1. Construct the common base amplifier circuit using BJT, and obtain the voltage amplitude. The circuit...

An ac series circuit consists of a voltage source of frequency 60 Hz and voltage amplitude...

An ac series circuit consists of a voltage source of frequency 60 Hz and voltage amplitude V, a 194-Ω resistor, and a capacitor of capacitance 8.2 μF. What must be the source voltage amplitude V for the average electrical power consumed in the resistor to be 416 W? There is no inductance in the circuit. Express your answer using two significant figures.

Design, simulate, and implement a multistage discrete amplifier using small-signal BJT transistors. Amplifier Specifications: – Midband...

Design, simulate, and implement a multistage discrete amplifier using small-signal BJT transistors. Amplifier Specifications: – Midband voltage gain: Av = 100. – Lower 3-dB frequency: fc = 100 Hz. – Input Impedance: Zin ≥ 250 kΩ. – Output Impedance: Zo ≤ 100 Ω. – Power Supply: Vcc = 15 V. – The load resistance is 1 kΩ – Output capability with a 1–kHz sinusoidal test signal must be at least 2 V peak without severe distortion (i.e. clipping). – Transistor...

Design the circuit of a source follower JFET amplifier biasing circuit with load RL and input...

Design the circuit of a source follower JFET amplifier biasing circuit with load RL and input voltage internal resistance RS that having a gain of +0.2. The specification of the circuit is given as below: Supply voltage, VCC = +12 V; Input impedance, Zi = 10 k; cut-off frequency from source capacitor, fLS = 40 Hz; cut-off frequency from gate capacitor, fLG = 4 Hz; VGSQ = -2.86 V; IDSS = 16 mA and Vp = -4 V

-------Electronics 2------- 1. Design an amplifier using a MOSFET transistor (2N7000) with a Common Source (CS)...

-------Electronics 2------- 1. Design an amplifier using a MOSFET transistor (2N7000) with a Common Source (CS) configuration with a resistor in the Source. Its design should provide an amplification of -12V / V. 2. The voltage Vcc will be +8 vDC, the AC voltage will be 10 mV peak 5 kHz and the load resistance will be RL 2.2 kn. 3. Simulate the circuit in LTSpice. It must choose resistors Ro, Rs, RG1 and RG2 such that the circuit operates...

Using MultisimBlue – Advanced Circuit Simulation Design Program make a I. CE Swamped Amplifier Circuit producing...

Using MultisimBlue – Advanced Circuit Simulation Design Program make a I. CE Swamped Amplifier Circuit producing the following: 1. DC Current Gain: ?DC = 150 (minimum value) 2. AC Voltage Gain: Av = 12 (minimum value) II. Required Components: 1. Transistor Q1 – 2N2222A producing a VCE between 8 V to 12 V 2. Input AC Source: 10 mVAC (14.14 mVpk) @ 1 kHz 3. Coupling and Bypass Capacitors – 30 µF (suitable for low frequencies) 4. Circuit VCC of...

Design and implement a common-emitter audio amplifier using a general purpose transistor 2N3904. The design must...

Design and implement a common-emitter audio amplifier using a general purpose transistor 2N3904. The design must provide features such as; mid-band gain of 100 with undistorted output, stable bias with voltage divider bias (from a 12 or 15V dc source), AC gain stability with emitter bypass capacitor, and coupling capacitors at the input and output to block the dc components. Your design should include complete calculations for choosing voltages, various circuit components (resistors, coupling capacitors), and the circuit diagram. The...

Design and implement a common-emitter audio amplifier using a general purpose transistor 2N3904. The design must...

Design and implement a common-emitter audio amplifier using a general purpose transistor 2N3904. The design must provide features such as; mid-band gain of 100 with undistorted output, stable bias with voltage divider bias (from a 12 or 15V dc source), AC gain stability with emitter bypass capacitor, and coupling capacitors at the input and output to block the dc components. Your design should include complete calculations for choosing voltages, various circuit components (resistors, coupling capacitors), and the circuit diagram. The...

1. If a system has a gain greater than 1: ____________________ 2. If a system has...

1. If a system has a gain greater than 1: ____________________ 2. If a system has a gain equal to 1: ____________________ 3. If a system has a gain less than 1: ____________________ 4. If a system has a gain greater than 0 dB: __________________ 5. If a system has a gain equal to 0 dB: ____________________ 6. If a system has a gain less than 0 dB: __________________ 7. For a voltage amplifier to increase the source voltage: Rin...

use multisim please Design:Create an RLC series circuit using the same source voltage (Vs) as input...

use multisim please Design:Create an RLC series circuit using the same source voltage (Vs) as input voltage equal to: vi(t) = 6 sin (400 pi * t) Select any R, L, and C you want as long as the measured (with the Watt meter) power factor is equal to 0.8(+/- 0.02). You can select any unique values of R, L, and C as long as you have at least 3 non-zero decimal places for each component. Show the Multisim schematic...

PLEASE DRAW THE CIRCUIT DIAGRAMS OF EACH DEFINITIONS AND GIVE ITS APPLICATIONS. PLEASE GIVE THE FULL...

PLEASE DRAW THE CIRCUIT DIAGRAMS OF EACH DEFINITIONS AND GIVE ITS APPLICATIONS. PLEASE GIVE THE FULL DETAILS OF THE STEPS ON EACH QUESTIONS SO I COULD FOLLOW UP YOUR WHOLE EXPLANATIONS. PLEASE WRITE THE STEPS ON SOLVING THIS EXAMPLE EX) STEP 1, STEP 2, ETC HANDWRITING IS OKAY AS LONG AS IT IS READABLE. IF YOU HAVE USED THE EQUATIONS OR CONCEPTS, PLEASE STATE IT CLEARLY WHICH ONE YOU HAVE YOU USED SO I COULD FULLY UNDERSTAND THE DETAILS OF...