This is a form of a difference amplifier. Determine v, if vi = 1 volt and...
Please answer clearly Question 2 The amplifier shown in Figure 2 has the following parameters: Kn(W/L)-1 mA/V2, V-1 V Determine a) Voltage gain (Vo/vi) b) Input resistance (R) c) Output resistance (Ro) d) Maximum output voltage swing so as the amplifier stays in saturation mode. Assume VDD-20 V, R1-2.5 ΚΩ, R2-1KQ, R3-0.5 ΚΩ, R4-5 MQ, R5_1ΜΩ. R4 R1 R5 R2 Ro R3 Question 2 The amplifier shown in Figure 2 has the following parameters: Kn(W/L)-1 mA/V2, V-1 V Determine a)...
For the cascade amplifier of Figure Q1(a), determine the (1) transconductance factor, gm. a.c. diode resistance., re. (iii) ac equivalent circuit (iv) input impedance, Z (v) output impedance, Z. (vi) voltage gain, Avi (vii) voltage gain, Av2. (viii) total cascade voltage gain, Avr. Given gm = 21 pss lvpl + 15 V Ipss - 10 mA Vp.4V Vase -- 1.5 V βος = 50 μs Γ. 40 ΚΩ RO 3.3 ΚΩ R81 22 ΚΩ Rc 10 ΚΩ O V. β...
The MOS amplifier circuit below has Kn = 1.9 mA/V2 , ID = 0.4 mA and and λ = 0. a- Calculate the transconductance of this MOSFET. b- Find the voltage gain of this amplifier. 9V 5 kΩ 8. Ο υο 2 ΚΩ Μ || Ο, Ο 10 ΚΩ -9 V
Show all the steps in clear way please and thanks in advance! 4. Solve for V, and I, in the circuit below. Answer in polar. 20 ΚΩ -j4 ΚΩ 10 ΚΩ Ο + > 2/30° V -j2 ΚΩ Το.
+ vít) (1) The amplifier above applies different voltage gains to vi(t) and Vat) . Determine the gain applied to v2(1) R; = 13 kOhm and R, = 3 kOhm. Round your answer off to two decimal places. Answer: Check 1 + voru (1) IR Determine the amplitude of the output signal in volts if Rx = 16 kOhms, C =4 uF, and Vin(t) = 2 cos(21100t) mv. Answer: Check
8. (5-1) Calculate the ratio v2/vi. First assume that the operational amplifier is ideal, then redo the problem assuming the opamp gain is a 10. Use R1 6.9 kQ, R2 2.7kQ. Ideal opamp v2/vi - Finite gain v2/vi R1 R2 V. V. 2
12. Determine the output voltage (V.) of the below amplifier circuit. Vo= 18 ΚΩ 6 ΚΩ 36 ΚΩ 6 ΚΩ 1 2V(+). 12 ΚΩ (E) 1ν ΛΛΑ- 12 ΚΩ 3V
1. Design the common source amplifier shown in Figure 1 with Ip- 1 mA and Vo 5 V Determine V2 and Ri. The MOSFET characteristics are V-50 V, k-0.093 A/V, gate-to- drain capacitance, Cd 40 pF, and Vi 1.1 V. (For PSpice simulations, use parameters: VTO. 1.1 LAMBDA-002 KP-0.093 CGDO-4E-7 w=100u L-I00u for the 2N7000 MOSFET.) a. Determine the gain and gm of the circuit b. Determine the low-frequency (high-pass response) poles of the common-source amplifier due to the coupling...
Analysis: Out-of-Class Exercise v, (t) Using nodal analysis, determine the gain ( of the following amplifier configuration assuming an ideal op-amp. Note: Be sure to document all work (i.e., provide all necessary node equations and relationships) and simplify (i.e. fully reduce) your answer. RIR VI V.(t) Final Solution: Volt) I( -5R, VIA
Given below is a differential operational amplifier in block form and its internal transistor circuit with VCC=20V, VEE= 12 V , RC=5kΩ,RE=1kΩ and R1=2kΩ. Assume that the transistors are identical and have a βac=βdc=100. An ac signal Vi(t)=5sin(10t) is applied to the input terminals where Terminal 1 is Positive (non-invertinq) & Terminal 2 is negative (inverting) as stated in the cases below. Draw the output signals in each case. : a) V1=Vi(t) , V2=Grounded. Vo(t)=Vo2-Vo1 ) b) V1=Grounded , V2=Vi(t)....