中级
20 分钟
使用UG95和STM32G431RB突破地理界限
从欧洲的中心到澳大利亚的风景
已发布 11月 08, 2024
点击板
3G-EA Click (for EU and Australia)
开发板
Nucleo 64 with STM32G431RB MCU
编译器
NECTO Studio
微控制器单元
STM32G431RB
通过我们的双频蜂窝通信解决方案,感受全球通信的力量,该解决方案适用于欧洲和澳大利亚的UMTS频段。从欧洲到澳大利亚,无论您的旅程带您去哪里,我们都会让您保持连接。
A
A
硬件概览
它是如何工作的?
3G-EA Click基于来自Quectel的UG95-E,这是一款超小型的UMTS/HSPA模块,具有高速无线连接功能。该模块是Click板的主要组件,由多个内部模块或部分组成,例如天线切换部分、射频收发器部分、存储器、电源管理,最重要的是 - 移动基带处理器。该部分包含了管理其他部分所需的逻辑,并提供与主机MCU的接口。Click板背面的Micro SIM卡插槽用于安装MicroSIM卡。如果没有有效的SIM卡,此设备将无法使用,SIM卡允许连接到蜂窝网络。支持1.8V和3V SIM卡类型。Quectel UG95提供了用于数字音频的PCM接口。来自Analog Devices的16位单声道音频语音CODEC IC MAX9860为3G-EA Click提供语音通信。MAX9860 IC使用
PCM和I2C接口与Quectel UG95模块通信。该IC为连接耳机提供了清晰可听的模拟接口,具有一个音频输出通道和一个麦克风输 入通道。耳机可以通过板载的3.5mm音频插孔连接。3G-EA Click还配备了一个Micro-USB连接器。它允许通过个人电脑(PC)为模块供电和配置。Quectel提供了一个可与3G-EA Click板一起使用的软件套件。3G-EA Click使用标准的2线UART接口与主机MCU通信,使用常用的UART RX和TX。UART接口支持300、1200、2400、4800、9600、19200、38400、57600、115200、230400、460800和921600bps的波特率, 默认设置为自动波特率检测,在4800和115200之间。 UART接口可用于数据传输、
TAT通信或固件升级。3G-EA Click通过UART RTS和CTS引脚提供完整的硬件流控制。由于UG95内部由1.8V供电,所以3G-EA Click使用来自德州仪器的6位双向电平转换和电压转换器TXB0106。此外,3G-EA Click具有一个RI指示器和一个PWK作为电源键,在上电序列期间使用。 STA是一个状态引脚,用于指示设备的状态,另外还有STAT LED。另一个LED是TXD,用于指示网络状态。这个Click板可以通过I/O SEL跳线选择3.3V或5V逻辑电压电平运行。这样,既支持3.3V又支持5V的MCU可以正确使用通信线。此外,这个Click板配备了一个包含易于使用的功能和示例代码的库,可用作进一步开发的参考。
功能概述
开发板
Nucleo-64 搭载 STM32G431RB MCU 提供了一种经济高效且灵活的平台,供开发者探索新想法并原型设计他们的项目。该板利用 STM32 微控制器的多功能性,使用户能够为他们的项目选择最佳的性能与功耗平衡。它配备了 LQFP64 封装的 STM32 微控制器,并包含了如用户 LED(同时作为 ARDUINO® 信号)、用户和复位按钮,以及 32.768kHz 晶体振荡器用于精确的计时操作等基本组件。Nucleo-64 板设计考虑到扩展性和灵活性,它特有的 ARDUINO® Uno
V3 扩展连接器和 ST morpho 扩展引脚头,提供了对 STM32 I/O 的完全访问,以实现全面的项目整合。电源供应选项灵活,支持 ST-LINK USB VBUS 或外部电源,确保在各种开发环境中的适应性。该板还配备了一个具有 USB 重枚举功能的板载 ST-LINK 调试器/编程器,简化了编程和调试过程。此外,该板设计旨在简化高级开发,它的外部 SMPS 为 Vcore 逻辑供电提供高效支持,支持 USB 设备全速或 USB SNK/UFP 全速,并内置加密功能,提升了项目的功效
和安全性。通过外部 SMPS 实验的专用连接器、 用于 ST-LINK 的 USB 连接器以及 MIPI® 调试连接器,提供了更多的硬件接口和实验可能性。开发者将通过 STM32Cube MCU Package 提供的全面免费软件库和示例得到广泛支持。这些,加上与多种集成开发环境(IDE)的兼容性,包括 IAR Embedded Workbench®、MDK-ARM 和 STM32CubeIDE,确保了流畅且高效的开发体验,使用户能够充分利用 Nucleo-64 板在他们的项目中的能力。
微控制器概述
MCU卡片 / MCU
建筑
ARM Cortex-M4
MCU 内存 (KB)
128
硅供应商
STMicroelectronics
引脚数
64
RAM (字节)
32k
你完善了我!
