Sensors

Sensors
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DC Voltage detection Sensor (DC Volt sensor)
Description

This module is based on a resistive divider principle design, make the interface terminal input voltage reduced 5 times, A rduino analog input voltage up to 5V, then the input voltage of the voltage detection module can not be greater than 5V × 5 = 25V (if used 3.3V system, the input voltage can not exceed 3.3Vx5 = 16.5V). Because A rduino AVR chips used in 10 AD, so the resolution of the analog module is 0.00489V (5V / 1023), so the voltage detection module detects a minimum input voltage of 0.00489V × 5 = 0.02445V.

Parameters:
  • Voltage input range: DC0-25V
  • Voltage detection range: DC0.02445V-25V
  • Voltage analog resolution: 0.00489V

Wiring the DC input connector:
   
  • the positive terminal connected to VCC,
  • the negative  connected to GND
  • Output interface:
  • " " is 5 / 3.3V,
  • "-" then GND,
  • "s" Arduino connected to the AD pin

Raspberry Pi: https://kookye.com/2017/06/01/design-a-voltmeter-with-the-raspberry-pi-board-and-voltage-sensor/
 
What's in the box?

1 x  Voltage detection Module
R24.90  Inc VAT
GY-31 TCS230 colour recognition sensor module (colour recognition sensor)
Description:

The TCS230 color detector measures three primary colors Red, Green and Blue and also has a separate white light detector. Since any color can be created from different levels of these primary colors, you can find out the color composition of a light source.

The four LEDs on the breakout board are there to illuminate the subject with an even light source, making measurement more reliable.

You can use the TCS230 where you need to take action based on the color of an object. The device does react to infrared so may need an infrared filter or use the device in an enclosed space.

Features:

Chip: TCS230
Input voltage: DC 3V-5V
Output frequency voltage: 0 ~ 5V
Use bright white LED lights
Can be connected directly with Microcontroller
Static detection of the measured object color
Best detection distance: 10mm

Package Includes:

1 x colour recognition sensor
R179.90  Inc VAT
Industrial 8-Channel Relay Module for Raspberry Pi Pico, Multi Protection (Pico 8-ch relay module)
PLEASE NOTE: Raspberry Pi Pico is NOT included.

Industrial 8-Channel Relay Module For Raspberry Pi Pico, Power Supply Isolation, Photocoupler Isolation

Description:

Embedded Protections: Power Supply Isolation & Photocoupler Isolation


Features:
  • Onboard unibody power supply isolation, provides stable isolated voltage, needs no extra power supply for the isolated terminal
  • Onboard photocoupler isolation, prevent interference from external high-voltage circuit connected to the relay
  • High quality relay, contact rating: 10A 250V AC or ≤10A 30V DC
  • ABS protection enclosure with rail-mount support, easy to install, safe to use
  • Breakout USB port and BOOT pin, make it easy to debug without disassembling the enclosure
  • PWR indicator, RGB LED, and passive buzzer outside the enclosure
  • Comes with development resources and manual (Raspberry Pi Pico C/C and MicroPython examples)


Specifications:

OPERATING VOLTAGE  -  5VRELAY CHANNEL  -  8 ch
COMMUNICATION PROTOCOL  -  USBCONTACT FORM  -  1NO 1NC
COMMUNICATION INTERFACE  -  Micro USB



What's in the box?
  1. ABS protection enclosure (top and bottom) x1
  2. Pico-Relay-B x1
  3. Screwdriver x1
  4. Screws pack x1





  1. Raspberry Pi Pico header
  2. Relay screw terminal
    for connecting external devices
  3. Power supply screw terminal
    the multi relays are connected in parallel
  4. Pogo pins
  5. USB communication port
    connected via pogo pins
  6. BOOT key
    connected via pogo pins
  7. Reset key
    Pico reset
  8. Passive buzzer
    controllable sound frequency
  1. Power indicator
  2. WS2812
    RGB LED, cool!
  3. 8-channel quality relays
    contact rating per channel: ≤10A 250V AC or ≤10A 30V DC
  4. Relay operating indicator
  5. Photocoupler isolation
    prevent interference from external high-voltage circuit connected to the relay
  6. Power supply isolation
    provides stable isolated voltage, needs no extra power supply for the isolated terminal
  7. Thickened tracks
    allows large current devices
Pinout definition

