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Speeding Things Up

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Speeding Things Up Resistors and Capacitors together – PowerPoint PPT presentation

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Title: Speeding Things Up


1
Speeding Things Up
  • Resistors and Capacitors together

2
Dr. Lus Guest Lecture
3
Activity
  • Work through todays activity

4
What Have We Learned About RC Circuits?
  • When you decrease the capacitance in an RC
    circuit (using capacitor C in place of capacitor
    A in the activity), what happens to the rise
    time?
  • Halving the capacitance resulted in what precise
    effect on the rise time?
  • When you increase the resistance in an RC circuit
    (using 4.7 MW in place of 2.2 MW), what happens
    to the rise time?
  • Slightly more than doubling the resistance
    resulted in what precise effect on the rise time?

5
What Have We Learned About Rise Time?
  • How did the rise time compare with the decay time
    for the first circuit?
  • Is this similar to what you observed in the
    keyboard activity?
  • What were your rise times for
  • Capacitor A and 2.2 MW Resistor?
  • Capacitor C and 2.2 MW Resistor?
  • Capacitor C and 4.7 MW Resistor?
  • Compare to
  • t RC (0.10 mF)(2.2 MW) 0.22 s
  • t RC (0.05 mF)(2.2 MW) 0.11 s
  • t RC (0.05 mF)(4.7 MW) 0.24 s

6
The Relationship between Rise Time and Time
Constant
  • Rise time Dt defined by
  • Dt t90 t10 t(V0.90V0) t(V0.10V0)
  • Time constant t defined by
  • V(t) V0 (1 et/t) (for charging circuit)
  • So,
  • 0.90 V0 V0 (1 et90/t)
  • ln (et90/t) ln (1 0.90) ln (0.10)
  • t90 t ln(0.10)
  • t10 t ln(0.90)
  • Dt t ln(0.90) t ln(0.10) t ln(0.90/0.10)
    t ln 9

7
Summary of RC Circuits
  • For discharging, VC(t) V0e-t/t
  • For charging, VC(t) V0 (1 - e-t/t)
  • q(t) C VC(t) in each case
  • time constant t RC Dt/(ln 9) Dt/2.20
  • At any time in charging circuit,
  • V0 VC(t) VR VC(t) iR
  • At any time in discharging circuit,
  • 0 VC(t) VR VC(t) iR

8
Why do we care about rise time?
  • Rise time limits speed of signal
    processing/transfer
  • Rise time limits speed of accessing electronic
    memory
  • Rise time means that shrinking does not always
    result in faster processes

9
Interconnects and capacitance
  • Interconnects are wires (now strips of
    conductor) between circuit elements
  • Interconnects run along edges of devices,
    separated by an insulator
  • Charge carriers in interconnect attract opposite
    charges in device below them
  • Voila! A capacitor

10
Important notes from Turton and Lu
  • Capacitors, resistors, and transistors are key
    components in modern electronic devices
  • Challenge to create 2-dimensional circuits (or at
    least have all connections in 2D), so some (Lu)
    are moving toward 3D devices
  • Shrinking devices saves but poses problems
    like RC rise time, heat, new production methods,
    finite depletion regions, electromigration
  • NO PHYSICAL LIMITS REACHED YET

11
More notes from Turton and Lu
  • Speed isnt going to be drastically increased by
    shrinking components, due to RC complications
  • We can, however, use materials with faster
    charge carriers
  • Resistance due to collisions caused by imperfect
    crystal structure
  • Materials with lower resistance may work better
  • If fewer conduction states allowed to electron,
    it will be less likely to change direction
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