Answer Happy

2.3.1 Calculate the average power (in dBm) resistor. (4) 2.3.2 Calculate the voltage and current error as a percentage. 2.3.3 Calculate the maximum power dissipation in the resistor. 2.3.4 Calculate the minimum power dissipation in the resistor. 2.4 Consider the amplifiers shown in Figure 1 and complete the following: 2.4.1 Express the gains of the amplifiers as power ratios. 2.4.2 Calculate the signal to noise (S/N) ratio at Point A 2.4.3 Express the gain of the system as a dB and as a ratio 2.4.4 Calculate the noise factor and figure of the cascaded system 2.4.5 Calculate the output noise power 2.4.6 Calculate the output signal power 2.4.7 Calculate the output signal-to-noise ratio 2.4.8 Calculate the bandwidth of the system 2.4.9 Calculate the RMS voltage over the load. 2.4.10 Calculate the PEAK voltage over the load. 2.4.11 Express the output noise power in dBm. Point A Rin= 1500 Q Vn = 760 mV Sin 300 mW G19 dB NF1 = 12 dB dissipated in the Figure 1: Amplifiers in series Point B G2 = 32 dB NF2 = 8 dB (3) (1) (1) NNNE Eeeeee Point C Rload = 16 Q 3