Shown below is a single stage common emitter amplifier with a unipolar dc power supply using an 2N3904 NPN BJT as the active device. It is specified that V+ 40 V, C1 C2CE 100uF, Ro-7.5 k2, REi-5.1kS2, and Ri - 36k52. Design the circuit so that the dc collector current is 2 mA and the magnitude of the small-signal midband voltage gain is 32.3. For the design calculations assume that the base-to- emitter dc voltage drop is 0.65 V, the...
VCC 15.0V RB1 RC Cc2 Vout Q1 RL Cc1 Rsig 1HF Vsig 100mVrms 50kHz RB2 RE CE Fig. 1 npn BJT Common Emitter Amplifier 1. (15 points) Assume 8-100. Using the DC Model and assumptions, find VCE Ica. Show the model. 2. (20 points) Using the small signal model, find A RinRoz. Show the model. 3. 5 ooints) Determine the percent change in Ay if ro is included in the analysis. Assume VA 1V
VCC 15.0V RB1 RC Cc2 Vout Q1 4.7uF RL Cc1 Rsig 1kQ Vsig +100mVrms RB2 )50kHz RE CE Fig. 1 npn BJT Common Emitter Amplifier I. (15 points) Assume β-100. Using the DC Model and assumptions, find VcEQ, loa-Show the model 2. (20 points) Using the small signal model, find Av, Rin, Rout. Show the model 3. (5 points) Determine the percent change in Av if ro is included in the analysis. Assume VA 1V
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...
do not answer it , if you do not know how to use pspice Vc 15Vdc R2 Rc 5k 150 C2 01 C1 RL 02N2222 Vin 50k R1 Re VAMP L-50mV FREQ 5000Hz Ce 10uF 1k 50 Figure 1: A Common-Emitter Amplifier Circuit Configuration 4. Refer to Fig. 1 in the handout; simulate the circuit in PSpice and obtain the input-output waveforms (to calculate the voltage gain) for a sinusoidal input with a magnitude of 10 mV and the frequencies...
15 Vcc RC 5k C2 R1 4.7k Vout 4H C1 Q1 2210 RL in 2k 50 71? RE 2.2k CE R2 2.5k SINEO AC 0.02 15? ·model 2210 NPN (Bf=100) Figure 1 A simple common emitter amplifier circuit. Note the ac source has a magnitude of 20 mV. NOTE: Only the 'full' schematics are requested below, not the ac small signal models. You may use the equations derived in lecture (or from the text); there is no requirement to rederive...
do not answer it , if you do not know how to use pspice Vc 15Vdc R2 Rc 5k 150 C2 01 C1 RL 02N2222 Vin 50k R1 Re VAMP L-50mV FREQ 5000Hz Ce 10uF 1k 50 Figure 1: A Common-Emitter Amplifier Circuit Configuration 4. Refer to Fig. 1 in the handout; simulate the circuit in PSpice and obtain the input-output waveforms (to calculate the voltage gain) for a sinusoidal input with a magnitude of 10 mV and the frequencies...
im currently doing an assignment where i must design a two stage bipolar transistor, i just need the calculations and values for each component and then i can run simulated experiments and complete my work here is the schematic the transistor used is the BC846B the supply voltage is 15 v the collector currents 1 (ICq1) = 1.5mA the collector current 2 (ICq2) = 7.5 mA output voltage swing= max frequency response = 50- 20 khz i must calculate the...
100 1.5 0.27 5. 6 Pl. Consider the CB amplifier of Figure 1, for which Vcc-15 V, Rs-50 Ω, and RL-10 kQ. For the BJT, assume that B150, VBE.on0.7 V, and VcE,sat 0.3 V, and ignore the Early effect. For the other resistances, however, assume the same values as those you used for the Common-Emitter (CE) amplifier lab (disregard the value for RE2, as the resistor does not exist in the CB amplifier of Figure 1). Therefore, copy the same...
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...