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Problem 1. The following circuit is used to create a voltage reference, Vref. Transistor Parameters are;...
help with problem Problem 1. The following circuit is used to create a voltage reference, Vref....
help with problem
Problem 1. The following circuit is used to create a voltage reference, Vref. Transistor Parameters are; kn = 100 PA/V and VT = 1 V. Derive a symbolic expression for Vref. + VDD R} + Vref (W/L) Figure 1 Voltage reference circuit
The following circuit creates a reference voltage, Vref. Assume VDD = 5 V, Vref = 2.1...
The following circuit creates a reference voltage, Vref. Assume VDD = 5 V, Vref = 2.1 V, Wn = 14 um, Lp=Ln = 1 um. Transistor parameters; kn' = 100 PAN2, kp' = 40 JANV2, VTon = 1 V, VTOp = -1 V. Calculate Wp in um. VDD Mp (Wp/Lp) Vref (Wn/Ln) Mn
The following circuit creates a reference voltage, Vref. Assume VDD = 5 V Vref = 2.8...
The following circuit creates a reference voltage, Vref. Assume VDD = 5 V Vref = 2.8 V, Wn = 29 pm, Lp=Ln = 1 pm. Transistor parameters; kn = 100 WAN2 kp = 40 JANV2 VTOn = 1 V, VTOP --1 V. Calculate Wp in um. VDD Mp (Wp/Lp) Vref (Wn/Ln) Mn
TYU 16.5 Consider the NMOS logic circuit in Figure 16.18. Assume transistor parameters of kn = 10...
need TYU 16.6
TYU 16.5 Consider the NMOS logic circuit in Figure 16.18. Assume transistor parameters of kn = 100 μ A/ V, and VT = 0.4 V. Assume all driver transistors are identical. Neglect the body effect. (a) If (W/L)L = 0.5, determine (W/L) for the drivers such that VOL(max) = 80μ V. Assume logic 1 input voltages are 2.1 V. 68 Part 3 Digital Electronics VDD = 5 V 0 MDA C DA B DC Figure 16.18 Figure...
Given the circuit below with the following parameters: - M1: Vt,n = 0.48 V, Un Cox...
Given the circuit below with the following parameters: - M1: Vt,n = 0.48 V, Un Cox = 90 UA/V2, W/L = 10 um/4 um, VdD+Vad 1 = 0.01 [1/V] - Supply voltage: Vpp = 3.3 V, vad = 10 mV > R a. Find the value of resistor R so that the bias current is 10uA. (Hint: Channel length modulation should be considered.) Ipi M1 Use the resistor value in (a) for the following calculations: b. What configuration (connection) M1...
1. (3.35) For the transistor in the circuit in the circuit below, the parameters are Vin=0.5...
1. (3.35) For the transistor in the circuit in the circuit below, the parameters are Vin=0.5 V, kn' = 100 A/V2 and W/L = 30. (a) Determine Vas, lp, and Vps. (b) Sketch the load line and plot the Q-point. Ri= 16 K RD = 1.0K R2 = 7 K Rs -0.4K 0-5V
Problem Three An NMOS transistor has the following parameters and is being operated in the saturation...
Problem Three An NMOS transistor has the following parameters and is being operated in the saturation region: Vin = 0.6 V and kn = 0.5 mA/V2 c) If Vas = 10 V, W/L = 20, VA = 100 V and Vps = 6 V, determine ro (note: there is more than one way to find this value). 16 = 0 19 + 9
All transistors in the circuit below are identical. Transistor parameters are hFE=hfe=β= 200, IS=10 fA and...
All transistors in the circuit below are identical. Transistor
parameters are hFE=hfe=β= 200,
IS=10 fA and VT = 26 mV.
a. Obtain the differential mode gain equation:
Add=(V01-V02)/(V1-V2).
b. VDD=5V, -VSS=-5V, IB=2mA,
RC=2kΩ and RL=3kΩ. Calculate the differential
mode gain (Add) of the circuit.
c. How do you connect a common emitter stage to one of the outputs
of the circuit? Please draw on the circuit.
+VDD Rc 3 Rc Voi VO2 w R Vi V2 IB -Vss
1-Clear handwriting 2-Correct answer 3-Organized 4-answer all the questions Please Problem 2 On the circuit on...