Outline dimensions
R334.90  Inc VAT
HHCC Soil Water Fertility Smart Tester Sensor (HHCC flora monitor)
This is China version, you can use it all over the world,Can switch multiple languages
The YouPin Flower Monitor could not be compatible with some Lenovo smart phone;

Product Features:

Easy and convenient to use and operate
Provide a healthy growing environment for all plants
Easily check on the condition of your plants
Can recognize different kinds of plants via smart phone
Open Bluetooth and connect smart home APP to manage your plants

Product Description:

Download the "flower care" app from the app store and connect the device. Plug & Play basically.
Brand : YouPin
Item : YouPin Flora Monitor
Wireless connections: Bluetooth 4.1 BLE
Operating voltage: 3V
Battery: CR2032 button battery (included)

Function:

Waterproof design around battery compartment;
IP5 Waterproof grade: anti spray type waterproof, any direction directly by the water jet, no harmful effects;
Nutrient testing, soil moisture detection, temperature detection, light detection;
Precise detection of light and temperature water and fertilizer;
Cloud Plant Database;
Phone Bluetooth connection.

What's in the box?

1 x HHCC flora sensor

Brian shows how he connected it to RPi4
https://brianp.de/posts/2020/plant-monitoring-xiaomi-miflora-rasperrypi-grafana/
R419.90  Inc VAT
LM35DZ Precision Centigrade Temperature Sensor (LM35DZ temp sensor)
Description:

The LM35-series devices are precision integrated-circuit temperature sensors, with an output voltage linearly proportional to the Centigrade temperature. The LM35 device has an advantage over linear temperature sensors calibrated in Kelvin, as the user is not required to subtract a large constant voltage from the output to obtain convenient Centigrade scaling. The LM35 device does not require any external calibration or trimming to provide typical accuracies of ± ¼ °C at room temperature and ± ¾ °C over a full −55°C to 150°C temperature range. Lower cost is assured by trimming and calibration at the wafer level. The low output impedance, linear output, and precise inherent calibration of the LM35 device makes interfacing to readout or control circuitry especially easy. The device is used with single power supplies, or with plus and minus supplies. As the LM35 device draws only 60 μA from the supply, it has very low self-heating of less than 0.1°C in still air. The LM35 device is rated to operate over a −55°C to 150°C temperature range

Features

1• Calibrated Directly in Celsius (Centigrade)
• Linear 10-mV/°C Scale Factor
• 0.5°C Ensured Accuracy (at 25°C)
• Rated for Full −55°C to 150°C Range
• Suitable for Remote Applications
• Low-Cost Due to Wafer-Level Trimming
• Operates From 4 V to 30 V
• Less Than 60-μA Current Drain
• Low Self-Heating, 0.08°C in Still Air
Non-Linearity Only ±¼°C Typical
• Low-Impedance Output, 0.1 Ω for 1-mA Load

Applications

• Power Supplies
• Battery Management
• HVAC
Appliances

What's in the box:

1 x LM35DZ temperature sensor
R15.90  Inc VAT
3V-5.5V HC-SR04P Ultrasonic Ranging Module (sensor ultrasonic 3V)
Description:

Ultrasonic Range finder has been very useful in many electronic project. It is low cost and teaches us the propagation of sound wave, learning about science while completing your project:) While it is popular, HC-SR04 ultrasonic sensor is 5V operated, so it is difficult to be used with 3.3V system like NodeMCU, Wemos, Raspberry pi, micro:bit or 3.3V Arduino board. No more waiting, we bring you the 3.0V to 5.5V Ultrasonic Ranging Module.

