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A7 GPS GPRS GSM small low cost Wireless module compatible with SIM908

A7 GPS GPRS GSM small low cost Wireless module compatible with SIM908
A7 GPS GPRS GSM small low cost Wireless module compatible with SIM908 A7 GPS GPRS GSM small low cost Wireless module compatible with SIM908
Product Code: A7-GPS-MOD
SKU Code: F6-2
Availability: 15
Price: 750.00LE 675.00LE
Ex Tax: 675.00LE
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Introduction

This is a A7 GPRS/GSM/GPS Shield, which is use the newest A7 GSM/GPRS/GPS module, A7 module is a GSM/GPRS/GPS function module. It supports GSM/GPRS Quad-Band(850/900/1800/1900) network. Also, it supports voice calls, SMS messages, GPRS data service and GPS function. We can use it make a simple phone.
The module is controlled by AT command via UART and supports 3.3V and 4.2V logical level.

Features

  • Operating temperature -30 ℃ to + 80 ℃;
  • 1KG peak suction
  • Low standby current
  • Operating Voltage 3.3V-4.2V;
  • Power voltage> 3.4V;
  • Standby average current 3ma less;
  • Support the GSM / GPRS four bands, including 850,900,1800,1900MHZ;
  • Support China Mobile and China Unicom's 2G GSM network worldwide;
  • GPRS Class 10;
  • Sensitivity <-105;
  • Support voice calls;
  • Support SMS text messaging;
  • Support GPRS data traffic, the maximum data rate, download 85.6Kbps, upload 42.8Kbps;
  • Supports standard GSM07.07,07.05 AT commands and extended commands Ai-Thinker;
  • Supports two serial ports, a serial port to download an AT command port;
  • AT command supports the standard AT and TCP / IP command interface;
  • Support digital audio and analog audio support for HR, FR, EFR, AMR speech coding;
  • Support ROHS, FCC, CE, CTA certification;
  • SMT 42PIN

Cautions

 

  • Make sure your SIM card is unlocked.
  • The product is provided as is without an insulating enclosure. Please observe ESD precautions specially in dry (low humidity) weather.
  • It just supports baud rate 115200bps.

Usage

Hardware installation

1.Insert an Micro SIM card to SIM Card Holder

6 Pin Holder for SIM Cards. Both 1.8 volts and 3.0 volts SIM Cards are supported by A6 GPRS/GSM Shield, the SIM card voltage type is automatically detected.
A7 004.jpg

2.Connect the Antenna

A miniature coaxial RF connector is present on the A6 GPRS/GSM Shield board to connect with a GSM Antenna. The connector present on the A6 GPRS/GSM Shield is called a U.FL connecto.The GSM Antenna supplied with the GPRS Shield has an SMA connector (and not an RP-SMA connector) on it.The connection topology is shown in the diagram below:

A7 0005.jpg

3.Plug to Arduino/Crowduino

The A6 GPRS/GSM Shield, like any other well designed shield, is stackable as shown in the photo below.And connect Arduino to PC by using a USB cable.

A7 006.jpg

 

With serial debugging tools

1.Before use the serial debugging tool, we need select the hareware serial port.
Male - Female Splittable Jumper Wire Connect the A6_RXD to MTXD and A6_TXD to MRXD with female-feamale splittable jumper wire.

A7 007.jpgA7 0008.jpg

2.Download the serial debugging tool,unzip it and open the sscom32E.exe file.

A7 0010.jpg

click the "EXT":

A7 009.jpg

3.Let's start the mudule,Long press the power key for more than 2 seconds,if you will see some information in the serial debug window as bellow,it mens This module is started successfully.

A7 0011.jpg

4.Now we can make a telephone calls,
Click on the the number "1" to send the AT command, and you will see "OK" in the receive window,it means the serial port communication no problem.

A7 0012.jpg

Insert the headset into the headset port click on the number"15" to send the AT+SNFS=0 command,if display "0k" means success into headphones mode.

