MPL3115A2 (I2C Barometric Pressure/Altitude/Temperature Sensor)
-Control mode: 2mA
-Low power mode: 8.5μA , 1Hz sampling
-Compensation of output data:
20 bit pressure data, output per unit Pascal
20 bit height data, output per unit of meter
12 bit temperature data, output per unit degree with
-I2C digital output interface
-2 * programmable pin interrupt
-Contained in 32 selective FIFO buffers
DESCRIPTION:
This pressure sensor is a great low-cost sensing solution for precision measurement of barometric pressure and altitude. The MPL3115A2 has a typical 1.5 Pascal resolution, which can resolve altitude at 0.3 meters (compare to the BMP180 which can do 0.17m). It has some upsides compared to the BMP280, such as interrupt outputs for ultra-low power usage, and its also a heck of a lot easier to read altitude with a built in altimeter calculation – no calibration reading and calculating required. As a bonus, there’s even a fairly good temperature sensor with ±1°C typical accuracy (±3°C max).
This chip likes to be used with 2-3.6V power and logic voltages, so we placed it on a breakout with a 3V regulator and logic level shifting. Its easy to use with any Arduino or microcontroller that has i2c capability.
This chip looks and sounds a whole lot like the MPL115A2 but this is the precision version, which can act as an altitude-sensor as well as barometer.
Using the sensor is easy. For example, if you’re using an Arduino, simply connect the VDD pin to the 5V voltage pin, GND to ground, SCL to I2C Clock (Analog 5 on an UNO) and SDA to I2C Data (Analog 4 on an UNO). Then download our MPL3115A2 Arduino library and example code for temperature, pressure and basic altitude calculation. Install the library, and load the example sketch. Immediately you’ll have the temperature, pressure and altitude data printed in the serial console.
TECHNICAL DETAILS:
Dimensions: 18mm x 19mm x 2mm / .7″ x .8″ x .1″
Weight: 1.2g
Vin: 3 to 5.5 VDC
Logic: 3 to 5V compliant
Pressure sensing range: 50-110 kPa (up to 10Km altitude)
1.5 Pa / 0.3 m altitude resolution
This board/chip uses I2C 7-bit address 0x60
You must be logged in to post a review.
Related products
CJ1WTS562 (Temperature Sensor Module Screw Terminal Connection)
Highlights/Features:
Omron Temperature sensor module is suitable for use with cj1 series programmer controllers These temperature sensor units are classified as digital I/O units when considering I/O allocations and will take digital I/O points from the total allocation for a CJ1M CPU. The number of I/O points is DIP switch selectable as follows; configured for 1 - 3 inputs takes 48 digital I/O points, configured for 4 inputs takes 64 digital I/O points and configured for 5 - 6 inputs takes 96 digital I/O points.DHT22- (Temperature and humidity sensor)
Product description:
The DHT22 module is designed to measure the temperature and humidity of the atmosphere. The difference from the younger model (DHT11), The DHT22 has a wide range and a high precision determination of temperature and humidity. The sensor works on the OneWire bus, which makes it possible to connect it to the Arduino only three wires ( two of which are POwer supply). Low power consumption allows you to install it on stand-alone devices.
GY-652 (Air Pressure + Magnetic Field Sensor Module)
HTG3515CH- (Voltage Output Temperature and Humidity Sensor)
SPECIFICATIONS:
MAX6675-(Temperature Sensor With Thermocouple Cable)
MAX6675 Module + K Type Thermocouple Sensor:
The MAX6675 performs cold-junction compensation and digitizes the signal from a type-K thermocouple. The data is output in a 12-bit resolution, SPI™-compatible, read-only format. This converter resolves temperatures to 0.25°C, allows readings as high as +1024°C, and exhibits thermocouple accuracy of 8LSBs for temperatures ranging from 0°C to +700°C.MPL115A1 (Barometric Pressure Sensor Breakout)
FEATURES:
- Wide supply voltage range
- -40°C to 105°C maximum temperature range
- Low power consumption
- kPa accuracy
Reviews
There are no reviews yet.