Answer:
SABL
Explanation:
The best amplifier will be the one that gives us a bigger gain. In each stage will be a load factor that will reduce the gain, that is defined as:
[tex]Fp=\frac{R_{in}}{R_{in}+R_{out}}\\[/tex]
where Rin is the input resistance of the next stage and Rout the output resistance of the previous stage.
Analyzing SABL:
[tex]Fp_1=\frac{100K}{100K+100K}=0.5\\\\Fp_2=\frac{10K}{10K+10K}=0.5\\\\Fp_3=\frac{100}{100+1K}=0.0909[/tex]
the total gain will be the total gain of each stage multiplied by the load factor.
[tex]SABL_{gain}=0.5*100*0.5*10*0.0909\\SABL_{gain}=22.73\\SABL_{gain_{db}}=20*\log{22.73}=27.13db[/tex]
Analyzing SBAL:
[tex]Fp_1=\frac{10K}{10K+100K}=0.0909\\\\Fp_2=\frac{100K}{100K+10K}=0.909\\\\Fp_3=\frac{100}{100+10K}=0.0099[/tex]
the total gain will be the total gain of each stage multiplied by the load factor.
[tex]SABL_{gain}=0.0909*10*0.99*100*0.0099\\SABL_{gain}=0.89\\SABL_{gain_{db}}=20*\log{0.89}=-1.01db[/tex]
So the best amplifier arrangement is SABL.
