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41 d 60% a 9:33 PM × Question .8.101 In each of the six Circuits n...
Can you please write the Symbol clear , I can know what is it. #10.108 In each of the six circuits in Fig. P10.108, let B 100, C4 2 pF, and f 400 MHz, and neglect r, and r. Calculate the midband...
Can you please write the Symbol clear , I can know what is
it.
#10.108 In each of the six circuits in Fig. P10.108, let B 100, C4 2 pF, and f 400 MHz, and neglect r, and r. Calculate the midband gain A, and the 3-dB frequency fu mA +5v 02 10 kΩ Qi sig 10 kΩ 0.5 mA -10 V
#10.108 In each of the six circuits in Fig. P10.108, let B 100, C4 2 pF, and f...
6.5 BI C2 Cl sig in 0 Design the bias circuit of the CE amplifier shown...
6.5 BI C2 Cl sig in 0 Design the bias circuit of the CE amplifier shown to obtain IE= 0.5 mA and Vc= +6 V. Design for a dc voltage at the base of 5 V and a current through RB2 of 50 μΑ. Let Vcc-+15 V, β-100, and VBE 0.7 V. a) Specify the values of RBi, RB2, RE, and Rc b) Also give the values of the BJT small-signal parameters gm, rr , and ro at the bias...
[P.4] Calculate all node voltage and branch current and small-signal parameters with voltage gain for each...
[P.4] Calculate all node voltage and branch current and small-signal parameters with voltage gain for each of the circuits depicted in (Fig. 4). [20 pts] (Assume 1s = 5x10-16(A), B= 200, VA = 00, and capacitors are very large.) (Fig. 4) Vcc= 2.5 V Vcc= 2.5 V 14 kΩ Reξ 10 kΩ 50 kΩ 1kΩ Lo Vout O Vout C HH 1kΩ 11 kΩ Lai 1 kΩ C1 500Ω C2 2kΩ IHH C2 2 kΩ (b)
Please show a detail explanation on the solution. Thanks in advance 4.117 The amplifier of Fig....
Please show a detail explanation on the solution. Thanks in
advance
4.117 The amplifier of Fig. P4.117 consists of two identical common-e that the input resistance of the second stage, R2, constitutes the load resistance of the first stage mitter amplifiers connected in cascade. Observe = 6.8 kΩ and β= 100, determine the dc collector current and de collector voltage of each transistor (b) Draw the small-signal equivalent circuit of the entire amplifier and give the values of al its...
In each of the six circuits in Fig. P10.108, let β = 100, Cμ= 2 pF, and fT= 400 MHz, and neglect rx and ro. Calculate t...
In each of the six circuits in Fig. P10.108, let
β = 100, Cμ= 2 pF, and fT= 400 MHz, and neglect rx and
ro. Calculate the midband gain AM and the 3-dB frequency fH.
I need all the questions solution with a good way and good hand
writing. thanks.
Problems 805 +20 V +20 V +20 V E10 kn +5 V 10 k 10 kn +5 V o V. 10 kn 10 kn 10 kn Vao sig V ImA...
7.53 For the circuit shown in Fig. P7.53, draw a complete small-signal equivalent circuit utilizing an...
7.53 For the circuit shown in Fig. P7.53, draw a complete small-signal equivalent circuit utilizing an appropriate T model for the BJT (use a =0.99). Your circuit should show the values of all components, including the model parameters. What is the input resistance R ? Calculate the overall voltage gain (v,/v). (also find A, for this amp) sig +5 V RC 12 kΩ C2 RL 12 ΚΩ Rsig 75 N ) 0.33 mA Vsig Rin Figure P7.53
can you do 4.83 Ar- Q Sea 100 V, what does the gain become? age at...
can
you do 4.83
Ar- Q Sea 100 V, what does the gain become? age at the collector. (b) Replacing the transistor by its T model, da the small-signal equivalent circuit of the a plifier. Analyze the resulting circuit to dete mine the voltage gain t/ 04.81 Consider the CE amplifier circuit of Fig. 4.43(a). It is required to design the circuit (i.e., find values for I and Rc) to meet the following specifications: (a) R,5kn (b) the voltage gain...
Homework 4 Due: June 26, 2019, at 5 pm. Note: Show all steps required to get...
Homework 4 Due: June 26, 2019, at 5 pm. Note: Show all steps required to get to your answers and make sure to box them. Writing down answers to questions asked without any explanation(s) will not do it. Clarity should be a priority Moreover, the assigned textbook for this class is Sedra and Smith, Microelectronic Circuits, Seventh Edition, Oxford University Press. Make sure you have the proper book Reminder: In class, we have expressed the overall voltage gain of a...
Question 1: 7.33 +15V 1O MO R-200k 16n 7k MO 7.33 Figure P7.33 shows a discrete-circuit...
Question 1: 7.33 +15V 1O MO R-200k 16n 7k MO 7.33 Figure P7.33 shows a discrete-circuit amplifier. The input signal is coupled to the gate through a very large capacitor (shown as infinite). The transistor source is connected to ground at signal frequencies via a very large capacitor (shown as infinite). The output voltage signal that develops at the drain is coupled to a load resistance via a very large capacitor (shown as infinite). All capacitors behave as short circuits...
