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Transcript of Review (Only leave this in if it makes sense) Get white boards out for all this lecture) How long...
Review (Only leave this in if it makes sense) Get white boards out for all this lecture)How long does it take a 5uF capacitor in a series RC circuit to charge to 95% of being fully charged if the resistor is 10,000 Ohms? Suppose the source voltage is 20V. What is the voltage across the capacitor at the specific time above? What is the voltage across the resistor at the specific time above?
What is the current ic through the capacitor in the above problem when it is charged to 95%? How long would it take for the capacitor above to charge to 10V? How long would it take for the capacitor to charge to 16V? Suppose the capacitor has been fully charged to 100%, and you replaced the voltage source with a short. How long would it take for the capacitor to fully discharge?
What is the time constant for a 8H coil with 10,000 ohms of series resistance? An 8H inductor and a 10,000Ω resistor connected in series to a 10V source. What is the current through the inductor at 600us? What is the voltage across the inductor at 600us? What is the voltage across the resistor at the specific time above?
1.Find CT
2. Using VC= VS(1 - e-t/), what is the voltage across a capacitor at 10 seconds if R = 5Ω, C=2F, and VS = 8V
3. What is the capacitance in Farads of a capacitor that has a vacuum for a dielectric, where the plates are 1mm x 1mm separated by a distance of 1m.
14F
5.06V
8.85pF
What is ?How many Tau does it take to get exactly charge
a capacitor to 75% of being fully charged?
How long does it take to charge a capacitor to fully charged if there is no resistor in the circuit?
A capacitor acts like a ___________ under DC conditions and a ____________ under high frequencies.
Today we will learn how capacitors and inductors act under normal frequencies
Chapter 21 Review
𝑡=−𝜏 ∙ ln (1−𝑉 𝐶
𝑉 𝑆)
openshort
A long time constant is defined as one in which the RC time constant (τ) is at least five times longer, in time, than the pulse width of the applied waveform. As a result, the capacitor of a series RC circuit accumulates very little charge, and VC remains small.
Short, Medium, and Long ’s
Draw VC
A medium time constant is defined as one in which the RC time constant (τ), in time, is equal to the pulse width of the applied waveform. As a result, the voltage across the capacitor of a series RC circuit falls between that of a long and short time constant circuit.
Short, Medium, and Long ’s
Draw VC
An RC circuit can be used to convert a Square wave signal into a Triangle signal. Also known as an Integrator circuit.
A short time constant is defined as one in which the time constant is no more than one-fifth the pulse width, in time, of the applied voltage. Here, the capacitor quickly charges to the applied voltage and remains there until the input drops to zero. Then the capacitor quickly discharges to zero.
Short, Medium, and Long ’s
Draw VC
Capacitive and Inductive Reactance
Chapter 22
Keeping in mind:Inductors act like shorts under DC and opens at
instant change.Capacitors act like opens under DC and shorts at
instant change.An AC signal is voltage level that is constantly
changing. (at a constant rate)Both inductors and capacitors resist this mid level
voltage change. (Not 0Hz but not high freq either).Since Sine waves are continuous, this resistance is
constant.In this sense, you can say capacitors are like constant
resistors under steady AC waveforms.
AC signals
The resistance or opposition that inductors and capacitors have towards an AC signal is not called resistance, it is called REACTANCE.
Reactance for a capacitor is labeled XC.Reactance for an inductor is labeled XL.If both resistance and reactance exist in a circuit, then
this total opposition is called IMPEDANCE: IMPEDANCE - THE TOTAL
OPPOSITION TO CURRENT FLOW. Impedance is labeled Z
Reactance – X (symbol for reactance)
Measured in OHMS! (Units is Ω)
Because the plates of a capacitor are changing polarity at the same rate as the AC voltage, the capacitor seems to pass AC.
Suppose you put capacitor in series with your scope probes when you were measuring voltage signal that contained both AC and DC parts. What would your oscope show?
Capacitive Reactance XC
Capacitors have LESS reactance under 2 conditions:
(What do you think they are?)1. Increase in frequency2. Increase in Capacitance
Capacitive Reactance XC
XC =
Ex: Determine the capacitive reactance XC of a 10uF capacitor when the frequency is 1kHz.
