Difficulty: Medium
Correct Answer: S13 = S23; S12 = 0; S34 = 0
Explanation:
Introduction:
The magic tee (hybrid tee) combines E-plane and H-plane tees into a single 4-port junction. Understanding its ideal S-parameter symmetries is essential for using it as a power combiner/splitter or as a bridge in microwave measurements, where isolation and phase properties matter for accurate setups.
Given Data / Assumptions:
Concept / Approach:
Key properties are: (i) co-linear ports are isolated (S12 = 0), (ii) the side arms are isolated from each other (S34 = 0), (iii) coupling from a co-linear port to the H-arm is equal for ports 1 and 2 (S13 = S23), and (iv) coupling to the E-arm has a 180° phase sign difference (S14 = −S24). The provided grouped statements include these relationships; the set that is always correct and unambiguous is the one that asserts S13 = S23, S12 = 0, and S34 = 0 simultaneously.
Step-by-Step Solution:
Verification / Alternative check:
Standard S-matrices for magic tees show S12 = S34 = 0 and equal-magnitude relations noted above. Measurement benches use the E-arm for differential signals precisely because of this sign inversion.
Why Other Options Are Wrong:
Any option lacking the isolation statements or asserting S14 = S24 (missing the minus sign) is not fully correct for an ideal magic tee. Also, asserting S13 ≠ S23 contradicts symmetry.
Common Pitfalls:
Ignoring the sign inversion at the E-arm; assuming all four ports can be perfectly matched and isolated over a very wide band (in practice, these are narrowband approximations).
Final Answer:
S13 = S23; S12 = 0; S34 = 0.
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