Waveshare 16864 Sense HAT (B)
Artnr.: WS1-016864
Sense HAT (B) für Raspberry Pi, Onboard Multi Powerful Sensors, unterstützt externe Sensoren

32,90 € inkl. 19% MwSt.
27,65 € exkl. MwSt.

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ab Lager lieferbar

Lieferzeit: 1 - 3 Arbeitstage

Beschreibung

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

Comparison

Sense HAT (B) Pi Foundation Sense HAT Remarks
Gyroscope Ranging: ±250/500/1000/2000 dps Resolution: 16-bit Ranging: ±245/500/2000 dps Resolution: 16-bit Type (B) provides more angular velocity range option
Accelerometer Ranging: ±2/4/8/16 g Resolution: 16-bit Ranging: ±2/4/8/16 g Resolution: 16-bit  
Magnetometer Ranging: ±49 gauss Resolution: 16-bit Ranging: ±4/8/12/16 gauss Resolution: 16-bit Type (B) has wider magnetic range
Barometer Ranging: 260 ~ 1260 hPa Accuracy (ordinary temperature): ±0.025hPa Speed: 1 Hz - 75 Hz Ranging: 260 ~ 1260 hPa Accuracy (ordinary temperature): ±0.1 hPa  Speed: 1 Hz - 25 Hz Type (B) measures the barometric pressure more precise and faster
Temp & Humidity Accuracy (Humidity): ±2% rH Ranging (Humidity): 0% ~ 100% rH Accuracy (Temp): ±0.2°C Ranging (Temp): -30 ~ 100°C Accuracy: ±4.5% rH Ranging: 20% ~ 80% rH Accuracy (Temp): ±0.5°C Ranging (Temp): 15 ~ 40°C Type (B) has higher precision and wider range
Misc Color Sensor High precision 12-bit ADC 8×8 RGB LED matrix Five-button joystick Type (B) features color sensor, and supports more external AD sensors

What's on Board

Sense HAT (B) on board resource
  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

Dimension

Development Resources

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

Package Contents

Note: Raspberry Pi and external sensors are NOT included.

  1. Sense HAT (B) x1
  2. RPi screws pack (2pcs) x1
  3. 2x20PIN female header x1
1
2
3

Versandgewicht: 0,02 Kg

Software

Kundenrezensionen

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Teilen Sie anderen Kunden Ihre Erfahrungen mit:

1 von 5 Funktioniert nicht richtig

Lasst lieber die Finger von dem Waveshare Sensehat B! Zumindest die Python Demoprogramme sind massiv fehlerhaft. Der Magnetsensor scheint noch einigermassen brauchbare Ergebnisse zu liefern, das Gyro, Farbsensor, Temperatursensor messen eigentlich nur Schrott - sorry, nogo!

, 19.09.2020
5 von 5 Funktioniert auch mit Python

Der Sensehat ist eine günstige Möglichkeit, eine Vielzahl von Sensoren zum kleinen Preis einzulesen. Um diese Sensor Platine zum Beispiel mit einem Raspberry Pei zu verbinden, benötigt man nur vier Adern und schon ist die Wetterstation fertig. Mit ein paar weiteren Befehlen kann man die Sensor Daten an eine MQTT Datenbank schicken. Die Aussagen des anderen Rezensenten stimmen also nicht.

, 25.02.2021