配件
Click Shield for Nucleo-64 配备了两个专有的 mikroBUS™ 插座,使得所有的 Click board™ 设备都可以轻松地与 STM32 Nucleo-64 开发板连接。这样,Mikroe 允许其用户从不断增长的 Click boards™ 范围中添加任何功能,如 WiFi、GSM、GPS、蓝牙、ZigBee、环境传感器、LED、语音识别、电机控制、运动传感器等。您可以使用超过 1537 个 Click boards™,这些 Click boards™ 可以堆叠和集成。STM32 Nucleo-64 开发板基于 64 引脚封装的微控制器,采用 32 位 MCU,配备 ARM Cortex M4 处理器,运行速度为 84MHz,具有 512Kb Flash 和 96KB SRAM,分为两个区域,顶部区域代表 ST-Link/V2 调试器和编程器,而底部区域是一个实际的开发板。通过 USB 连接方便地控制和供电这些板子,以便直接对 Nucleo-64 开发板进行编程和高效调试,其中还需要额外的 USB 线连接到板子上的 USB 迷你接口。大多数 STM32 微控制器引脚都连接到了板子左右边缘的 IO 引脚上,然后连接到两个现有的 mikroBUS™ 插座上。该 Click Shield 还有几个开关,用于选择 mikroBUS™ 插座上模拟信号的逻辑电平和 mikroBUS™ 插座本身的逻辑电压电平。此外,用户还可以通过现有的双向电平转换器,使用任何 Click board™,无论 Click board™ 是否在 3.3V 或 5V 逻辑电压电平下运行。一旦将 STM32 Nucleo-64 开发板与我们的 Click Shield for Nucleo-64 连接,您就可以访问数百个工作于 3.3V 或 5V 逻辑电压电平的 Click boards™。
Rubber Antenna GSM/GPRS Right Angle是我们广泛产品线中所有 GSM Click 板的理想伴侣。这款专业天线设计旨在优化您的无线连接,并具有出色的特点。它具有广泛的频率范围,涵盖了824-894/1710-1990MHz或890-960/1710-1890MHz,可以处理各种频段,确保无缝可靠的连接。该天线阻抗为50欧姆,增益为2dB,增强了信号接收和传输。其70/180MHz的带宽为各种应用提供了灵活性。垂直极化进一步提高了性能。这款天线最大输入功率容量为50W,即使在苛刻条件下也能保证稳健的通信。尺寸紧凑,长度为50mm,并配有 SMA 阴性连接器,是您无线通信需求的多功能紧凑解决方案。
使用的MCU引脚
mikroBUS™映射器
Status Indicator
PA15
AN
Module Power-Up
PC12
RST
UART RTS
PB12
CS
NC
NC
SCK
NC
NC
MISO
NC
NC
MOSI
Power Supply
3.3V
3.3V
Ground
GND
GND
UART RI
PC8
PWM
UART CTS
PC14
INT
UART TX
PA3
TX
UART RX
PA2
RX
NC
NC
SCL
NC
NC
SDA
Power Supply
5V
5V
Ground
GND
GND
1
“仔细看看!”
