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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 (R...
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.,...
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...
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,...
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...
+ 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...
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...
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,...
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...
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...
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)....
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)....
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