IoT Sensor Circuit Trainer

Brand: PValley

Model: IoT-574C9

Country of Origin: China

Assemble/Manufacturer: Bangladesh

 

 

General Specification:

Body Material:

Printed Front Side Sheet

Sheet Type: Digital

Country of origin: China

Feature:

• Sheet number 26
• Storage Printed temperature 300°c
• Color White/Silver

Hard Plastic Sheet

Sheet Type: Digital

Country of origin: Pakistan

Feature:

• Sheet thickness 10mm
• Two-Part Combination (Transparent/white)
• UV Printout

Power supply

Brand: Biologic Tech

Country of origin: Taiwan

Features:

• 24V/5A SMPS Power Supply

Panel Box

Brand: Madhav Enterprise

Country of origin: Indian

Features:

• Shape: Rectangular
• Surface Finish: Smooth
• High quality raw materia

Power Monitorin

Brand: UNI-T

Country of origin: China

Feature:

• Self-operating voltage 12V
• Self-ConsumptG  ion Current 20mA
• Power Nature

Use Connector

Brand: ZHT

Country of origin: China

Feature:

• Banana Female Connector Diameter 2mm
• Banana Male Connector Diameter 2mm

Working area:

 Each Working area: 17 * 13 inch

 

Curriculum Objectives:

To understand the basic theory of internet of things (IoT) system. Design and implementation of sensor circuit. Ability to research and to develop the sensor circuit. Familiar with the applications of high accuracy sensor circuit.

 

Curriculum Outline:

Design and implementation of photo and switch sensor circuits. Design and implementation of temperature and humidity sensor circuits. Design and implementation of infrared and gas sensor circuits. Design and implementation of ultrasonic and color sensor circuits.

 

Technical Specification:

Module One:

• Chapter-1: Photo Sensor Circuits
• Experiment 1: Cd S Sensor Circuit:
•  Operating Wave length: 500 nm – 580 nm
• o Experiment 2: Photo Diode circuit:
•  Operating Wave length: 760nm – 1000 nm
• o Experiment 3: Phototransistor Circuit:
•  Operating Wave length: 430nm – 670 nm
• o Experiment 4: Photo Interrupter Circuit:
•  Operating Wave length: 940 nm

Module Two:

•  Chapter-2: Switch Sensor circuit
• o Experiment 1: Tilt Switch Circuit:
•  Conduction Angel: 55-125 deg.
•  SW Normal State: ON
•  Operating State: LED Indicator
• o Experiment 2: Micro Switch Circuit:
•  SW Normal State: OFF
•  Operating State: LED Indicator
• o Experiment 3: Touch Switch Circuit:
•  SW Normal State: OFF
•  Operating State: LED Indicator
• o Experiment 4: Reed Switch Circuit:
•  SW Normal State: OFF
•  Operating State: LED Indicator
• o Experiment 5: Vibration Switch Circuit:
•  SW Normal State: ON
•  Operating State: LED Indicator

Module Three:

•  Chapter 3: Temperature Sensor circuit
• o Experiment 1: MCP9701 Temperature Sensor Circuit
•  Measurement Range: – 40 Degree C to +125 Degree C
•  Accuracy (max.): ± 4 Degree C @ (0 Degree C to + 70 Degree C)
• o Experiment 2: LM335 Temperature Sensor Circuit:
•  Measurement Range: – 40 Degree C to +100 Degree C
•  Accuracy (max.): ± 2 Degree C @ (25 Degree C)
• o Experiment 3: TC620 Temperature Sensor Circuit:
•  Measurement Range: 0 Degree C to +70 Degree C
•  Accuracy (max.): ±2 Degree C
• o Experiment-4: TC74 Temperature Sensor Circuit:
•  Measurement Range: -40 Degree C to +125 Degree C
•  Accuracy (max.): ± 3 Degree C @ (0 Degree C to+ 125 Degree C

Module Four:

•  Chapter-4: Humidity Sensor Circuits
• o Experiment 1: H25K5A Humidity Sensor Circuit:
•  Measurement Range: 20% – 90% RH
•  Accuracy (max.): ± 5% RH@ 25 Degree C
• o Experiment 2: SI7007 Humidity Sensor Circuit:
•  Measurement Range: 0 – 100% RH
•  Accuracy (max.): ± 5% RH @ (0 – 80% RH)
• o Experiment 3: RH818 Humidity Sensor Circuit:
•  Measurement Range: 0 – 100% RH
•  Accuracy (max.): ±1% RH@ (10% – 90% RH)
• o Experiment 4: DHT11 Humidity Sensor Circuit:
•  Measurement Range: 20% – 90% RH
•  Accuracy (max.): ± 5% RH@ 25 Degree C

Module Five:

