Break free from geographical boundaries with UG95 and PIC32MZ1024EFH064
From the heart of Europe to the landscapes of Australia
Published Sep 03, 2023
Click board™
3G-EA Click (for EU and Australia)
Dev.Board
PIC32MZ clicker
Compiler
NECTO Studio
MCU
PIC32MZ1024EFH064
Experience the power of global communication through our dual-band cellular solution, qualified for European and Australian UMTS frequency bands. From Europe to Australia, we keep you connected no matter where your journey takes you.
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Hardware Overview
How does it work?
3G-EA Click is based on the UG95-E, an ultra-small UMTS/HSPA module with high-speed wireless connectivity from Quectel. This module is the main component of the Click board™, consisting of several internal blocks or sections, such as an antenna switching section, RF transceiver section, memory, power management, and most importantly - the cellular baseband processor. This section contains the logic necessary for managing the other sections and provides the interface to the host MCU. The Micro SIM card holder on the back of the click board™ is used to install a microSIM card. This device cannot be used without a valid SIM card, which allows connection to the cellular network. Both 1.8V and 3V SIM card types are supported. The Quectel UG95 offers the PCM interface used for digital audio. The MAX9860, a 16-bit mono audio voice CODEC IC from Analog Devices, provides the 3G-EA Click with voice communication. The MAX9860 IC uses
the PCM and I2C interfaces to communicate with the Quectel UG95 module. This IC provides a clean and audible analog interface for connecting the headset, with one audio output channel and one microphone input channel. The headset can be connected via the onboard 3.5mm audio jack. 3G-EA Click is also equipped with a micro-USB connector. It allows the module to be powered and configured by a personal computer (PC). Quectel offers a software suite that can be used with the 3G-EA click board. 3G-EA Click uses a standard 2-Wire UART interface to communicate with the host MCU with commonly used UART RX and TX. UART interface supports baud rates of 300, 1200, 2400, 4800, 9600, 19200, 38400, 57600, 115200, 230400, 460800, and 921600bps, with the default setting to automatic baud rate detection, between 4800 and 115200. The UART interface can be used for data transmission, AT communication, or firmware upgrades. The 3G-EA Click offers full
hardware flow control over the UART RTS and CTS pins. As the UG95 is internally supplied by 1.8V, the 3G-EA Click uses the TXB0106, a 6-bit bidirectional level shifting and voltage translator from Texas Instruments. In addition, the 3G-EA Click has a ringing RI indicator and the PWK as a power key, which is used during the power-up sequence. The STA is a status pin used to signal the status of the device, in addition to the STAT LED. The other LED is TXD, which indicates the network status. This Click board™ can operate with either 3.3V or 5V logic voltage levels selected via the I/O SEL jumper. This way, both 3.3V and 5V capable MCUs can use the communication lines properly. Also, this Click board™ comes equipped with a library containing easy-to-use functions and an example code that can be used as a reference for further development.
Features overview
Development board
PIC32MZ Clicker is a compact starter development board that brings the flexibility of add-on Click boards™ to your favorite microcontroller, making it a perfect starter kit for implementing your ideas. It comes with an onboard 32-bit PIC32MZ microcontroller with FPU from Microchip, a USB connector, LED indicators, buttons, a mikroProg connector, and a header for interfacing with external electronics. Thanks to its compact design with clear and easy-recognizable silkscreen markings, it provides a fluid and immersive working experience, allowing access anywhere and under
any circumstances. Each part of the PIC32MZ Clicker development kit contains the components necessary for the most efficient operation of the same board. In addition to the possibility of choosing the PIC32MZ Clicker programming method, using USB HID mikroBootloader, or through an external mikroProg connector for PIC, dsPIC, or PIC32 programmer, the Clicker board also includes a clean and regulated power supply module for the development kit. The USB Micro-B connection can provide up to 500mA of current, which is more than enough to operate all onboard
and additional modules. All communication methods that mikroBUS™ itself supports are on this board, including the well-established mikroBUS™ socket, reset button, and several buttons and LED indicators. PIC32MZ Clicker is an integral part of the Mikroe ecosystem, allowing you to create a new application in minutes. Natively supported by Mikroe software tools, it covers many aspects of prototyping thanks to a considerable number of different Click boards™ (over a thousand boards), the number of which is growing every day.
Microcontroller Overview
MCU Card / MCU
Architecture
PIC32
MCU Memory (KB)
1024
Silicon Vendor
Microchip
Pin count
64
RAM (Bytes)
524288
You complete me!
