The AD8307 is a perfect choice for this project, as the AD8307's +INPUT and -INPUT differential inputs will do the majority of the work for us. It is designed to work from DC to over 500 MHz, and has a resolution of 92 dB. This particular return loss bridge will be based around an Analog Devices AD8307 logarithmic amplifier. The bridges provide DC isolation to prevent undesired loading of the circuitry by associated test equipment. These devices develop a DC potential with respect to ground which is proportional to the degree of unbalance in the arms of the bridge circuit. Return loss (reflection coefficient) bridges are broadband RF comparators. The common Standing Wave Ratio (SWR) meter which is normally used to verify an antenna system has a very narrow RF bandwidth, usually only accurately covering 50 MHz or so at a time. The version documented here should be accurate from below 1 MHz to over 500 MHz. Return loss bridges are ideal for checking antenna systems as they are simple to build and have a very large RF bandwidth. Generally, the higher the DC voltage output, the worst the impedance mismatch is. A DC voltage signal is generated which corresponds to the level of impedance mismatch between the "known" and "unknown" impedances. It works by comparing an "unknown" impedance to a "known" impedance, which is usually 50 ohms in radio work. A return loss bridge is a wideband resistive bridge network which can be used to verify the impedance of coaxial cables, antennas, tuning stubs, filters, etc.
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