Difference between revisions of "Lab 10 RS"
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The output ripple can be found by <math>\Delta V=\frac{I\Delta t}{C}</math> | The output ripple can be found by <math>\Delta V=\frac{I\Delta t}{C}</math> | ||
− | Taking ADC from outlet equals <math>60\ Hz</math> my input pulse width is <math>\Delta t = 17\ ms</math> and using the say <math>C = 2.2\ uF</math> to make <math>\Delta\ V \ | + | Taking ADC from outlet equals <math>60\ Hz</math> my input pulse width is <math>\Delta t = 17\ ms</math> and using the say <math>C = 2.2\ uF</math> to make <math>\Delta\ V \le 1\ V</math> I need my current to be: |
− | <math>I \ | + | <math>I \le \frac{1\ V \cdot 2.2\ uF}{17\ mA} \le 0.129\ mA<math> |
Revision as of 06:35, 8 March 2011
Lab 10 Unregulated power supply
Use a transformer for the experiment.
here is a description of the transformer.
File:TF EIM 241 transformer.pdf
Half-Wave Rectifier Circuit
1.)Consider building circuit below.
Determine the components needed in order to make the output ripple have a
less than 1 Volt.The output ripple can be found by
Taking ADC from outlet equals
my input pulse width is and using the say to make I need my current to be:
I have used the following components and input parameters:
and the following input parameters:
The current through the circuit can be found as
where
.
And the current becomes
So my output ripple becomes
List the components below and show your instructor the output observed on the scope and sketch it below.
Full-Wave Rectifier Circuit
Determine the components needed in order to make the above circuit's output ripple have a
less than 0.5 Volt.List the components below and show your instructor the output observed on the scope and sketch it below.
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