IoT Sensor Circuits Trainer

IoT Sensor Circuits Trainer

Model: FT – ICT1698

The IoT Sensor Circuits Trainer is a comprehensive multi-module training system designed to study, analyze, and experiment with a wide range of electronic sensors used in IoT applications. It consists of eight modules covering photo, switch, temperature, humidity, infrared, gas, ultrasonic, and color sensor circuits, along with a built-in function generator and DC power supply. This platform enables learners to perform hands-on experiments, understand sensor characteristics, and develop practical skills necessary for IoT-based system design and implementation.

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Description

IoT Sensor Circuits Trainer

Technical Specification :

Module One:
Chapter 1 — Photo Sensor Circuits
• Experiment 1: CdS Sensor Circuit
• Operating Wave length: 500 nm – 580 nm
• Experiment 2: Photo Diode Circuit
• Operating Wave length: 76 nm – 1000 nm
• Experiment 3: Phototransistor Circuit
• Operating Wave length: 430 nm – 670 nm
• Experiment 4: Photo Interrupter Circuit
• Operating Wave length: 940 nm

Module Two:
Chapter 2 — Switch Sensor Circuits**
• Experiment 1: Tilt Switch Circuit
• Conduction Angle: 55-125 deg.
• SW Normal State: ON
• Operating State: LED Indicator
• Experiment 2: Micro Switch Circuit
• SW Normal State: OFF
• Operating State: LED Indicator
• Experiment 3: Touch Switch Circuit
• SW Normal State: OFF
• Operating State: LED Indicator
Experiment 4: Reed Switch Circuit
• SW Normal State: OFF
• Operating State: LED Indicator
• Experiment 5: Vibration Switch Circuit
• SW Normal State: ON
• Operating State: LED Indicator

Module Three:
Chapter 3 — Temperature Sensor Circuits
• Experiment 1: MCP9701 Temperature Sensor Circuit
• Measurement Range: -40°C to +125°C
• Accuracy (max.): ±4°C @ (0°C to +70°C)
• Experiment 2: LM335 Temperature Sensor Circuit
• Measurement Range: -40°C to +100°C
• Accuracy (max.): ±2°C @ 25°C
• Experiment 3: TC620 Temperature Sensor Circuit
• Experiment 4: TC74 Temperature Sensor Circuit
• Measurement Range: -40°C to +125°C
• Accuracy (max.): ±3°C @ (0°C to +125°C)

Module Four:
Chapter 4 — Humidity Sensor Circuits**
• Experiment 1: H25K5A Humidity Sensor Circuit
• Measurement Range: 20% – 90% RH
• Accuracy (max.): ±5% RH @ 25°C
• Experiment 2: Sl7007 Humidity Sensor Circuit
• Measurement Range: 0 – 100% RH
• Accuracy (max.): ±5% RH @ (0 – 80% RH)
• Experiment 3: RH818 Humidity Sensor Circuit
• Measurement Range: 0 – 100% RH
• Accuracy (max.): ±1% RH @ (10% – 90% RH)
• Experiment 4: DHT11 Humidity Sensor Circuit
• Measurement Range: 20% – 90% RH
• Accuracy (max.): ±5% RH @ 25°C

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

Module Six:
Chapter 6 — Gas Sensor Circuits**
• Experiment 1: Smoke Sensor Circuit
• Sensing Body Resistance: 1 k – 10 k (1000 ppm Isobutane)
• Operating Humidity: <95% RH
• Operating Oxygen Concentration (min.): >2%
• Experiment 2: Nature Gas Sensor Circuit
• Sensing Body Resistance: 2 k – 20 k (5000 ppm Methane)
• Operating Humidity: <95% RH
• Operating Oxygen Concentration (min.): >2%
• Experiment 3: Alcohol Sensor Circuit
• Sensing Body Resistance: 100 k – 500 k (100 ppm Alcohol)
• Operating Humidity: <95% RH
• Operating Oxygen Concentration (min.): >2%
• Experiment 4: Carbon Monoxide Sensor Circuit
• Sensing Body Resistance: 2 k – 20 k (100 ppm Carbon Monoxide)

Module Seven:
Chapter 7 — Ultrasonic Sensor Circuits**
• Experiment 1: Sound Generator
• Frequency: 850 ± 100 Hz and 1700 ± 150 Hz
• Experiment 2: Ultrasonic Transmitter
• Operating Frequency: 40 kHz
• Operating Temperature: -20°C ~ +70°C
• Operating Humidity: <90% RH @ 40°C
• Experiment 3: Ultrasonic Receiver
• Operating Frequency: 40 kHz
• Operating Temperature: -20°C ~ +70°C
• Operating Humidity: <90% RH @ 40°C

Module Eight:
Chapter 8 — Color Sensor Circuits**
• Experiment 1: Red Sensor Circuit
• Operating Wave length: 590 nm ~ 720 nm (p: 660 nm)
• Experiment 2: Green Sensor Circuit
• Operating Wave length: 480 nm ~ 660 nm (p: 540 nm)
• Experiment 3: Blue Sensor Circuit
• Operating Wave length: 400 nm ~ 540 nm (p: 460 nm)

Function Generator and DC Power Supply
• Waveforms: Sine, Triangle, Square, TTL Pulse
• Amplitude: >10 Vpp
• Impedance: 50 ±10%
• Duty Control: 30% ~ 60%
• Display: 6-Digit LED Display

Accessories:

Single-phase power cord
4mm Banana Socket-1Set
User Manual

Others:

Brand: FaboTronix
Country of Origin: China, taiwan, japan.
Manufacturing: Assemble in Bangladesh
Training

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