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Please answer clearly 2. Consider the circuit shown in Figure 1. Determine values of Ri, R2, and Rc to provide the quie...
[1] The circuit diagram on the left below is a common emitter amplifier. It is the...
[1] The circuit diagram on the left below is a common emitter amplifier. It is the full complement of components for this type of amplifier ready for AC analysis. This amplifier will be discussed in lecture prior to the lab exercises. However, with the circuit including only Rc. RE, Ri, and R2 as shown in the figure on the right, proceed with the design for a DC operating point of the common emitter amplifier. The following parameters are given: Vcc...
For the circuit shown below, let Vcc 9 V R2 RE-0.11 kQ, R1 3.6 k2. and R2 -5.6 kQ. The transistor parameters are β-200, VBE(on)-OTV, VA-100 V and VT = 0.026 V. (a) Determine the quiescent value o...
For the circuit shown below, let Vcc 9 V R2 RE-0.11 kQ, R1 3.6 k2. and R2 -5.6 kQ. The transistor parameters are β-200, VBE(on)-OTV, VA-100 V and VT = 0.026 V. (a) Determine the quiescent value of IEQ (b) Find the small-signal voltage gain Av Vo/vs (c) Determine the output resistance R, looking into output terminals Av= 0.5589 Ro-0.4688 Ω Ro-0.9118 Ω leQ- 23.76 mA Ra " 0.6538 Ω leo 39.52 mA A, 0.9938
For the circuit shown below,...
FIND THE VALUES OF Rb1, Rb2, Re,Rc, rin , rout, overall gain and open circuit gain First, design a common emitter BJT a...
FIND THE VALUES OF Rb1, Rb2, Re,Rc, rin , rout, overall gain and
open circuit gain
First, design a common emitter BJT amplifier Second, analyze the amplifier.( Avo, Gv, Rin, Rout) Third, compare your calculation with Multisim. Report must include comparison between your calculation & simulation results overall voltage gain, open circuit voltage gain, input resistance, and output resistance. This design project is not group work, must be done individually. Type your report. Design a discrete common emitter BJT amplifier.(Determine...
4. Consider the following Common Base BJT circuit given in the figure below: i. Use the...
4. Consider the following Common Base BJT circuit given in the figure below: i. Use the data sheets of CA3046 BJT array and design a common collector circuit given in the following Figure 2 with the stated specifications in Table 2 Clearly show your design procedure. (Hint: show your calculation steps for both DC and AC small signall analysis) ii. Important Note : Ifyou remove RE you should also remove ClI, that is, connecting ac voltage source directly to emitter)...
can someone help me with part c mpt tope alswersol the sdme part of you willbe penalized for this. Question 1 1 pts For the circuit shown in Figure 6.49, let Vcc -9V.RE 0.11 kQ, R1 3.6 k2, R2 5.6...
can someone help me with part c
mpt tope alswersol the sdme part of you willbe penalized for this. Question 1 1 pts For the circuit shown in Figure 6.49, let Vcc -9V.RE 0.11 kQ, R1 3.6 k2, R2 5.6k(2, and Rs -o Ω . The transistor parameters are β-200. VBE(On)-Q7V, VA - 100 V and VT 0.026 V.(a) Determine the quiescent value of lEQ. (b) Find the small-signal voltage gain Av-vo/vg (c) Determine the output resistance Ro looking into...
4.9 Determine R1 and R2 to obtain a zero quiescent output voltage for the circuit shown in Figure...
4.9 Determine R1 and R2 to obtain a zero quiescent output voltage for the circuit shown in Figure P4.9 when the transistor has a β 200 and Va,--0.6V. (Assume RB-10 kQ) o Y out +8V
4.9 Determine R1 and R2 to obtain a zero quiescent output voltage for the circuit shown in Figure P4.9 when the transistor has a β 200 and Va,--0.6V. (Assume RB-10 kQ)
o Y out +8V
Consider the BJT common-emitter amplifier in Figure 1. Assume that the 2N3904G transistor has the following parameters: β-206, VBE-0.TV and the Early voltage VAT 1000V. vCC RB1a I multiple resistors...
Consider the BJT common-emitter amplifier in Figure 1. Assume that the 2N3904G transistor has the following parameters: β-206, VBE-0.TV and the Early voltage VAT 1000V. vCC RB1a I multiple resistors RC want n Vload 22HF Rload 01 2N3904G V1 6302 4.7HF RE2CE 0.01Vpk 1kHz maliple esistons lue you available in the ki Figure 1 BJT CE amplifier 0.5 V and VC-3 V (a) Design the DC biasing circuit so that lc-2 mA, VCE = 2.5 V, VE
Consider the BJT...
(a) Design the circuit (Find values for Rc, Rei and Rez) to amplify a 12mV sinusoidal...
(a) Design the circuit (Find values for Rc, Rei and Rez) to amplify a 12mV sinusoidal signal from a microphone to a 0.4 V sinusoidal output signal, and make le = 0.2 mA. (20 points) (6) Draw complete small signal equivalent circuit of the amplifier. Clearly label all components. (Spoints) (c) Find values of input resistance (Rin), output resistance (Rout), and open circuit voltage gain ( Avo). (20 points) Assume B = 100, VBE.ON=0.7V, VA=00, and capacitors are very large...
Could someone please help me on how I should be configuring the circuit in Figure 4(a)...
Could someone please help me on how I should be configuring the
circuit in Figure 4(a) in Multisim? Basically not understanding
question #1 in the Procedure. Cannot keep Vrb the same value while
adjusting Vcc. Then when trying to adjust Vbb to hold Vrb, Ib
changes.
Any help is appreciated!