Click board™ 原理图
一步一步来
项目组装
从选择您的开发板和Click板™开始。以Nucleo 64 with STM32G431RB MCU作为您的开发板开始。
软件支持
库描述
这个库包含了3G-EA Click驱动程序的API。
关键函数:
c3gea_set_sim_apn- 设置SIM卡的APN。c3gea_send_sms_text- 向手机号码发送文本消息。c3gea_send_sms_pdu- 以PDU模式向手机号码发送文本消息。
开源
代码示例
完整的应用程序代码和一个现成的项目可以通过NECTO Studio包管理器直接安装到NECTO Studio。 应用程序代码也可以在MIKROE的GitHub账户中找到。
/*!
* @file main.c
* @brief 3G-EA Click Example.
*
* # Description
* Application example shows device capability of connecting to the network and
* sending SMS or TCP/UDP messages using standard "AT" commands.
*
* The demo application is composed of two sections :
*
* ## Application Init
* Initializes the driver, tests the communication by sending "AT" command, and after that restarts the device.
*
* ## Application Task
* Application task is split in few stages:
* - C3GEA_CONFIGURE_FOR_NETWORK:
* Sets configuration to device to be able to connect to the network.
*
* - C3GEA_WAIT_FOR_CONNECTION:
* Waits for the network registration indicated via CREG URC event and then checks
* the connection status.
*
* - C3GEA_CONFIGURE_FOR_EXAMPLE:
* Sets the device configuration for sending SMS or TCP/UDP messages depending on the selected demo example.
*
* - C3GEA_EXAMPLE:
* Depending on the selected demo example, it sends an SMS message (in PDU or TXT mode) or TCP/UDP message.
*
* By default, the TCP/UDP example is selected.
*
* ## Additional Function
* - static void c3gea_clear_app_buf ( void )
* - static err_t c3gea_process ( void )
* - static void c3gea_error_check( err_t error_flag )
* - static void c3gea_log_app_buf ( void )
* - static err_t c3gea_rsp_check ( uint8_t *rsp )
* - static err_t c3gea_configure_for_connection( void )
* - static err_t c3gea_check_connection( void )
* - static err_t c3gea_configure_for_messages( void )
* - static err_t c3gea_send_message( void )
*
* @note
* In order for the examples to work, user needs to set the APN and SMSC (SMS PDU mode only)
* of entered SIM card as well as the phone number (SMS mode only) to which he wants to send an SMS.
* Enter valid values for the following macros: SIM_APN, SIM_SMSC and PHONE_NUMBER_TO_MESSAGE.
* Example:
SIM_APN "internet"
SIM_SMSC "+381610401"
PHONE_NUMBER_TO_MESSAGE "+381659999999"
*
* @author Stefan Filipovic
*
*/
#include "board.h"
#include "log.h"
#include "c3gea.h"
#include "conversions.h"
// Example selection macros
#define EXAMPLE_TCP_UDP 0 // Example of sending messages to a TCP/UDP echo server
#define EXAMPLE_SMS 1 // Example of sending SMS to a phone number
#define DEMO_EXAMPLE EXAMPLE_TCP_UDP // Example selection macro
// SIM APN config
#define SIM_APN "" // Set valid SIM APN
// SMS example parameters
#define SIM_SMSC "" // Set valid SMS Service Center Address - only in SMS PDU mode
#define PHONE_NUMBER_TO_MESSAGE "" // Set Phone number to message
#define SMS_MODE "1" // SMS mode: "0" - PDU, "1" - TXT
// TCP/UDP example parameters
#define REMOTE_IP "77.46.162.162" // TCP/UDP echo server IP address
#define REMOTE_PORT "51111" // TCP/UDP echo server port
// Message content
#define MESSAGE_CONTENT "3G-EA Click board - demo example."
