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Voc Rb Rs C1 VS Re =ce SRL...
Please answer 2,3 and 4 VCC Rb Rs C1 Wwth VS Re Ce RL VO w...
Please answer 2,3 and 4
VCC Rb Rs C1 Wwth VS Re Ce RL VO w + Figure 1 For the circuit of Figure 1 the following parameters are given with Vec = 15 volts DC: Rs = 0 ohm ra = 1000 ohm Rb = 1750 ohms CI = 10 microfarads gm = 30ms RL = 50 ohms Ce=0.3 microfarads Re = 145 ohms C2 may be considered very large vs is a sinusoidal voltage source of 1 volt...
C- Amplifier: Consider figure 3. This circuit uses the JFET to amplify the input signal voltage F...
C- Amplifier: Consider figure 3. This circuit uses the JFET to amplify the input signal voltage First the dc operation must be set. Use equation 1 and your previous data to calculate the value of Vas required to give I-0.5 mA. Determine the source resistance Rs needed to set this bias. Set up the circuit of figure 3 with your calculated value of Rs. Measure Vo and Vs to determine if your operating conditions are correct. Apply an input voltage...
Voc Ri Rc C2 + RS G Q2N3904 RL Vout 2 R2 RE CE Rin Rout...
Voc Ri Rc C2 + RS G Q2N3904 RL Vout 2 R2 RE CE Rin Rout Cu B 1x B C o + V be : Cr 8m'be E VCC R R2 Rc RE RS RL С. Cz CE 12 V 8.2 kg 3.9 ko 6.3 k2 3.3 kΩ 3 ko 3.9 ko 10 uF 1uF 100 u Assume the 2N3904 has a 8 =100, Veron} = 0.7V, VA= 100V, C=100, C=13.9pF and Ce=8pF. Use the emission coefficient as n...
Q.A. 2 -Statement: DC biasing of a CE amplifier circuit is as in Fig.2 Assume the...
Q.A. 2 -Statement: DC biasing of a CE amplifier
circuit is as in Fig.2 Assume the parameters, VCC
= 12 volt, RE = 450 ohm; = 100; RL = 2250 ohm, RC =1000 ohm and
source resistance and Rs = 2500 ohm. Also, the device emitter
resistance re is negligible.
The amplifier is excited by a source, vs(t) = Vm × sin(2ft)
with Vm = 500 mV peak and f = 5500 Hz; and, coupling and by-pass
capacitors can...
Q2) Please show all working Thank you :) Question 2 (25 Marks) (a) (6 Marks) Bias...
Q2)
Please show all working
Thank you :)
Question 2 (25 Marks) (a) (6 Marks) Bias the CE amplifier in Figure 2 to have IE = 1mA. Assume B-100, VBE(On) = 0.7 V, Vcc = 15V, VEE= -15V and RB = 100kQ. List all node voltages, currents and resistor values. (b) (10 Marks) Draw the small-signal model for the CE amplifier in Figure 2 Determine the input resistance, output resistance and gain of the amplifier. Assume VA = 100V, RL...
1. Figure 1 shows a CE power amplifier in which the collector resistor serves also as...
1. Figure 1 shows a CE power amplifier in which the collector resistor serves also as the load resistor. Assume Bpc Bac 100 a. Determine the dc Q-point (lco and VCEQ). b. Determine the voltage gain and the power gain c. The power dissipated in the transistor with no load. d. The total power from the power supply with no load e. The signal power in the load with a 500 mV input. f. What changes would be necessary to...
Vcc Rc C3 Si C1 rs RG R1 Vs Figure -Q2 (2Marks) (b) Draw the low...
Vcc Rc C3 Si C1 rs RG R1 Vs Figure -Q2 (2Marks) (b) Draw the low frequency ac equivalent h-parameter model for the above circuit in Figure-Q2. (a) Find Vos. (4Marks) (6Marks) (8Marks) . VL (c) Find the mid-band voltage gain (d) Find the lower cutoff frequency for the above amplifier.
A common-emitter BJT amplificr is shown in Fig.8.1. Note the DC biasing values and the BJTsmall-s...
A common-emitter BJT amplificr is shown in Fig.8.1. Note the DC biasing values and the BJTsmall-signalmodel parameters from the class-signment #9 on DC Bia ing. Neglect the value of Rs in your calculations, k1 Rs-a k2: 1· Cal ulatethesmall-agalpannetas ofthe amplifi randcompletethecalculated valuesinTable8-1 Smalls-signal voltage gai, AVk Small-signal input resistance,k, Small-signaloutput resistance, Ro VW RC 2k C2 RB 570k Rs C1 1 10uP 0.1m 1 Vs CE RE 2k SINE(0 1mV 1kHz 0 0 00) tran 0 2ms 0 1us...
VCC 24V RC 6.8kQ 100kΩ C2 0 15UF 01 C1 15uF 2N3904 R2 RE CE Figure 1. Common-emitter transistor a...
Please use Multisim with probes placed and labeled.
Thank you for your time!
