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The e-Health Sensor Shield V2.0 allows Arduino and Raspberry Pi users to perform biometric and medical applications where body monitoring is needed by using 10 different sensors: pulse, oxygen in blood (SPO2), airflow (breathing), body temperature, electrocardiogram (ECG), glucometer, galvanic skin response (GSR - sweating), blood pressure (sphygmomanometer), patient position (accelerometer) and muscle/eletromyography sensor (EMG).

The current tutorial explains how to take the most of the Galileo board by using on it the Arduino and Raspberry Pi shields and modules designed by Cooking Hacks

Galileo comes with a single-core 32-bit, 400MHz Quark SoC X1000 processor, supports 3.3 or 5 volt shields and has an Ethernet and USB port. Compatible with Windows, Mac OS and Linux, the software of Galileo also has support for the Arduino shield ecosystem.

The Multiprotocol Radio Shield is an interconnection shield for Arduino, and was designed to connect two communication modules at the same time. This that means a lot of possibilities and applications can be made using the cooking-hacks modules.

The Multiprotocol Radio Shield includes the SPI bus connections that allows the use of the RS-485 and CAN Bus modules, but also is compatible with the rest of the cooking-hacks modules as RFID, XBee and Bluetooth.

The RS-485 module for Arduino and Raspberry allows users to perform industrial and domotic applications. The RS-485 is the most versatile communication standard in the standard

This a standard defining the electrical characteristics of drivers and receivers for use in digital systems. It does not specify or recommend any communications protocol. In the next table the electrical characteristics of the standart are defined.

The RS-232 standard was first introduced in 1962 by the Radio Sector of the EIA. The original DTEs (data terminal equipment) were electromechanical teletypewriters, and the original DCEs (data circuit-terminating equipment) were usually modems.

For many years, an RS-232-compatible port was a standard feature for serial communications, such as modem connections, on many computers. The RS-232 standard is still used to connect industrial equipment (such as PLCs), console ports and special purpose equipment.

CAN is a multi-master broadcast serial bus standard for connecting electronic control units (ECUs). Each node is able to send and receive messages, but not simultaneously. A message consists primarily of an ID (identifier), which represents the priority of the message. A CAN message that is transmitted with highest priority will succeed and the node transmitting the lower priority message will sense this and back off and wait.

The information is transmitted by two twisted wires that connect all system modules. It is transmitted by voltage difference between the two levels. The high voltage value represents 1 and low 0. Its combination forms an appropriate message.

The 4-20 mA Current Loop Board is one of the most robust sensor signaling standard. Current loops are ideal for data transmission because of their inherent insensitivity to electrical noise. In a 4-20 mA current loop, all the signaling current flows through all components; the same current flows even if the wire terminations are less than perfect.

All the components in the loop drop voltage due to the signaling current flowing through them. The signaling current is not affected by these voltage drops as long as the power supply voltage is greater than the sum of the voltage drops around the loop at the maximum signaling current of 20 mA.

Libelium has added Sigfox wireless connectivity to its portfolio of Waspmote OEM and Plug & Sense! sensor devices and at the same time has make it available for the main Maker platfoms: Arduino and Raspberry Pi.

The Libelium Sigfox module has been certified as “Sigfox Ready Class 0” the designation reserved for maximum range devices on Sigfox Low Power Wide Area (LPWA) networks. This means we can work with our favorite development platform as “Sigfox Ready” when using it in our projects.

Modbus allows communication between many devices connected to the same network, for example a system that measures temperature and humidity and communicates the results to a computer

Many of the data types are named from its use in driving relays: a single-bit physical output is called a coil, and a single-bit physical input is called a discrete input or a contact.

Learning Kit is a perfect start for beginners of Arduino world. You can learn basic soldering tricks and practice programming principles when learning this kit. Have prepared a detailed soldering guide and a fully supported library of programming examples from easy to difficult, so electronic could be fun even if you have bare technical knowledge. Hope you have fun and gain some knowledge with this kit!

Learning Kit contains some basic electronic resources, like buttons, sensors, buzzer and display. There is a great way to learn how to solder. Learning Kit is a through-hole soldering kit for beginners. After assembling the kit, you’ll have mastered the basics of through-hole soldering.

This tutorial allows the user to turn ON different LEDs depending on the number of devices detected by the Bluetooth module.

This project can be developed with Arduino or Intel Galileo. It is also compatible with Raspberry Pi using the Raspberry Pi to Arduino shields connection bridge.

This tutorial allows the user to measure temperature and amount of light and send it through Bluetooth to an SPP (Serial Port Profile) application.

This project can be developed with Arduino or Intel Galileo. It is also compatible with Raspberry Pi using the Raspberry Pi to Arduino shields connection bridge.