// Application buffer size
#define APP_BUFFER_SIZE 256
#define PROCESS_BUFFER_SIZE 256
/**
* @brief Example states.
* @details Predefined enum values for application example state.
*/
typedef enum
{
C3GEA_CONFIGURE_FOR_NETWORK = 1,
C3GEA_WAIT_FOR_CONNECTION,
C3GEA_CONFIGURE_FOR_EXAMPLE,
C3GEA_EXAMPLE
} c3gea_example_state_t;
static c3gea_t c3gea;
static log_t logger;
/**
* @brief Application example variables.
* @details Variables used in application example.
*/
static uint8_t app_buf[ APP_BUFFER_SIZE ] = { 0 };
static int32_t app_buf_len = 0;
static err_t error_flag;
static c3gea_example_state_t example_state;
/**
* @brief Clearing application buffer.
* @details This function clears memory of application
* buffer and reset its length and counter.
*/
static void c3gea_clear_app_buf ( void );
/**
* @brief Data reading function.
* @details This function reads data from device and
* appends it to the application buffer.
* @return @li @c 0 - Some data is read.
* @li @c -1 - Nothing is read.
* See #err_t definition for detailed explanation.
*/
static err_t c3gea_process ( void );
/**
* @brief Check for errors.
* @details This function checks for different types of
* errors and logs them on UART or logs the response if no errors occured.
* @param[in] error_flag Error flag to check.
*/
static void c3gea_error_check ( err_t error_flag );
/**
* @brief Logs application buffer.
* @details This function logs data from application buffer.
*/
static void c3gea_log_app_buf ( void );
/**
* @brief Response check.
* @details This function checks for response and
* returns the status of response.
* @param[in] rsp Expected response.
* @return @li @c 0 - OK response.
* @li @c -2 - Timeout error.
* @li @c -3 - Command error.
* @li @c -4 - Unknown error.
* See #err_t definition for detailed explanation.
*/
static err_t c3gea_rsp_check ( uint8_t *rsp );
/**
* @brief Configure device for connection to the network.
* @details Sends commands to configure and enable
* connection to the specified network.
* @return @li @c 0 - OK response.
* @li @c -2 - Timeout error.
* @li @c -3 - Command error.
* @li @c -4 - Unknown error.
* See #err_t definition for detailed explanation.
*/
static err_t c3gea_configure_for_network ( void );
/**
* @brief Wait for connection signal.
* @details Wait for connection signal from CREG URC.
* @return @li @c 0 - OK response.
* @li @c -2 - Timeout error.
* @li @c -3 - Command error.
* @li @c -4 - Unknown error.
* See #err_t definition for detailed explanation.
*/
static err_t c3gea_check_connection ( void );
/**
* @brief Configure device for example.
* @details Configure device for the specified example.
* @return @li @c 0 - OK response.
* @li @c -2 - Timeout error.
* @li @c -3 - Command error.
* @li @c -4 - Unknown error.
* See #err_t definition for detailed explanation.
*/
static err_t c3gea_configure_for_example ( void );
/**
* @brief Execute example.
* @details This function executes SMS or TCP/UDP example depending on the DEMO_EXAMPLE macro.
* @return @li @c 0 - OK response.
* @li @c -2 - Timeout error.
* @li @c -3 - Command error.
* @li @c -4 - Unknown error.
* See #err_t definition for detailed explanation.
