Consider a sensor S that provides analog signal in the range of 5 micro volts to 50 micro volts
from a transducer. Ignore the thermal drift impact on the system or HPBW loss at the
transducer.
Using this sensor please create and present the instrumentation ( need not be with exact part
number) to capture the parameter to read, digitally display and store for analysis using
suitable micro-controller / micro-processor with the help of the sensor S. The presentation is
expected to include the interconnect schematic of major electronic components involved,
relevant calculations and functional block diagram representation of the system. The
operational power supply for the system is 5V DC available from a stabilized DC power
supply source with respect to system chassis ground. The digital display should be chosen to
display three digit decimal system whole numbers ( no fraction need to be displayed after
decimal point).

 

Seems to be some class/home work. Nobody here does others homework.
You will have to tell us about your understanding of the problem and how you plan to go about working it out.
We can then guide you forward.

 

The "presentation" lmao.

 

Is that all the information you have?
You will also need to know whether the output from the sensor is AC or DC, what the output frequency ( or frequency range) is, and the source impedance of the sensor.

 

Please post the whole assignment and your teacher's email address. We'll send the reply directly.

 

Consider a sensor S that provides analog signal in the range of 5 micro volts to 50 micro volts
from a transducer. Ignore the thermal drift impact on the system or HPBW loss at the
transducer.
Using this sensor please create and present the instrumentation ( need not be with exact part
number) to capture the parameter to read, digitally display and store for analysis using
suitable micro-controller / micro-processor with the help of the sensor S. The presentation is
expected to include the interconnect schematic of major electronic components involved,
relevant calculations and functional block diagram representation of the system. The
operational power supply for the system is 5V DC available from a stabilized DC power
supply source with respect to system chassis ground. The digital display should be chosen to
display three digit decimal system whole numbers ( no fraction need to be displayed after
decimal point).

Hi,

You are asking for a lot here on a free forum. I do not think anyone here wants to design an entire system like this, and after all, since this is the homework section, you are required to show your first, best attempt to do this on your own and then someone will help with that.

You would have to know how to use a microcontroller with an ADC and some kind of display, that's the main part of the task. If you have never done this before, you are going to have to start by getting a development board of some kind and trying some of the examples that would come with it.
Many people use Arduino now because it is fairly inexpensive and there are a lot of examples that come with the IDE, as well as a lot of people using it and a large forum for that too. You can ask for help there also.

If this is really that 'urgent' and you never did this kind of thing before, I am afraid you are in big trouble because this is not something you do overnight. In a week? Maybe.