This tutorial allows the user to move a servo via Bluetooth with an SPP (Serial Port Profile) application.

This project can be developed with Arduino or Intel Galileo. It is also compatible with Raspberry Pi using the Raspberry Pi to Arduino shields connection bridge.

This tutorial allows the user to accept or reject an incomming Bluetooth connection with 2 different buttons.

This project can be developed with Arduino or Intel Galileo. It is also compatible with Raspberry Pi using the Raspberry Pi to Arduino shields connection bridge.

This tutorial allows the user to turn on and off a RGB LED with different colors depending on the data sent by the LoRa gateway.

This project can be developed with Arduino or Intel Galileo. It is also compatible with Raspberry Pi using the Raspberry Pi to Arduino shields connection bridge.

This tutorial allows the user to measure the temperature and the light level in a room. This data is sent to a LoRa gateway.

This project can be developed with Arduino or Intel Galileo. It is also compatible with Raspberry Pi using the Raspberry Pi to Arduino shields connection bridge.

This tutorial allows the user to move a servo to different angles depending on the data sent by the LoRa gateway.

This project can be developed with Arduino or Intel Galileo. It is also compatible with Raspberry Pi using the Raspberry Pi to Arduino shields connection bridge.

This tutorial allows the user to make a call to different numbers. Each button can be assigned to a number and originate a voice call. Pushing other button, you can end the voice call.

This project can be developed with Arduino or Intel Galileo. It is also compatible with Raspberry Pi using the Raspberry Pi to Arduino shields connection bridge.

This tutorial allows the user to measure the temperature and the light level in a room. This data is sent each minute to a personal cloud server in Thingspeak, so you will be able to see both graphics in a web page.

This project can be developed with Arduino or Intel Galileo. It is also compatible with Raspberry Pi using the Raspberry Pi to Arduino shields connection bridge.

This tutorial allows the user to send three different emails with color filtered photos. This is achieved by moving three color sheets attached to a servo.

This project can be developed with Arduino or Intel Galileo. It is also compatible with Raspberry Pi using the Raspberry Pi to Arduino shields connection bridge.

This tutorial allows the user to record an audio file, take a photo and store them in a personal FTP logbook.

This project can be developed with Arduino or Intel Galileo. It is also compatible with Raspberry Pi using the Raspberry Pi to Arduino shields connection bridge.

This tutorial allows to use your platform as a caller ID. Each LED can be assigned to a number. When this number calls to the module, the corresponding LED lights on.

This project can be developed using the GPRS/GSM Quadband Module (SIM900) with Arduino or Intel Galileo. It is also compatible with Raspberry Pi using the Raspberry Pi to Arduino shields connection bridge.

This tutorial allows the user to get temperature and control LEDs status sending text messages with the mobile phone. Depending on the text message received by the module, you will be able to turn ON and OFF two LEDs and get the temperature with a sensor.

This project can be developed using the GPRS/GSM Quadband Module (SIM900) with Arduino or Intel Galileo. It is also compatible with Raspberry Pi using the Raspberry Pi to Arduino shields connection bridge.

This tutorial allows the user to translate SMS text messages into morse code. When the module receives a SMS it will reproduce it in morse code through the buzzer.

This project can be developed using the GPRS/GSM Quadband Module (SIM900) with Arduino or Intel Galileo. It is also compatible with Raspberry Pi using the Raspberry Pi to Arduino shields connection bridge.

This tutorial allows the user to filter words within an SMS. An LED indicates if the filter has been used or not, and displays the filted SMS in the LCD.

This project can be developed using the GPRS/GSM Quadband Module (SIM900) with Arduino or Intel Galileo. It is also compatible with Raspberry Pi using the Raspberry Pi to Arduino shields connection bridge.

This tutorial allows the user to turn ON and OFF the LED bar of the Radiation Sensor Board with a pushbutton.

This project can be developed with Arduino or Intel Galileo. It is also compatible with Raspberry Pi using the Raspberry Pi to Arduino shields connection bridge.

This tutorial allows the user to know radiation levels, amount of light and emperature showing them on the LCD.

This project can be developed with Arduino or Intel Galileo. It is also compatible with Raspberry Pi using the Raspberry Pi to Arduino shields connection bridge.

This tutorial allows the user to know radiation levels moving a servo like an analog meter and showing it on the LCD.

This project can be developed with Arduino or Intel Galileo. It is also compatible with Raspberry Pi using the Raspberry Pi to Arduino shields connection bridge.

This tutorial allows the user to know radiation levels moving a servo like an analog meter, changing the RGB LED color and showing it on the LCD.

This project can be developed with Arduino or Intel Galileo. It is also compatible with Raspberry Pi using the Raspberry Pi to Arduino shields connection bridge.