Using your echo-location abilities to detect tasty fish treats. Until genetic modifications catches up with our desires, we'll just have to make do with these handy 3V Ultrasonic Sonar Distance Sensor and a pair of flippers. These ubiquitous sensors are really common in robotics projects, but they can also be used for automation, interactive art and motion sensing. They work at about 2cm to 450cm(5V) or 400cm(3V) away, but we think 10cm-250cm will get you the best results.



These sensors are fast, fairly easy to use, and low cost. Unlike the more common HC-SR04 series, this model can be powered by 3V or 5V and the logic level will be the same. This makes this model great for use with just about any microcontroller or microcomputer. And, its HC-SR04 software compatible so just plug it in and it works the same! (Note the size is different from the HC-SR04 so you may need to make mounting adjustments)

Of course you can also use with 5V system such as Arduino UNO, Arduino Mini and Maker UNO.

Features:

  • Voltage: 3V - 5.5VDC
  • Current: 2.2mA
  • Measuring Range: 2cm - 450cm
  • Working Temperature: 0ºC to 70ºC
  • Compatible with HC-SR04 Ultrasonic Sonar Distance Sensor
  • Properly labelled pin assignment
  • Arduino and Raspberry Pi compatible

What's in the box?

1 x 3V - 5.5V Ultrasonic Ranging Module

Resources:


Perfect for use with your 3.3V system like NodeMCU, Wemos, Raspberry pi and micro:bit
R37.90  Inc VAT
HAT - Grove Base for Raspberry Pi (RPi grove base HAT)
Description:

Today, the grove series of sensors, actuators, and displays have grown into a large family. More and more grove modules will join the whole Grove ecosystem in the future. We see the Grove helps hundreds of thousands of makers, engineers, teachers, students, and even artists to learn, to make, to create... Now we bring you the Grove Base Hat for Raspberry Pi to make the Grove module compatible with more platforms. In another word, we bring the Raspberry Pi the whole Grove System.




The Grove Base Hat for Raspberry Pi provides a Digital/Analog/I2C/PWM/UART port to meet all your needs. With the help of the build-in MCU, a 12-bit  8 channel ADC is also available for Raspberry Pi. Currently, more than 60 groves have supported the Grove Base Hat for Raspberry Pi.

Compared with Grove Pi , the Grove Base Hat for Raspberry Pi does not use the ATMEGA chip for data conversion, so it runs faster. We provide the Raspberry Pi driver for Grove Base Hat for Raspberry Pi. What's more, Grove Base Hat for Raspberry Pi is much more cost-effective. In other words, we lowered the threshold for using the grove series on the Raspberry Pi. We hope you like it, enjoy :D

Pinout:


  • GPIO:
    The same pinout as the raspberry pi.
     
  • PWM(pulse-width modulation):
    The Grove PWM Port connects to GPIO/BCM pin12(PWM0) and GPIO/BCM pin13(PWM1), which is the hardware PWM pin of Raspberry Pi, in addition, you can use all the GPIO pins as the soft PWM pin.
     
  • UART: 
    The Grove UART port connects to the GPIO14(UART0 TX) and GPIO15(UART0 RX). UART is commonly used on the Pi as a convenient way to control it over the GPIO or access the kernel boot messages from the serial console (enabled by default).It can also be used as a way to interface an Arduino, bootload ATmega, ESP8266, etc with your Pi.
     
  • Digital: 
    There are 6 digital Grove sockets in this board, normally the yellow wire(which connect to the top pin of the 4 pins Grove socket as) of Grove cable is the signal wire, so we name the digital Grove port D5/D16/D18/D22/D24/D26.
     
  • Analog: 
    As we know, there is no ADC in the Raspberry Pi, so it can not work with analog sensors directly. Now with the help of the build-in MCU STM32, the Grove base HAT can work as an external 12-bit ADC, which means you can use the analog sensor with your Raspberry Pi. Even more pleasing is that not one but four analog Grove sockets are available.
    The analog sensor inputs the analog voltage into the 12-bit ADC. After the ADC converts the analog data to digital data, it input the digital data to the Raspberry Pi through the I2C interface.
     
