Answer:
[tex]P_{out} = 0.100 W = 100 mW[/tex]
Explanation:
The attached image shows the system expressed in the question.
We can define an expression for the system.
The equivalent equation for the system would be
[tex]G_{total} = G_{1} + G_{2} + G_{3}\\G_{total} = -16dB+20dB-10 dB = -6 dB[/tex]
so, the input signal could be expressed in dB terms
[tex]P_{in} [dB] = 10 log_{10}(P_{in}) \\P_{in} [dB] = 10 log_{10}(0.4)\\P_{in} [dB] = -3.97 dB[/tex] (1)
so the output signal could be expressed as.
[tex]P_{out} = P_{in} + G_{1} + G_{2} + G_{3}\\P_{out} = -3.97 dB - 6dB = -9.97 dB[/tex]
The gain should be expressed in dB terms and power in dBm terms so
[tex]P_{out} = -9.97 + 30 = 20.03 dBm[/tex]
using the (1) equation to find it in terms of Watts
[tex]P_{out} = 0.100 W = 100 mW[/tex]
