/elec/propeller-clock : revision 12

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Committer: edam
Date: 2011-11-17 11:38:11 UTC
Revision ID: edam@waxworlds.org-20111117113811-os1jlwxwukdxt6um

added info about RC circuits

files modified:
electronics-information

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electronics-information

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Here, R3 = R4 = R5 = 340Ω, as usual. The numbher of LEDs is limited

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only by the current that can be drawn from the power supply.

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RC CIRCUITS

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===========

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An RC (resistor capacitor) curcuit is a basic low-pass filter. Here

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we're talking about giving it a pulse wave signal (a voltage that

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oscillates between 0V and approx. 5V).

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___

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Vin o----[___]----+-----o Vc

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R |

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===

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| C

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0V o-------------+-----o

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If the resistor weren't there, the capacitor on it's own would act

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like an open circuit to a pulse wave (or to an AC power supply). This

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is because the capacitor would charge to the voltage supplied across

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it and discharge almost immediately. The purpose of the resistor is to

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limit the current that is available to charge the capacitor, so it

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charges slowly and it takes some time before Vc becomes almost equal

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to Vin.

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With a pulse wave on Vin, Vc would look something like this:

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_ _ _ _

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,'' \ ,'' \ ,'' \ ,''

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/ \ / \ / \ /

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0V / ',,_/ ',,_/ ',,_/

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If you were to draw the tangent to the curve at time=0 (so, the

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initial rate of change of charging), and you note the time that this

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line crossed 5V, then this time is T. That is to say, time T is the

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time it would take the capacitor to charge to the target voltage if it

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charged constantly at the rate it actually initially charges at. Then

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this equation applies

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T = RC

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