001-0014

Series:	FlexPIFA™
Packaging:	Bulk
Part Status:	Active
Frequency Group:	UHF (2 GHz ~ 3 GHz)
Frequency (Center/Band):	2.4GHz
Frequency Range:	2.4GHz ~ 2.48GHz
Antenna Type:	FlexPIFA
Number of Bands:	1
VSWR:	2
Return Loss:	--
Gain:	2dBi
Features:	--
Termination:	Cable (100mm) - U.FL
Ingress Protection:	--
Mounting Type:	Adhesive
Height (Max):	0.098" (2.50mm)
Applications:	--

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RF Antennas RF antennas- also referred to as radiofrequency antennas - are used in radio communications systems to receive and transmit radio waves. These antennas have been used for many years in various communication systems, and can be found in a variety of environments. In many cases, these antennas have been designed to provide an optimal signal reception and transmission for a given environment. In the communications industry, RF antennas are the essential component that enables radiofrequency (RF) transmission and reception. Without a properly tuned and designed RF antenna, communication would not be possible. The basic design of the RF antenna includes an antenna element that is designed to focus a radio signal in a certain direction. Connected to the antenna element is a circuit that amplifies the radio signal and transmits it out on a given frequency. Some antenna elements have the capability of being directionally steered to obtain signal reception from different directions. The most common design of a RF antenna is a dipole antenna. This antenna consists of two rods that are arranged symmetrically and placed apart in such a way that they form an "x" shape. The two rods act as a conductor that channels the radio frequency signal in an electromagnetic field. The dipole antenna can be tuned to a certain range of frequencies, allowing for varying degrees of signal transmission and reception. In addition to the dipole antenna, there are a variety of other antenna designs that are used in RF communications. A parasitically-coupled antenna is one of the most widely used designs. This type of antenna is characterized by a dipole element that is placed over a flat ground plane. The flat ground plane serves to evenly distribute the RF signal over a wide area, increasing the range of the antenna. Horn antennas also figure prominently in RF communications. These antennas are made up of a circular or conical shaped waveguide that is designed to focus energy in a certain direction. Horn antennas are designed to be more powerful than dipole antennas, as they can direct their energy more precisely in a given direction. They are often used in short-range communications applications, as they are more powerful than other types of antennas. The Yagi antenna is another type of antenna often used in RF communication. This type of antenna is designed to have an elongated shape with a number of parallel elements that are arranged along its length. The elements of the Yagi antenna serve to focus the RF signal towards a specific direction, increasing its power. Yagi antennas are commonly used in point-to-point communication applications, such as radio-controlled cars, television transmissions, and even some wireless Internet services. Lastly, guided wave antennas are another type of RF antenna. Also known as slot antennas, these antennas are designed as rectangular slots in a ground plane. They are often used in areas of long range communications, as they offer relatively low noise reception. Guided wave antennas are also capable of focusing their beams in specific directions, allowing for directional radio reception and transmission. In conclusion, RF antennas play an important role in the transmission and reception of radio waves. They come in a variety of shapes and sizes, and have been designed to maximize signal reception and transmission in a variety of environments. It is important to understand the different types of antennas and their respective design in order to maximize the effectiveness of a given communication system.

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