Accessories
Rubber Antenna GSM/GPRS Right Angle is the perfect companion for all GSM Click boards™ in our extensive lineup. This specialized antenna is designed to optimize your wireless connectivity with impressive features. With a wide frequency range spanning 824-894/1710-1990MHz or 890-960/1710-1890MHz, it can handle various frequency bands, ensuring a seamless and reliable connection. The antenna boasts an impedance of 50 Ohms and a gain of 2dB, enhancing signal reception and transmission. Its 70/180MHz bandwidth provides flexibility for diverse applications. The vertical polarization further enhances its performance. With a maximum input power capacity of 50W, this antenna ensures robust communication even under demanding conditions. Measuring a compact 50mm in length and featuring an SMA male connector, the Rubber Antenna GSM/GPRS Right Angle is a versatile and compact solution for your wireless communication needs.
Used MCU Pins
mikroBUS™ mapper
Take a closer look
Schematic
Step by step
Project assembly
Start by selecting your development board and Click board™. Begin with the PIC32MZ clicker as your development board.
Track your results in real time
Application Output
After loading the code example, pressing the "DEBUG" button builds and programs it on the selected setup.
After programming is completed, a header with buttons for various actions available in the IDE appears. By clicking the green "PLAY "button, we start reading the results achieved with Click board™.
Upon completion of programming, the Application Output tab is automatically opened, where the achieved result can be read. In case of an inability to perform the Debug function, check if a proper connection between the MCU used by the setup and the CODEGRIP programmer has been established. A detailed explanation of the CODEGRIP-board connection can be found in the CODEGRIP User Manual. Please find it in the RESOURCES section.
Software Support
Library Description
This library contains API for 3G-EA Click driver.
Key functions:
c3gea_set_sim_apn- This function sets APN for sim cardc3gea_send_sms_text- This function sends text message to a phone numberc3gea_send_sms_pdu- This function sends text message to a phone number in PDU mode
Open Source
Code example
This example can be found in NECTO Studio. Feel free to download the code, or you can copy the code below.
/*!
* @file main.c
* @brief 3G-EA Click Example.
*
* # Description
* This example reads and processes data from 3G-EA click.
*
* The demo application is composed of two sections :
*
* ## Application Init
* Initializes the driver and powers up the module, then sets default configuration
* for connecting the device to network.
*
* ## Application Task
* Waits for device to connect to network and then sends a desired SMS to the selected phone number
* approximately every 30 seconds.
*
* ## Additional Function
* - static void c3gea_clear_app_buf ( void )
* - static void c3gea_error_check( err_t error_flag )
* - static void c3gea_log_app_buf ( void )
* - static void c3gea_check_connection( void )
* - static err_t c3gea_rsp_check ( void )
* - static err_t c3gea_process ( void )
*
* @note
* In order for the example to work, user needs to set the phone number to which he wants
* to send an SMS, and also will need to set an APN and SMSC (required for PDU mode only) of entered SIM card.
* Enter valid data for the following macros: SIM_APN, SIM_SMSC and PHONE_NUMBER_TO_MESSAGE.
* E.g.
SIM_APN "vipmobile"
SIM_SMSC "+381610401"
PHONE_NUMBER_TO_MESSAGE "+38169999999"
*
* @author Stefan Ilic
*
*/
#include "board.h"
#include "log.h"
#include "c3gea.h"
#include "string.h"
#define APP_OK 0
#define APP_ERROR_DRIVER -1
#define APP_ERROR_OVERFLOW -2
#define APP_ERROR_TIMEOUT -3
#define RSP_OK "OK"
#define RSP_ERROR "ERROR"
#define SIM_APN "" // Set valid SIM APN
#define SIM_SMSC "" // Set valid SMS Service Center Address - only in PDU mode
#define PHONE_NUMBER_TO_MESSAGE "" // Set Phone number to message
#define MESSAGE_CONTENT "3G-EA click board - demo example." // Message content
#define PROCESS_BUFFER_SIZE 256
#define WAIT_FOR_CONNECTION 0
#define CONNECTED_TO_NETWORK 1
static c3gea_t c3gea;
static log_t logger;
static char app_buf[ PROCESS_BUFFER_SIZE ] = { 0 };
static int32_t app_buf_len = 0;
static int32_t app_buf_cnt = 0;
static uint8_t app_connection_status = WAIT_FOR_CONNECTION;
static err_t app_error_flag;
/**
* @brief 3G-EA clearing application buffer.
* @details This function clears memory of application buffer and reset it's length and counter.
* @note None.
*/
static void c3gea_clear_app_buf ( void );
/**
* @brief 3G-EA data reading function.
* @details This function reads data from device and concatenates data to application buffer.
*
* @return @li @c 0 - Read some data.
