“Microduino-Weather”的版本间的差异

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[[File:Microduino-Station-rect.jpg|400px|thumb|right|Microduino-Cube-Station]]
 
[[File:Microduino-Station-rect.jpg|400px|thumb|right|Microduino-Cube-Station]]
  
Microduino Weather module integrates three types of sensors, which are light intensity sensor (TSL2561), digital pressure sensor (BMP180), digital temperature and humidity sensor (AM2321). Using the I2C interface connects to the core module. Widely used in weather monitoring.
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Microduino Weather module integrates three types of sensors, which are light intensity sensor (TSL2561), digital pressure sensor (BMP180), digital temperature and humidity sensor (AM2321). Using the I2C interface connects to the core module. It is widely used in weather monitoring.
  
 
==Features==
 
==Features==
*Integrates three sensors and using IIC interface, save IO port;
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*Integrate three sensors, adopt IIC interface and save IO port;
*Small, cheap, stackable, opened platfrom;
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*Small, cheap, stackable and open;
*Open source hardware circuit design, compatible with the Arduino IDE development environment for programming;
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*Open hardware circuit design and Arduino compatible programming development environment;
*Define unified interface Microduino specification and contain rich peripheral modules. Set up the quick connection with other Microduino modules and sensors easily and flexibly.
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*Uniformed Microduino interface standard and rich peripheral modules, capable of having a fast and flexible connection and extension with other modules and sensors in accord with Microduino interface standard;
*2.54 pitch row female connector for easy integration into breadboard.
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*Easy to be integrated to pegboards with a 2.45-pitch female header connector interface.  
  
 
==Specifications==
 
==Specifications==
===Light intensity sensor:TSL2561===
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===Light Intensity Sensor:TSL2561===
*Programmable interrupt, the user can define the upper and lower limitation;
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*Programmable interruption, with which users can define the maximum and minimum values;
*6 digital outputs, working in fast mode at 400kHz;
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*6-bit digital output and 400kHz frequency of operation in fast mode;
 
*Programmable analog gain and integration time;
 
*Programmable analog gain and integration time;
*Automatically rejected 50/60-Hz lighting;
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*Reject 50/60-Hz illumination automatically ;
*Low active power (0.75 mW typical) and power-down mode;
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*Low active power (0.75 mW typically) and power-down mode;
*Meet RoHS。
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*Conform to RoHS.
  
 
===Digital pressure sensor:BMP180===
 
===Digital pressure sensor:BMP180===
*BMP180 comprise resistive pressure sensor, AD converter, and a control unit;
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*BMP180 comprises the Resistance type pressure transducer, AD converter and a control unit;
**The control unit includes E2PROM and I2C interfaces. BMP180 transfers the temperature and pressure values without compensation. EEPROM 176 stores the separate standard data, the standard data used to compensate temperature dependence and the other sensor parameters.
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**The control unit includes E2PROM and I2C interfaces. BMP180 transfers the temperature and pressure values without compensation. EEPROM stores 176-bit separate standard data which are used to compensate temperature dependence and the other sensor parameters.
*Available range:300hPa to 1100hPa (corresponding sea level -500m to +9000m);
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*Measuring range available:300hPa to 1100hPa (corresponding to the sea level from -500m to +9000m);
*Lowest absolute accuracy can be achieved to 0.03hPa;
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*The lowest absolute accuracy can be 0.03hPa;
*UP=pressure(16 to 19bit)
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*UP=presssure data (16 to 19bit)
 
*UT=temperature data (0 to 15bit);
 
*UT=temperature data (0 to 15bit);
  
 
===Digital temperature and humidity sensor:AM2321 ===
 
===Digital temperature and humidity sensor:AM2321 ===
 
*Standard IIC interface;  
 
*Standard IIC interface;  
*Digital signal output, precise calibration, low power consumption;
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*Digital signal output, precise calibration and low power consumption;
  
 
*Electrical Characteristics
 
*Electrical Characteristics
 
**Power supply is 2.6-5.5V, standard value is 5V;
 
**Power supply is 2.6-5.5V, standard value is 5V;
**Sleep mode, current consumption 8uA, measurement mode 500mA;
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**Sleep mode, current consumption 8uA and measurement mode 500mA;
**Sampling period can reach to 2s.
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**Sampling period can reach to 2 seconds.
  
