Unguided medium transport electromagnetic waves without using a physical conductor. This type of communication is often referred to as wireless communication. Signals are normally broadcast through free space and thus are available to anyone who has a device capable of receiving them. The below figure shows the part of the electromagnetic spectrum, ranging from 3 kHz to 900 THz, used for wireless communication
• Ground Propagation: In this, radio waves travel through the lowest portion of the atmosphere,
hugging the Earth. These low-frequency signals emanate in all directions from the transmitting
antenna and follow the curvature of the planet.
• Sky Propagation: In this, higher-frequency radio waves radiate upward into the ionosphere where they are reflected back to Earth. This type of transmission allows for greater distances with lower output power.
• Line-of-sight Propagation: in this type, very high-frequency signals are transmitted in straight lines directly from antenna to antenna.
We can divide wireless transmission into three broad groups:
1. Radio waves
2. Micro waves
3. Infrared waves
A. Radio Waves
Electromagnetic waves ranging in frequencies between 3 KHz and 1 GHz are normally called radio
Radio waves are omnidirectional. When an antenna transmits radio waves, they are propagated in all directions. This means that the sending and receiving antennas do not have to be aligned. A sending antenna send waves that can be received any receiving antenna. The omnidirectional property has disadvantage, too. The radio waves transmitted one antenna are susceptible to interference another antenna that may send signal suing the same frequency or band.
Radio waves, particularly with those of low and medium frequencies, can penetrate walls. This characteristic can be both an advantage and a disadvantage. It is an advantage because, an AM radio can receive signals inside a building. It is a disadvantage because we cannot isolate a communication to just inside or outside a building.
Applications of Radio Waves
• The omnidirectional characteristics of radio waves make them useful for multicasting in which
there is one sender but many receivers.
• AM and FM radio, television, maritime radio, cordless phones, and paging are examples of
B. Micro Waves
Electromagnetic waves having frequencies between 1 and 300 GHz are called micro waves. Micro waves are unidirectional. When an antenna transmits microwaves, they can be narrowly focused. This means that the sending and receiving antennas need to be aligned. The unidirectional property has an obvious advantage. A pair of antennas can be aligned without interfering with another pair of aligned antennas.
The following describes some characteristics of microwaves propagation:
• Microwave propagation is line-of-sight. Since the towers with the mounted antennas need to be in direct sight of each other, towers that are far apart need to be very tall.
• Very high-frequency microwaves cannot penetrate walls. This characteristic can be a disadvantage if receivers are inside the buildings.
• The microwave band is relatively wide, almost 299 GHz. Therefore, wider sub-bands can be assigned and a high date rate is possible.
• Use of certain portions of the band requires permission from authorities.
Unidirectional Antenna for Micro Waves
Microwaves need unidirectional antennas that send out signals in one direction. Two types of antennas are used for microwave communications: Parabolic Dish and Horn.
A parabolic antenna works as a funnel, catching a wide range of waves and directing them to a common point. In this way, more of the signal is recovered than would be possible with a single-point receiver. A horn antenna looks like a gigantic scoop. Outgoing transmissions are broadcast up a stem and deflected outward in a series of narrow parallel beams the curved head. Received transmissions are collected the scooped shape of the horn, in a manner similar to the parabolic dish, and are deflected down into the stem.
Applications of Micro Waves
This is a microwave relay station which is placed in outer space. The satellites are launched either rockets or space shuttles carry them.
These are positioned 36000 Km above the equator with an orbit speed that exactly matches the rotation speed of the earth. As the satellite is positioned in a geo-synchronous orbit, it is stationery relative to earth and always stays over the same point on the ground. This is usually done to allow ground stations to aim antenna at a fixed point in the sky.
Features of Satellite Microwave
• Bandwidth capacity depends on the frequency used.
• Satellite microwave deployment for orbiting satellite is difficult.
Advantages of Satellite Microwave
• Transmitting station can receive back its own transmission and check whether the satellite has transmitted information correctly.
• A single microwave relay station which is visible from any point.
Disadvantages of Satellite Microwave
• Satellite manufacturing cost is very high
• Cost of launching satellite is very expensive
• Transmission highly depends on whether conditions, it can go down in bad weather