A7 0013.jpg

Click on the number"15" to send the ATDXXXXXXXXX command,"XXXXXXXX"is the phone number you want to call,if display "OK",then start dialing.you can enjoy the call.

A7 0014.jpg

5. Get the GPS information 
Connect the GPS Antanna
A7 0015.jpg

AT Command
A7 0016.jpg

Of course not just these functions, you can send some other command to achieve different functions

AT Command Description
AT + CGATT = 1 Return OK, attached to the network
AT + CGACT = 1 Activate the network, then you can use the tcp/ip command
AT + CIPSTART = "TCP" "121.41.97.28", 60000 TCPIP server connection
AT + CIPCLOSE Close TCP/IP connection
AT+CMGF=1 Send a text message
AT+CIPTCFG Passthrough mode configuration
AT+CIPTMODE Enter the passthrough mode
AT+GPS=1 Open GPS
AT+GPS=0 Close GPS
AT+AGPS=1 Open AGPS
AT+AGPS=0 Close AGPS

With Arduino Leonardo

The demo code below is for the Xduino to send SMS message/dial a voice call/submit a http request to a website and upload datas to the pachube. It has been tested on Arduino Duemilanove but will work on any compatible variant, plesse note that this sketch uses the sorfware UART of ATmega328P. please follow the following steps for running this sketch.

  1. With the A7 GPRS/GSM/GPS Shield removed, download this sketch into your Arduino.
  2. Disconnect the Xduino from USB port to remove power source.
  3. Set the Serial Port jumpers on the A7 GPRS/GSM/GPS Shield in SWserial position, to use the Soft Serial port of Arduino.
  4. Connect the antenna to the A7 GPRS/GSM/GPRS Shield and insert the SIM Card.
  5. Mount the GPRS Shield on Arduino.
  6. Connect the Arduino to the computer by USB, and fire up your favorite serial terminal software on computer, choose the COM port for Arduino, set it to operate at 115200.

A6010.jpgA6012.jpg

  1. Type command in the terminal to execute different function, threr are 4 functions in the demo:
    1. If you input 't', the demo will send a SMS message to another cellphone which you set(you need set the number in the code);
    2. If you input 'd', the program will dial a call to the other cellphone that you set(it is also need you set in the code );
    3. If you input 'h', it will submit a http request to a web that you want to access(it need you set the web adress in the code), it will return a string from the website if it goes correctly;
    4. If you input 's', it will upload the datas to the pachube(for detail you can refer to the explanation in the code). I strongly recommend you input 'h' before input 's', because uploading datas to the pachube need do some setting, after execute the function of submit a http request, the setting will be set.
  2. If the program returns error in the terminal after you typed the command, don't worry, just try input the command again.
#include <String.h>
unsigned char SigQ[50];
unsigned char SigQ1[5]={'a','a','a','a','a'};
int SIGQ=0;

void setup()
{
  Serial1.begin(115200);               // the GPRS baud rate   
  Serial.begin(115200);    // the GPRS baud rate 
  delay(500);
//    mySerial.println("AT+CPIN?");  //get the signal Quality
//  delay(100);
//    pinMode(9, OUTPUT); 
//  digitalWrite(9,LOW);
//  delay(1000);
//  digitalWrite(9,HIGH);
//  delay(1500);
//  digitalWrite(9,LOW);
  
//*******************************************************
//GetSignalQuality(); 
//*******************************************************
  for(int x=0;x<20;x++)
    {
       
