The correct answer is: B. RC consideration
The stabilization of operating point in potential divider method is provided by the RC network. The RC network provides a negative feedback to the amplifier, which helps to stabilize the operating point.
The RC network is made up of a resistor (R) and a capacitor (C). The resistor provides a path for current to flow, while the capacitor stores charge. When the amplifier is turned on, the capacitor charges up. As the capacitor charges, it provides a negative feedback to the amplifier. This negative feedback helps to stabilize the operating point.
The RC network is a very important part of the potential divider method. It helps to ensure that the operating point is stable and does not drift over time.
Here is a brief explanation of each option:
- A. RE consideration
The RE consideration is not relevant to the stabilization of operating point in potential divider method. The RE consideration is related to the emitter resistor (RE). The emitter resistor is used to provide a bias current to the transistor. The bias current helps to set the operating point of the transistor.
- C. VCC consideration
The VCC consideration is not relevant to the stabilization of operating point in potential divider method. The VCC consideration is related to the power supply voltage (VCC). The power supply voltage provides the power to the amplifier. The power supply voltage must be high enough to provide the necessary power to the amplifier.
- D. None of the above
The correct answer is B. RC consideration. The RC consideration is the only option that is relevant to the stabilization of operating point in potential divider method.