV equipment
The satellite TV equipment you'll need for your RV is the same as the equipment you have in your home - a satellite TV dish and receiver. You can even use the dish and receiver you have in your home, but for convenience sake most people end up getting a second dish and receiver for their RV.
Because you'll be on the move you'll need a movable stand so you can aim your dish at the satellite. The least expensive stands allow you to manually align your dish whenever you stop for the day. There are also dishes that automatically align your dish, and even "in-motion" systems that track a satellite as you drive so passengers can watch satellite TV while on the move.
To locate a dealer for RV satellite TV stands do an Internet search for "rv satellite tv dish mounts," call you local RV dealer, or check eBay for used equipment.
Satellite TV Providers
There are three major satellite TV providers - DIRECTV, DISH Network, and Sky Angel.
DIRECTV
DIRECTV is the largest satellite TV provider and is ranked second in customer satisfaction among satellite TV providers by J.D Power. They offer 250 channels of satellite TV programming including sports packages, movie channels, pay-per-view programs, and XM satellite radio channels.
DIRECT Programming starts at $41.99 per month for 155 satellite TV channels and goes up to $96.99 per month for 250 channels. You get a free satellite TV dish and up to four free receivers when you subscribe to their service.
DISH Network
DISH Network is the fastest-growing satellite TV provider and is ranked first in customer satisfaction by J.D. Power. They offer 350 channels, including movie channels, sports packages, Sirius satellite radio channels, and pay-per-view programs.
DISH Network programming starts at $19.99 per month for 40 satellite TV channels, and goes up to $74.99 for 350 channels. When you subscribe to their service you get a free satellite TV dish and up to four free receivers.
Sky Angel
Sky Angel is a Christian-oriented satellite TV provider offering Christian TV shows, special events, conferences, children's shows, inspirational programming, and radio programs.
Sky Angel's programming package is $14.99 per month and includes 20 TV program channels plus 15 satellite radio channels. Their equipment costs $149 for one satellite TV dish and one receiver.
Satellite Internet Service
With satellite Internet service you can surf the web and get your email anywhere in the world. Satellite Internet service offers and always-on connection, a connection speed that's 10 times faster than dialup service, and multiple email addresses.
Bottom line
If you want all the comforts of home while you travel the open road, then satellite TV is a must. The equipment's free and you can get programming for as little as $19.99 a month. If you spend much time on the Internet, consider including satellite Internet service with your satellite TV service.

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Types Of Satellite TV Systems - TVRO And DBS

You may think that there is only one type of satellite TV system...but you're incorrect. There is, in fact, two different formats of satellite TV: TeleVision Receive Only (TVRO) and Direct Broadcast Satellite (DBS). Each satellite TV system is built differently and functions in its own fashion. Dish Network, for example, is a DBS system. However, not all satellite TV systems are DBS.
Below is a break down of each system. Read through it and gain a better understanding of the TVRO and DBS satellite TV systems.
TVRO - TeleVision Receive Only
TVRO was the first satellite system available for home viewing of satellite TV. It required a relatively big dish of 3 to 6 feet in diameter and worked in C-Band. Frequencies of around 4 G Hertz are called C-Band and require bigger dishes because the wave length of these frequencies is longer than in Ku-Band which requires a much smaller dish of about 18 inches. Ku-Band is at 12 to 14 G Hertz.
TVRO systems also need a movable dish because it needs to get all the channels of many satellites. C-Band satellites have much less channels available than Ku-Band satellites and therefore more satellites are needed to provide enough channels. Possibilities that exist with TVRO systems is that you can also receive free channels and independent feeds from for instance news companies. You could for instance receive the unedited material that is broadcasted from a news crew somewhere in the coverage area of the satellite. They transmit their materials to their headquarters using a C-Band satellite. Many of these types of feeds are not scrambled and are available to everyone with the proper equipment.
TVRO systems are often referred to as Big Dish TV, C-Band Satellite TV and BUD (Big Ugly Dish).
DBS - Direct Broadcast Satellite
Satellite TV via DBS is done in the Ku-Band. These satellites work on higher frequencies and can transmit higher power signals. This means that much smaller dishes can be used to receive the signal. A small dish of 18 inches is already enough to receive all satellite TV by Satellite TV. This makes it possible to have satellite TV from an apartment on the 10th floor, if you have a clear line of sight to the south. This is the system used by Dish Network and other satellite TV providers.
DBS is for everyone. The satellite dish is so small that it is not an obstacle like with for instance the TVRO dishes of 3 to 6 feet. Once installed the dish needs no maintenance since it is aimed at just one satellite. Some dishes actually have 2 or more feeds which makes it possible to receive the signals from more than 1 satellite.
There are no free channels available on DBS satellites as these are often owned and used by the satellite TV provider it self, such as Dish Network, while TVRO satellites often are used by those who rent space on the satellite for a limited time. TVRO systems are meant for, for instance, transport of unedited materials between continents, but also within one continent.
DBS is meant for everyone with a simple, low cost installation of the system. Often the installation is for free as it really is very easy to do. The only thing that is needed is a bit of knowledge of where to find the satellite and the tools that make this even easier. A qualified installer will find the satellite and point it to maximum reception within minutes.

About The Author Frank Johnson I am first and foremost an observer of life. I enjoy analyzing and exploring all aspects of life on planet Earth, and expressing my personal perspective on the nitty gritty of it all. As a result of my observations, I have become a freelance writer. http://www.dish-network-satellite-tv.ws/. Article Source: http://EzineArticles.com/?expert=Frank_Johnson

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