0.2k resistor to the load and perform circuit analysis and
calculate the gain
- Perform Circuit Analysis And Calculate The Gain And Then Add A 0 2k Resistor To The Load And Perform Circuit Analysis An 1 (48.98 KiB) Viewed 33 times
- Perform Circuit Analysis And Calculate The Gain And Then Add A 0 2k Resistor To The Load And Perform Circuit Analysis An 2 (50.08 KiB) Viewed 33 times
- Perform Circuit Analysis And Calculate The Gain And Then Add A 0 2k Resistor To The Load And Perform Circuit Analysis An 3 (129.19 KiB) Viewed 33 times
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Design an amplifier that is capable of providing a voltage gain of at least 1500 V/V when no load is connected at the output, and should not drop below 750 V/V if a R = 0.2K resistor is connected as the load. • You are only allowed to use resistors, capacitors, BJTS, and MOSFETs in your design. Do not use Operational Amplifiers. • Since 1000 V/V is a large gain, it is expected that the amplifier may not work properly for a large peak-to- peak input. Determine what the maximum peak-to-peak input should be, based on your design. If you expect that your amplifier's gain significantly depends on the frequency of the input voltage, determine the frequency range of your amplifier's operation. ENEE 3517 - Spring 2022 - Final Projects 1/4 Project Evaluation (read carefully): Your design will be evaluated, in addition to achieving a gain as close as possible to the expected one, on the number of elements used (resistors, capacitors, transistors). A good design will make use of the smaller number of elements possible. At the same time, transistors are preferred over resistors and capacitors. For example, a current steering circuit that uses four transistors and one resistor should be preferred over three resistors. In other words, try to avoid resistors and capacitors as much as possible. You can use as many amplifier stages as you find necessary, but a small number of stages usually implies a small number of elements, which is the objective. Moreover, you should try to design your amplifier so that a large voltage swing at the output is possible. Your design will also be evaluated on the analysis done by the group to theoretically study how the gain can be achieved. A design that is based only on a trial-and-error approach will not be given the same credit as a design for which proper analysis has been performed.