Hamid.Kiumarsi
Full Member level 2
Dear experts,
Say that I have designed a transformer in ADS Momentum which has two differential ports, namely, primary and secondary.
At the first glance it seems easy to find the insertion loss with evaluating the S21.
But in many papers that I will cite at the below "maximum available gain" is used as a figure-of-merit. This efficiency or maximum available gain can be found as:
efficiency= 1+2(X-sqrt(X^2 + X))
X= (1-Kr^2)/(Qp*Qs*K^2+Kr^2)
Kr= Rm/(Rp*Rs)
Rm=real(Z21) 2 is for secondary port and 1 is for primary port
Qp and Qs are quality factors of primary and secondary and K is coupling factor.
If insertion loss is calculated from this efficiency (IL=-10*log(efficiency)), it's way too different from S21 in dB.
This gets especially difficult if I want to design a network which has two differential primary ports and one differential secondary port.
What should I evaluate to find the insertion loss?
reference: K. T. Ng, B. Rejaei, and J. N. Burghartz, “Substrate effects in monolithic RF transformers on silicon,” IEEE Trans. Microw. Theory Tech., vol. 50, no. 1, pp. 377–383, Jan. 2002.
Say that I have designed a transformer in ADS Momentum which has two differential ports, namely, primary and secondary.
At the first glance it seems easy to find the insertion loss with evaluating the S21.
But in many papers that I will cite at the below "maximum available gain" is used as a figure-of-merit. This efficiency or maximum available gain can be found as:
efficiency= 1+2(X-sqrt(X^2 + X))
X= (1-Kr^2)/(Qp*Qs*K^2+Kr^2)
Kr= Rm/(Rp*Rs)
Rm=real(Z21) 2 is for secondary port and 1 is for primary port
Qp and Qs are quality factors of primary and secondary and K is coupling factor.
If insertion loss is calculated from this efficiency (IL=-10*log(efficiency)), it's way too different from S21 in dB.
This gets especially difficult if I want to design a network which has two differential primary ports and one differential secondary port.
What should I evaluate to find the insertion loss?
reference: K. T. Ng, B. Rejaei, and J. N. Burghartz, “Substrate effects in monolithic RF transformers on silicon,” IEEE Trans. Microw. Theory Tech., vol. 50, no. 1, pp. 377–383, Jan. 2002.