An n-channel enhancement-mode MOSFET is as shown in figure.
VDD = 15V ; K = 0.3 mA/V ; Vt = 3V. Also given: R1 = 5.6 Mega-ohms ; R2 = 5 Mega-ohms ; RD = 2.8 K-ohms ; RS = 1.2 K-ohms
Find the following quantities:
a.) in mA
b.) in V
c.) in V
d.) Choose the correct operating region from the following: Ohmic Region, Cutoff Region, or Saturation Region?
Homework Answers
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An n-channel enhancement-mode MOSFET is as shown in figure.
VDD = 15V ; K = 0.3...
In the circuit shown in Figure P11.11, the MOSFET operates in the active region, for iD...
In the circuit shown in Figure P11.11, the MOSFET operates in
the active region, for iD = 0.5 mA and vD = 3 V. This
enhancement-type PMOS has VT =−1 V,k = 0.5 mA/V2.
Find
a. RD.
b. The largest allowable value of RD for the MOSFET to remain in
the saturation region.
ip VDS VDD10 V VGS R2 Rp Figure P11.11 ww
ip VDS VDD10 V VGS R2 Rp Figure P11.11 ww
Consider an n-channel MOSFET (Von = 0.4 V and K = 3.0 mA/V2). Let VDD =...
Consider an n-channel MOSFET (Von = 0.4 V and K = 3.0
mA/V2). Let VDD = 5.0 V, VSS =
-5.0 V, R1 = 14.0 kohm, R2 = 6.0 kohm,
RD = 1.2 kohm and RS = 0.5 kohm. Answer the
following questions assuming the transistor is at its saturation
mode.
a) Calculate VG versus ground (not VGS)
(hint: voltage division by R1 and R2 between
VDD and VSS).
b) Calculate VGS. (hint: IDS obtained by
formula = IDS obtained...
Consider an n-channel enhancement MOSFET with Vto = 1 V and K = 0.2 mA/V2. Part...
Consider an n-channel enhancement MOSFET with Vto = 1 V and K = 0.2 mA/V2. Part A Given that vGS = 3 V, for what minimum value of vDS is the device in the saturation region? Express your answer to three significant figures and include the appropriate units. vDSmin vDSmin = nothingnothing SubmitRequest Answer Part B Given that vGS = 3 V, for what range of vDS is the device in the triode region? Express your answers using three significant...
2. (25) You have been given an N-channel enhancement mode MOSFET to be used in the...
2. (25) You have been given an N-channel enhancement mode MOSFET to be used in the next circuits. The NMOS has the characteristics of Ky = 1.0 mA/V,20, and Vin =1.0 V. A graph o current-voltage characteristics is shown on the next page of the test. (a) Determine resistor values (R. R. Ro Rs) so that Ipo = 4 mA and lose Let Ri= R/ || R 100 K and Vas Vs. Vpp = 12 V. VID = ID. RD"...
4. Design the circuit of Figure 4 so that the transistor operates in saturation with ID0.5mAand V3V. Let the enhancement-type PMOS transistor have VV and k, (w/L)-1m4/V2. Assume λ-Ο What is the...
4. Design the circuit of Figure 4 so that the transistor operates in saturation with ID0.5mAand V3V. Let the enhancement-type PMOS transistor have VV and k, (w/L)-1m4/V2. Assume λ-Ο What is the largest value that RD can have while maintaining saturation-region operation? VDD-+5 V o-0.5mA RG2 RG2 RD Figure 4
4. Design the circuit of Figure 4 so that the transistor operates in saturation with ID0.5mAand V3V. Let the enhancement-type PMOS transistor have VV and k, (w/L)-1m4/V2. Assume λ-Ο What...
7. Consider an ideal n-channel silicon MOSFET with the following device parameters: VT --0.8 V, μ...
Vgs for part b, not Vds
7. Consider an ideal n-channel silicon MOSFET with the following device parameters: VT --0.8 V, μ,-425 cm2V-1 s-1, tox-11 nm, w: 20 μm' and L-1.2 μm at T-300 K. nm, W- 20 a) Plot the drain current ID [mA] versus drain-source voltage Vos over the range 0 < VD 3V with VGS--0.8 V, VGs 0 V and Vas +0.8 V b) Plot root saturation current ID12(sat) [mA12] versus gate-source voltage V6s over the range...
Problem 3: Design Problem On Figure P3a, you have a Common Source (CS) n-channel MOSFET amplifier....
Problem 3: Design Problem On Figure P3a, you have a Common Source (CS) n-channel MOSFET amplifier. Notice the absence of a source resistor Rsig and load resistor R. If we know how the present amplifier (the one on Figure P3a) behaves without Rsig and RL, we can infer its behaviors if Rsig and R were to be added. design the amplifier circuit on Figure P3a, i.e., you have to find appropriate values for RGj You are to RG,, RD, and...
VOD Ro 1. [Design Problem (1)] N-channel MOSFET (NMOS) operating in "Saturation" region. a. Consider a...
VOD Ro 1. [Design Problem (1)] N-channel MOSFET (NMOS) operating in "Saturation" region. a. Consider a circuit as shown in Fig 1. b. You will need to design the circuit such that Ip = 1 (mA), VG = 0 [V], and Vp = 5 [V]. (determine values for R1, R2, Rp, and Rs) 1 W ID = 5 unCox (Vgs - Vrh)2 = K (Vgs - VTH)2 c. Use Vpp = 15 [V], Vs = -15 [V], and 2N7000 for...
A common source amplifier circuit based on a single n-channel MOSFET is shown in Figure 4b. Assume that the transconductance gm-60 mS (equivalent to mA/ V) and drain source resistance, os,...
