Table 3: Amplifier device parameters and circuit components hie = 1.4 kΩ; hfe = 90; hoe = 10 x 10-7 ; Cc = 6 pF; Cp = 46 pF; Lp = 150 uH; Rw = 5 Ω; Ls = 80 uH; Rs = 5 Ω; RL = 7k5; k = 0.014 and fo = 1.8 MHz 7.From Table 3, determine the voltage gain from the input to the primary winding(dimensionless) (kilo): 8.From Table 3, determine the ratio of the secondary to primary voltage (dimensionless)(milli): 9.From Table 3, determine the ratio of the output to secondary voltage (dimensionless) (hecto): 10.From Table 3, determine the overall voltage gain from the input to the secondary winding (dimensionless) (kilo):
Table 3: Amplifier device parameters and circuit components hie = 1.4 kΩ; hfe = 90; hoe = 10 x 10-7 ; Cc = 6 pF; Cp = 46 pF; Lp = 150 uH; Rw = 5 Ω; Ls = 80 uH; Rs = 5 Ω; RL = 7k5; k = 0.014 and fo = 1.8 MHz 7.From Table 3, determine the voltage gain from the input to the primary winding(dimensionless) (kilo): 8.From Table 3, determine the ratio of the secondary to primary voltage (dimensionless)(milli): 9.From Table 3, determine the ratio of the output to secondary voltage (dimensionless) (hecto): 10.From Table 3, determine the overall voltage gain from the input to the secondary winding (dimensionless) (kilo):
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Table 3: Amplifier device parameters and circuit components
hie = 1.4 kΩ; hfe = 90; hoe = 10 x 10-7
; Cc = 6 pF; Cp = 46 pF; Lp = 150
uH; Rw = 5 Ω; Ls = 80 uH; Rs = 5 Ω; RL = 7k5; k = 0.014 and fo = 1.8 MHz
7.From Table 3, determine the voltage gain from the input to the primary winding(dimensionless) (kilo):
8.From Table 3, determine the ratio of the secondary to primary voltage (dimensionless)(milli):
9.From Table 3, determine the ratio of the output to secondary voltage (dimensionless)
(hecto):
10.From Table 3, determine the overall voltage gain from the input to the secondary winding (dimensionless) (kilo):
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