venn_ng
Member level 5
I have a very basic question regarding S21 when there is an impedance mismatch with the characteristic impedance.
I have attached a figure of the test circuit.
Assume that the Transmission line is loseless and has an effective length of λ/4 at Frequency=200GHz. When I plot the S11 at DC, it's simply
S11= (1M-10)/(1M+10)~0.99998 (pretty close to 0dB, it's complete reflection at the input).
S21 obtained is around -44 dB (based on simulation). Is this because, |S11|2+|S21|2=1 for a lossless transmission line?
What I don't get is the following.
At DC, the gain of the above network is 1M/(1M+10) ~ 1, on the other hand, S21 is much below (i.e. -44 dB). What am I missing? I thought S21 is an indication of insertion loss but this result is counter intuitive. I am so confused...:bang:
I have attached a figure of the test circuit.
Assume that the Transmission line is loseless and has an effective length of λ/4 at Frequency=200GHz. When I plot the S11 at DC, it's simply
S11= (1M-10)/(1M+10)~0.99998 (pretty close to 0dB, it's complete reflection at the input).
S21 obtained is around -44 dB (based on simulation). Is this because, |S11|2+|S21|2=1 for a lossless transmission line?
What I don't get is the following.
At DC, the gain of the above network is 1M/(1M+10) ~ 1, on the other hand, S21 is much below (i.e. -44 dB). What am I missing? I thought S21 is an indication of insertion loss but this result is counter intuitive. I am so confused...:bang: