Question :a)Draw a source follower circuit which is-in se by curreat Source and consists o4 3 NMo...
1. Consider the CMOS source follower (or common drain) amplifier shown below. The NMOS transistor operates in the saturation region. C, C2 are coupling capacitors. 「en C2 Rs 2ok The small-signal model for NMOS transistor is given below gnUgs The parameters are given below: (1) Please derive the complete small-signal circuit for the amplifier (10pts). (2) Apply Miller Effect to the small-signal circuit from step (1) to estimate the 3dB bandwidth of the amplifier. (Note: applying Miller Effect introduces a...
Problem 1 -Integrated Common Source Amplifier: For the circuit in Fig.1, draw the small signal equivalent circuit and find the following small signal values: gm1 go1 go2 Vout/Vin Rout You can assume that the overdrive voltage for all transistors is 0.2V and A for the NMOS and PMOS are 0.1V1 and 0.05V1 respectively. The drain source current of the transistors M1 and M2 is 20HA. All gate lengths of homework 3.) 0.5um. (The DC analysis for this circuit was done...
2.(20pts) The NFET transistor in the source-follower circuit has gm=5mA/V and 1=100k. Draw a hybrid- small-signal schematic. Derive expressions for and calculate the following: voltage gain v/v; and the output resistance Rout. Show all your work! C P +100 [104 You
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Problem 4- Common Source Amplifier: For the circuit in Fig. 4, draw the small signal equivalent circuit and find the following small signal values: gm , go, Vout/Vin , Rout and Rin You can assume that the overdrive voltage for the transistor is 0.2V and 2 for the NMOS and PMOS are 0.1V1 and 0.05V-1 respectively.. The drain source current of the transistor is 200uA Vee 9v 4ook 2 Vin Pmos C 5ook 16.Sk Fig. 4
Problem 4-...
The circuit shown in Figure 3 is a rudimentary Common-Source Amplifier 10V Draw the small-signal AC model of this amplifier Specify: rin rout 8m and A/loc) Also specify the Input Linear Range. 33k Fig. 3 200k 200k C,
The circuit shown in Figure 3 is a rudimentary Common-Source Amplifier 10V Draw the small-signal AC model of this amplifier Specify: rin rout 8m and A/loc) Also specify the Input Linear Range. 33k Fig. 3 200k 200k C,
3. The circuit from Fig.3 is a source follower with bootstrapping. The reason for bootstrapping is related to the resistive divider R1 and R2 for generating the gate bias voltage of M1 02 UT Fig.3: Source follower with bootstrapping a. How does bootstrapping work? Calculate the input impedance of the follower without bootstrapping b. Calculate the input impedance of the follower with bootstrapping
3. The circuit from Fig.3 is a source follower with bootstrapping. The reason for bootstrapping is related...
+VOD PMOSI Vout NMOS 3 NMOS 2 - Draw the small signal equivalent circuit. label each component and device. Use conductances for the channel length modulation terms assume lamba not equal to zero and not the same for pmos and nmos - What is the equation for small signal gm in terms of de bias for PMOSI? - Do nodal analysis at the drain node of NMOS2 and PMOS1 Solve for an equation for Av=vout/vin. - Solve for the output...
3. A household wiring circuit consists of a voltage source (ac power from the electric company) connected across many loads (resistances) in parallel. (a) Draw a circuit diagram showing the voltage source and three loads-for example, a lightbulb, a clock, and a TV set. (b) The diagram should have several loops. Are Kirchhoff s rules needed to analyze the current through each load? Explain.
Avec Úvo SRE L V II. (5pt) Consider the above-right common-collector or emitter-follower BJT amplifier circuit. Given: ß= 100, RE = 10 k1, Vcc = 20 V, RB = 5 k1, R1 = 10 kl, and Ry = 2 k1. (a) (1pt) Find the Q-point, i.e. Ibo, Ico, and VCEO; (b) (1pt) draw the small-signal equivalent circuit assuming that the capacitors (C, and Cy) are short circuits for the small signal; (c) (1pt) solve for the voltage gain, Av; (d)...
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Emitter Follower Application Circuit A simple voltage regulator circuit can be constructed using an emitter follower and a zener diode, as shown in figure 4. For this specific application, we would like to power a 12 Volt DC water pump from a solar panel. This type of application is quite common when the location of the water source is significantly far from power lines. The voltage from the solar panel varies...