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Found 4 results

  1. Materials AmebaD [RTL8722 CSM/DM] x 2 Example Introduction BLE connections use a server client model. The server contains the data of interest, while the client connects to the server to read the data. Commonly, a Bluetooth peripheral device acts as a server, while a Bluetooth central device acts as a client. Servers can contain many services, with each service containing a some set of data. Clients can send requests to read or write some data and can also subscribe to notifications so that the server can send data updates to a client. In this example, a basic battery client is set up on the Ameba Bluetooth stack. The client connects to another Ameba board running the corresponding BLE battery service to read the battery level data. Procedure On the first Ameba board, upload the BLEBatteryService example code and let it run. For the second Ameba board, open the example “Files” -> “Examples” -> “AmebaBLE” -> “BLEBatteryClient”. Upload the code and press the reset button on Ameba once the upload is finished. Open the serial monitor and observe the log messages as the Ameba board with the battery client scans, connects, and reads data from the Ameba board with the battery service. Highlighted in yellow, the Ameba board with the battery client first scans for advertising BLE devices with the advertised device name “AMEBA_BLE_DEV” and the advertised service UUID of 0x180F representing the battery service. After finding the target device, the Ameba board with the battery client forms a BLE connection and searches for a battery service on the connected device, highlighted in blue. With the client connected to the service, the battery client begins to read data using both regular data reads and notifications, highlighted in green. Code Reference BLEClient is used to create a client object to discover services and characteristics on the connected device. setNotifyCallback() is used to register a function that will be called when a battery level notification is received. BLE.configClient() is used to configure the Bluetooth stack for client operation. addClient(connID) creates a new BLEClient object that corresponds to the connected device. For more resources: If you need additional technical documents or the source code for this project. Please visit the official websites and join the Facebook group and forum. Ameba Official Website: https://www.amebaiot.com/en/ Ameba Facebook Group: https://www.facebook.com/groups/amebaioten Ameba Forum: https://forum.amebaiot.com/
  2. For Sale Bluetooth module Telit Bluemod+S42 Product condition: New, hermetically packed 1000 pieces Price: 13 000 PLN for 1 pack Product condition: New - Packed (hermetically) on rolls of 1000 pieces Minimum quantity to sell: 1000pcsV The maximum quantity (available): 10,000 pcs. Cost for 1 pcs: 2,9 eur Delivery cost depends of ordered items Seller: Company IT for Poland (Katowice) General info: Bluetooth 4.2 Low Energy plug-and-play module The BlueMod+S42 is a high-performance Bluetooth 4.2 qualified single mode module. It features very low energy consumption and flexibility for designers such as Terminal I/O profile for serial cable replacement use cases as well as most GATT based Bluetooth profiles through a generic GATT implementation. Part of the BlueMod+Sx family, the BlueMod+S42 is swappable with previous generations without requiring new hardware or software spins. Although a single mode low energy module it offers a high throughput of up to 470kbit/s using Telit’s unique SPP like Terminal I/O service. Development Kit Telit’s BlueDev+S42 developer kits enables rapid prototyping of customer’s own firmware: solutions are based on a simple and powerful scripting language, Lua, supported by Telit Appzone development environment or using silicon vendor SDK for C++ development. Evaluation Kit The evaluation kits BlueEva+S42 are available to support Telit customers to evaluate and implement Bluetooth modules in their application. For each of the different FW Versions a separate Evaluation Kit is available. Key Features: BlueMod+S42 Standalone IOT platform or Bluetooth hosted applications Bluetooth v4.2 qualified module RED, FCC, IC, KC, MIC, RCM, Anatel certified Powerful Cortex M4F MCU Designed for low power applications Best of its class range performance Best of its class throughput performance Generic GATT Client or Server Implementation Point to point or point to multipoint communications Terminal I/O Profile (SPP-like) for fast and easy transparent data transfer Automation I/O Profile for digital and analog status information transfer Terminal I/O and Automation I/O Sample code for iOS and Android NFC Support for secure simple pairing LE Secure Connection with 128bit AES encryption
  3. A BLE beacon broadcasts its identity to nearby Bluetooth devices, to enable the other devices to determine their location relative to the beacon, and to perform actions based on information broadcast by the beacon. Example applications of beacons include indoor positioning system, location-based advertising and more. From the definition of its purpose as a broadcast device, a BLE beacon thus cannot be connected to, and can only send information in its Bluetooth advertisement packets. There are several BLE beacon protocols. The Ameba BLEBeacon library supports the iBeacon and AltBeacon protocols.
