Final answer:
To construct an emitter-follower bias configuration circuit, use Rᵦ = 100 kΩ and Rₑ = 1.17 kΩ. The emitter current, Iₑ, is found to be 4.6 mA.
Step-by-step explanation:
An emitter-follower bias configuration circuit consists of an NPN transistor connected in the emitter-follower configuration. The circuit helps to provide voltage gain and stabilize the output signal. To determine the resistance values for Rᵦ and Rₑ, we can use the following equations:
Rᵦ = V / Iᵦ = 6 V / 60 µA = 100 kΩ
Rₑ = (V - 0.6 V) / Iₑ, where Iₑ is the emitter current. To find Iₑ, we can use the equation Iₑ = (β + 1) * Iᵦ:
Iₑ = (75 + 1) * 60 µA = 4.6 mA
Therefore, Rₑ = (6 V - 0.6 V) / 4.6 mA = 1.17 kΩ