lab 11: relaxation oscillators - physics & astronomy€¦ · relaxation oscillators: cycle of...
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Lab 11: Relaxation oscillators
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m
Empty bucket
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m
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m
Slow
descent
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m
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m
Rapid
return
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m
Cycle repeats
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Relaxation oscillators:
Cycle of adding and dissipating energy
Asymmetric, non-sinusoidal time behavior
Examples of systems with this behavior:
- Laser physics
- Heart muscle
- Vocal cords
- Predator-prey population cycles
B. van der Pol
(1889-1959)
Feedback Mechanism
• Energy Storage Device
(capacitor, material system, gain medium for lasers, …)
• Rapid Switching device that releases the stored energy
(diode, switch, discharge lamp, opamp, etc…)
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Storing and releasing energy with a capacitor
R
CVB
VCAP
Determine charging rate
Don't use impedance Z = 1/jwC
𝐶 =𝑄𝐶𝐴𝑃
𝑉𝐶𝐴𝑃
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Storing and releasing energy with a capacitor
R
CVB
VCAP
t
Vcap
VB
𝐶 =𝑄𝐶𝐴𝑃
𝑉𝐶𝐴𝑃
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Storing and releasing energy with a capacitor
Neon lamp
R
C
Charging
VB
t
Vcap
VB
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Storing and releasing energy with a capacitor
Neon lamp
t
Vcap
VB
R
C
Discharge
VB
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Laser Oscillators:
Optical gain inside a feedback cavity
mirror mirror
Optical pumping
• Excitation & Amplification
• Feedback
Oscillation
Gain
𝐼(𝜈)
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Laser Oscillators:
Optical gain inside a feedback cavity
mirror mirror
Optical pumping
Gain
Q-switch
Control amount of feedback
Allows for build up of stored energy in Gain medium
When switch is “opened”, the stored energy is released
𝐼(𝜈)Kilo-Giga Watts
Gain medium stores energy: analogous to Capacitor
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Relaxation oscillator:
Implementation with Op-Amp
Inverting
Input (V-)
Non-inverting
Input (V+)
Output
+15V
-15V
Op-Amp without feedback: Infinite gain
(Open loop gain of ideal Op-Amp)+
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Relaxation oscillator:
Implementation with Op-Amp
V+
V-
+15V
-15V
V- greater than V+
Output drives to negativeClamped at -15V of power supply
-15VPositive
voltage
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Relaxation oscillator:
Implementation with Op-Amp
V+
V-
+15V
-15V
V+ greater than V-
Output drives to positiveClamped at +15V of power supply
+15VNegative
voltage
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Relaxation oscillator:
Implementation with Op-Amp
Make V+ a reference voltage
Voltage divider: R1 = R2
V+ = ½ VOUT = +7.5V or -7.5V
VOUT
V+
V-
R1 R2
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Relaxation oscillator:
Implementation with Op-Amp
Add RC feedback to inverting input
V- can't follow VOUT instantly
Capacitor charges with t = R3C
V-
VOUT
t
+15V
R1 R2
VOUT
½ VOUT
C
R3
V+
V-
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R1 R2
Relaxation oscillator:
Implementation with Op-Amp
VOUT
½ VOUT
C
R3
V-
VOUT
t
+15V
½ VOUT
-15V
V+
V-
Add RC feedback to inverting input
V- can't follow VOUT instantly
Capacitor charges with t = R3C
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Relaxation oscillator:
Implementation with Op-Amp
V-
VOUT
t
+15V
½ VOUT
-15V
R1 R2
VOUT
½ VOUT
C
R3
V+
V-
Add RC feedback to inverting input
V- can't follow VOUT instantly
Capacitor charges with t = R3C
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Relaxation oscillator:
Implementation with Op-Amp
C
R3
If R1 = R2
t
+15V
-15V
Period: 2(ln3)R3C
R1 R2
VOUT
C
R3
V+
V-
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Slewing: Op-Amp cannot switch instantly
Limits the maximum oscillator frequency
Ideal
Slewing
visible
Slewing
severe
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555 Timer Chip
Make rectangular wave relaxation oscillator
Period adjustable with R and C
Set from microseconds to hours
Adjustable duty cycle: TON / Period
50% duty cycle
33% duty cycle
12.5% duty cycle
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VI Server ArchitectureMore tools…
How to….?– Control objects in the Front Panel
Objects: Plots, Charts, Controls, indicators, etc…
– Edit properties of a running VI
Objects have PROPERTIES and METHODS
PROPERTIES are attributes of an object • Color
• Size
• Position
METHODS are actions or operations of an object • Initializing a control
• Save data to a spread sheet
• Sending data via Ethernet
PROPERTIES are changed with PROPERTY NODES
METHODS are changed with INVOKE NODESMore advanced, data processing, communication.. (left for later)
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Storing and releasing energy with a capacitor:
Capacitive discharge ignition
RC
12 V
Coil
(Step-up
transformer)
20 kVElectronic
switch
Crankshaft
position
sensor