9.2 Practical method of measurement

touch the cable by hand and observe variation of the input impedance characteristics on the network analyzer. Balanced-fed antennas need baluns when they are fed by a coaxial cable.

Such is a case often observed when a balanced-fed antenna is directly connected with a coaxial cable, where undesired currents may flow on the outside surface of the coaxial cable, greatly influencing measurements. If such unwanted current on the outside surface of a coaxial cable can be prevented from flowing by the above-mentioned measure, the input impedance characteristic of an antenna can be measured. However, radiation pattern measurement needs special attention around the nulls of the radiation pattern, since the original antenna characteristic may change due to the existence of a coaxial cable between the antennas. Moreover, there is the method of connecting a small oscillator directly to an antenna, without using a coaxial cable. As a small oscillator is installed inside a mobile portable terminal and is connected with an antenna directly or through a balun, measurement of a radiation pattern is possible without the influence of a coaxial cable, but input impedance cannot be measured this way. Therefore, to obtain complete results, it is necessary to measure input impedance characteristics by another method.

There is a method of using an optical system for the measuring method that conquers the above-mentioned fault. This method transforms radio frequency signals into light signals and transmits the light signals by an optical fiber. After that, light signals are transformed back into radio frequency signals. By using the optical cable made of dielectric instead of a coaxial cable, the influence of currents flowing on the outside of a coaxial cable can be removed. Moreover, in this method, input impedance characteristics can also be measured, and balanced-to-unbalanced transformation also made unnecessary by miniaturizing the area connected with an antenna. Therefore, this is a promising measuring method for the future.

9.2Practical method of measurement

Because of the great variety of antenna configurations, the method of measurement should be selected in such a way that the proper measurement can be performed, depending on the antenna configurations and mounting conditions, to achieve accurate results. When an antenna under test has a configuration that is not simple and symmetric, there are many factors that must be taken into account to achieve accurate results from the measurement.

The small antennas installed on portable mobile terminals can be classified into the unbalanced-fed antenna types shown in Figure 9.1 and the balanced-fed antenna types shown in Figure 9.2 according to the feeding structure. As examples of unbalancedfed antennas, there are a monopole antenna on a case, an inverted-F antenna, a microstrip antenna and so on. As a balanced-fed antenna, there is a loop antenna etc. by return.