Arduino Lucky Shield with BME280
Arduino Lucky Shield with BME280
Arduino Lucky Shield is an easy way to use your Arduino boards, that grants you access to barometric pressure, relative altitude, luminosity, temperature, motion and presence.
Descrição
Arduino Lucky Shield with BME280
Arduino Lucky Shield is an easy way to use your Arduino boards, that grants you access to barometric pressure, relative altitude, luminosity, temperature, motion and presence. You can also turn it into a simple controller and OLED (organic light-emitting diode) display system. It is the perfect shield for IoT.
Features
- Relays - OMRON G6RL-1 (5V DC)
- PIR Sensor - MOSDESIGN M7616
- Ambient Light Sensor - EVERLIGHT ALS-PT19-315C/L177/TR8
- Humidity Sensor - BOSCH SENSORTEC BME 280
- Temperature Sensor - BOSCH SENSORTEC BME 280
- Pressure sensor - BOSCH SENSORTEC BME 280
- 3-axis magnetometer - NXP MAG3110
- 3 Axis accelerometer - NXP MMA8491Q
- Buzzer - PUI AUDIO SMT-0927-S-6-R
- Joystick - 5-directional tact switch
Description
- Operating voltage: 3.3 VDC / 5 VDC
- LEDs: POWER (Verde) . LED1 (Amarelo) . LED2 (Amarelo)
- Joystick: 5-directional tact switch
- Buzzer: MINIMUM SPL 90 dBA RESONANT FREQUENCY 500 Hz
- Relay: 50000 operations min (NC) at 250VAC, 8A (resistive load) 50000 operations min at 30 VDC, 5A (resistive load)
- PIR sensor: Encapsulation type TO5, Spectral response 7~14μm, Transmittance ≥77%, Field of view 139º
- Ambient light sensor: Peak sensitivity wavelength 630nm , Operating temperature -40 ~ +85°C
- Temperature / humidity: Operating temperature -40 ~ +85°C
- Pressure sensor: Operating pressure range 300 ~ 1100 hPa
- Magnetometer: E-compass, Full-scale range ±1000 T, Output data rates (ODR) up to 80 Hz
- Accelerometer: G-sensor, Ultra-fast data output time, ~700 μs ±8g full-scale range 3-axis, 45° tilt outputs
Power
The shield doesn't need external power. It will be provided by the Arduino base board, through the 5V and 3.3V pins of the base.
Physical Characteristics
The maximum length and width of the Lucky Shield PCB are 2.7 by 2.1 inches,respectively (68.6 x 53.4 mm). Four screw holes allow the Shield to be attached to a surface or case. Note that the distance between digital pins 7 and 8 is 160 mil (0.16"), not an even multiple of the 100 mil spacing of the other pins.
Compatible Boards
The shield is compatible with all Arduino board 5V and 3.3V standards.
Documentation
- EAGLE files: arduino-Lucky-Shield-reference-design.zip
- Schematic: arduino-Lucky-Shield-schematic.pdf