*/
static err_t c3gea_example ( void );
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 );
if ( UART_ERROR == c3gea_init( &c3gea, &c3gea_cfg ) )
{
log_error( &logger, " Application Init Error. " );
log_info( &logger, " Please, run program again... " );
for ( ; ; );
}
c3gea_process( );
c3gea_clear_app_buf( );
// Check communication
c3gea_send_cmd( &c3gea, C3GEA_CMD_AT );
error_flag = c3gea_rsp_check( C3GEA_RSP_OK );
c3gea_error_check( error_flag );
// Restart device
#define RESTART_DEVICE "1,1"
c3gea_send_cmd_with_par( &c3gea, C3GEA_CMD_CFUN, RESTART_DEVICE );
error_flag = c3gea_rsp_check( C3GEA_RSP_OK );
c3gea_error_check( error_flag );
log_info( &logger, " Application Task " );
example_state = C3GEA_CONFIGURE_FOR_NETWORK;
}
void application_task ( void )
{
switch ( example_state )
{
case C3GEA_CONFIGURE_FOR_NETWORK:
{
if ( C3GEA_OK == c3gea_configure_for_network( ) )
{
example_state = C3GEA_WAIT_FOR_CONNECTION;
}
break;
}
case C3GEA_WAIT_FOR_CONNECTION:
{
if ( C3GEA_OK == c3gea_check_connection( ) )
{
example_state = C3GEA_CONFIGURE_FOR_EXAMPLE;
}
break;
}
case C3GEA_CONFIGURE_FOR_EXAMPLE:
{
if ( C3GEA_OK == c3gea_configure_for_example( ) )
{
example_state = C3GEA_EXAMPLE;
}
break;
}
case C3GEA_EXAMPLE:
{
c3gea_example( );
break;
}
default:
{
log_error( &logger, " Example state." );
break;
}
}
}
int main ( void )
{
/* Do not remove this line or clock might not be set correctly. */
#ifdef PREINIT_SUPPORTED
preinit();
#endif
application_init( );
for ( ; ; )
{
application_task( );
}
return 0;
}
static void c3gea_clear_app_buf ( void )
{
memset( app_buf, 0, app_buf_len );
app_buf_len = 0;
}
static err_t c3gea_process ( void )
{
uint8_t rx_buf[ PROCESS_BUFFER_SIZE ] = { 0 };
int32_t rx_size = 0;
rx_size = c3gea_generic_read( &c3gea, rx_buf, PROCESS_BUFFER_SIZE );
if ( rx_size > 0 )
{
int32_t buf_cnt = app_buf_len;
if ( ( ( app_buf_len + rx_size ) > APP_BUFFER_SIZE ) && ( app_buf_len > 0 ) )
{
buf_cnt = APP_BUFFER_SIZE - ( ( app_buf_len + rx_size ) - APP_BUFFER_SIZE );
memmove ( app_buf, &app_buf[ APP_BUFFER_SIZE - buf_cnt ], buf_cnt );
}
for ( int32_t rx_cnt = 0; rx_cnt < rx_size; rx_cnt++ )
{
if ( rx_buf[ rx_cnt ] )
{
app_buf[ buf_cnt++ ] = rx_buf[ rx_cnt ];
if ( app_buf_len < APP_BUFFER_SIZE )
{
app_buf_len++;
}
}
}
return C3GEA_OK;
}
return C3GEA_ERROR;
}
static err_t c3gea_rsp_check ( uint8_t *rsp )
{
uint32_t timeout_cnt = 0;
uint32_t timeout = 120000;
c3gea_clear_app_buf( );
c3gea_process( );
while ( ( 0 == strstr( app_buf, rsp ) ) &&
( 0 == strstr( app_buf, C3GEA_RSP_ERROR ) ) )
{
c3gea_process( );
if ( timeout_cnt++ > timeout )
{
c3gea_clear_app_buf( );
return C3GEA_ERROR_TIMEOUT;