VCC 24V RC 6.8kQ 100kΩ C2 0 15UF 01 C1 15uF 2N3904 R2 RE CE Figure 1. Common-emitter transistor amplifier 2. Use Multisim to build circuit and measure the DC bias value for the figure above. 3. Calculate the AC dynamic resistance, re, using the measured value of lE 4. Calculate the amp voltage gain for the bypassed emitter 5. Record measured and calculated results in table...
Design a common-source MOSFET amplifier such that - Rg is a multiple of 10 - Id...
Design a common-source MOSFET amplifier such that - Rg is a multiple of 10 - Id = 0.52 mA - the amplifier input resistance is in the range of mega ohms - | Avo | = 16.7 V/V - RL = 20k - Vsig has a 2kHz frequency - Rsig = 400k, and is the input and the MOSFET has: Vt = 0.8V k = 5 mA/V^2 VA = 80 V Assume capacitors are shorted in the signal circuit and...
Please answer 2,3 and 4
VCC Rb Rs C1 Wwth VS Re Ce RL VO w + Figure 1 For the circuit of Figure 1 the following parameters are given with Vec = 15 volts DC: Rs = 0 ohm ra = 1000 ohm Rb = 1750 ohms CI = 10 microfarads gm = 30ms RL = 50 ohms Ce=0.3 microfarads Re = 145 ohms C2 may be considered very large vs is a sinusoidal voltage source of 1 volt...
C- Amplifier: Consider figure 3. This circuit uses the JFET to amplify the input signal voltage First the dc operation must be set. Use equation 1 and your previous data to calculate the value of Vas required to give I-0.5 mA. Determine the source resistance Rs needed to set this bias. Set up the circuit of figure 3 with your calculated value of Rs. Measure Vo and Vs to determine if your operating conditions are correct. Apply an input voltage...
Voc Ri Rc C2 + RS G Q2N3904 RL Vout 2 R2 RE CE Rin Rout Cu B 1x B C o + V be : Cr 8m'be E VCC R R2 Rc RE RS RL С. Cz CE 12 V 8.2 kg 3.9 ko 6.3 k2 3.3 kΩ 3 ko 3.9 ko 10 uF 1uF 100 u Assume the 2N3904 has a 8 =100, Veron} = 0.7V, VA= 100V, C=100, C=13.9pF and Ce=8pF. Use the emission coefficient as n...
Q.A. 2 -Statement: DC biasing of a CE amplifier
circuit is as in Fig.2 Assume the parameters, VCC
= 12 volt, RE = 450 ohm; = 100; RL = 2250 ohm, RC =1000 ohm and
source resistance and Rs = 2500 ohm. Also, the device emitter
resistance re is negligible.
The amplifier is excited by a source, vs(t) = Vm × sin(2ft)
with Vm = 500 mV peak and f = 5500 Hz; and, coupling and by-pass
capacitors can...
Q2)
Please show all working
Thank you :)
Question 2 (25 Marks) (a) (6 Marks) Bias the CE amplifier in Figure 2 to have IE = 1mA. Assume B-100, VBE(On) = 0.7 V, Vcc = 15V, VEE= -15V and RB = 100kQ. List all node voltages, currents and resistor values. (b) (10 Marks) Draw the small-signal model for the CE amplifier in Figure 2 Determine the input resistance, output resistance and gain of the amplifier. Assume VA = 100V, RL...
1. Figure 1 shows a CE power amplifier in which the collector resistor serves also as the load resistor. Assume Bpc Bac 100 a. Determine the dc Q-point (lco and VCEQ). b. Determine the voltage gain and the power gain c. The power dissipated in the transistor with no load. d. The total power from the power supply with no load e. The signal power in the load with a 500 mV input. f. What changes would be necessary to...
Vcc Rc C3 Si C1 rs RG R1 Vs Figure -Q2 (2Marks) (b) Draw the low frequency ac equivalent h-parameter model for the above circuit in Figure-Q2. (a) Find Vos. (4Marks) (6Marks) (8Marks) . VL (c) Find the mid-band voltage gain (d) Find the lower cutoff frequency for the above amplifier.
A common-emitter BJT amplificr is shown in Fig.8.1. Note the DC biasing values and the BJTsmall-signalmodel parameters from the class-signment #9 on DC Bia ing. Neglect the value of Rs in your calculations, k1 Rs-a k2: 1· Cal ulatethesmall-agalpannetas ofthe amplifi randcompletethecalculated valuesinTable8-1 Smalls-signal voltage gai, AVk Small-signal input resistance,k, Small-signaloutput resistance, Ro VW RC 2k C2 RB 570k Rs C1 1 10uP 0.1m 1 Vs CE RE 2k SINE(0 1mV 1kHz 0 0 00) tran 0 2ms 0 1us...
Please use Multisim with probes placed and labeled.
Thank you for your time!
VCC 24V RC 6.8kQ 100kΩ C2 0 15UF 01 C1 15uF 2N3904 R2 RE CE Figure 1. Common-emitter transistor amplifier 2. Use Multisim to build circuit and measure the DC bias value for the figure above. 3. Calculate the AC dynamic resistance, re, using the measured value of lE 4. Calculate the amp voltage gain for the bypassed emitter 5. Record measured and calculated results in table...
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