Those definitions are true. As for the return loss and insertion loss, you need to measure both, you can't necessarily determine one from the other. For a passive device, some of the incident power is reflected, some is transmitted, and some is absorbed (turned to heat). For an active device you have those effects, plus possibly amplification of the signal.
Those definitions are true. As for the return loss and insertion loss, you need to measure both, you can't necessarily determine one from the other. For a passive device, some of the incident power is reflected, some is transmitted, and some is absorbed (turned to heat). For an active device you have those effects, plus possibly amplification of the signal.
Really? there's no relationship between these two?
then i have been mistaken.
i have measured both S11 and S21,
and applied some calibration calculations to them.
giving another S11 and S21, i thought there were some relationship between them,
that i can use it to verify whether the calibrated S11 and S21 are logical or not.
was wondering which one is correct.
To = 1 + Γo
To = 1 - Γo
but if there is no relationship between To and Γo, then i will forget about this checking procedure.
thanks for your answer
Quoting formulas without telling about the described system is pointless.
If you read the linked Edaboard thread where you took the To = 1 - Γo expression thoroughly, you should have seen the critical comments. It has been clarified that a lossless system would enforce conservation of energy, instead of To + Γo = 1, you get To² + Γo² = 1. So in a short, there are different equations describing different situations.
In most cases, there is a relation between transmission and reflection coefficient. You can't avoid to analyze the system details to know how exactly.