4. Design a noninverting amplifier shown below to provide a closed loop gain voltage of - 100. The input voltage to the amplifier is -100 mV and it has a source resistance of iko. What is the value of the output voltage ve? The DC supply voltages are given by Vec - VEE-15V. Assume an ideal op-amp. SE
2, Design a variable gain amplifier using an inverting circuit and a 10 ΚΩ potentiometer. It is desired to control the gain within the limits of-10 and -50.
P3. Using the circuit below to design the inverting amplifier having a gain of -10 and input resistance of 100 kΩ. Give the values of R1. 2 do
Design a common emitter amplifier of nominal gain g = −10 to work at f = 100 kHz. Let the supply voltages VCC = ±12 V. Center the output voltage as best you can. Use capacitive coupling and set the quiescent current at 1.0 mA.
Design a difference amplifier circuit to yield a variable differential gain in the range 1 to 100 and utilizing a 100 kΩ variable resistor. The design should include an ideal op-amp (Hint: Design the second stage for a gain of 0.5).
Design an amplifier with a gain of 10 that is to operate from a single positive voltage source and deliver 2 volts peak to a 1K load at 1 KHz. The input resistance of the amplifier must be greater than 100 K and the low frequency response is to go down to 5 hz with no more than 3 dB signal loss. question1 “What is a reasonable power supply voltage?” according to the statement above here is some example i...
15. Design an inverting amplifier to have a gain of 20 using the MCP6021 and a single +5 V supply. What will be the typical 3-dB bandwidth of the amplifier?
the open loop gain Ao=99990 of a high gain amplifier varies by 20% design a feedback path with feedback factor K such that the closed loop gain only varies by .02%
Design a nmos mosfet amplifier with a gain of at least 70 v/v
The schematic circuit of a noninverting amplifier is shown in Fig.1aThe circuit specifications are: V1=0.1V Again=30dB R3=100kΩ R1=10kΩ(a) Determine the output voltage of the amplifier, assume the op-amp is ideal.(b) Determine the resistance of R2, assume the op-amp is ideal.(c) Does the value of R1 affect the output of the amplifier, if the op-amp is ideal? Justify your answer.(d) Does the value of R1 affect the output of the amplifier, if the op-amp is non-ideal and has only an input offset voltage shown in...