}
Delay_ms ( 1 );
}
Delay_ms ( 100 );
c3gea_process( );
if ( strstr( app_buf, rsp ) )
{
return C3GEA_OK;
}
else if ( strstr( app_buf, C3GEA_RSP_ERROR ) )
{
return C3GEA_ERROR_CMD;
}
else
{
return C3GEA_ERROR_UNKNOWN;
}
}
static void c3gea_error_check ( err_t error_flag )
{
switch ( error_flag )
{
case C3GEA_OK:
{
c3gea_log_app_buf( );
break;
}
case C3GEA_ERROR:
{
log_error( &logger, " Overflow!" );
break;
}
case C3GEA_ERROR_TIMEOUT:
{
log_error( &logger, " Timeout!" );
break;
}
case C3GEA_ERROR_CMD:
{
log_error( &logger, " CMD!" );
break;
}
case C3GEA_ERROR_UNKNOWN:
default:
{
log_error( &logger, " Unknown!" );
break;
}
}
Delay_ms ( 500 );
}
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 ] );
}
}
static err_t c3gea_configure_for_network ( void )
{
err_t func_error = C3GEA_OK;
#if ( ( DEMO_EXAMPLE == EXAMPLE_TCP_UDP ) || ( DEMO_EXAMPLE == EXAMPLE_SMS ) )
Delay_ms ( 1000 );
Delay_ms ( 1000 );
Delay_ms ( 1000 );
Delay_ms ( 1000 );
Delay_ms ( 1000 );
// Deregister from network
#define DEREGISTER_FROM_NETWORK "2"
c3gea_send_cmd_with_par( &c3gea, C3GEA_CMD_COPS, DEREGISTER_FROM_NETWORK );
error_flag = c3gea_rsp_check( C3GEA_RSP_OK );
func_error |= error_flag;
c3gea_error_check( error_flag );
// Set SIM APN
c3gea_set_sim_apn( &c3gea, SIM_APN );
error_flag = c3gea_rsp_check( C3GEA_RSP_OK );
func_error |= error_flag;
c3gea_error_check( error_flag );
// Enable full functionality
#define FULL_FUNCTIONALITY "1"
c3gea_send_cmd_with_par( &c3gea, C3GEA_CMD_CFUN, FULL_FUNCTIONALITY );
error_flag = c3gea_rsp_check( C3GEA_RSP_OK );
func_error |= error_flag;
c3gea_error_check( error_flag );
// Enable network registartion
#define ENABLE_REG "2"
c3gea_send_cmd_with_par( &c3gea, C3GEA_CMD_CREG, ENABLE_REG );
error_flag = c3gea_rsp_check( C3GEA_RSP_OK );
func_error |= error_flag;
c3gea_error_check( error_flag );
// Automatic registration
#define AUTOMATIC_REGISTRATION "0"
c3gea_send_cmd_with_par( &c3gea, C3GEA_CMD_COPS, AUTOMATIC_REGISTRATION );
error_flag = c3gea_rsp_check( C3GEA_RSP_OK );
func_error |= error_flag;
c3gea_error_check( error_flag );
#endif
return func_error;
}
static err_t c3gea_check_connection ( void )
{
#if ( ( DEMO_EXAMPLE == EXAMPLE_TCP_UDP ) || ( DEMO_EXAMPLE == EXAMPLE_SMS ) )
#define CONNECTED "+CREG: 2,1"
c3gea_send_cmd_check ( &c3gea, C3GEA_CMD_CREG );
error_flag = c3gea_rsp_check( C3GEA_RSP_OK );
c3gea_error_check( error_flag );
if ( strstr( app_buf, CONNECTED ) )
{
Delay_ms ( 100 );
c3gea_process( );
c3gea_log_app_buf( );
log_printf( &logger, "\r\n" );
c3gea_clear_app_buf( );
// Check signal quality
c3gea_send_cmd( &c3gea, C3GEA_CMD_CSQ );
error_flag = c3gea_rsp_check( C3GEA_RSP_OK );
