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MIKROE-2226
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3G-EA click is a versatile cellular network communication solution, featuring the compact 3G UMTS/HSPA Quectel UG95 module. This module features a full set of options for the cellular networking and communication, such as the network indication, embedded TCP/UDP stack, HTTP/HTTPS stack, full GSM/GPRS/EDGE implementation, UMTS/HSDPA/HSUPA protocol implementation and more. 3G-EA click features data-rates of 7.2 Mb/s (downlink) and 5.76 Mb/s (uplink) in HSPA mode. Onboard 16bit audio CODEC IC adds high-quality voice communication capability.
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3G-EA click is a versatile cellular network communication solution, featuring the compact 3G UMTS/HSPA Quectel UG95 module. This module features a full set of options for the cellular networking and communication, such as the network indication, embedded TCP/UDP stack, HTTP/HTTPS stack, full GSM/GPRS/EDGE implementation, UMTS/HSDPA/HSUPA protocol implementation and more. 3G-EA click features data-rates of 7.2 Mb/s (downlink) and 5.76 Mb/s (uplink) in HSPA mode. Onboard 16bit audio CODEC IC adds high-quality voice communication capability.
3G-EA click is qualified to work at European and Australian UTMS frequency bands. A wide range of Internet protocols and connectivity options, as well as the Quectel’s simple AT command interface via the UART bus, make this click board™ perfectly suited for a wide range of M2M applications, such as mobile Internet terminals, automatic meter reading (AMR), remote monitoring automation and control (RMAC), surveillance and security, road pricing, asset tracking, fleet management, anti-theft systems, point of sales (PoS) terminals, and similar applications which rely on a cellular network connection.
As previously mentioned, 3G-EA click is equipped with the compact dual-band 3G UMTS/HSPA Quectel UG95 module, from Quectel Wireless Solutions Company. This click board™ is compliant with the European and Australian UTMS frequency bands. For the American region, please visit the 3G-AA product page. A complete list of supported frequencies, along with other relevant info about the module itself can be found in the Quectel UG95 module datasheet. This device is the main component of the click board and it consists of a number of internal blocks or sections, such as 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. This interface consists of several lines used to report the device and the network status, SIM card interface lines, UART interface lines, USB interface lines, I2C bus lines, device control lines, and PCM bus lines. These lines are routed to the respective elements of the click board.
The Quectel UG95 module has to be powered by a clean and stable power supply. The voltage needed for the module to work properly is about 4V and it is derived from the 5V mikroBUS™ rail, through the MCP1826, a 1A low drop output (LDO) regulator from Microchip. Although the Quectel UG95 module is a low power device, the cellular network modules, in general, are notorious for their high power consumption when working in the active mode, so the 1A LDO had to be used.
Digital sections of the Quectel UG95 are internally supplied by 1.8V, so it is necessary to condition the communication bus lines which connect the host MCU with the module. For this reason, another small LDO is used, providing a needed reference voltage for one side of the TXB0106, a 6bit bidirectional level shifting and voltage translator with automatic direction sensing, from Texas Instruments. The reference voltage for the other side of the level shifter is taken from the onboard SMD jumper, labeled as I/O SEL. This jumper is used to select between 3.3V and 5V from the mikroBUS™, depending on the used MCU type and its logic voltage level requirements.
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 upgrade.
The UART bus of the Quectel UG95 module is connected to one side of the level shifter, while the other side (shifted) is connected to the respective mikroBUS™ UART pins. However, the Quectel UG95 module is designed as the traditional DCE device (Data Communication Equipment) offering the full UART pin count, including the hardware flow control pins (CTS, RTS). These pins are routed to the mikroBUS™ CS (RTS) and the INT pin (CTS) and can be used in the MCU software if hardware flow control is needed. The RI pin is the ringing indicator, and it is routed to the mikroBUS™ PWM pin.
The STAT pin is used to signalize the status of the device. This pin is routed both to the mikroBUS™ AN pin through the level shifter, and the yellow LED used to visually indicate the device status. The network status is indicated by the red TXD LED, located next to the STAT LED. The network status is indicated by the TXD LED, using the following pattern:
The PWRKEY pin is routed to the mikroBUS™ RST pin, and it is used during the power-up sequence. A low pulse on this pin for at least 100ms will power up the device if the valid supply voltage is provided. The successful action will be indicated by the STAT LED and the STAT (AN) pin. It is recommended to safely turn off the module by issuing the AT+QPOWD command. This command will let the module log off from the network and allow the firmware to save important data, before completely disconnecting the power supply.