 
*Temperature Performance
 
*Temperature Performance
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**Scale range:-40-80℃;
 
**Scale range:-40-80℃;
 
**Accuracy:±0.3℃;
 
**Accuracy:±0.3℃;
**Response time:less than 5S.
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**Response time:Less than 5 seconds.
  
 
   
 
   
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**Resolution:0.1%RH;
 
**Resolution:0.1%RH;
 
**Scale range:0-99.9%RH;
 
**Scale range:0-99.9%RH;
**Accuracy:25℃下±3%RH;
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**Accuracy:Below 25℃±3%RH;
**Response time:less than 5S.
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**Response time:less than 5 seconds.
  
 
===Extended Pin===
 
===Extended Pin===
 
*Onboard reset button;
 
*Onboard reset button;
 
*MicroUSB power supply;
 
*MicroUSB power supply;
*Onboard 3.3V regular, power (5V, 3.3V) indicator;
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*Onboard 3.3V regulated voltage and (5V or 3.3V) power indicator;
*VDD selects the 5V or 3.3V power via jumper. Default no connection, need to welding by yourself;
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*VDD selects the 5V or 3.3V power via jumpers;
 
*Onboard Microduino OLED interface;
 
*Onboard Microduino OLED interface;
*Two digital button and connected to D4, D5;
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*Two digital buttons connected to D4 and D5 respectively;
 
*IIC interface;
 
*IIC interface;
 
*External expansion Sensor Interface:
 
*External expansion Sensor Interface:
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==Development==
 
==Development==
You may need following linbrary:
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You may need the following libraries:
  
 
==Application==
 
==Application==
*You can download the Microduino test program, combine OLED to test the icroduino-Weather, '''[[File:Microduino-Stations-Text.zip]]'''
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*You can download the Microduino test program, which together with OLED can test the function of Microduino-Weather, '''[[File:Microduino-Stations-Text.zip]]'''
*Prepared hardware:Microduino FT232R, Microduino Core, Microduino-Stations, Microduino OLED;
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*Prepared hardware:Microduino-FT232R, Microduino-Core, Microduino-Weather and Microduino-OLED;
*Prepared software:Microduino test program (Arduino part), Arduino IDE(1.0 release and upper);
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*Prepared software:Microduino test program (Arduino part) and Arduino IDE(version 1.0 and higher);
*Open the example program in IDE, select the board "Microduino Core (Atmega328P@16M,5V)", download directly;
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*Open the example program in IDE, select the board "Microduino Core (Atmega328P@16M,5V)", then download directly;
*After downlaod, please observe the OLED:
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*After the download, please watch the OLED for a while:
**The first line uses to test AM2321, display the temperature data;
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**The first line is used for testing AM2321 and you can see the temperature data;
**The middle line uses to test BMP180, display pressure data;
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**The middle line is used for testing BMP180 and you can see the related pressure data;
**The last line uses to tset TSL2561, display light intensity data.
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**The last line is used for testing TSL2561 and you can see the light intensity data.
  
 
==FQA==
 
==FQA==
 
*Does this module have the sensor on it? Is this module powered on using BM module?
 
*Does this module have the sensor on it? Is this module powered on using BM module?
**The sensor was fixed in board and also can stack other sensor module. It can be powered by the BM module, but the time can’t be long, because it needs big power consumption.
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**The sensor was fixed inside the board and also can be stacked to other sensor module. It can be powered by the BM module, but the time can’t be long, because it needs a high power consumption.
  
 
==Buy==
 
==Buy==

2014年8月12日 (二) 08:45的版本

Language English
文件:Microduino-Station-rect.jpg
Microduino-Cube-Station

Microduino Weather module integrates three types of sensors, which are light intensity sensor (TSL2561), digital pressure sensor (BMP180), digital temperature and humidity sensor (AM2321). Using the I2C interface connects to the core module. It is widely used in weather monitoring.