c3gea_error_check( error_flag );
return error_flag;
}
Delay_ms ( 1000 );
return C3GEA_ERROR;
#endif
return C3GEA_OK;
}
static err_t c3gea_configure_for_example ( void )
{
err_t func_error = C3GEA_OK;
#if ( DEMO_EXAMPLE == EXAMPLE_TCP_UDP )
#define ACTIVATE_PDP_CONTEXT "1"
c3gea_send_cmd_with_par( &c3gea, C3GEA_CMD_QIACT, ACTIVATE_PDP_CONTEXT );
error_flag = c3gea_rsp_check( C3GEA_RSP_OK );
func_error |= error_flag;
c3gea_error_check( error_flag );
#elif ( DEMO_EXAMPLE == EXAMPLE_SMS )
c3gea_send_cmd_with_par( &c3gea, C3GEA_CMD_CMGF, SMS_MODE );
error_flag = c3gea_rsp_check( C3GEA_RSP_OK );
func_error |= error_flag;
c3gea_error_check( error_flag );
#else
#error "No demo example selected"
#endif
return func_error;
}
static err_t c3gea_example ( void )
{
err_t func_error = C3GEA_OK;
#if ( DEMO_EXAMPLE == EXAMPLE_TCP_UDP )
uint8_t cmd_buf[ 100 ] = { 0 };
uint8_t tcp_socket_num[ 2 ] = { '0', 0 };
uint8_t udp_socket_num[ 2 ] = { '1', 0 };
#define CONTEXT_ID "1,"
// Open TCP socket.
#define TCP_SERVICE_TYPE ",\"TCP\","
strcpy( cmd_buf, CONTEXT_ID );
strcat( cmd_buf, tcp_socket_num );
strcat( cmd_buf, TCP_SERVICE_TYPE );
strcat( cmd_buf, "\"" );
strcat( cmd_buf, REMOTE_IP );
strcat( cmd_buf, "\"" );
strcat( cmd_buf, "," );
strcat( cmd_buf, REMOTE_PORT );
c3gea_send_cmd_with_par( &c3gea, C3GEA_CMD_QIOPEN, cmd_buf );
error_flag = c3gea_rsp_check( C3GEA_RSP_OK );
func_error |= error_flag;
c3gea_error_check( error_flag );
// Open UDP socket.
#define UDP_SERVICE_TYPE ",\"UDP\","
strcpy( cmd_buf, CONTEXT_ID );
strcat( cmd_buf, udp_socket_num );
strcat( cmd_buf, UDP_SERVICE_TYPE );
strcat( cmd_buf, "\"" );
strcat( cmd_buf, REMOTE_IP );
strcat( cmd_buf, "\"" );
strcat( cmd_buf, "," );
strcat( cmd_buf, REMOTE_PORT );
c3gea_send_cmd_with_par( &c3gea, C3GEA_CMD_QIOPEN, cmd_buf );
error_flag = c3gea_rsp_check( C3GEA_RSP_OK );
func_error |= error_flag;
c3gea_error_check( error_flag );
// Get message length
uint8_t message_len_buf[ 10 ] = { 0 };
uint16_t message_len = strlen( MESSAGE_CONTENT );
uint16_to_str( message_len, message_len_buf );
l_trim( message_len_buf );
r_trim( message_len_buf );
// Write message to TCP socket and read response
strcpy( cmd_buf, tcp_socket_num );
strcat( cmd_buf, "," );
strcat( cmd_buf, message_len_buf );
c3gea_send_cmd_with_par( &c3gea, C3GEA_CMD_QISEND, cmd_buf );
Delay_ms ( 100 );
c3gea_generic_write ( &c3gea, MESSAGE_CONTENT, message_len );
error_flag = c3gea_rsp_check( C3GEA_RSP_OK );
func_error |= error_flag;
c3gea_error_check( error_flag );
Delay_ms ( 1000 );
c3gea_send_cmd_with_par( &c3gea, C3GEA_CMD_QIRD, cmd_buf );
error_flag = c3gea_rsp_check( C3GEA_RSP_OK );
