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What is that little black arachnid that was in your baggie? Monday July 14, 2014 IC 555 1 IC 555 • I can calculate the charging and discharging time for a capacitor. • I can calculate the period and frequency for a 555 Timer Oscillator. • I can describe how the 555 Timer Oscillator can be used to produce temperature information. Monday July 14, 2014 IC 555 2 What is the IC 555? The IC 555 is an 8-pin DIP chip (Dual-Inline package) Integrated Circuit (IC) that is capable of producing accurate time delays and/or oscillations. Monday July 14, 2014 IC 555 3 IC 555 – Why 555? Vcc (8) Discharge (7) 5 kΩ Comparator 1 Control Voltage (5) - Threshold Voltage (6) + 5 kΩ T1 Flip-Flop RESET Q SET Q Comparator 2 Output (3) + - Trigger Voltage (2) 5 kΩ Ground (1) Monday July 14, 2014 Reset (4) IC 555 4 4 IC 555 timer Time Delay Mode Oscillator Mode • In the time delay mode, the delay is controlled by one external resistor and capacitor. Example: Turn a light on in a delayed amount of time. (Just turn on or off once) • In the oscillator mode, the frequency of oscillation are controlled with two external resistors and one capacitor. Example: Can make a light flash a specific rate. (Can turn on and off repeatedly) This presentation will discuss how to use a 555 timer in the oscillator mode. Monday July 14, 2014 IC 555 5 IC 555 timer Oscillator mode = astable multivibrator mode Translation: in this mode the IC 555 will continue to put out pulses until you remove the battery. (your choice of resistors and capacitors determines the vibration frequency) The 555 timer is a two state device: HI and LO You can be a two state device too…… Monday July 14, 2014 IC 555 6 IC 555 timer Astable multivibrator mode schematic Notice: 2 resistors and 1 capacitor OUTPUT is square wave pulses LESSON 15 “How the 555 Timer Works” Monday July 14, 2014 IC 555 7 Thermistors Temperature dependent Resistors R = resistance T = temperature k = temperature coefficient What do you predict will happen to the resistance of the thermistor as it ascends into the atmosphere? Monday July 14, 2014 Two types of Thermistors k = positive (PTC) K = negative (NTC) IC 555 Our resistor is an NTC thermistor with a range of 10 kΩ – 80 kΩ 8 Experiment a bit Experiment by using the Thermistor in place of R2. You may use the spray coolant to cool the thermistor – but be careful it can get super cold! 1. How does reducing the temperature of the thermistor change the output of the IC 555 timer? 2. What evidence do you have to support this? Monday July 14, 2014 IC 555 9 NTC thermistor Monday July 14, 2014 IC 555 10 Output = High tHIGH : Calculations for the Oscillator’s HIGH Time THE OUTPUT IS HIGH WHILE THE CAPACITOR IS CHARGING THROUGH RA + RB. t HIGH 0.693R A RB C Monday July 14, 2014 IC 555 11 Output = Low tLOW : Calculations for the Oscillator’s LOW Time 5v THE OUTPUT IS LOW WHILE THE CAPACITOR IS DISCHARGING THROUGH RB. 3.333 v Vc 1.666 v 0v tLOW HIGH Output LOW t LOW 0.693RBC Monday July 14, 2014 IC 555 12 IC 555 timer Visit this link to view a simulation of the IC 555 in astable mode http://www.williamson-labs.com/pu-aa-555-timer_slow.htm How does the charge and discharge of the capacitor relate to the blinking LED? Monday July 14, 2014 IC 555 13 Period The Period is the total time of an on/off cycle and depends on the values of RA, RB, and C t HIGH 0.693 RA RB C t LOW 0.693 RB C T t HIGH t LOW T 0.693 RA RB C 0.693 RB C Calculate the period of the flashing light. T 0.693 RA 2 RB C Monday July 14, 2014 IC 555 14 Frequency The frequency of an oscillation (or anything that exhibits a repeating pattern) is inversely proportional to the period 1 F T Unit of Measure: cycles/second = Hertz (Hz) 1 FCalculate the frequency (or blinking rate) of the 0.693 flashing light.R A 2RB C Monday July 14, 2014 IC 555 15 Practice Calculate the period and frequency of the blinking LED. μ = 10-6 Monday July 14, 2014 IC 555 16 Solution Period Frequency T 0.693 R A 2RB C T 0.693 390 2 180 6.8 F 1 T 1 3.534 mSec F 282.941Hz T 3.534 mSec Monday July 14, 2014 F F IC 555 17 Practice Calculate the period and frequency of the blinking light assuming the resistance in the frequency is 10 kΩ. Assume Elsa from frozen just walked in and room temperature just dropped to 0 ̊C and the resistance on the thermistor is 30 kΩ. PREDICT – will the light blink faster or slower? Calculate the period and frequency of the blinking light now. Monday July 14, 2014 IC 555 18 CricketSat Schematic Monday July 14, 2014 IC 555 19 Key Points The 555 timer works with 2 resistors (one of which is temperature dependent) and 1 capacitor to establish an oscillation in the circuit. The 555 timer output has two modes: ON and OFF and it turns whatever device it is connected to ON and OFF at a rate that depends on the changing resistance of the thermistor (which depends on temperature)!!! Monday July 14, 2014 IC 555 20 Monday July 14, 2014 IC 555 21