The MOSFET circuit shown below uses a MOSFET with the indicated characteristics. For each of the cases listed, solve MOSFET's device current and drain voltage, and indicate whether the device is operating in saturation or triode. (A) vG = 4.5 V (B) vG = 4.0 V (C) vG = 3.0 V (D) Assuming the device is in deep triode (i. e. it is in the linear region), solve for the case when vG = 0 V by approximating the device as a resistor with resistance RON.
![The MOSFET circuit shown below uses a MOSFET with the indicated characteristics. For each of the cases listed, solve MOSFET's device current and drain voltage, and indicate whether the device is operating in saturation or triode. [Hint: To perform this analysis, the usual procedure is to assume the device is in saturation, and solve accordingly. Then check for consistency. If the result is inconsistent, then you must repeat the analysis using the triode equation.] (A) vG = 0.25 V (B) vG = 0.74 V (C) vG = 3 V (D) Assuming the device is in deep triode (i.e. it is in the linear region), solve for the case when vG = 5 V by approximating the device as a resistor with resistance RON.](https://www.doubtrix.com/uploads/editor/4087267755OhKhYImdSh.png)
![The MOSFET circuit shown below uses a MOSFET with the indicated characteristics. For each of the cases listed, solve MOSFET's device current and drain voltage, and indicate whether the device is operating in saturation or triode. [Hint: To perform this analysis, the usual procedure is to assume the device is in saturation, and solve accordingly. Then check for consistency. If the result is inconsistent, then you must repeat the analysis using the triode equation.] (A) vG = 0.25 V (B) vG = 0.74 V (C) vG = 3 V (D) Assuming the device is in deep triode (i.e. it is in the linear region), solve for the case when vG = 5 V by approximating the device as a resistor with resistance RON.](https://www.doubtrix.com/uploads/editor/9257974739SrpTcflJmJ.png)
![The MOSFET circuit shown below uses a MOSFET with the indicated characteristics. For each of the cases listed, solve MOSFET's device current and drain voltage, and indicate whether the device is operating in saturation or triode. [Hint: To perform this analysis, first assume the device is in saturation, and solve accordingly. Then check for consistency. If the result is inconsistent, then repeat the analysis using the triode equation.] (A) R = 100 Ω (B) R = 1 kΩ (C) R = 10 kΩ](https://www.doubtrix.com/uploads/editor/2447998760wIWOwHkHZj.png)