  • I2C: 
    There are three I2C ports available in this board, they all connect to the I2C pin of the raspberry directly. You can consider this part as an I2C hub. Most of Seeed's new grove modules have an I2C interface, you may find those I2C three ports are extremely useful.
     
  • SWD: We use the SWD port to burn the firmware to this hat. In addition, you can see 3 GPIO pins in this section, i.e., pin 9/pin 10/pin 11. Those three pins do not use by any Grove port, you are free to use them without worrying about pin conflicts.

Note:

  1. All the silkscreen layer pin number beside the Grove port is the BCM pin number. The difference between BCM pins and the physical pins please refer to here.
  2. Compared with hardware PWM, the software PWM isn't so accurate and will have trouble at high frequencies.
  3. The GPIO/BCM pin18 is also marked as PWM0. The GPIO/BCM 12 and the GPIO/BCM 18 share the same PWM channel, so they can't be set to different rates.
  4. The audio jack output also uses PWM 0 and PWM 1, so you can't have an audio output on that socket and use the PWMs at the same time.
Features and specifications:
  • Support Raspberry Pi 2B, 3B, 3B and 4
  • build-in MCU
  • 12-bit ADC
  • Multi-type Grove port
  • Operating Voltage: 3.3V
  • MCU: STM32/MM32
  • ADC: 12-bit 8 channel
  • Grove Ports:
    • 6 x Digital
    • 4 x Analog
    • 3 x I2C
    • 1 x PWM
    • 1x UART
  • Raspberry pi communication bus: I2C
  • I2C Address: 0x04/0x08

 

Packing list:
  • 1 x HAT - Grove Base for Raspberry Pi


Resources:
R289.90  Inc VAT
Grove Base Kit for Raspberry Pi (grove base kit for pi)
Description:

The Grove Base Kit for Raspberry Pi is one of the best kits for beginners to get started with Raspberry Pi. No troublesome soldering and no complicated wiring. You can focus on learning Raspberry Pi. This kit includes a Grove Base Hat for Raspberry Pi and 10 Grove modules, which covering the sensor, actuator, and display. All you need to do is following the demo, plug the module into the Grove Base Hat, truly plug and play.


On top of that, we have provided you with detailed instructions on the use of Raspberry Pi and the use of each module, which including 8 lessons for the module. Just click the wiki to view the user manual. Also, you can check the video guide here, which will tell you how to use this kit step by step.

All in all, whether you are a student, teacher, artist, hardware enthusiast, and so on, with the help of the Grove Base Kit for Raspberry Pi,  you will get to know Raspberry Pi quickly and comprehensively.

For all Grove users (especially beginners), we provide you guidance PDF documents. Please download and read through Preface - Getting Started and Introduction to Grove before your use of the product.

Features:

  • A great kit for Raspberry Pi beginner to get started
  • With Grove modules, no wiring is necessary
  • Plug and Use module
  • Include 10 Grove modules and a Grove base for Raspberry Pi

Now the kit comes with the Grove Base Hat for Raspberry Pi, making Raspberry Pi compatible with the Grove System.

The Grove Base Hat for Raspberry Pi provides Digital/Analog/I2C/PWM/UART port to meet all your needs. With the help of build-in MCU, a 12-bit 8 channel ADC is also available for Raspberry Pi.


Grove Base HAT Features:


Packing List:

  • 1 x Grove Base Hat for Raspberry Pi
  • 1 x Grove - Red LED Button
  • 1 x Grove - Buzzer
  • 1 x Grove - Moisture Sensor
  • 1 x Grove - Temperature & Humidity Sensor (DHT11)
  • 1 x Grove - Light Sensor
  • 1 x Grove - mini PIR motion sensor
  • 1 x Grove - Ultrasonic Ranger
  • 1 x Grove - Relay
  • 1 x Grove - Servo
  • 1 x Grove - 16 x 2 LCD (White on Blue)

Resources:

R799.90  Inc VAT
433 Mhz Superheterodyne RF Receiver and Transmitter Modules (tx rx modules 433mhz)
Description:

The kit includes one pair of transmitter and receiver modules and one pair of spring antennas for increasing the communication distance. The frequency is 433MHz. It is very popular for remote control systems, such as Remote control rolling gates, robotics, smart home, etc.