1-Clear handwriting
2-Correct answer
3-Organized
4-answer all the questions
Please
Problem 2 On the circuit on Figure P2, transi stor Q1 has a threshold voltage of Vt = 2 V and a transconductance parameter of k = 100 mA/V2. Note that Vcc = -Vee = 4.5 V. Moreover, capacitors C1, C2, and C3 can be assumed to be very large VDD 4.5.0 R3 25kQ R1 300kn C2 Vout C1 Rsig Q1 1k0 R2 200kn Vsig (R4 2kQ C3 -4.5V VSS...
In the circuit in Figure P3.26, the transistor parameters are VTN = 0.8 V and Kn = 0.5 mA/V2.
In the circuit in Figure P3.26, the transistor parameters are VTN = 0.8 V and Kn = 0.5 mA/V2. Calculate VGS, ID, and VDS.
help with problem
Problem 1. The following circuit is used to create a voltage reference, Vref. Transistor Parameters are; kn = 100 PA/V and VT = 1 V. Derive a symbolic expression for Vref. + VDD R} + Vref (W/L) Figure 1 Voltage reference circuit
The following circuit creates a reference voltage, Vref. Assume VDD = 5 V, Vref = 2.1 V, Wn = 14 um, Lp=Ln = 1 um. Transistor parameters; kn' = 100 PAN2, kp' = 40 JANV2, VTon = 1 V, VTOp = -1 V. Calculate Wp in um. VDD Mp (Wp/Lp) Vref (Wn/Ln) Mn
The following circuit creates a reference voltage, Vref. Assume VDD = 5 V Vref = 2.8 V, Wn = 29 pm, Lp=Ln = 1 pm. Transistor parameters; kn = 100 WAN2 kp = 40 JANV2 VTOn = 1 V, VTOP --1 V. Calculate Wp in um. VDD Mp (Wp/Lp) Vref (Wn/Ln) Mn
need TYU 16.6
TYU 16.5 Consider the NMOS logic circuit in Figure 16.18. Assume transistor parameters of kn = 100 μ A/ V, and VT = 0.4 V. Assume all driver transistors are identical. Neglect the body effect. (a) If (W/L)L = 0.5, determine (W/L) for the drivers such that VOL(max) = 80μ V. Assume logic 1 input voltages are 2.1 V. 68 Part 3 Digital Electronics VDD = 5 V 0 MDA C DA B DC Figure 16.18 Figure...
Given the circuit below with the following parameters: - M1: Vt,n = 0.48 V, Un Cox = 90 UA/V2, W/L = 10 um/4 um, VdD+Vad 1 = 0.01 [1/V] - Supply voltage: Vpp = 3.3 V, vad = 10 mV > R a. Find the value of resistor R so that the bias current is 10uA. (Hint: Channel length modulation should be considered.) Ipi M1 Use the resistor value in (a) for the following calculations: b. What configuration (connection) M1...
1. (3.35) For the transistor in the circuit in the circuit below, the parameters are Vin=0.5 V, kn' = 100 A/V2 and W/L = 30. (a) Determine Vas, lp, and Vps. (b) Sketch the load line and plot the Q-point. Ri= 16 K RD = 1.0K R2 = 7 K Rs -0.4K 0-5V
Problem Three An NMOS transistor has the following parameters and is being operated in the saturation region: Vin = 0.6 V and kn = 0.5 mA/V2 c) If Vas = 10 V, W/L = 20, VA = 100 V and Vps = 6 V, determine ro (note: there is more than one way to find this value). 16 = 0 19 + 9
All transistors in the circuit below are identical. Transistor
parameters are hFE=hfe=β= 200,
IS=10 fA and VT = 26 mV.
a. Obtain the differential mode gain equation:
Add=(V01-V02)/(V1-V2).
b. VDD=5V, -VSS=-5V, IB=2mA,
RC=2kΩ and RL=3kΩ. Calculate the differential
mode gain (Add) of the circuit.
c. How do you connect a common emitter stage to one of the outputs
of the circuit? Please draw on the circuit.
+VDD Rc 3 Rc Voi VO2 w R Vi V2 IB -Vss
1-Clear handwriting
2-Correct answer
3-Organized
4-answer all the questions
Please
Problem 2 On the circuit on Figure P2, transi stor Q1 has a threshold voltage of Vt = 2 V and a transconductance parameter of k = 100 mA/V2. Note that Vcc = -Vee = 4.5 V. Moreover, capacitors C1, C2, and C3 can be assumed to be very large VDD 4.5.0 R3 25kQ R1 300kn C2 Vout C1 Rsig Q1 1k0 R2 200kn Vsig (R4 2kQ C3 -4.5V VSS...
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