   GetSignalQuality();   
    delay(800);
    for(int i=0;i<26;i++)
    {
   if(SigQ[i]==58)
   {    
     int j=0;
     int k=0;
     i++;i++;
     while((SigQ[i+j])!=44)
     {
      if((SigQ[i+j]>='0'&&SigQ[i+j]<='9'))  //>=48 <=57
      {
      SigQ1[j]=SigQ[i+j];     
       }
       j++;  //j=1
     }     
     SIGQ=SigQ1[0]-'0';
     
     if(j==2)
     {
     SIGQ=SIGQ*10+SigQ1[1]-'0';
     }  
   Serial.println(""); 
   Serial.print("SIGQ:");
   Serial.println(SIGQ);
     }  
   }
   if ( Serial1.available())
    Serial.write( Serial1.read());
   if (SIGQ>=10)
   {
     break;
   }
   if(x==20)
   {
    Serial.print("The Signal Quality is poor!");
   }
   }        
  delay(2000);
DialVoiceCall();
if ( Serial1.available())
    Serial.write( Serial1.read());
}
 
void loop()
{
  //after start up the program, you can using terminal to connect the serial of gprs shield,
  //if you input 't' in the terminal, the program will execute SendTextMessage(), it will show how to send a sms message,
  //if input 'd' in the terminal, it will execute DialVoiceCall(), etc.
// GetSignalQuality();
 delay(500);
  if (Serial.available())
    switch(Serial.read())
   {
     case 't':
       SendTextMessage();
       break;
     case 'd':
       DialVoiceCall();
       break;
     case 'h':
       SubmitHttpRequest();
       break;
     case 's':
       Send2Pachube();
       break;
     case 'q':
       GetSignalQuality();
       break;
   } 
  if ( Serial1.available())
    Serial.write( Serial1.read());
}
 
///SendTextMessage()
///this function is to send a sms message
void SendTextMessage()
{
   Serial1.print("AT+CMGF=1\r");    //Because we want to send the SMS in text mode
  delay(100);
   Serial1.println("AT + CMGS = \"+8613016490443\"");//send sms message, be careful need to add a country code before the cellphone number
  delay(100);
   Serial1.println("GSM test message!");//the content of the message
  delay(100);
   Serial1.println((char)26);//the ASCII code of the ctrl+z is 26
  delay(100);
   Serial1.println();
}
 
///DialVoiceCall
///this function is to dial a voice call
void DialVoiceCall()
{
   Serial1.println("AT+SNFS=0");
 delay(100);
   Serial1.println("ATDxxxxxxxxxx;");//dial the number 
//mySerial.println("ATD + +8613826558615;");//dial the number
  delay(100);
   Serial1.println();
}
 
///SubmitHttpRequest()
///this function is submit a http request
///attention:the time of delay is very important, it must be set enough 
void SubmitHttpRequest()
{
   Serial1.println("AT+CSQ");
  delay(100);
 
  ShowSerialData();// this code is to show the data from gprs shield, in order to easily see the process of how the gprs shield submit a http request, and the following is for this purpose too.
 
   Serial1.println("AT+CGATT?");
  delay(100);
 
  ShowSerialData();
 
   Serial1.println("AT+SAPBR=3,1,\"CONTYPE\",\"GPRS\"");//setting the SAPBR, the connection type is using gprs
  delay(1000);
 
  ShowSerialData();
 
   Serial1.println("AT+SAPBR=3,1,\"APN\",\"CMNET\"");//setting the APN, the second need you fill in your local apn server
  delay(4000);
 
  ShowSerialData();
 
   Serial1.println("AT+SAPBR=1,1");//setting the SAPBR, for detail you can refer to the AT command mamual
  delay(2000);
 
  ShowSerialData();
 
   Serial1.println("AT+HTTPINIT"); //init the HTTP request
 
  delay(2000); 
  ShowSerialData();
 
   Serial1.println("AT+HTTPPARA=\"URL\",\"www.google.com.hk\"");// setting the httppara, the second parameter is the website you want to access
  delay(1000);
 
  ShowSerialData();
 
   Serial1.println("AT+HTTPACTION=0");//submit the request 
  delay(10000);//the delay is very important, the delay time is base on the return from the website, if the return datas are very large, the time required longer.
  //while(!mySerial.available());
 
  ShowSerialData();
 