The Quectel UG95 offers the PCM interface, used for digital audio. The MAX9860, a 16bit mono audio voice CODEC IC from Maxim Integrated, provides the 3G-EA click with the voice communication. The MAX9860 IC uses the PCM and I2C interfaces to communicate with the Quectel UG95 module. It is also powered with 1.8V from the LDO, so no level shifting is required in this case. 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 equipped with the micro USB connector. It allows the module to be powered and configured by a personal computer (PC). Quectel Wireless Solutions Company offers a software suite that can be used with the 3G-EA click board.
The Micro SIM card holder on the back of the click board™ is used to install a micro SIM card. This device cannot be used without the valid SIM card, which allows connection to the cellular network. Both 1.8V and 3V SIM card types are supported.
If you are not familiar with cellular network standards and protocols and are not sure whether you need GSM or 3G or 4G, read our learn.mikroe.com article about 2G/3G/4G to get a better understanding.
Type
3G UMTS,GSM/LTE
Applications
Used for mobile Internet terminals, automatic meter reading (AMR), remote monitoring automation and control (RMAC), surveillance and security, road pricing, and similar M2M applications which rely on a cellular network connection.
On-board modules
3G UMTS/HSPA Quectel UG95 module, from Quectel; MCP1826, a 1A low drop output (LDO) regulator from Microchip; TXB0106, a 6bit bidirectional level shifter from Texas Instruments
Key Features
Network indication, embedded TCP/UDP stack, HTTP/HTTPS stack, full GSM/GPRS/EDGE implementation, UMTS/HSDPA/HSUPA protocol implementation, audio CODEC and more
Interface
UART,USB
Feature
No ClickID
Compatibility
mikroBUS™
Click board size
L (57.15 x 25.4 mm)
Input Voltage
3.3V or 5V
Category
Click Boards
This table shows how the pinout on 3G-EA click corresponds to the pinout on the mikroBUS™ socket (the latter shown in the two middle columns).
Label | Name | Default | Description |
---|---|---|---|
LD1 | NET | - | Network status LED |
LD2 | STAT | - | Module power status LED |
JP1 | I/O SEL. | Left | Logic level voltage selection: left position 3V3, right position 5V |
We provide a library for 3G-EA click click on our Libstock page, as well as a demo application (example), developed using MikroElektronika compilers and mikroSDK. The provided click library is mikroSDK standard compliant. The demo application can run on all the main MikroElektronika development boards.
Library Description
The library carries generic command parser adopted for AT command based modules. Generic parser.
Key functions:
c3g_cmdSingle
- Sends the provided command to the module.c3g_setHandler
- Handler assignation to the provided command.c3g_modulePower
- Turns on the module.Examples Description
Example demo application waits for the call. After the call is received the parser will get a hangup call.
This code snippet shows how generic parser should be properly initialized.
Before initialization, the module must be turned on and in additional to this, the hardware
flow control should also be turned on.
void applicationInit() { // MODULE POWER ON c3g_hfcEnable( true ); c3g_modulePower( true ); // MODULE INIT c3g_cmdSingle( "AT" ); c3g_cmdSingle( "ATE0" ); c3g_cmdSingle( "AT+IFC=2,2" ); c3g_cmdSingle( "AT+CMGF=1" ); }
Along with the demo application, timer initialization functions are provided. Note that timer is configured according to the default development system and MCUs, changing the system or MCU may require an update of timer init and timer ISR functions.
The full application code, and ready to use projects can be found on our Libstock page.
Other mikroE Libraries used in the example:
Additional notes and information
Depending on the development board you are using, you may need USB UART click, USB UART 2 click or RS232 click to connect to your PC, for development systems with no UART to USB interface available on the board. The terminal available in all MikroElektronika compilers, or any other terminal application of your choice, can be used to read the message.
This click board is supported with mikroSDK - MikroElektronika Software Development Kit. To ensure proper operation of mikroSDK compliant click board demo applications, mikroSDK should be downloaded from the LibStock and installed for the compiler you are using.
For more information about mikroSDK, visit the official page.