8. School Intrusion Alarm System
Here we are going to make a school intrusion alarm system. When someone secretly climbs over the wall and enters the school, the PIR motion sensor will immediately detect it and make the buzzer sound an alarm, just like a little electronic security guard!
8.1 PIR Motion Sensor
PIR motion sensor is an electronic device used to detect infrared signals emitted by the human body or animals, thereby sensing their movement or presence.
Parameters
Operating voltage: DC 3.3 ~ 5V
Operating current: 50 mA
Maximum power: 0.3W
Static current: <50 μ A
Operating temperature: -10°C ~ +50°C
Control signal: Digital signal
Trigger mode: L Non-repeatable trigger /H Repeatable trigger
Maximum detection distance: 7 meters
Sensing angle: <100 degrees cone Angle
Dimensions: 32 x 23 x 8mm
Positioning hole: Diameter of 4.8mm
Interface: 3-pin curved pin interface spacing 2.54mm
Principle
1. Pyroelectric effect
The core of a PIR sensor is a pyroelectric material (such as lithium tantalate). When it receives infrared radiation (with a wavelength of approximately 8-14μm) emitted by the human body or animals, it will generate a weak charge change. After amplification by the internal circuit, an electrical signal is output.
2. Fresnel lens enhanced detection
A Fresnel lens is usually installed in front of the sensor, which can focus infrared signals over a large area onto the sensor and simultaneously divide them into multiple detection zones. When the target moves, the sensor triggers a signal due to temperature changes.
3. Signal processing
The comparator inside the sensor will filter out ambient noise (such as sunlight and heating interference), and only output high and low level signals for infrared changes that conform to human characteristics.
The PIR sensor outputs a transient high level (is triggered when someone moves, and lasts for a few seconds before returning to a low level).
When someone is detected moving, a high level is output and the LED on the module goes out
Otherwise, it outputs a low level and the LED on the module lights up
Test Code
Code Explanation
Initialize the serial monitor.
Define a variable
valto store the sensor status and temporarily save the digital signal value (0 or 1) read from the PIR sensor.
Read the output signal of the PIR sensor:
0: someone is moving nearby1: no one is moving nearby
Determine whether someone is moving based on the signal:
If someone is detected moving, output
Some body is in this area!.If no one is detected moving, output
No one!.
Display the results in real time on the serial port monitor. Refresh them every 0.1 seconds.
Test Result
After uploading the code, it detects in real time whether someone is moving.
Wave our hands to imitate someone passing by. Since the PIR sensor is sensitive to temperature changes, as long as a hand moves within the detection area (even slowly), it can be detected.
If you stay still, it outputs
0and prompt words.If you move your hand in front of the sensor, it outputs
1and prompt words.
==动图==
8.2 Passive Buzzer
A passive buzzer is an electronic component that requires an external PWM signal to drive it to produce sound, and its tone is determined by the frequency of the input square wave.
Parameters
Operating voltage: DC 3.3 ~ 5V
Operating temperature: -10°C ~ +50°C
Control signal: Digital signal
Dimensions: 32 x 23 x 12 mm (without housing)
Positioning hole: Diameter of 4.8mm
Interface: 3-pin curved pin interface spacing 2.54mm
Principle
Working principle of passive buzzer:
Core features
No internal oscillation source : Only when a square wave (PWM signal) of a specific frequency is input can it produce sound. The frequency determines the tone (for example, 2kHz emits high-frequency beeping).
Drive logic
Directly connecting to direct current (such as 5V) will only produce a “click” sound (the mechanical response of instant power-on).
Continuous sounding requires PWM : For example, if a 1kHz square wave is input, the buzzer vibrates at a frequency of 1kHz to generate the corresponding tone.
Seven tones:
Music is an invisible art. It is a language that narrates emotions and thoughts. The foundation of music, as we all know, is note. We can compose a variety of melodies and rhythms with different notes. Of all the notes, the most basic are seven: C, D, E, F, G, A, B.
Like the alphabet of music, we can create countless wonderful pieces of music by their variation.
Test Code
Play a simple melody (Do-Re-Mi).
Code Explanation
Connect the buzzer to GPIO19 (PWM must be supported).
Loop: Play the melody “Do(262Hz)-Re(294Hz)-Mi(330Hz)” in sequence, with each note lasting for 0.5 seconds
Test Result
After uploading the code, the buzzer plays in sequence: Do-Re-Mi-Fa-Sol-La-Si
8.3 Intrusion Alarm System
In the previous study, we have mastered the movement detection principle of the PIR motion sensor and the sounding function of the passive buzzer. Next, we will combine them and make a real small security system by ourselves!
The PIR sensor will be used to detect whether anyone has climbed over the school fence. Once an intruder is detected, the passive buzzer will immediately sound an alarm, which not only enables you to learn electronic knowledge, but also enhances your safety awareness. Come and join us in safeguarding school!
Code Flow
graph TD
A[START] --> B[Initialization]
B --> C{PIR detects a person?}
C -- YES --> D[Alarm]
D --> E[The buzzer sounds 10 times]
E --> F[The alarm lasts for 5 seconds]
F --> C
C -- NO --> C
Test Code
Code Explanation
Continuously detect the PIR sensor signals.
If someone is approaching, call
triggerAlarm()to play an alarm sound.Each time only triggers the alarm for 5 seconds to avoid prolonged noise interference. The alarm will automatically stop after lasting for 5 seconds and then re-enter the monitoring state.
Test Result
After uploading the code, continuously check the PIR sensor signal:
HIGH level → Intrusion → Trigger the alarm
LOW level → No one → Continue detection
==动图==