func_error |= error_flag;
c3gea_error_check( error_flag );
// Write message to UDP socket and read response
strcpy( cmd_buf, udp_socket_num );
strcat( cmd_buf, "," );
strcat( cmd_buf, message_len_buf );
c3gea_send_cmd_with_par( &c3gea, C3GEA_CMD_QISEND, cmd_buf );
Delay_ms ( 100 );
c3gea_generic_write ( &c3gea, MESSAGE_CONTENT, message_len );
error_flag = c3gea_rsp_check( C3GEA_RSP_OK );
func_error |= error_flag;
c3gea_error_check( error_flag );
Delay_ms ( 1000 );
c3gea_send_cmd_with_par( &c3gea, C3GEA_CMD_QIRD, cmd_buf );
error_flag = c3gea_rsp_check( C3GEA_RSP_OK );
func_error |= error_flag;
c3gea_error_check( error_flag );
// Close TCP socket
c3gea_send_cmd_with_par( &c3gea, C3GEA_CMD_QICLOSE, tcp_socket_num );
error_flag = c3gea_rsp_check( C3GEA_RSP_OK );
func_error |= error_flag;
c3gea_error_check( error_flag );
// Close UDP socket
c3gea_send_cmd_with_par( &c3gea, C3GEA_CMD_QICLOSE, udp_socket_num );
error_flag = c3gea_rsp_check( C3GEA_RSP_OK );
func_error |= error_flag;
c3gea_error_check( error_flag );
Delay_ms ( 1000 );
Delay_ms ( 1000 );
Delay_ms ( 1000 );
Delay_ms ( 1000 );
Delay_ms ( 1000 );
#elif ( DEMO_EXAMPLE == EXAMPLE_SMS )
// Check SMS mode
#define CMGF_PDU "+CMGF: 0"
#define CMGF_TXT "+CMGF: 1"
c3gea_send_cmd_check( &c3gea, C3GEA_CMD_CMGF );
error_flag = c3gea_rsp_check( C3GEA_RSP_OK );
func_error |= error_flag;
c3gea_error_check( error_flag );
if ( strstr( app_buf, CMGF_PDU ) )
{
// Send SMS in PDU mode
c3gea_send_sms_pdu( &c3gea, SIM_SMSC, PHONE_NUMBER_TO_MESSAGE, MESSAGE_CONTENT );
error_flag = c3gea_rsp_check( C3GEA_RSP_OK );
func_error |= error_flag;
c3gea_error_check( error_flag );
}
else if ( strstr( app_buf, CMGF_TXT ) )
{
// Send SMS in TXT mode
c3gea_send_sms_text ( &c3gea, PHONE_NUMBER_TO_MESSAGE, MESSAGE_CONTENT );
error_flag = c3gea_rsp_check( C3GEA_RSP_OK );
func_error |= error_flag;
c3gea_error_check( error_flag );
}
// 30 seconds delay
Delay_ms ( 1000 );
Delay_ms ( 1000 );
Delay_ms ( 1000 );
Delay_ms ( 1000 );
Delay_ms ( 1000 );
Delay_ms ( 1000 );
Delay_ms ( 1000 );
Delay_ms ( 1000 );
Delay_ms ( 1000 );
Delay_ms ( 1000 );
Delay_ms ( 1000 );
Delay_ms ( 1000 );
Delay_ms ( 1000 );
Delay_ms ( 1000 );
Delay_ms ( 1000 );
Delay_ms ( 1000 );
Delay_ms ( 1000 );
Delay_ms ( 1000 );
Delay_ms ( 1000 );
Delay_ms ( 1000 );
Delay_ms ( 1000 );
Delay_ms ( 1000 );
Delay_ms ( 1000 );
Delay_ms ( 1000 );
Delay_ms ( 1000 );
Delay_ms ( 1000 );
Delay_ms ( 1000 );
Delay_ms ( 1000 );
Delay_ms ( 1000 );
Delay_ms ( 1000 );
#else
#error "No demo example selected"
#endif
return func_error;
}
// ------------------------------------------------------------------------ END
额外支持
资源
类别:GSM/LTE