Short antenna for Transmitter
Long antenna for Receiver

About the transmitter module (square shape):

Model: WL102-341
Material: Plastic Metal
Color: shown as pictures
Size: 16×12×1mm
Operating frequency: 433.92 MHz
Mains input voltage range: 2.0V-3.6V
Shutdown mode current is less than 1uA
Transfer rate: up to 20KHz
Launch distance: 20-100 meters
External antenna: 25cm ordinary multi-core or single-core line
Temperature range: -45℃~85℃

About receiver module (rectangular shape):

Model: RX470-4 (RX470-4 is WL101-341 upgraded version, more stable performance, faster data transfer)
Material: Plastic Metal
Color: shown as pictures
Size: 30×9×1mm
Operating frequency: 433.92 MHz
Mains input voltage range: 2.2V-5V
Working current: Type: 2.1mA (Requirement:VDD=5V) ; Type: 2.1mA (Requirement:VDD=3V)
Quiescent Current: 1uA
Temperature range: -40℃~85℃
External antenna: 32cm single core wire, wound into a spiral

What's in the box?

1 x 433MHz RF transmitter module
1 x 433MHz RF receiver module
2 x 433MHz spring antennas (Short antenna for Transmitter; long antenna for Receiver.)

Resources:

Configure and read a 433Mhz RF Transmitter With Receiver on the Raspberry Pi
R24.90  Inc VAT
Grove Maker Soil Moisture Sensor (Capacitive) (maker soil moisture)

Description:


Maker Soil Moisture Sensor measures soil moisture by capacitive sensing, where the presence of water in the soil will increase the probe capacitance. The output of the sensor is analog output; higher moisture levels will produce lower output voltage. Being part of the Maker Seriesthe sensor is equipped with many features to further simplify digital making for beginners and experts alike.



The Maker Soil Moisture Sensor is easy to use. It only needs a power supply, if the LED indicators alone are enough for your application. Make sure that the voltage level of the power supply is within the sensor specifications. Note that the LED indicators only indicate approximate moisture levels and might fluctuate depending on the power supply, since the sensor does not have a voltage regulator on board.




Full Tutorial: Battery Powered Maker Soil Moisture Sensor


Maker Soil Moisture Sensor can also be used with microcontrollers to build more complex projects like smart gardens and self-watering systems. The analog output voltage of the sensor is used for these applications. Furthermore, the sensor also has a disable pin for power saving applications. Sending HIGH signal to the disable pin will disable the sensor.





Full Tutorial: Self Watering Pot Featuring Maker Soil Moisture Sensor


It is important to note that this sensor can only qualitatively test the humidity of the soil and cannot measure quantitatively. Which means when the humidity of the soil rises, the value of the output decreases; conversely, when the humidity decreases, the output value becomes higher.

Features:

  • Operating Voltage: 2.5V - 7.0V.

  • Output: Analog Voltage (Higher moisture = lower voltage)

  • Grove port.

  • LED indicators for dry/moist/wet soil moisture levels.

  • Soil Limit (Maximum depth of the probe)

  • Double-sided probe (More sensitive to moisture changes)

  • Capacitive sensing probe (Corrosion resistant)

  • Disable pin (Power-saving application)

 

Example Applications:

  • Soil moisture detection

  • Automatic Plant Watering System

  • Smart/IoT Gardens



Resources:


What's in the box?