Discrete Devices Section LAB 4 BJT CHARACTERISTICS AND BIASING Objective: The objective of this laboratory is to examine the operation of a bipolar junction transistor and plot its output characteristics...
Consider the circuit shown in Figure 1. whenever needed, take Vcc-12V, ÍVBE1-0.7V, β-100, VT-25mV. Estimate the...
Consider the circuit shown in Figure 1. whenever needed, take Vcc-12V, ÍVBE1-0.7V, β-100, VT-25mV. Estimate the 3 dB high cut off frequency R3 12K R7 6.8K OUT R5 120K R1 10u 10 RS C1 01 10u 150 10u 10K VS R4 3.6K R8 3.6K R6 15u Figure 1 Please complete all work: 1) Analytically using the nodal analysis and carrying Cs as impedances. 2) Analytically using the OCTC approach.
[1] The circuit diagram on the left below is a common emitter amplifier. It is the full complement of components for this type of amplifier ready for AC analysis. This amplifier will be discussed in lecture prior to the lab exercises. However, with the circuit including only Rc. RE, Ri, and R2 as shown in the figure on the right, proceed with the design for a DC operating point of the common emitter amplifier. The following parameters are given: Vcc...
For the circuit shown below, let Vcc 9 V R2 RE-0.11 kQ, R1 3.6 k2. and R2 -5.6 kQ. The transistor parameters are β-200, VBE(on)-OTV, VA-100 V and VT = 0.026 V. (a) Determine the quiescent value of IEQ (b) Find the small-signal voltage gain Av Vo/vs (c) Determine the output resistance R, looking into output terminals Av= 0.5589 Ro-0.4688 Ω Ro-0.9118 Ω leQ- 23.76 mA Ra " 0.6538 Ω leo 39.52 mA A, 0.9938
For the circuit shown below,...
FIND THE VALUES OF Rb1, Rb2, Re,Rc, rin , rout, overall gain and
open circuit gain
First, design a common emitter BJT amplifier Second, analyze the amplifier.( Avo, Gv, Rin, Rout) Third, compare your calculation with Multisim. Report must include comparison between your calculation & simulation results overall voltage gain, open circuit voltage gain, input resistance, and output resistance. This design project is not group work, must be done individually. Type your report. Design a discrete common emitter BJT amplifier.(Determine...
4. Consider the following Common Base BJT circuit given in the figure below: i. Use the data sheets of CA3046 BJT array and design a common collector circuit given in the following Figure 2 with the stated specifications in Table 2 Clearly show your design procedure. (Hint: show your calculation steps for both DC and AC small signall analysis) ii. Important Note : Ifyou remove RE you should also remove ClI, that is, connecting ac voltage source directly to emitter)...
can someone help me with part c
mpt tope alswersol the sdme part of you willbe penalized for this. Question 1 1 pts For the circuit shown in Figure 6.49, let Vcc -9V.RE 0.11 kQ, R1 3.6 k2, R2 5.6k(2, and Rs -o Ω . The transistor parameters are β-200. VBE(On)-Q7V, VA - 100 V and VT 0.026 V.(a) Determine the quiescent value of lEQ. (b) Find the small-signal voltage gain Av-vo/vg (c) Determine the output resistance Ro looking into...
4.9 Determine R1 and R2 to obtain a zero quiescent output voltage for the circuit shown in Figure P4.9 when the transistor has a β 200 and Va,--0.6V. (Assume RB-10 kQ) o Y out +8V
4.9 Determine R1 and R2 to obtain a zero quiescent output voltage for the circuit shown in Figure P4.9 when the transistor has a β 200 and Va,--0.6V. (Assume RB-10 kQ)
o Y out +8V
Consider the BJT common-emitter amplifier in Figure 1. Assume that the 2N3904G transistor has the following parameters: β-206, VBE-0.TV and the Early voltage VAT 1000V. vCC RB1a I multiple resistors RC want n Vload 22HF Rload 01 2N3904G V1 6302 4.7HF RE2CE 0.01Vpk 1kHz maliple esistons lue you available in the ki Figure 1 BJT CE amplifier 0.5 V and VC-3 V (a) Design the DC biasing circuit so that lc-2 mA, VCE = 2.5 V, VE
Consider the BJT...
(a) Design the circuit (Find values for Rc, Rei and Rez) to amplify a 12mV sinusoidal signal from a microphone to a 0.4 V sinusoidal output signal, and make le = 0.2 mA. (20 points) (6) Draw complete small signal equivalent circuit of the amplifier. Clearly label all components. (Spoints) (c) Find values of input resistance (Rin), output resistance (Rout), and open circuit voltage gain ( Avo). (20 points) Assume B = 100, VBE.ON=0.7V, VA=00, and capacitors are very large...
Could someone please help me on how I should be configuring the
circuit in Figure 4(a) in Multisim? Basically not understanding
question #1 in the Procedure. Cannot keep Vrb the same value while
adjusting Vcc. Then when trying to adjust Vbb to hold Vrb, Ib
changes.
Any help is appreciated!
Discrete Devices Section LAB 4 BJT CHARACTERISTICS AND BIASING Objective: The objective of this laboratory is to examine the operation of a bipolar junction transistor and plot its output characteristics...
Consider the circuit shown in Figure 1. whenever needed, take Vcc-12V, ÍVBE1-0.7V, β-100, VT-25mV. Estimate the 3 dB high cut off frequency R3 12K R7 6.8K OUT R5 120K R1 10u 10 RS C1 01 10u 150 10u 10K VS R4 3.6K R8 3.6K R6 15u Figure 1 Please complete all work: 1) Analytically using the nodal analysis and carrying Cs as impedances. 2) Analytically using the OCTC approach.
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