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4. Design a npn BJT C-E amplifier circuit for the following specifications and given values: Voltage...
3. Design a n-channel JFET C-S amplifier circuit for the following specifications Voltage Gain input resistance Ri-100kΩ Load resistanceR2k2 Given supply voltage VDD 20V Αν--10 Rss is fully bypassed The input source resistance Rs 02, Ipss-8mA and Vp4V Assume RD and R1 but must find R2 and RSS using the given specifications. Find the DC Operating Points values (VGs, ID and VDs) Draw the actual circuit and its ac equivalent circuit
THE STEPS TO DO SO: Design a BJT amplifier based on the specifications provided in the table below. Your design should be insensitive to β variations, and both the input and the output should be AC coupled as in Fig. 1. Supply Voltage, Vcc Load Resistance, RL Transistor's Current Gain, β Relative Variation of lc for VBE-0.7 ± 0.1 V 0-to-Peak Output Swing, Vo Voltage Gain, A Input Resistance, R THD for 5kHz IV (0-to-peak) Sine Wave Output Voltage, V。S5%...
Problem 2: BJT Small-Signal Voltage Amplifiers in the lectures, we covered in detail the analysis of an npn BJT amplifier that utilizes a single-supply DC biasing. In this problem, you will meet two additional amplifier architectures- one that is based on dual DC supplies combined with a DC current source, and the other that utilizes a pnp BJT with single-supply biasing. In both problems (below) you need to manually find the amplifier's Q-point (that is, the DC values of Ic...
4. For the amplifier in the figure below use the parameters in the table: +Vcc Re VBE- 0.7V, Ri- 1002, R1-160k2, R2-320k2 R3-200k2, R6-40 k2, Rc-60k2, Vcc- 12V, Ry Do a) Draw the DC equivalent circuit and calculate the Q-point. c) Draw the AC equivalent circuit with the small signal model for the transistor. d) Calculate the voltage gain, Av-Vo/vi. Assume ro infinite. e) Draw the circuit to find the amplifier input resistance (Rin). Calculate Rin f Draw the circuit...
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...
You are required to design a 2-stage voltage amplifier (find values for RE, RC1, RC2) to meet the following criteria: an input resistance of 400 kΩ and an overall voltage gain equal to or greater than 250, with a resistor output load, RL. Use a common-emitter with emitter degradation (RE) stage for the input, followed by a commonemitter amplifier with bias current equal to 0.5 mA. (VCC = 20 V, βo = 200 and the DC levels of the first...
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...
(a) A voltage divider bypassed common-source (CS) FET amplifier biasing circuit with load R, is commonly used in electronic circuit. (1) Design the circuit of a voltage divider bypassed common-source FET amplifier biasing circuit with load Ru. [4 marks) (ii) By referring to Q4(a)(i), design a bypassed common-source FET amplifier with biasing voltage-divider to meet the given specifications below: Supply voltage, Vcc = 12 V; Voltage gain, Ay = -10; Output load Ru = 10 kV2; input impedance Zi =...
Design a BJT amplifier circuit that has a voltage gain (Av) of -400 and an input impedance of 1 kOhm. If the BJT used has a Beta = 90. Draw and specify all circuit parameters. (Free of any configuration)
Figure 4. (a) 1. Design the common-emitter amplifier in Fig. 4(a) with the following specifications: Supply Voltage, Vcc 0-to-Peak Output Swing, V Voltage Gain, A. Input Resistance, R Output Resistance, Ro THD for 5kHz 1 V (0-to-peak) Sine Wave Output Voltage, V Relative Variation of Ic for VBE 0.7t 0.1V Transistor's Current Gain, β 5V 25 1.8kS2 4% 10% 100 Show your design procedure and all your calculations. Your design should be insensitive to B variations. Vcc RB1 Rc 0...