1 x Sensor
1 x 50 cm Grove cable
R99.90  Inc VAT
GY-BNO055 9DOF 9-axis BNO055 Sensor (9 axis sensor)
Description:
 
Bosch Sensortec BNO055 Intelligent 9-Axis Absolute Orientation Sensor is a System in Package (SiP), integrating a triaxial 14-bit accelerometer, a triaxial 16-bit gyroscope with a range of ±2000 degrees per second, a triaxial geomagnetic sensor and a 32-bit ARM Cortex M0 microcontroller running Bosch Sensortec sensor fusion software, in a single package. The corresponding chip-sets are integrated into one single 28-pin LGA 3.8mm x 5.2mm x 1.1mm housing. For optimum system integration the BNO055 is equipped with digital bidirectional I2C and UART interfaces. The I2C interface can be programmed to run with the HID-I2C protocol turning the BNO055 into a plug-and-play sensor hub solution for devices.

Features:
 
Module Model: GY-BNO055
Use the chip: BNO-055
Power supply: 3-5v (internal low voltage regulator)
Communication method: standard IIC / serial communication protocol
Module size: 12mm x 20mm
 

Package Includes:

1 x BNO055 Sensor Module

Usage:

Adafruit learning

Change -> bno = BNO055.BNO055(serial_port='/dev/ttyAMA0', rst=18)

To -> sensor = adafruit_bno055.BNO055(rst=17, address=0x60) # the address obtained with i2cdetect -y 1

R349.90  Inc VAT
100A-1V Split-Core SCT013 AC Current Sensor (100A split core current sensor)
Description:

This is a split-core current transformer which is used as an AC current sensor. It is popularly used for current measurement, monitoring and protection for AC motors, lighting equipment, air compressors, home automation etc.

Features:

- Opening size: 13 x 13mm
- Rated input current (RMS): 10% - 120% of that is 1A~100A
- Output voltage(RMS): linear output. when the input current is 100A, the output voltage is 1V
- Linearity: ± 3%
- Output connectors: 3.5mm standard three-pin plug
- Lead length: 1m

What's in the box?

1 x Current sensor
R159.90  Inc VAT
6DOF MPU-6050 3 Axis Gyro With Accelerometer Sensor Controller Module (6DOF MPU-6050 Gyro Accelerometer)
Description:

Name: MPU-6050 module (three-axis gyroscope triaxial accelerometer)
2.54mm pin spacing
MPU-6050 Accelerometer Gyro
The MPU-6050 sensor contains a MEMS accelerometer and a MEMS gyro in a single chip. It is very accurate, since it contains 16-bits analog to digital conversion hardware for each channel. Therefor it captures the x, y, and z channel at the same time.

Specifications:

16bit AD converter-chip, 16-bit data output
Use Chip: MPU-6050
Power supply :3-5v (internal low dropout regulator)
Communication: IIC communication protocol standard
Gyro Range: ± 250 500 1000 2000 ° / s
Acceleration range: ± 2 ± 4 ± 8 ± 16g
Using Immersion Gold PCB, welding machines to ensure quality
Size: 20mm x 16mm x 10mm

Application:

Motion sensing games
Augmented Reality
Electronic Image Stabilization (EIS: Electronic Image Stabilization)
Optical Image Stabilization (OIS: Optical Image Stabilization)
"Zero-touch" gestures User Interface
Pedestrian navigation
Gesture shortcuts

Market:

Smart phone
Tablet device
Handheld games
3D remote controller
Portable navigation devices

What's in the box?

1 x MPU-6050 module
R67.90  Inc VAT
Adafruit 9-DOF Accel/Mag/Gyro Temp Breakout Board - LSM9DS1 (Adafruit 9-DOF Accel)
Description

Inside the chip are three sensors, one is a classic 3-axis accelerometer, which can tell you which direction is down towards the Earth (by measuring gravity) or how fast the board is accelerating in 3D space. The other is a 3-axis magnetometer that can sense where the strongest magnetic force is coming from, generally used to detect magnetic north. The third is a 3-axis gyroscope that can measure spin and twist. By combining this data you can REALLY orient yourself.

Design your own activity or motion tracker with all the data... Adafruit spun up a breakout board that has all the extra circuitry you'll want, for use with an Arduino (or other microcontroller).

