Design a cascode differential amplifier with a differential gain higher than 50,000 V/V. Assume the supply...

1. Design an inverting amplifier with gain of ×10, and input impedance of 100Ω. 2. Design...

1. Design an inverting amplifier with gain of ×10, and input impedance of 100Ω. 2. Design a non-inverting amplifier with a gain of ×10. Design the amplifier so that the output current from the op-amp at maximum output voltage +15V is no larger than 15 mA. 3. Design a current summing amplifier that finds the algebraic sum of two input voltages: VOUT = - (V1 + V2) . Design the amplifier so that output current from the op-amp at maximum...

-------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...

Power supply voltage for the photodiode Resistor value (Vsensor) = 120 V Output voltages over black...

Power supply voltage for the photodiode Resistor value (Vsensor) = 120 V Output voltages over black (Vsensor) Output voltage over white (Vsensor) 1 V 3 KΩ 33 mV 120 mV b. Amplifier subcircuit. Vsensor has to be amplified to obtain the specified sensor output of 3.3 V when the photodiode is over the white background. Calculate the gain required to achieve this. Explain whether this requires an inverting or non-inverting amplifier. Calculate the resistor values to achieve this gain. Explain...

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

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...

Design an audio amplifier that amplifies signals from 20Hz to 20kHz. Your approach should be to...

Design an audio amplifier that amplifies signals from 20Hz to 20kHz. Your approach should be to use a cascade connection of two first-order passive circuits separated by a noninverting OP AMP. The source has a 50-? series resistor and the output of the filter feeds a 10-k? audio transducer. Design a bandpass circuit with the following specifications all ±5%: fCL =20Hz, fCH =20kHz, B=19,980Hz. Passband gain +40dB. What is the minimum GBW of the OP AMP that can be used...

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...

The input, Vin, is single-ended not differential. Design an analog circuit with a transfer function of...

The input, Vin, is single-ended not differential. Design an analog circuit with a transfer function of Vout = 50 ⋅ Vin − 5 using one rail-to-rail op amp powered by a single +5 V supply. You may use one REF03 2.50 V reference chip. The input range is 0.1 to 0.2 V, and the output range is 0 to +5 V.

Can you design me a circuit with fixed collector-emitter voltage, the gain is not constant and...

Can you design me a circuit with fixed collector-emitter voltage, the gain is not constant and it varies depending on collector current. I want to generate the beta versus collector current graph with using BJT for a fixed collector-emitter voltage (5V). Collector should span the range (1mA--> 1000mA) or can you tell me how to vary the collector current and keep the collector-emitter voltage fixed? What are the key features to be careful about ? ? What type of components...