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Table 1 Amplifier Values Value Amplifier A Amplifier B 10 56 470 56 470 5.6 10...
onsuteu n your potobbara and compare the actual responses to the predicted responses. Table 1 -...
onsuteu n your potobbara and compare the actual responses to the predicted responses. Table 1 - Amplifier Values alue AmplifierAl Amplifier B 4.29 10 56 470 7.92 4.7 56 470 To (2) Ri (k2) 10 Cin (nF) 100 in Figure 1 Procedure Part A. Preliminary Calculations 1. Preliminary calculations for amplifier A (a.) Use the amplifier circuit shown in Figure 1 and the component and gain values for amplifier A as given in Table I and determine the following: the...
Consider the following coupled amplifier circuit using BJT with the following specifications: VBE 0.7V, VA 80V,...
Consider the following coupled amplifier circuit using BJT with the following specifications: VBE 0.7V, VA 80V, fr 800MHz, c 0.8pF, Cci 0.01uF, Cc2-0.luF, CE-10uF, Submit the following: 1. Hand calculation for the mid-band gain AM [Vo Vsig], lower 3dB frequency fi and upper 2. Spice simulation of the circuit: Submit:l) SPICE input file, 2) Probe output file showing 3. Compare the hand calculated and simulated values described above in a table and last 3dB frequency fH, and gain-bandwidth product mid-band...
Design the source follower amplifier shown in Figure 1 to provide a midband gain of 0.5 and an up...
Design the source follower amplifier shown in Figure 1 to provide a midband gain of 0.5 and an upper 3 dB frequency of 1.5 MHz. Verify and compare the theoretical answer with the results produced by simulation using PSPICE A/D. Also, determine the lower 3 dB frequency of this amplifier. Rig C C2 sig Vo RG 200 kΩ s3.3 k Figure 1: Source Follower Amplifier
Design the source follower amplifier shown in Figure 1 to provide a midband gain of...
b) An amplifier has values of V = 24mV and Vout gain of the circuit 2V....
b) An amplifier has values of V = 24mV and Vout gain of the circuit 2V. Calculate the dB voltage (2 marks) c) For the circuit shown in Figure 11, calculate the lower critical frequency due to the output RC circuit. Vec +15 V R 3.9 LO C V. R. 0.33 uF 2N3904 600 n 0.1 F 5.6 k REI 33 0 R 22 k 50 mVpp 1.5 k 100 F (5 marks) Figure 11 12. a) Name the type...
The amplifier shown in Figure below has Rsig = R1 =1 k12, Rc= 1 k-2, RB...
The amplifier shown in Figure below has Rsig = R1 =1 k12, Rc= 1 k-2, RB = 47 k22, B = 100, 1=0.54 mA, Cu = 0.8 pF, and f1 =600 MHz (a) Find gm and r7. (b) Neglecting ro, find the midband voltage gain from base to collector (neglect the effect of RB). (c) Use the gain obtained in (c) to find the component of Rin that arises as a result of RB. Hence find Rin (d) What is...
Circuit Analysis Zo Is Zi ALi If FIGURE Q3(b) negative feedback network (b) Figure Q3(b) shows...
Circuit Analysis
Zo Is Zi ALi If FIGURE Q3(b) negative feedback network (b) Figure Q3(b) shows an amplifier with a Given Zof 100 kQ, Zo = 10 kQ and A 50 State the feedback topology and the amplifier type (i) (2 marks) (ii) Calculate the gain without feedback, A and the feedback factor, B. (6 marks) (iii) If the low cutoff frequency of the amplifier with feedback network (fL) is 300 Hz, calculate the low cutoff frequency (fi) if the...
QUESTION 1 Figure Q1 shows a common emitter (CE) and common Base (CB) cascade amplifier circuit....
QUESTION 1 Figure Q1 shows a common emitter (CE) and common Base (CB) cascade amplifier circuit. Determine the input and output impedance, Z; and Zo, voltage gain, Avi and Av2 and total cascade voltage gain, Ayr and Ays. [25 marks) 2 +8V 1.5 kn 2.2 F 82 k2 3.3 k2 Vo 2.2 uf B = 100 6.8 k12 1 k 2 what B = 100 tuf ZA 5.6 k 2 47012 ZA V. 33 k2 IuF w 10k_2 -2V w...
A. (10 pts) Implement the voltage amplifier shown below using an ideal op amp circuit. You have o...
a. (10 pts) Implement the voltage amplifier shown below using an ideal op amp circuit. You have one op amp available for this circuit, and a range of resistors with values from 1 kΩ to 100 ka. Draw the schematic of your op amp circuit, labeling resistor values. Make sure the gain, input resistance, and output resistance of your circuit matches the model in the schematic. R=012 *100v, RL 100 b. (5 pts) Your amplifier circuit should have a frequency...
please I need details l and....Debate Club | Offic A) Theoretical Design Design a common emitter BJT amplifier with the following requirements: -Rin-10 K2, and Ro-45 ㏀ (Neglect the Early voltage...
please I need details
l and....Debate Club | Offic A) Theoretical Design Design a common emitter BJT amplifier with the following requirements: -Rin-10 K2, and Ro-45 ㏀ (Neglect the Early voltage Effect) Vo/Vsig- Gv-40 VIV or 32 dB " VCC-9 V V, IC-1mA, VCE-3.25V and β-100 RL-40 kQ, Rsige I ka, R 1-3R2, and C1-C2-1 μF Voc RC C2 R1 Rsig C1 RL R2 RE B) Verify your design using Orcad Capture Pspice by doing 1) AC sweep (frequency response):...
Connect the Multistage Amplifier circuit as shown in Figure 1. VCC T 15.0V R4 TR8 34700...
