How Do You Calculate Input Signal from Analog Meter Readings?

KTiaam
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Homework Statement



1.
For the pointer position in the diagram, what is the input signal if the range is set at 0.3v?


(i was just wondering if my path to the solution is correct)
(arrow pointing at 1.75)
picture attached

The Attempt at a Solution



Range / scales maximum = #

scale reading / #

so .3/3 = .1
1.75/.1 = .175

is that right?
thank for all the help
 

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KTiaam said:

Homework Statement



1.
For the pointer position in the diagram, what is the input signal if the range is set at 0.3v?


(i was just wondering if my path to the solution is correct)
(arrow pointing at 1.75)
picture attached

The Attempt at a Solution



Range / scales maximum = #

scale reading / #

so .3/3 = .1
1.75/.1 = .175

is that right?
thank for all the help

The result is right, but / means division. 1.75/0.1=17.5. You have to multiply the reading with #.

ehild
 
KTiaam said:

Homework Statement



1.
For the pointer position in the diagram, what is the input signal if the range is set at 0.3v?


(i was just wondering if my path to the solution is correct)
(arrow pointing at 1.75)
picture attached

The Attempt at a Solution



Range / scales maximum = #

scale reading / #

so .3/3 = .1
1.75/.1 = .175

is that right?
thank for all the help
I recommend that you adopt a reading technique which will avoid the need to do that second step of mental arithmetic, because we all know that mental arithmetic is where mistakes are going to be made.

The switch points to 0.3, indicating 0.3 FSD. So that tells you that you will be taking readings off the scale marked 0-3. So in your mind you should now see those scale markings as 0 ... 0.1... 0.2 ... 0.3[/color] and take each reading directly from this "virtual" scale. You will become quite adept at this, with practice.
 
ok now if the input signal is -0.25 what range should you select to give maximum deflection without going off scale? where would i draw the pointer at?
 
KTiaam said:
ok now if the input signal is -0.25 what range should you select to give maximum deflection without going off scale? where would i draw the pointer at?
What are your thoughts on this?
 
NascentOxygen said:
What are your thoughts on this?

I think that 100v range option should be used.
100v / 10 = 10v

? x 10.0 v = -.25v
? =-.25v / 10.v
-.025 is the position on the top scale where i should put my arrow?
 
I think you mean you would choose the 10 v range.

I'm assuming by -0.25 you are talking of -0.25 volts.

attachment.php?attachmentid=65564&d=1389595619.jpg


Where on the -10 ... 10 scale would -0.25 fall? Not very far from the 0 mark in the centre, really. Closer to the 0 than to the 2, anyway.
 
NascentOxygen said:
I think you mean you would choose the 10 v range.

I'm assuming by -0.25 you are talking of -0.25 volts.

attachment.php?attachmentid=65564&d=1389595619.jpg


Where on the -10 ... 10 scale would -0.25 fall? Not very far from the 0 mark in the centre, really. Closer to the 0 than to the 2, anyway.

Yes however don't you divide by 10?

so you would get -.025v?
 
If a voltmeter, as in this example, has scales marked 10 and 3 (obviously FSD), then you can expect there will be a choice of user-selectable switch positions marked (again referring to FSD) such as 0.01V, 0.03V, 0.1V, 0.3V, 1V, 3V, 10V, 30V. As you say, for best reading acuracy the optimum choice is usually that which gives maximum deflection of the pointer.

So which of the switch positions I listed would you say causes maximum pointer deflection for a signal level of 0.25 V?
 
Last edited:

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