•  Chapter-5: Infrared Sensor Circuits
• o Experiment 1: RE200B Passive Infrared Sensor Circuit:
•  Frequency Response: 0.3 Hz – 3 Hz/±10 Db
•  Field of View: 21 Degree – 159 Degree (X axis), 27.5 Degree – 152.5 Degree (Y axis)
• o Experiment 2: OTP-628 Thermopile Infrared Sensor Circuit:
•  Thermopile Voltage: 2.6 ± 0.8 mV
•  Field of View: 45 Degree – 135 Degree (X axis), 45 Degree – 135 Degree (Y axis)
• o Experiment 3: TS-S2NMB Thermopile Infrared Sensor Circuit:
•  Thermopile Voltage: 2.43 ± 0.6 mV
•  Field of View: 45 Degree – 135 Degree (X axis), 45 Degree – 135 Degree  (Y axis)

Module Six:

•  Chapter-6: Gas Sensor Circuits
• o Experiment 1: Smoke Sensor Circuit
•  Sensing Body Resistance: 1 kΩ – 10 kΩ (1000 ppm lsobutane)
•  Operating Humidity:
•  Operating Oxygen Concentration (min.): >2%
• o Experiment 2: Nature Gas Sensor Circuit:
•  Sensing Body Resistance: 2 kΩ – 20 kΩ (5000 ppm Methane)
•  Operating Humidity: 95% RH
•  Operating Oxygen Concentration (min.): > 2%
• o Experiment 3: Alcohol Sensor Circuit:
•  Sensing Body Resistance: 100.kΩ – 500 kΩ (100 ppm Alcohol)
•  Operating Humidity: 95% RH
•  Operating Oxygen Concentration (min.): > 2%
• o Experiment 4: Carbon Monoxide Sensor Circuit:
•  Sensing Body Resistance: 2 kΩ – 20 kΩ (100 ppm Carbon Monoxide)
•  Operating Humidity:
•  Operating Oxygen Concentration (min.): > 2%

Module Seven:

•  Chapter 7: Ultrasonic Sensor Circuits:
• o Experiment 1: Sound Generator:
•  Frequency: 850±100 Hz And 1700±150 Hz
• o Experiment 2: Ultrasonic Transmitter:
•  Operating Frequency: 40 kHz
•  Operating Temperature: -20 Degree C – +70 Degree C
•  Operating Humidity: 95% RH@40 Degree C
• o Experiment 3: Ultrasonic Receiver:
•  Operating Frequency: 40 KHz
•  Operating Temperature: -20 Degree C ~ +70 Degree C
•  Operating Humidity: 95% RH@ 40 Degree C

Module Eight:

•  Chapter -8:  Color Sensor Circuits
• o Experiment 1: Red Sensor Circuit
•  Operating Wave length: 590 nm ~ 720 nm (ƛp: 660 nm)
• o Experiment 2: Green Sensor Circuit:
•  Operating Wave length: 480 nm ~ 660 nm (ƛp: 540 nm)
• o Experiment 3: Blue Sensor Circuit:
•  Operating Wave length: 400 nm ~ 540 nm (ƛp: 460 nm)
• Function Generator and DC Power Supply:
•  Waveforms: Sine, Triangle Square, TTL Pulse
•  Amplitude: >10Vpp Impedance: 50ohm±10 percent
•  Duty Control: 30 percent ~ 60 percent
•  Display: 6 Digit LED display
•  Frequency Range: 10HZ to 100 kHz (4 Ranges)
•  Frequency Range: 100HZ to 1 MHz (4 Ranges)
•  Constant Voltage Output: ±5V, ±12V
•  Variable Voltage Output: 0V ~ ±15V
•  Power source: 220 to 230V AC, 50HZ, 1 Phase

List of Experiments:

1. Photo Diode circuit

2. Phototransistor Circuit

3. Photo Interrupter Circuit

4. Tilt Switch Circuit

5. Micro Switch Circuit

6. Touch Switch Circuit

7. Reed Switch Circuit

8. Vibration Switch Circuit

9. MCP9701 Temperature Sensor Circuit

10. LM335 Temperature Sensor Circuit

11. TC620 Temperature Sensor Circuit

12. TC74 Temperature Sensor Circuit

13. H25K5A Humidity Sensor Circuit

14. Sl7007 Humidity Sensor Circuit

15. RH818 Humidity Sensor Circuit

16. DHT11 Humidity Sensor Circuit

17. RE200B Passive Infrared Sensor Circuit

18. OTP-628 Thermopile Infrared Sensor Circuit

19. TS-S2NMB Thermopile Infrared Sensor Circuit

20. Smoke Sensor Circuit

21. Nature Gas Sensor Circuit

22. Alcohol Sensor Circuit

23. Carbon Monoxide Sensor Circuit

24. Sound Generator

25. Ultrasonic Transmitter

26. Ultrasonic Receiver

27. Red Sensor Circuit

28. Green Sensor Circuit

29. Blue Sensor Circuit

 

Accessories:

• Power Cord: 01 Set
• Connecting Wire & Cable
• Complete 5 days Training Included
• User Manual or User Guide

Protection:

Under voltage, Supply over voltage, Drive overload, Short Circuit etc.

Warranty: 1 (One) year with services