For the MOSFET circuit, .
Given for M1 and M2, and for M3. (A/V2) for all transistors.
a) Find the transconductance of all 3 transistors (in terms of Io) and the small-signal voltage gain of the circuit. Assume all transistors are in saturation.
b) Find R1 (looking into the source of M1) and R2 (looking into the source of M2).
For the MOSFET circuit, . Given for M1 and M2, and for M3. (A/V2) for all...
For the MOSFET circuit, . Given for M1 and M2, and for M3. (A/V2) for all transistors. a) Find the transconductance of all 3 transistors (in terms of Io) and the small-signal voltage gain of the circuit. Assume all transistors are in saturation. b) Find R1 (looking into the source of M1) and R2 (looking into the source of M2). 8nCor 166 L 1 L 4n Cor = 1 Vpp R1 R2 8nCor 166 L 1 L 4n Cor =...
Given β=16 for M1 and M2, and that β=1 for M3. a) Find the gm of all 3 transistors (in terms of Io) and the small-signal voltage gain of the circuit. Assume all transistors are in saturation. b) Find R1 (looking into the source of M1) and R2 (looking into the source of M2). Vpp R1 R2 Vpp R1 R2
4) Consider the MOSFET differential amplifier shown below, with Io-2 mA, and RL- 10 kS2, Rss-100 k2, VDD- +8V and Vss--8V. The NMOS transistors in the circuit are nominally identical, with kn 2 mA/V2, VTn 1.0 V and ro 100 k2. The PMoS transistors in the circuit are nominally identical, with kp 2 mA/V2, [VTpl 1.0 V and ro 100 kΩ M3 M4 0 M1 M2 a) First consider the DC bias point. Assuming that the current mirror requires at...
2. For the amplifiers below, not all the bias details are shown. For the circuit on the left, what is the small signal resistance looking into the a. source of M2 (Ri2)? b. Using part a, Find the voltage gain at the drain of Mi, and the total gain at the output. For the circuit on the right, known as a cascode amplifier, find the voltage gain. c. Express your answers in terms of the transistors gm, and RD. Assume...
3. In the circuit shown below, the differential pair (Mand M2) is biased with a current miror that consists of M3, M and Rref. The circuit parameters are: VDD-3 V, Rre/-15 ka, RD = 20 ka, and RL-40 kn. The transistors 25 M, and M, are identicalwith()M and M, are identical with (The oh M and M4 are identical with = ·The other transistor parameters are: indox-: 0.1 m1A/V2,VTN-0.5 V, γ-0 (body effect coefficient) and λ 0 (channel length modulation...
help electronic 4. Consider the MOSFET circuit below The de sources Vpp and Vea setm=5 MAN. Neglect Aus a. (6 pts) Determine the small-signal voltage gain Av-Vou Vin NMás ) Vsi Answer: 200 b. (6 pts) Determine the small-signal voltage gain Av=Vow/Vsig. Answer: c. (6 pts) Determine the output resistance Ro looking into the MOSFET source terminal. Answer: d. (5 pts) Sketch the ac small-signal model of the circuit using the small-signal model of the transistor. Label component values.
Q6. An amplifier circuit using an n-MOSFET is shown in Fig. Q6. The n-MOSFET has the following parameters: K'-1 mA/V2 and λ-0.02 w. v°' is a small signal AC voltage ource 8V 8V Vout Ra 2.56 mA Fig. Q6 (a) Calculate the DC gate voltage, Va. (b) Assuming that the n-MOSFET is operating in the saturation region and neglecting channel length modulation, calculate the threshold voltage, VrHN, given that the voltage drop across the de current sorce, Inas, has been...
PROBLEM 4 (20 pts) IMPORTANT: Assume all transistors are in saturation. a) Find the small-signal DC gain of the amplifier circuit when the small-signal voltage ViN is applied to the gate of M1. Ignore the body effect for M1 and M2. b) Find the small-signal DC gain of the amplifier circuit when the small-signal voltage Vin is applied to the body of M1. In this case, a DC bias voltage (VB) is applied to the gate of M1. Ignore the...
Assume 1 = 0, compute W/L of M1 in the circuit below such that the MOSFET operates at the edge of saturation knowing Vpp = 1.8 V T Rp 1k02 that H.Cox = 2004A/V2 and Vth=0.4V M1 1 V Select one: O a. 300 b. 33 O c. 30 O d. 330 e. None of these
Problem #1 (3 pts) Assuming that all transistors are saturated and operating in subthreshold. Assume identical transistors. IB a) b) c) If V1-V2, what is 11, 12, and Vx? Draw the small signal equivalent circuit. If (in DC) V1 -V2, what is the small signal transconductance V2 is the input. Use the low-frequency small signal model with no capacitors and no Early effect. Include Vx M1 M3 M2 12 M4 0 . Assume that V1 is fixed and the body...