![]() These are referred as directional devices. ![]() These are referred as signal separation devices in VNA. VNA usually measure incident and reflected waves though series of bridges or couplers. b1, b2) are linear combination of waves which are input to the DUT (i.e. The figure-2 depicts 2-port DUT with S-parameters and four wave types. ![]() The light analogy described above can be applied to 2 port S-parameter model of RF device. ➨transmitted wave = original beam transmitted through lens + partial reflected beam from obstacle ➨Reflected wave before the lens = original beam reflected by lens + part of the reflection from the obstacle one gets merged with original reflection(B1) and the other part gets merged with If there is no obstacle after lens the light will pass though smoothly.īut if obstacle is there after lens, then part of light is reflected back(A2) towards lens and this gets splitted The portion of the incident light is reflected by lens and some are transmitted through it. The concept of VNA can be best understood with the example of light rays incident on the lens device. ➨Vector Network Analyzer (VNA) helps measure both phase and magnitude related measurements. ➨Scalar Network Analyzer (SNA) helps measure magnitude related measurements. SNA (Scalar Network Analyzer) and VNA (Vector Network Analyzer). Using these measurements different S-parameters are derived.Īt high frequency, ratio of reflected signal and incident signal gives us S11 or G.Īs we know Network analyzers are of two types viz. Hence here other technique is employed which measures incident wave, reflected wave and transmitted wave. This is not possible to do at high frequency. There are various equipments which performs this calculation such as volt meter, current meter, sine wave generator etc. Network Analyzer : As we know network analyzer is used to measure impedance.Īt low frequency, we can simply divide voltage and current to obtain impedance. This tutorial also provides links to difference between scalar and vector network analyzers. Vector Network Analyzer (VNA) measurements, VNA calibration etc. Vector Network Analyzer basics, VNA transmitter and receiver block diagrams, Vector Network Analyzer tutorial | VNA tutorial
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