section 24.4 the 555 timer. 2 rectangular waves - reminder: duty cycle – ratio of pulse width to...
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![Page 1: Section 24.4 The 555 Timer. 2 Rectangular Waves - Reminder: Duty Cycle – ratio of pulse width to cycle time where PW = the pulse width of the circuit](https://reader035.vdocuments.net/reader035/viewer/2022062421/56649d455503460f94a22150/html5/thumbnails/1.jpg)
Section 24.4The 555 Timer
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2
• Rectangular Waves- Reminder: Duty Cycle – ratio of pulse width to cycle time
where PW = the pulse width of the circuit input T = the cycle time of the circuit input
100(%)cycleduty XT
PW
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Rectangular Wave• If you repeatedly switch between the battery and
the short you are effectively applying a rectangular time pulse to the RC circuit.
a) If SW = .5 PW, what is the duty cycle?
b) If SW = PW, what is the duty cycle?
![Page 4: Section 24.4 The 555 Timer. 2 Rectangular Waves - Reminder: Duty Cycle – ratio of pulse width to cycle time where PW = the pulse width of the circuit](https://reader035.vdocuments.net/reader035/viewer/2022062421/56649d455503460f94a22150/html5/thumbnails/4.jpg)
Rectangular Wave Response• The voltage across the capacitor will behave as
below in response to such a wave:
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In-Class Activity
•For the circuit above, what value of C will allow the capacitor to “fully” charge and “fully” discharge if the square wave has a period of 2ms?
•What is the time constant for this circuit?
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In-Class Activity
• Determine the charging time constant and the discharging time constant in the circuit below:
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555 Integrated Circuit Timer
![Page 8: Section 24.4 The 555 Timer. 2 Rectangular Waves - Reminder: Duty Cycle – ratio of pulse width to cycle time where PW = the pulse width of the circuit](https://reader035.vdocuments.net/reader035/viewer/2022062421/56649d455503460f94a22150/html5/thumbnails/8.jpg)
Inside the 555 is a voltage divider
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The 555 Compares the voltage at pin 6 to 2/3 Vcc
The 555 Compares the voltage at pin 2 to 1/3 Vcc
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Typical Wiring for a 555(astable mode)
Notice that the boxed area is just an RC circuit
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Current Flow During Capacitor Charging
The capacitor charges via RA and RB until vc = 2/3 Vcc
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Capacitor Voltage and Output Voltage
Red arrows indicate voltages during charging phases
Vcc
0
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Current Flow During Capacitor Discharging
The capacitor discharges through just RB until vc = 1/3 Vcc
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Capacitor Voltage and Output Voltage
Blue arrows indicate voltages during discharging phases
Vcc
0V
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Timing
CRRtc BAeVcctv )/(1)(
During the charging phase, the capacitor voltage can be written as:
CRtc BeVcctv /)(
During the discharging phase, the capacitor voltage can be written as:
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In-Class Activity
• How long does it take to:a) charge up from 1/3 Vcc to 2/3 Vcc?
• Hint: Calculate time to reach each voltage first then subtract
• b) discharge from 2/3 Vcc to 1/3 Vcc
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555 Timing• Pulse width – capacitor charging time:
PW = (RA + RB)C ln(2) sec
• Space width – capacitor discharging time:
SW = RB C ln(2) sec
• Period = Pulse width + Space width
T = PW + SW = (RA + 2RB)C ln(2) sec
• Frequency – 1/Period
f = 1/(RA + 2RB)C ln(2) = 1.443/(RA + 2RB)C Hz
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555 Duty Cycle
• Duty Cycle = 100 PW/T %or
%2
100
%)2ln(2
)2ln(100
BA
BA
BA
BA
RR
RR
CRR
CRRDutyCycle
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In-Class Activity
• In Multisim, build this 555 circuit, use RA = RB = 1kΩ and C = 1µF.
• 555 can be found in Place-Mixed-Timer-LM555CM
• What are the following: T, PW, SW, duty cycle, f?
• Show them in hand calculations and record what you see on Multisim oscilloscope