* @li @c -1 - Nothing is read.
* @li @c -2 - Application buffer overflow.
*
* See #err_t definition for detailed explanation.
* @note None.
*/
static err_t c3gea_process ( void );
/**
* @brief 3G-EA check for errors.
* @details This function checks for different types of errors and logs them on UART.
* @note None.
*/
static void c3gea_error_check( err_t error_flag );
/**
* @brief 3G-EA logs application buffer.
* @details This function logs data from application buffer.
* @note None.
*/
static void c3gea_log_app_buf ( void );
/**
* @brief 3G-EA response check.
* @details This function checks for response and returns the status of response.
*
* @return application status.
* See #err_t definition for detailed explanation.
* @note None.
*/
static err_t c3gea_rsp_check ( void );
/**
* @brief 3G-EA check connection.
* @details This function checks connection to the network and
* logs that status to UART.
*
* @note None.
*/
static void c3gea_check_connection( void );
// ------------------------------------------------------ APPLICATION FUNCTIONS
void application_init ( void ) {
log_cfg_t log_cfg; /**< Logger config object. */
c3gea_cfg_t c3gea_cfg; /**< Click config object. */
/**
* Logger initialization.
* Default baud rate: 115200
* Default log level: LOG_LEVEL_DEBUG
* @note If USB_UART_RX and USB_UART_TX
* are defined as HAL_PIN_NC, you will
* need to define them manually for log to work.
* See @b LOG_MAP_USB_UART macro definition for detailed explanation.
*/
LOG_MAP_USB_UART( log_cfg );
log_init( &logger, &log_cfg );
log_info( &logger, " Application Init " );
// Click initialization.
c3gea_cfg_setup( &c3gea_cfg );
C3GEA_MAP_MIKROBUS( c3gea_cfg, MIKROBUS_1 );
c3gea_init( &c3gea, &c3gea_cfg );
c3gea_module_power( &c3gea, C3GEA_MODULE_POWER_ON );
// dummy read
c3gea_process( );
c3gea_clear_app_buf( );
// AT
c3gea_send_cmd( &c3gea, C3GEA_CMD_AT );
app_error_flag = c3gea_rsp_check( );
c3gea_error_check( app_error_flag );
Delay_ms( 500 );
// ATI - product information
c3gea_send_cmd( &c3gea, C3GEA_CMD_ATI );
app_error_flag = c3gea_rsp_check( );
c3gea_error_check( app_error_flag );
Delay_ms( 500 );
// CGMR - firmware version
c3gea_send_cmd( &c3gea, C3GEA_CMD_CGMR );
app_error_flag = c3gea_rsp_check( );
c3gea_error_check( app_error_flag );
Delay_ms( 500 );
// CMEE - Report Mobile Equipment Error
c3gea_send_cmd_with_parameter( &c3gea, C3GEA_CMD_CMEE, "2" );
app_error_flag = c3gea_rsp_check( );
c3gea_error_check( app_error_flag );
Delay_ms( 500 );
// COPS - deregister from network
c3gea_send_cmd_with_parameter( &c3gea, C3GEA_CMD_COPS, "2" );
Delay_ms( 4000 );
app_error_flag = c3gea_rsp_check( );
c3gea_error_check( app_error_flag );
Delay_ms( 500 );
// CGDCONT - set sim apn
c3gea_set_sim_apn( &c3gea, SIM_APN );
app_error_flag = c3gea_rsp_check( );
c3gea_error_check( app_error_flag );
Delay_ms( 500 );
// CFUN - full funtionality
c3gea_send_cmd_with_parameter( &c3gea, C3GEA_CMD_CFUN, "1" );
app_error_flag = c3gea_rsp_check( );
c3gea_error_check( app_error_flag );
Delay_ms( 500 );
// COPS - automatic mode
c3gea_send_cmd_with_parameter( &c3gea, C3GEA_CMD_COPS, "0" );
Delay_ms( 4000 );
app_error_flag = c3gea_rsp_check( );
c3gea_error_check( app_error_flag );
Delay_ms( 500 );
// CREG - network registration status
c3gea_send_cmd_with_parameter( &c3gea, C3GEA_CMD_CREG, "1" );
app_error_flag = c3gea_rsp_check( );
c3gea_error_check( app_error_flag );
Delay_ms( 500 );
app_buf_len = 0;