A common source amplifier circuit based on a single n-channel MOSFET is shown in Figure 4b. Assume that the transconductance gm-60 mS (equivalent to mA/ V) and drain source resistance, os, is so large it may be neglected. 0) Calculate the open circuit voltage gain Av Yout/ Vis. i) The amplifier has a load of 10 k2. Determine the current gain Va. = 12 V 150k 4k3 Vout Vin 200k GND = 0 V Figure 4b a) State the name...
V.+w Operation in the triode reglon Condition v. e Wov 20 Vos uov os os-V (2) p V, so onl+Pala Characteristics Same rel...
V.+w Operation in the triode reglon Condition v. e Wov 20 Vos uov os os-V (2) p V, so onl+Pala Characteristics Same relationships as for NMOS trasistos tCharacteristics: a CuGs- V,) ®os- } ip.C Replace .and NA with p,,and Nprespectively. V.V V, and yare negative. 2 wov ps For vos 2( -V) e Conditions for operation in the triode region ip lvi Q1. (10 points) For the following configuration of the given figure below, with the following parameters: VDD= +10...
In the circuit shown in Figure P11.11, the MOSFET operates in
the active region, for iD = 0.5 mA and vD = 3 V. This
enhancement-type PMOS has VT =−1 V,k = 0.5 mA/V2.
Find
a. RD.
b. The largest allowable value of RD for the MOSFET to remain in
the saturation region.
ip VDS VDD10 V VGS R2 Rp Figure P11.11 ww
ip VDS VDD10 V VGS R2 Rp Figure P11.11 ww
Consider an n-channel MOSFET (Von = 0.4 V and K = 3.0
mA/V2). Let VDD = 5.0 V, VSS =
-5.0 V, R1 = 14.0 kohm, R2 = 6.0 kohm,
RD = 1.2 kohm and RS = 0.5 kohm. Answer the
following questions assuming the transistor is at its saturation
mode.
a) Calculate VG versus ground (not VGS)
(hint: voltage division by R1 and R2 between
VDD and VSS).
b) Calculate VGS. (hint: IDS obtained by
formula = IDS obtained...
2. (25) You have been given an N-channel enhancement mode MOSFET to be used in the next circuits. The NMOS has the characteristics of Ky = 1.0 mA/V,20, and Vin =1.0 V. A graph o current-voltage characteristics is shown on the next page of the test. (a) Determine resistor values (R. R. Ro Rs) so that Ipo = 4 mA and lose Let Ri= R/ || R 100 K and Vas Vs. Vpp = 12 V. VID = ID. RD"...
4. Design the circuit of Figure 4 so that the transistor operates in saturation with ID0.5mAand V3V. Let the enhancement-type PMOS transistor have VV and k, (w/L)-1m4/V2. Assume λ-Ο What is the largest value that RD can have while maintaining saturation-region operation? VDD-+5 V o-0.5mA RG2 RG2 RD Figure 4
4. Design the circuit of Figure 4 so that the transistor operates in saturation with ID0.5mAand V3V. Let the enhancement-type PMOS transistor have VV and k, (w/L)-1m4/V2. Assume λ-Ο What...
Vgs for part b, not Vds
7. Consider an ideal n-channel silicon MOSFET with the following device parameters: VT --0.8 V, μ,-425 cm2V-1 s-1, tox-11 nm, w: 20 μm' and L-1.2 μm at T-300 K. nm, W- 20 a) Plot the drain current ID [mA] versus drain-source voltage Vos over the range 0 < VD 3V with VGS--0.8 V, VGs 0 V and Vas +0.8 V b) Plot root saturation current ID12(sat) [mA12] versus gate-source voltage V6s over the range...
Problem 3: Design Problem On Figure P3a, you have a Common Source (CS) n-channel MOSFET amplifier. Notice the absence of a source resistor Rsig and load resistor R. If we know how the present amplifier (the one on Figure P3a) behaves without Rsig and RL, we can infer its behaviors if Rsig and R were to be added. design the amplifier circuit on Figure P3a, i.e., you have to find appropriate values for RGj You are to RG,, RD, and...
VOD Ro 1. [Design Problem (1)] N-channel MOSFET (NMOS) operating in "Saturation" region. a. Consider a circuit as shown in Fig 1. b. You will need to design the circuit such that Ip = 1 (mA), VG = 0 [V], and Vp = 5 [V]. (determine values for R1, R2, Rp, and Rs) 1 W ID = 5 unCox (Vgs - Vrh)2 = K (Vgs - VTH)2 c. Use Vpp = 15 [V], Vs = -15 [V], and 2N7000 for...
A common source amplifier circuit based on a single n-channel MOSFET is shown in Figure 4b. Assume that the transconductance gm-60 mS (equivalent to mA/ V) and drain source resistance, os, is so large it may be neglected. 0) Calculate the open circuit voltage gain Av Yout/ Vis. i) The amplifier has a load of 10 k2. Determine the current gain Va. = 12 V 150k 4k3 Vout Vin 200k GND = 0 V Figure 4b a) State the name...
V.+w Operation in the triode reglon Condition v. e Wov 20 Vos uov os os-V (2) p V, so onl+Pala Characteristics Same relationships as for NMOS trasistos tCharacteristics: a CuGs- V,) ®os- } ip.C Replace .and NA with p,,and Nprespectively. V.V V, and yare negative. 2 wov ps For vos 2( -V) e Conditions for operation in the triode region ip lvi Q1. (10 points) For the following configuration of the given figure below, with the following parameters: VDD= +10...
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