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4. Assume Vcc-15V, Ra 20KQ, Rc-2ΚΩ, Vae* 0.7V and VCESA,-0.1V for the circuit given below. Given...
1. Consider the emitter-stabilized circuit shown below Vcc-15V RB 430kΩ Rc 1.6k2 IB β = 125...
1. Consider the emitter-stabilized circuit shown below Vcc-15V RB 430kΩ Rc 1.6k2 IB β = 125 RE a) Find b, k, and VCE for the circuit as shown, with β = 125 b) Suppose that β can vary in the range from 100 to 150 due to manufacturing variations. What is the resulting range in Vce? c) What is the requirement on β such that the transistor will not saturate?
RE 3K30 V_B Dar v.ce vor RC ROOLIVC B = 100 and VBE = -0.7V Fig....
RE 3K30 V_B Dar v.ce vor RC ROOLIVC B = 100 and VBE = -0.7V Fig. 2 1. Calculate: VB.Ve V, and Vce. 2. Calculate:IB., and Ic. 3. Using the same circuit and assuming active mode operation, find the resistor values (R1, R2, Re and Rc), to bias the transistor at the Q-point: Vce = -8 V and Ic = 8 mA. Use the following parameters: Vcc = 20 V,ß = 200,Ve = 16 V, RTH = 0.1BRg.
Assume Vcc-15v, p-120. RBI-65??, RB2-15KQ, Rc-2K(2, and Re-500? Determine Mode of operation, Ic, Iesat, Ay and...
Assume Vcc-15v, p-120. RBI-65??, RB2-15KQ, Rc-2K(2, and Re-500? Determine Mode of operation, Ic, Iesat, Ay and Vce Verify your results using MultiSim. . . Vcc Rc 81 Ic VIN IB Rgp RE Determine collector ac output and waveform for 10m Vpp. With 1 ?f capacitor across RE, determine output voltage and waveform (f-10KHz).
2) Consider the circuit below. Assume B=49 A/A, VBe=0.7V, VCEsat=0.2V. If the Collector current is Ic...
2) Consider the circuit below. Assume B=49 A/A, VBe=0.7V, VCEsat=0.2V. If the Collector current is Ic = 9.8 mA, Find Vc, VE, VB and VBB; as well as the currents IE and IB. Hint: VBB>0. Verify your assumption. 15V V BB ic 3 Rc CS 30622 AVC RB 10k 2 B E → VE ięRE ES 33012
7 pts Question 5 (TCO 2) For the circuit below, if Vcc is 20 volts and...
7 pts Question 5 (TCO 2) For the circuit below, if Vcc is 20 volts and Rb is 4.3k ohms, find the base and collector 300, the motor resistance is 100 ohms. voltages and currents for an input of OV and 5V. Beta Vcc ant Vin -n Vout Rb 1a: Whan Vin- OV. find: ть Ic = Vhase 1b: When Vin 5V. find: Ib Ic = vbase Vcol HINIL Edilotia A TE U A- B I Paragraph T 12p ED...
Problem 5 Given the following circuit, assume the following parameters VBB IV, RB 220 k, RC...
Problem 5 Given the following circuit, assume the following parameters VBB IV, RB 220 k, RC = 2 k, VCC= 10 V, VBE(on)-0.7 V, and B 200 a) Calculate the base, collector, and emitter currents and the C-E voltage, also, calculate the transistor power dissipation b) What transistor configuration does the circuit resemble? Vcc=10V RC=2k Rg=220 kQ VCE VBB= 1V o + VRE IB
Given RB = 240 k., Rc = 1.2 k., and = 120. Determine: a) IB b)...
Given RB = 240 k., Rc = 1.2 k., and = 120. Determine: a) IB b) Ic c) le d) VBE e) VCE f) Mode of operation (cutoff, active, saturation) Given RB = 47 kO2, Rc = 1.2 k2 and B = 120. Determine: g) Mode of operation (cutoff, active, saturation) O 8V For the circuit shown in Question #2, Vcc = 16 V, RB = 620 kl, Rc = 2 kN and B = 120. a) Determine le b)...
1. Draw a Voltage Divider biased transistor circuit. Sketch the Load Line if, Vcc 18V, Rc-1.2K(2,...
1. Draw a Voltage Divider biased transistor circuit. Sketch the Load Line if, Vcc 18V, Rc-1.2K(2, and RE-600Ω. 3. Find ic, VCE and mode of operation, if RBI-30.2 and RB2-10 ΚΩ, for β-150 4. Determine RB2, for Q to be on center of LL. Verify, Ic, VcE and mode of operation 5. Find mode of operation, Ic, and VcE, if: a. RBi is Short b. RBi is Open c. RB2 is Short. d. RB2 is Short Mode of operation 4...
DC Biasing For the circuit below, assume 150, VBE(ON) -0.7V and Vce(SAT)- 0.2V Voc 10 VO...