This tutorial allows the user to change keys on RFID cards. Also you can read the cards if the key is correct. Each button has a function assigned: enter to change key mode (then you can write your new key with this 3 buttons), save new key and read card.

This project can be developed with Arduino or Intel Galileo. It is also compatible with Raspberry Pi using the Raspberry Pi to Arduino shields connection bridge.

This tutorial allows the user to store the measure taken from the LDR in the RFID cards. When 8 measures has been taken, the RFID module will read them and they will be shown on the LCD.

This project can be developed with Arduino or Intel Galileo. It is also compatible with Raspberry Pi using the Raspberry Pi to Arduino shields connection bridge.

This tutorial allows the user to move the servo (open and close a barrier) if the key of the RFID card is correct.

This project can be developed with Arduino or Intel Galileo. It is also compatible with Raspberry Pi using the Raspberry Pi to Arduino shields connection bridge.

This tutorial allows the user to indentify different cards associated to several people. If they are close to an antenna, RFID card will save how many times that person has been there.

This project can be developed with Arduino or Intel Galileo. It is also compatible with Raspberry Pi using the Raspberry Pi to Arduino shields connection bridge.

This tutorial allows the user to change keys on RFID cards. Also you can read the cards if the key is correct. Each button has a function assigned: enter to change key mode (then you can write your new key with this 4 buttons), save new key and read card.

This project can be developed with Arduino or Intel Galileo. It is also compatible with Raspberry Pi using the Raspberry Pi to Arduino shields connection bridge.

This tutorial allows the user to store the measure taken from the LDR in the RFID cards. When 8 measures has been taken, the RFID module will read them and they will be shown on the Serial monintor.

This project can be developed with Arduino or Intel Galileo. It is also compatible with Raspberry Pi using the Raspberry Pi to Arduino shields connection bridge.

This tutorial allows the user to move the servo (open and close a barrier) if the key of the RFID card is correct.

This project can be developed with Arduino or Intel Galileo. It is also compatible with Raspberry Pi using the Raspberry Pi to Arduino shields connection bridge.

This tutorial allows the user to indentify different cards associated to several people. If they are close to an antenna, RFID card will save how many times that person has been there.

This project can be developed with Arduino or Intel Galileo. It is also compatible with Raspberry Pi using the Raspberry Pi to Arduino shields connection bridge.

This tutorial allows the user to make a call to different numbers. Each button can be assigned to a number and originate a voice call. Pushing other button, you can end that voice call.

This project can be developed using the GPRS+GPS Quadband Module (SIM908) with Arduino or Intel Galileo. It is also compatible with Raspberry Pi using the Raspberry Pi to Arduino shields connection bridge.

This tutorial allows the user to measure the temperature of an object. When the temperature is 0ÂşC or less, a text message is sent to a mobile phone in which the temperature and the position (laltitude and longitude) of the module is indicated.

This project can be developed using the GPRS+GPS Quadband Module (SIM908) with Arduino or Intel Galileo. It is also compatible with Raspberry Pi using the Raspberry Pi to Arduino shields connection bridge.

This tutorial allows the user to move a servo sending text messages with the mobile phone. Depending on the number received by the module, the servo is placed in one position or another corresponding to the indicated degrees.

This project can be developed using the GPRS+GPS Quadband Module (SIM908) with Arduino or Intel Galileo. It is also compatible with Raspberry Pi using the Raspberry Pi to Arduino shields connection bridge.

This tutorial allows the user to view the GPS position, latitude and longitude, in a LCD display.

This project can be developed using the GPRS+GPS Quadband Module (SIM908) with Arduino or Intel Galileo. It is also compatible with Raspberry Pi using the Raspberry Pi to Arduino shields connection bridge.

This tutorial allows the user to turn ON and OFF a RGB LED with different colors depending on data sent by XBee gateway.

This project can be developed with Arduino or Intel Galileo. It is also compatible with Raspberry Pi using the Raspberry Pi to Arduino shields connection bridge.

This tutorial allows the user to measure the amount light in a room and print it in a graph. This data is sent to a XBee gateway.

This project can be developed with Arduino or Intel Galileo. It is also compatible with Raspberry Pi using the Raspberry Pi to Arduino shields connection bridge.

This tutorial allows the user to set a password key and if it is correct, a LED and a Buzzer will sound printing a message in the LCD.

This project can be developed with Arduino or Intel Galileo. It is also compatible with Raspberry Pi using the Raspberry Pi to Arduino shields connection bridge.

This tutorial allows the user to move a servo to different degrees depending on the data sent by the XBee gateway.

This project can be developed with Arduino or Intel Galileo. It is also compatible with Raspberry Pi using the Raspberry Pi to Arduino shields connection bridge.