Homework 4 Due: June 26, 2019, at 5 pm. Note: Show all steps required to get...
Homework 4 Due: June 26, 2019, at 5 pm. Note: Show all steps required to get to your answers and make sure to box them. Writing down answers to questions asked without any explanation(s) will not do it. Clarity should be a priority Moreover, the assigned textbook for this class is Sedra and Smith, Microelectronic Circuits, Seventh Edition, Oxford Univers ity Press. Make sure you have the proper book Reminder: In class, we have expressed the overall voltage gain of...
Can you please write the Symbol clear , I can know what is
it.
#10.108 In each of the six circuits in Fig. P10.108, let B 100, C4 2 pF, and f 400 MHz, and neglect r, and r. Calculate the midband gain A, and the 3-dB frequency fu mA +5v 02 10 kΩ Qi sig 10 kΩ 0.5 mA -10 V
#10.108 In each of the six circuits in Fig. P10.108, let B 100, C4 2 pF, and f...
6.5 BI C2 Cl sig in 0 Design the bias circuit of the CE amplifier shown to obtain IE= 0.5 mA and Vc= +6 V. Design for a dc voltage at the base of 5 V and a current through RB2 of 50 μΑ. Let Vcc-+15 V, β-100, and VBE 0.7 V. a) Specify the values of RBi, RB2, RE, and Rc b) Also give the values of the BJT small-signal parameters gm, rr , and ro at the bias...
[P.4] Calculate all node voltage and branch current and small-signal parameters with voltage gain for each of the circuits depicted in (Fig. 4). [20 pts] (Assume 1s = 5x10-16(A), B= 200, VA = 00, and capacitors are very large.) (Fig. 4) Vcc= 2.5 V Vcc= 2.5 V 14 kΩ Reξ 10 kΩ 50 kΩ 1kΩ Lo Vout O Vout C HH 1kΩ 11 kΩ Lai 1 kΩ C1 500Ω C2 2kΩ IHH C2 2 kΩ (b)
Please show a detail explanation on the solution. Thanks in
advance
4.117 The amplifier of Fig. P4.117 consists of two identical common-e that the input resistance of the second stage, R2, constitutes the load resistance of the first stage mitter amplifiers connected in cascade. Observe = 6.8 kΩ and β= 100, determine the dc collector current and de collector voltage of each transistor (b) Draw the small-signal equivalent circuit of the entire amplifier and give the values of al its...
In each of the six circuits in Fig. P10.108, let
β = 100, Cμ= 2 pF, and fT= 400 MHz, and neglect rx and
ro. Calculate the midband gain AM and the 3-dB frequency fH.
I need all the questions solution with a good way and good hand
writing. thanks.
Problems 805 +20 V +20 V +20 V E10 kn +5 V 10 k 10 kn +5 V o V. 10 kn 10 kn 10 kn Vao sig V ImA...
7.53 For the circuit shown in Fig. P7.53, draw a complete small-signal equivalent circuit utilizing an appropriate T model for the BJT (use a =0.99). Your circuit should show the values of all components, including the model parameters. What is the input resistance R ? Calculate the overall voltage gain (v,/v). (also find A, for this amp) sig +5 V RC 12 kΩ C2 RL 12 ΚΩ Rsig 75 N ) 0.33 mA Vsig Rin Figure P7.53
can
you do 4.83
Ar- Q Sea 100 V, what does the gain become? age at the collector. (b) Replacing the transistor by its T model, da the small-signal equivalent circuit of the a plifier. Analyze the resulting circuit to dete mine the voltage gain t/ 04.81 Consider the CE amplifier circuit of Fig. 4.43(a). It is required to design the circuit (i.e., find values for I and Rc) to meet the following specifications: (a) R,5kn (b) the voltage gain...
Homework 4 Due: June 26, 2019, at 5 pm. Note: Show all steps required to get to your answers and make sure to box them. Writing down answers to questions asked without any explanation(s) will not do it. Clarity should be a priority Moreover, the assigned textbook for this class is Sedra and Smith, Microelectronic Circuits, Seventh Edition, Oxford University Press. Make sure you have the proper book Reminder: In class, we have expressed the overall voltage gain of a...
Question 1: 7.33 +15V 1O MO R-200k 16n 7k MO 7.33 Figure P7.33 shows a discrete-circuit amplifier. The input signal is coupled to the gate through a very large capacitor (shown as infinite). The transistor source is connected to ground at signal frequencies via a very large capacitor (shown as infinite). The output voltage signal that develops at the drain is coupled to a load resistance via a very large capacitor (shown as infinite). All capacitors behave as short circuits...
Homework 4 Due: June 26, 2019, at 5 pm. Note: Show all steps required to get to your answers and make sure to box them. Writing down answers to questions asked without any explanation(s) will not do it. Clarity should be a priority Moreover, the assigned textbook for this class is Sedra and Smith, Microelectronic Circuits, Seventh Edition, Oxford Univers ity Press. Make sure you have the proper book Reminder: In class, we have expressed the overall voltage gain of...
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