3- Draw the I-V characteristics (Vds vs Ids) for the PMOS transistor for the following gate...

Course is VLSI A CMOS inverter circuit uses NMOS and PMOS transistors with the following characteristics:...

Course is VLSI A CMOS inverter circuit uses NMOS and PMOS transistors with the following characteristics: Vth mn/Cox W/L NMOS 0.3V 100 (mA/V2) 2 PMOS 0.3V 50 (mA/V2) 2 Both transistors are saturated for a certain input (gate) voltage. (a) Find an expression (value the input voltage as a function of supply voltage, VDD (hint: current through the NMOS and the PMOS are same). (b) Plot ID vs VGS for VDS = 1.0V in the NMOS transistor above using excel....

The field-effect transistor (FET). Answer the following. (a) Sketch the NMOSFET’s [that is, the n-channel FET’s]...

The field-effect transistor (FET). Answer the following. (a) Sketch the NMOSFET’s [that is, the n-channel FET’s] schematic symbol. Show the three terminals. Label terminals, voltages and currents. Especially, show where the drain current ID enters the transistor and where it leaves the transistor. [Hint: no current enters or leaves a FET’s gate.] (b) Let K = 0.500 mA/V 2 and Vth = 1.00 v. If VS = 0, VG = 1.50 v. and VD = 0.20 v., then compute ID....

A step-down SMPS is required to meet the following performance criteria: V0= 5 V; I0= 50...

A step-down SMPS is required to meet the following performance criteria: V0= 5 V; I0= 50 mA; fmin= 50 kHz; Vs= 24 V; Vripple p- p = 25 mV. The saturation voltage for the transistor and the diode forward voltage drop both have a value of 0.7V Determine values for the system inductor L and output capacitor C

Design a Boost Converter with the following characteristics: Vg = 100V, V = 200V, load power...

Design a Boost Converter with the following characteristics: Vg = 100V, V = 200V, load power 800W, switching frequency 100 kHz. For the design consider all elements to be ideal. 1) What is the duty cycle, D? 2) What is the inductor average current, IL? 3) Design the inductor and capacitor so that the peak-to-peak inductor current ripple is 40% of IL and the capacitor peak-to-peak voltage ripple is 2.5 % of V. 4) Draw the waveforms of voltage and...

% The current through a capacitor, i, is equal to the capacitor value % multiplied by...

% The current through a capacitor, i, is equal to the capacitor value % multiplied by the rate of change of the voltage across it vs. t as it is % charging, meaning i = C*dV/dt. If C = 1000e-6, and the voltage across the % capacitor is measured every 0.5ms, shown in the table below, % Find the current through the capacitor. Plot current (i) and voltage(V) % on two different figures. How are the plots related? %_______________________________________ %...

Plot V versus I for the data from Step P4. Does the resistance of the filament...

Plot V versus I for the data from Step P4. Does the resistance of the filament of the lamp increase, decrease, or stay the same? What indicates your observation? Is the Ohm's Law obeyed by the lamp? Explain. Volt mAmp 0 0 0.1 0.02 0.2 0.06 0.3 0.09 0.4 0.11 0.5 0.12 0.6 0.13 0.7 0.14 0.8 0.14 0.9 0.15 1 0.16 1.1 0.17 1.2 0.17 1.3 0.18 1.4 0.19 1.5 0.2

You create a plot of voltage (in V) vs. time (in s) for an RC circuit...

You create a plot of voltage (in V) vs. time (in s) for an RC circuit as the capacitor is charging, where V=V_{0} \cdot \left(1- e^{ \frac{-\left(t\right)}{RC} } \right). You curve fit the data using the inverse exponent function Y=A \cdot \left(1- e^{-\left(Cx\right)} \right)+B and LoggerPro gives the following values for A, B, and C. A = 4.611 ± 0.4211 B = 0.1599 ± 0.007211 C = 1.951 ± 0.2051 What is the time constant and its uncertainty? NEED CORRECT...

Three variables of interest in power transistors are the amount of current that can be switched,...

Three variables of interest in power transistors are the amount of current that can be switched, the voltage that can be switched, and the cost. The following membership functions for power transistors were developed from a hypothetical components catalog: Average current (in amps) = I = {0.4/0.8 + 0.7/0.9 + 1.0/1.0 + 0.8/1.1 + 0.6/1.2} Average voltage (in volts) = V = {0.2/30 + 0.8/45 + 1.0/60 + 0.9/75 + 0.7/90} Note how the membership values in each set taper...

Identify a specific function f that has the following characteristics. Then draw it's graph. f(0)=3 f'(x)=-2...

Identify a specific function f that has the following characteristics. Then draw it's graph. f(0)=3 f'(x)=-2 for x E (-infinity, infinity).

2(a) Qualitatively hand-sketch log(I) vs. V for a Schottky diode and a PN diode in the...

2(a) Qualitatively hand-sketch log(I) vs. V for a Schottky diode and a PN diode in the same figure. Comment on the similarity and difference. 2(b) Calculate the IS of a 1 mm2 metal on N-type Si Schottky diode with A*=100A/cm2-K2, T=300K, ?Bn=0.55eV. Compare it with the IS of a 1 mm2 P+N diode with ND = 1018 cm–3, T=300K and, Dp =4cm2/s, ?p=1?s. (c) Compare the forward voltage of the two diodes in (b) at a forward current of 50A....