   Serial1.println("AT+HTTPREAD");// read the data from the website you access
  delay(300);
 
  ShowSerialData();
 
   Serial1.println("");
  delay(100);
}
 
///send2Pachube()///
///this function is to send the sensor data to the pachube, you can see the new value in the pachube after execute this function///
void Send2Pachube()
{
   Serial1.println("AT+CGATT?");
  delay(100);
 
  ShowSerialData();
 
   Serial1.println("AT+CSTT=\"CMNET\"");//start task and setting the APN,
  delay(1000);
 
  ShowSerialData();
 
   Serial1.println("AT+CIICR");//bring up wireless connection
  delay(300);
 
  ShowSerialData();
 
   Serial1.println("AT+CIFSR");//get local IP adress
  delay(2000);
 
  ShowSerialData();
 
   Serial1.println("AT+CIPSPRT=0");
  delay(3000);
 
  ShowSerialData();
 
   Serial1.println("AT+CIPSTART=\"tcp\",\"api.cosm.com\",\"8081\"");//start up the connection
  delay(2000);
 
  ShowSerialData();
 
   Serial1.println("AT+CIPSEND");//begin send data to remote server
  delay(4000);
  ShowSerialData();
  String humidity = "1031";//these 4 line code are imitate the real sensor data, because the demo did't add other sensor, so using 4 string variable to replace.
  String moisture = "1242";//you can replace these four variable to the real sensor data in your project
  String temperature = "30";//
  String barometer = "60.56";//
   Serial1.print("{\"method\": \"put\",\"resource\": \"/feeds/42742/\",\"params\"");//here is the feed you apply from pachube
  delay(500);
  ShowSerialData();
  Serial1.print(": {},\"headers\": {\"X-PachubeApiKey\":");//in here, you should replace your pachubeapikey
  delay(500);
  ShowSerialData();
   Serial1.print(" \"_cXwr5LE8qW4a296O-cDwOUvfddFer5pGmaRigPsiO0");//pachubeapikey
  delay(500);
  ShowSerialData();
   Serial1.print("jEB9OjK-W6vej56j9ItaSlIac-hgbQjxExuveD95yc8BttXc");//pachubeapikey
  delay(500);
  ShowSerialData();
  Serial1.print("Z7_seZqLVjeCOmNbEXUva45t6FL8AxOcuNSsQS\"},\"body\":");
  delay(500);
  ShowSerialData();
   Serial1.print(" {\"version\": \"1.0.0\",\"datastreams\": ");
  delay(500);
  ShowSerialData();
   Serial1.println("[{\"id\": \"01\",\"current_value\": \"" + barometer + "\"},");
  delay(500);
  ShowSerialData();
   Serial1.println("{\"id\": \"02\",\"current_value\": \"" + humidity + "\"},");
  delay(500);
  ShowSerialData();
   Serial1.println("{\"id\": \"03\",\"current_value\": \"" + moisture + "\"},");
  delay(500);
  ShowSerialData();
   Serial1.println("{\"id\": \"04\",\"current_value\": \"" + temperature + "\"}]},\"token\": \"lee\"}");
 
 
  delay(500);
  ShowSerialData();
 
   Serial1.println((char)26);//sending
  delay(5000);//waitting for reply, important! the time is base on the condition of internet 
   Serial1.println();
 
  ShowSerialData();
 
   Serial1.println("AT+CIPCLOSE");//close the connection
  delay(100);
  ShowSerialData();
}
//*******************************************************
  //GetSignalQuality();
//*******************************************************

void GetSignalQuality()
{
  
   Serial1.println("AT+CSQ");  //get the signal Quality
  delay(100);
  int k=0;
  while( Serial1.available()!=0)
  {     
    SigQ[k]= Serial1.read();  
    Serial.write(SigQ[k]);
    k+=1;
  }
}
 
void ShowSerialData()
{
  while( Serial1.available()!=0)
    Serial.write( Serial1.read());
}

Resource

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