XC = Ex: Determine the capacitive reactance XC of
a .001uF capacitor when the frequency is 4kHz.
XC =
Finding Capacitive Reactance
XC =
12𝜋 1000 ∙10𝑢 = 15.9Ω
12𝜋 4000 ∙ .001𝑢 = 39.8kΩ
Ex: Determine the frequency of a circuit if the resulting capacitive reactance XC is 300Ω of a 500nF capacitor.
f = Ex: Determine the capacitor size if its
capacitive reactance is 1000Ω at 50kHz.C =
Finding frequency and Capacitance
XC =
= 1061 Hz
= 3nF
What is the current flowing in the circuit below?
However, this is not the whole story.Capacitors don’t act purely like a resistor. Why?There is a lag, as we will see in a few slides.
Using Reactance to find Current
XC = =132kΩ
I = 𝑉𝑋𝐶
=120132𝑘=905𝑢𝐴
What would be the total capacitance in this circuit? Total Current?
Using Reactance to find Current
XC = =88kΩ
I = 𝑉𝑋𝐶
=12088𝑘=1.36𝑚𝐴
What is the current flowing in the circuit below?
Using Reactance to find Current (another way)
XC1 = =132kΩ
I = 𝑉𝑋𝐶
=12088𝑘=1.36𝑚𝐴
XC2 = =265kΩ
XT = 88kΩ Once you’ve converted Capacitors into resistances, treat them like resistors when doing the math.
Why is XC measured in ohms?What is the proportionality between f and XC?What is the proportionality between C and
XC?
Capacitive Reactance Review
http://youtu.be/X0pFZG7j5cE rubiks cube
Below for breakhttps://
www.youtube.com/watch?v=mCyYPimImyM
https://www.youtube.com/watch?v=XwNUmnDu1r8
RVOTD
Inductors have MORE reactance under 2 conditions:
(What do you think they are?)1. Increase in frequency2. Increase in Inductance
Inductive Reactance XL
XL =
Ex: Determine the inductive reactance XL of a 10mH inductor when the frequency is 1kHz.
XL =Ex: Determine the inductive reactance XL of a
700uH inductor when the frequency is 35kHz.
Finding Inductive Reactance
H = 62.8Ω
XL =
XL = 2 π 35000 ∙700𝑢= 154Ω
Ex: Determine the frequency of a circuit if the resulting inductive reactance XL is 450Ω of a 50mH inductor.
f = Ex: Determine the inductor size if its
inductive reactance is 1000Ω at 50kHz.L =
Finding Inductive Reactance
= 1432 Hz
XL =
= 3.2mH
What is the current flowing in the circuit below?
However, this is not the whole story.Inductors don’t act purely resistive either. Why?There is a lag, as we will see in a few slides.
Using Reactance to find Current
XL = Ω
I = 𝑉𝑋𝐿
=50150.8=332𝑚𝐴
Can you graph this current
The answer for current in the previous problem was 332mA.
This current would look sinusoidal if you graphed it. (Similar to voltage) It is not a flat signal.
Would this current be graphed as peak-to-peak? Peak? RMS? Average?
The Graph of an AC Current looks AC
The difference between reactance and resistance is with reactance there is a delay of some sort.
Its called reactance because inductors and capacitors react to voltage changes, and it takes time to react, while resistors resist instantly as voltage changes.
Reactance is not purely resistance otherwise it would be called resistance
Show the following slides next time
Inductor Capacitor Analogy Handout
Does capacitor current lead or lag capacitor voltage?
ICECurrent in a capacitor leads voltage in a capacitor
By how many degrees?90 degrees
Reactance of an Inductor
Does inductor voltage lead or lag inductor current?
ELIVoltage in an inductor leads current in an inductor
By how many degrees?90 degrees
ELI the ICEman
A pneumonic for remembering the leading and lagging characteristics for inductors and capacitors is:
http://www.sweethaven.com/sweethaven/modelec/dcac/basicequs/default.asp
More Practice (with white boards?)