Features

  • Integrate three sensors, adopt IIC interface and save IO port;
  • Small, cheap, stackable and open;
  • Open hardware circuit design and Arduino compatible programming development environment;
  • Uniformed Microduino interface standard and rich peripheral modules, capable of having a fast and flexible connection and extension with other modules and sensors in accord with Microduino interface standard;
  • Easy to be integrated to pegboards with a 2.45-pitch female header connector interface.

Specifications

Light Intensity Sensor:TSL2561

  • Programmable interruption, with which users can define the maximum and minimum values;
  • 6-bit digital output and 400kHz frequency of operation in fast mode;
  • Programmable analog gain and integration time;
  • Reject 50/60-Hz illumination automatically ;
  • Low active power (0.75 mW typically) and power-down mode;
  • Conform to RoHS.

Digital pressure sensor:BMP180

  • BMP180 comprises the Resistance type pressure transducer, AD converter and a control unit;
    • The control unit includes E2PROM and I2C interfaces. BMP180 transfers the temperature and pressure values without compensation. EEPROM stores 176-bit separate standard data which are used to compensate temperature dependence and the other sensor parameters.
  • Measuring range available:300hPa to 1100hPa (corresponding to the sea level from -500m to +9000m);
  • The lowest absolute accuracy can be 0.03hPa;
  • UP=presssure data (16 to 19bit)
  • UT=temperature data (0 to 15bit);

Digital temperature and humidity sensor:AM2321

  • Standard IIC interface;
  • Digital signal output, precise calibration and low power consumption;
  • Electrical Characteristics
    • Power supply is 2.6-5.5V, standard value is 5V;
    • Sleep mode, current consumption 8uA and measurement mode 500mA;
    • Sampling period can reach to 2 seconds.
  • Temperature Performance
    • Resolution:0.1℃;
    • Scale range:-40-80℃;
    • Accuracy:±0.3℃;
    • Response time:Less than 5 seconds.


  • Humidity Performance
    • Resolution:0.1%RH;
    • Scale range:0-99.9%RH;
    • Accuracy:Below 25℃±3%RH;
    • Response time:less than 5 seconds.

Extended Pin

  • Onboard reset button;
  • MicroUSB power supply;
  • Onboard 3.3V regulated voltage and (5V or 3.3V) power indicator;
  • VDD selects the 5V or 3.3V power via jumpers;
  • Onboard Microduino OLED interface;
  • Two digital buttons connected to D4 and D5 respectively;
  • IIC interface;
  • External expansion Sensor Interface:
    • VDD, A1, GND, VDD or VDD, A1, GND, GND or VDD, D6, GND, VDD or VDD, D6, GND, GND. You can connect them by yourself.
文件:Microduino-Cube-Stations-Pinout1.jpg
Microduino-Cube-Stations-Pinout
文件:Microduino-Cube-Stations-Pinout2.jpg
Microduino-Cube-Stations-Pinout

Document

Eagle PCB local download Main components:

Development

You may need the following libraries:

Application

  • You can download the Microduino test program, which together with OLED can test the function of Microduino-Weather, 文件:Microduino-Stations-Text.zip
  • Prepared hardware:Microduino-FT232R, Microduino-Core, Microduino-Weather and Microduino-OLED;
  • Prepared software:Microduino test program (Arduino part) and Arduino IDE(version 1.0 and higher);
  • Open the example program in IDE, select the board "Microduino Core (Atmega328P@16M,5V)", then download directly;
  • After the download, please watch the OLED for a while:
    • The first line is used for testing AM2321 and you can see the temperature data;
    • The middle line is used for testing BMP180 and you can see the related pressure data;
    • The last line is used for testing TSL2561 and you can see the light intensity data.

FQA

  • Does this module have the sensor on it? Is this module powered on using BM module?
    • The sensor was fixed inside the board and also can be stacked to other sensor module. It can be powered by the BM module, but the time can’t be long, because it needs a high power consumption.

Buy

History

Picture

Front

文件:Microduino-Station-S1-F.JPG
Microduino-Cube-Station Front

Back

文件:Microduino-Station-S1-b.JPG
Microduino-Cube-Station Back

Video

取自“http:///https//wiki.microduino.cn/index.php?title=Microduino-Weather&oldid=3636