The LSM9DS1 is not the same set of sensors as the LSM9DS0. Here are some of the differences:

  • LSM9DS0 accelerometer has ±2/±4/±6/±8/±16 g ranges. The LSM9DS1 has ±2/±4/±8/±16 g (no ±6 g range).
  • LSM9DS0 magnetometer has ±2/±4/±8/±12 gauss ranges. The LSM9DS1 has ±4/±8/±12/±16 gauss ranges. So the LSM9DS0 has ±2 gauss low range where-as the LSM9DS1 has ±16 gauss high range.
  • LSM9DS0 and LSM9DS1 gyros both have the same ±245/±500/±2000 dps ranges.

There are other differences, for example we noticed the LSM9DS1 has slightly worse accuracy. The gyro angular zero-rate (±25 for the LSM9DS0 and ±30 for the LSM9DS1 at the highest sensing range). The accelerometer offset accuracy is ±90 mg for the LSM9DS1 and ±60 mg for the LSM9DS0.

However, these offsets may not matter for most projects and the pricing of the LSM9DS1 is lower than the LSM9DS0.

The breakout board version of this sensor has both I2C and SPI interfaces. Attaching it to the Arduino is simple, power Vin and GND with 3-5VDC, and wire up I2C data on SCL and SDA, and you're ready to go! More advanced users can use SPI, the library has support for both. The breakout comes fully assembled and tested, with some extra header so you can use it on a breadboard. Four mounting holes make for a secure connection, and Adafruit put the popular power data pins on one side, and the interrupt pins on the other side for a nice & compact breakout.

This tutorial will get you started with wiring diagrams, pinouts, assembly instructions and library code with examples!

TECHNICAL DETAILS

R349.90  Inc VAT
Sense HAT (B) for Raspberry Pi Multi Powerful Sensors for Raspberry Pi (WS Sense)
Overview

The Sense HAT (B) is specially designed for Raspberry Pi, integrates multi powerful sensors such as gyroscope, accelerometer, magnetometer, barometer, temperature and humidity sensor, etc. It is communicated via I2C interface, and allows to connect more external sensors if you need.

Trying to make the Pi become a robot that can detect movement and orientation? Or using the Pi to collect environmental temperature, humidity, and barometric pressure data? This HAT would be your ideal choice.

Features
  • Standard Raspberry Pi 40PIN GPIO extension header, supports Raspberry Pi series boards
  • Onboard ICM20948 (3-axis accelerometer, 3-axis gyroscope, and 3-axis magnetometer), detects movement, orientation, and magnetic
  • Onboard SHTC3 digital temperature and humidity sensor, allows monitoring the environment
  • Onboard LPS22HB barometric pressure sensor, allows monitoring the environment
  • Onboard TCS34725 color sensor, identifies the color of nearby object
  • Onboard ADS1015 ADC, 4-ch 12-bit precision, AD expansion to support more external sensors
  • Brings I2C control pins, for connecting other host boards like STM32
  • Comes with development resources and manual (examples for Raspberry Pi/STM32)
Specifications
  • Operating voltage: 3.3V
  • Communication interface: I2C
  • Logic level: 3.3V
  • Dimensions: 65mm x 30.5mm

What's on Board
  1. Raspberry Pi GPIO connector: for connecting with Raspberry Pi
  2. Sensor Interface: for external sensors
  3. I2C extension header: for connecting host boards like Arduino/STM32
  4. ICM-20948: 9-axis movement sensor
  5. SHTC3: temperature and humidity sensor
  6. TCS34725: color sensor
  7. LPS22HB: barometric pressure sensor
  8. ADS1015: 12-bit ADC
  9. LSF0204PWR: 4-ch voltage level translator
  10. RT9193-18: 1.8V linear regulator
  11. RT9193-33: 3.3V linear regulator
Dimensions
Development Resources

Wiki : www.waveshare.com/wiki/Sense_HAT_(B)

R329.90  Inc VAT
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