Connect the Multistage Amplifier circuit as shown in Figure 1. VCC T 15.0V R4 TR8 34700 R6 $390 *3.3k02 3 C4 SR2 200k C2 0.01F C1 Q2 2N7000 *2N7000 42 HA 2N2222A V1 100mVpk 5kHz 0.01F 0.1npF R5 (R7 6.8ko 1500 R9 $5600 282ko First stage : CS Second Stage: CE Figure / Multi Stage Amplifier Circuit Connect each stage in the multistage circuit in figure 1 separately 1) Measure the Q points for both transistors Q1 and Q2 record...
onsuteu n your potobbara and compare the actual responses to the predicted responses. Table 1 - Amplifier Values alue AmplifierAl Amplifier B 4.29 10 56 470 7.92 4.7 56 470 To (2) Ri (k2) 10 Cin (nF) 100 in Figure 1 Procedure Part A. Preliminary Calculations 1. Preliminary calculations for amplifier A (a.) Use the amplifier circuit shown in Figure 1 and the component and gain values for amplifier A as given in Table I and determine the following: the...
Consider the following coupled amplifier circuit using BJT with the following specifications: VBE 0.7V, VA 80V, fr 800MHz, c 0.8pF, Cci 0.01uF, Cc2-0.luF, CE-10uF, Submit the following: 1. Hand calculation for the mid-band gain AM [Vo Vsig], lower 3dB frequency fi and upper 2. Spice simulation of the circuit: Submit:l) SPICE input file, 2) Probe output file showing 3. Compare the hand calculated and simulated values described above in a table and last 3dB frequency fH, and gain-bandwidth product mid-band...
Design the source follower amplifier shown in Figure 1 to provide a midband gain of 0.5 and an upper 3 dB frequency of 1.5 MHz. Verify and compare the theoretical answer with the results produced by simulation using PSPICE A/D. Also, determine the lower 3 dB frequency of this amplifier. Rig C C2 sig Vo RG 200 kΩ s3.3 k Figure 1: Source Follower Amplifier
Design the source follower amplifier shown in Figure 1 to provide a midband gain of...
b) An amplifier has values of V = 24mV and Vout gain of the circuit 2V. Calculate the dB voltage (2 marks) c) For the circuit shown in Figure 11, calculate the lower critical frequency due to the output RC circuit. Vec +15 V R 3.9 LO C V. R. 0.33 uF 2N3904 600 n 0.1 F 5.6 k REI 33 0 R 22 k 50 mVpp 1.5 k 100 F (5 marks) Figure 11 12. a) Name the type...
The amplifier shown in Figure below has Rsig = R1 =1 k12, Rc= 1 k-2, RB = 47 k22, B = 100, 1=0.54 mA, Cu = 0.8 pF, and f1 =600 MHz (a) Find gm and r7. (b) Neglecting ro, find the midband voltage gain from base to collector (neglect the effect of RB). (c) Use the gain obtained in (c) to find the component of Rin that arises as a result of RB. Hence find Rin (d) What is...
Circuit Analysis
Zo Is Zi ALi If FIGURE Q3(b) negative feedback network (b) Figure Q3(b) shows an amplifier with a Given Zof 100 kQ, Zo = 10 kQ and A 50 State the feedback topology and the amplifier type (i) (2 marks) (ii) Calculate the gain without feedback, A and the feedback factor, B. (6 marks) (iii) If the low cutoff frequency of the amplifier with feedback network (fL) is 300 Hz, calculate the low cutoff frequency (fi) if the...
QUESTION 1 Figure Q1 shows a common emitter (CE) and common Base (CB) cascade amplifier circuit. Determine the input and output impedance, Z; and Zo, voltage gain, Avi and Av2 and total cascade voltage gain, Ayr and Ays. [25 marks) 2 +8V 1.5 kn 2.2 F 82 k2 3.3 k2 Vo 2.2 uf B = 100 6.8 k12 1 k 2 what B = 100 tuf ZA 5.6 k 2 47012 ZA V. 33 k2 IuF w 10k_2 -2V w...
a. (10 pts) Implement the voltage amplifier shown below using an ideal op amp circuit. You have one op amp available for this circuit, and a range of resistors with values from 1 kΩ to 100 ka. Draw the schematic of your op amp circuit, labeling resistor values. Make sure the gain, input resistance, and output resistance of your circuit matches the model in the schematic. R=012 *100v, RL 100 b. (5 pts) Your amplifier circuit should have a frequency...
please I need details
l and....Debate Club | Offic A) Theoretical Design Design a common emitter BJT amplifier with the following requirements: -Rin-10 K2, and Ro-45 ㏀ (Neglect the Early voltage Effect) Vo/Vsig- Gv-40 VIV or 32 dB " VCC-9 V V, IC-1mA, VCE-3.25V and β-100 RL-40 kQ, Rsige I ka, R 1-3R2, and C1-C2-1 μF Voc RC C2 R1 Rsig C1 RL R2 RE B) Verify your design using Orcad Capture Pspice by doing 1) AC sweep (frequency response):...
Connect the Multistage Amplifier circuit as shown in Figure 1. VCC T 15.0V R4 TR8 34700 R6 $390 *3.3k02 3 C4 SR2 200k C2 0.01F C1 Q2 2N7000 *2N7000 42 HA 2N2222A V1 100mVpk 5kHz 0.01F 0.1npF R5 (R7 6.8ko 1500 R9 $5600 282ko First stage : CS Second Stage: CE Figure / Multi Stage Amplifier Circuit Connect each stage in the multistage circuit in figure 1 separately 1) Measure the Q points for both transistors Q1 and Q2 record...
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