  4. I have just started with the youtube channel, so I decided to make a Bluetooth controlled robotic car. As am an electronics engineer I have knowledge about electronics. but I don't know how to build a custom android application. so Before making the project I learn about MIT app inventor and try to make one app which was a great success it is quite easy to do. In this article, we will learn how to make a custom Android application and how to configure the Bluetooth module with Arduino. Hardware requirements: Arduino Uno Bluetooth HC-05 l298n motor Driver acrylic sheet wheels x2 geared dc motor x2 mini breadboard 4.7k, 2.2k resistor jumper wires 12v battery 9v battery switch Step 1: Building Chassis I used an acrylic sheet length of 18cm and width of 13cm. First, I positioned all parts that going to be mounted on the chassis. then I used a hot glue gun to stick the parts to acrylic you can use spacers or screws. after mounting all parts I stick the caster wheel at the bottom of the chassis. Step 2: Connection Make the connection according to the circuit diagram. we can use separate power for Arduino. Motor driver and 12v battery connected through the switch. As we can see in the circuit diagram there is 2.2k and 4.7 k resistor connected to the pins of the bluetooth module. the main reason for this is the HC-05 Bluetooth module uses a logic level of 3.3v. While transmitting data from HC-05 to Arduino there is no problem because Arduino is capable of receiving data from 3.3v logic, but while receiving any data from Arduino to HC-05 Arduino uses 5v logic which may damage our Bluetooth module, to convert 5v logic level to 3.3v we use a voltage divider method. Make sure that there is common ground between motor driver and Arduino otherwise motor not work. Step 3: Programming /* Author:DIYelex date: 3/8/2019 */ #include <SoftwareSerial.h> // TX RX software library for bluetooth SoftwareSerial mySerial(2, 3); // Connect the TXD pin of BT module to pin 2 of the Arduino and the RXD pin of BT module to pin 3 of Arduino. int Rightmotor1 = 4; //pin 1 of Rightmotor int Rightmotor2 = 5; //pin2 of Rightmotor int leftmotor1 = 6;//pin1 of leftmotor int leftmotor2 = 7;//pin2 of leftmotor int en1=9; //enable pin for Rightmotor int en2=10; // enable pin for leftmotor String readString; void setup() { pinMode(Rightmotor1,OUTPUT); // attach Right Motor 1st wire to pin 4 pinMode(Rightmotor2,OUTPUT); // attach Right Motor 1st wire to pin 5 pinMode(leftmotor1,OUTPUT);// attach Right Motor 1st wire to pin 6 pinMode(leftmotor2,OUTPUT);// attach Right Motor 1st wire to pin 7 pinMode(en1,OUTPUT); //attach motor drivers rightmotor enable pin to PWM pin 9 of arduino pinMode(en2,OUTPUT);//attach motor drivers leftmotor enable pin to PWM pin 10 of arduino Serial.begin(9600); //Setup usb serial connection to computer mySerial.begin(9600);//Setup Bluetooth serial connection to android } void loop() { while(mySerial.available()){ delay(50); char data = mySerial.read();//store the data come from bluetooth to char data readString+=data; } if(readString.length() > 0) { Serial.println(readString); ///Print the data to serial monitor which is given by bluetooth if(readString == "Forward"){ //if forward received do following digitalWrite(Rightmotor1, HIGH); ////////////FORWARD //////////////////////// digitalWrite(Rightmotor2, LOW); digitalWrite(leftmotor1, HIGH); digitalWrite(leftmotor2, LOW); analogWrite(en1,200);// for controlling speed of Rightmotor vary the value from 0 to 255 analogWrite(en2,200);// for controlling speed of leftmotor vary the value from 0 to 255 } if(readString == "Back"){ //if Back received do following digitalWrite(Rightmotor1, LOW); ////////////BACK///////////////////////////// digitalWrite(Rightmotor2, HIGH); digitalWrite(leftmotor1, LOW); digitalWrite(leftmotor2, HIGH); analogWrite(en1,200); analogWrite(en2,200); } if(readString == "Left"){ //if left received do following digitalWrite(Rightmotor1, HIGH);/////////////LEFT//////////////////////////// digitalWrite(Rightmotor2, LOW); digitalWrite(leftmotor1, LOW); digitalWrite(leftmotor2, HIGH); analogWrite(en1,80); analogWrite(en2,80); } if(readString == "Right"){ //if Right received do following digitalWrite(Rightmotor1, LOW);/////////////RIGHT//////////////////////// digitalWrite(Rightmotor2, HIGH); digitalWrite(leftmotor1, HIGH); digitalWrite(leftmotor2, LOW); analogWrite(en1,80); analogWrite(en2,80); } if(readString == "Stop"){ //if stop received do following digitalWrite(Rightmotor1, LOW); ///////////stop///////////////// digitalWrite(Rightmotor2, LOW); digitalWrite(leftmotor1, LOW); digitalWrite(leftmotor2, LOW); } readString = ""; } } Step 4: Android App Now we have to build Bluetooth applications that would be capable of controlling your robot car. If you wish to download my application you can download it from github: The Bluetooth car How I created this application was through App Inventor 2, The images above show both the "Designer" & "Block" view of my application so you can build and change thing up if you wish! Steps for configuring bluetooth First turn on the switch of robot car Go to setting Click on the Bluetooth TabTurn Bluetooth on Wait for your phone to find the HC-05 Bluetooth module Once it has been found click it and input the password by default it should be either "1234" or "0000" Now open the application Bluetooth car Application and click the " Bluetooth image" button You should see the HC-05 Module (If not re-try the steps above) click on the Module The Application will then return automatically to the main screen and you can see the green text "connected" At this point, the HC-05 Modules Red LED should now be constantly on instead of pulsing meaning a device is currently connected. Conclusion Thanks for Reading watch this project video on youtube https://youtu.be/iC7P9nyFu9I
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