DC Biasing For the circuit below, assume 150, VBE(ON) -0.7V and Vce(SAT)- 0.2V Voc 10 VO Rc 3.3K ib Rb 330K Write an equation for ib in terms of Vin (Hint: use KVL from VBB to ground) Write the general equation for ic in terms of ib and P Write an equation for Vce in terms of ic CE- Fill the table Operational Region 0 V 3 V 5 V 7 V
4. For the amplifier in the figure below use the parameters in the table: +Vcc Re VBE- 0.7V, Ri- ...
4. For the amplifier in the figure below use the parameters in the table: +Vcc Re VBE- 0.7V, Ri- 1002, R1-160k2, R2-320k2 R3-200k2, R6-40 k2, Rc-60k2, Vcc- 12V, Ry Do a) Draw the DC equivalent circuit and calculate the Q-point. c) Draw the AC equivalent circuit with the small signal model for the transistor. d) Calculate the voltage gain, Av-Vo/vi. Assume ro infinite. e) Draw the circuit to find the amplifier input resistance (Rin). Calculate Rin f Draw the circuit...
1. Consider the emitter-stabilized circuit shown below Vcc-15V RB 430kΩ Rc 1.6k2 IB β = 125 RE a) Find b, k, and VCE for the circuit as shown, with β = 125 b) Suppose that β can vary in the range from 100 to 150 due to manufacturing variations. What is the resulting range in Vce? c) What is the requirement on β such that the transistor will not saturate?
RE 3K30 V_B Dar v.ce vor RC ROOLIVC B = 100 and VBE = -0.7V Fig. 2 1. Calculate: VB.Ve V, and Vce. 2. Calculate:IB., and Ic. 3. Using the same circuit and assuming active mode operation, find the resistor values (R1, R2, Re and Rc), to bias the transistor at the Q-point: Vce = -8 V and Ic = 8 mA. Use the following parameters: Vcc = 20 V,ß = 200,Ve = 16 V, RTH = 0.1BRg.
Assume Vcc-15v, p-120. RBI-65??, RB2-15KQ, Rc-2K(2, and Re-500? Determine Mode of operation, Ic, Iesat, Ay and Vce Verify your results using MultiSim. . . Vcc Rc 81 Ic VIN IB Rgp RE Determine collector ac output and waveform for 10m Vpp. With 1 ?f capacitor across RE, determine output voltage and waveform (f-10KHz).
2) Consider the circuit below. Assume B=49 A/A, VBe=0.7V, VCEsat=0.2V. If the Collector current is Ic = 9.8 mA, Find Vc, VE, VB and VBB; as well as the currents IE and IB. Hint: VBB>0. Verify your assumption. 15V V BB ic 3 Rc CS 30622 AVC RB 10k 2 B E → VE ięRE ES 33012
7 pts Question 5 (TCO 2) For the circuit below, if Vcc is 20 volts and Rb is 4.3k ohms, find the base and collector 300, the motor resistance is 100 ohms. voltages and currents for an input of OV and 5V. Beta Vcc ant Vin -n Vout Rb 1a: Whan Vin- OV. find: ть Ic = Vhase 1b: When Vin 5V. find: Ib Ic = vbase Vcol HINIL Edilotia A TE U A- B I Paragraph T 12p ED...
Problem 5 Given the following circuit, assume the following parameters VBB IV, RB 220 k, RC = 2 k, VCC= 10 V, VBE(on)-0.7 V, and B 200 a) Calculate the base, collector, and emitter currents and the C-E voltage, also, calculate the transistor power dissipation b) What transistor configuration does the circuit resemble? Vcc=10V RC=2k Rg=220 kQ VCE VBB= 1V o + VRE IB
Given RB = 240 k., Rc = 1.2 k., and = 120. Determine: a) IB b) Ic c) le d) VBE e) VCE f) Mode of operation (cutoff, active, saturation) Given RB = 47 kO2, Rc = 1.2 k2 and B = 120. Determine: g) Mode of operation (cutoff, active, saturation) O 8V For the circuit shown in Question #2, Vcc = 16 V, RB = 620 kl, Rc = 2 kN and B = 120. a) Determine le b)...
1. Draw a Voltage Divider biased transistor circuit. Sketch the Load Line if, Vcc 18V, Rc-1.2K(2, and RE-600Ω. 3. Find ic, VCE and mode of operation, if RBI-30.2 and RB2-10 ΚΩ, for β-150 4. Determine RB2, for Q to be on center of LL. Verify, Ic, VcE and mode of operation 5. Find mode of operation, Ic, and VcE, if: a. RBi is Short b. RBi is Open c. RB2 is Short. d. RB2 is Short Mode of operation 4...
DC Biasing For the circuit below, assume 150, VBE(ON) -0.7V and Vce(SAT)- 0.2V Voc 10 VO Rc 3.3K ib Rb 330K Write an equation for ib in terms of Vin (Hint: use KVL from VBB to ground) Write the general equation for ic in terms of ib and P Write an equation for Vce in terms of ic CE- Fill the table Operational Region 0 V 3 V 5 V 7 V
4. For the amplifier in the figure below use the parameters in the table: +Vcc Re VBE- 0.7V, Ri- 1002, R1-160k2, R2-320k2 R3-200k2, R6-40 k2, Rc-60k2, Vcc- 12V, Ry Do a) Draw the DC equivalent circuit and calculate the Q-point. c) Draw the AC equivalent circuit with the small signal model for the transistor. d) Calculate the voltage gain, Av-Vo/vi. Assume ro infinite. e) Draw the circuit to find the amplifier input resistance (Rin). Calculate Rin f Draw the circuit...
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