app_buf_cnt = 0;
app_connection_status = WAIT_FOR_CONNECTION;
log_info( &logger, " Application Task " );
Delay_ms( 5000 );
}
void application_task ( void ) {
if ( app_connection_status == WAIT_FOR_CONNECTION ) {
// CREG - network registration status
c3gea_send_cmd_check( &c3gea, C3GEA_CMD_CREG );
app_error_flag = c3gea_rsp_check( );
c3gea_error_check( app_error_flag );
Delay_ms( 500 );
// CSQ - signal quality
c3gea_send_cmd( &c3gea, C3GEA_CMD_CSQ );
app_error_flag = c3gea_rsp_check( );
c3gea_error_check( app_error_flag );
Delay_ms( 3000 );
} else {
log_info( &logger, "CONNECTED TO NETWORK" );
// SMS message format - PDU mode
c3gea_send_cmd_with_parameter( &c3gea, C3GEA_CMD_CMGF, "0" );
app_error_flag = c3gea_rsp_check( );
c3gea_error_check( app_error_flag );
Delay_ms( 3000 );
for( ; ; ) {
log_printf( &logger, "> Sending message to phone number...\r\n" );
c3gea_send_sms_pdu ( &c3gea, SIM_SMSC, PHONE_NUMBER_TO_MESSAGE, MESSAGE_CONTENT );
app_error_flag = c3gea_rsp_check( );
c3gea_error_check( app_error_flag );
Delay_ms( 10000 );
Delay_ms( 10000 );
Delay_ms( 10000 );
}
}
}
void main ( void ) {
application_init( );
for ( ; ; ) {
application_task( );
}
}
static void c3gea_clear_app_buf ( void ) {
memset( app_buf, 0, app_buf_len );
app_buf_len = 0;
app_buf_cnt = 0;
}
static err_t c3gea_process ( void ) {
err_t return_flag = APP_ERROR_DRIVER;
int32_t rx_size;
char rx_buff[ PROCESS_BUFFER_SIZE ] = { 0 };
rx_size = c3gea_generic_read( &c3gea, rx_buff, PROCESS_BUFFER_SIZE );
if ( rx_size > 0 ) {
int32_t buf_cnt = 0;
return_flag = APP_OK;
if ( app_buf_len + rx_size >= PROCESS_BUFFER_SIZE ) {
c3gea_clear_app_buf( );
return_flag = APP_ERROR_OVERFLOW;
} else {
buf_cnt = app_buf_len;
app_buf_len += rx_size;
}
for ( int32_t rx_cnt = 0; rx_cnt < rx_size; rx_cnt++ ) {
if ( rx_buff[ rx_cnt ] != 0 ) {
app_buf[ ( buf_cnt + rx_cnt ) ] = rx_buff[ rx_cnt ];
} else {
app_buf_len--;
buf_cnt--;
}
}
}
return return_flag;
}
static err_t c3gea_rsp_check ( void ) {
uint16_t timeout_cnt = 0;
uint32_t timeout = 100000;
err_t error_flag = c3gea_process( );
if ( ( error_flag != 0 ) && ( error_flag != -1 ) ) {
return error_flag;
}
while ( ( strstr( app_buf, RSP_OK ) == 0 ) && ( strstr( app_buf, RSP_ERROR ) == 0 ) ) {
error_flag = c3gea_process( );
if ( ( error_flag != 0 ) && ( error_flag != -1 ) ) {
return error_flag;
}
timeout_cnt++;
if ( timeout_cnt > timeout ) {
while ( ( strstr( app_buf, RSP_OK ) == 0 ) && ( strstr( app_buf, RSP_ERROR ) == 0 ) ) {
c3gea_send_cmd( &c3gea, C3GEA_CMD_AT );
c3gea_process( );
Delay_ms( 100 );
}
c3gea_clear_app_buf( );
return APP_ERROR_TIMEOUT;
}
Delay_ms( 1 );
}
c3gea_check_connection();
c3gea_log_app_buf();
return APP_OK;
}
static void c3gea_error_check( err_t error_flag ) {
if ( ( error_flag != 0 ) && ( error_flag != -1 ) ) {
switch ( error_flag ) {
case -2:
log_error( &logger, " Overflow!" );
break;
case -3:
log_error( &logger, " Timeout!" );
break;
default:
break;
}
}
}
static void c3gea_log_app_buf ( void ) {
for ( int32_t buf_cnt = 0; buf_cnt < app_buf_len; buf_cnt++ ) {
log_printf( &logger, "%c", app_buf[ buf_cnt ] );
}
log_printf( &logger, "\r\n-----------------------------------\r\n" );
c3gea_clear_app_buf( );
}
static void c3gea_check_connection( void ) {
#define CONNECTED "+CREG: 1,1"
if ( strstr( app_buf, CONNECTED ) != 0 ) {
app_connection_status = CONNECTED_TO_NETWORK;
}
}
// ------------------------------------------------------------------------ END
