Difference between revisions of "EM06-E LTE Cat-6 HAT"
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=Feature= | =Feature= | ||
*Integrated multi-constellation high-precision positioning GNSS: GPS, GLONASS, BeiDou/Compass, Galileo, QZSS*. | *Integrated multi-constellation high-precision positioning GNSS: GPS, GLONASS, BeiDou/Compass, Galileo, QZSS*. | ||
− | *Integrate rich network protocols, support multiple drivers and software functions, and support operating systems such as Windows, Linux and Android. | + | *Integrate rich network protocols, support multiple drivers and software functions, and support operating systems such as Windows, Linux, and Android. |
− | *Onboard USB 3.1 interface, backward compatible with USB 2.0, can be used to connect to a computer, Raspberry Pi or Jetson Nano for high-speed LTE-A Internet access. | + | *Onboard USB 3.1 interface, backward compatible with USB 2.0, can be used to connect to a computer, Raspberry Pi, or Jetson Nano for high-speed LTE-A Internet access. |
− | *Onboard M.2 B KEY standard interface, compatible with optional EM06-E, EM06-J, EM06-A series modules. | + | *Onboard M.2 B KEY standard interface, compatible with optional EM06-E, EM06-J, and EM06-A series modules. |
− | *On-board PWR and RST control pins, which can be enabled through DIP switches, and external IO ports to control module on/off and reset. | + | *On-board PWR and RST control pins, which can be enabled through DIP switches, and external IO ports to control the module on/off and reset. |
− | *On-board USB Type-C interface, which can be enabled by switch, can be used for external power supply to supply power to the module separately, so as to connect more loads, the power supply is stable and flexible. | + | *On-board USB Type-C interface, which can be enabled by the switch, can be used for external power supply to supply power to the module separately, so as to connect more loads, the power supply is stable and flexible. |
− | *On-board power switch, reset button and LED indicator light, which is convenient for the control module to switch on and off and check the running status. | + | *On-board power switch, reset button, and LED indicator light, which is convenient for the control module to switch on and off and check the running status. |
*There are 4 channels of SMA to IPEX antenna conversion interface reserved, and 2 channels are welded by default when shipped. The antenna is easy to install, and the position of the SMA antenna can be flexibly customized and replaced. | *There are 4 channels of SMA to IPEX antenna conversion interface reserved, and 2 channels are welded by default when shipped. The antenna is easy to install, and the position of the SMA antenna can be flexibly customized and replaced. | ||
*On-board high-efficiency power circuit that can output up to 3A. | *On-board high-efficiency power circuit that can output up to 3A. | ||
Line 25: | Line 25: | ||
{| class="wikitable" | {| class="wikitable" | ||
|- class="ps-grey" | |- class="ps-grey" | ||
− | |-align="center" | + | |-align="center" | |
− | | | + | |'''LTE Cat 6'''||EM06-E||EM060K-GL |
− | '''LTE Cat 6''' | ||
|- | |- | ||
− | | align="center" | | + | | align="center" | |
− | Region/ | + | Region/Provider |
− | | align="center" | EMEA / APAC (except Japan and CMCC) / Brazil | + | | align="center" |EMEA / APAC (except Japan and CMCC) / Brazil |
+ | | align="center"|Global | ||
|- | |- | ||
− | | align="center" | | + | |-align="center" | |
− | Module | + | |Module Size |
− | | | + | |colspan="2"| |
− | |-align="center" | + | 42.0 × 30.0 × 2.3 (mm) |
− | | colspan=" | + | |-align="center"| |
+ | | colspan="3" | | ||
'''Temperature Range''' | '''Temperature Range''' | ||
− | |||
− | |||
− | |||
− | |||
− | |||
− | |||
− | |||
− | |||
|-align="center" | |-align="center" | ||
− | | colspan="2" | | + | |Operating Temperature |
− | + | |colspan="2" | | |
+ | -30°C ~ +70°C | ||
|- | |- | ||
− | | align="center" | | + | |-align="center" | |
− | LTE-FDD | + | |Extended Temperature |
− | | align="center" |B1, B3, B5, B7, B8, B20, B28, | + | | colspan="2" | -40°C ~ +85°C |
+ | |-align="center" | ||
+ | | colspan="3" | | ||
+ | '''Frequency Band''' | ||
+ | |-align="center" | | ||
+ | |LTE-FDD | ||
+ | | align="center" |B1, B3, B5, B7, B8, B20, B28, B32② ||B1, B2, B3, B4, B5, B7, B8, B12, B13, B14, B17, B18, B19, B20, B25, B26, B28, B29③, B30, B32③, B66, B71 | ||
|- | |- | ||
− | | align="center" | | + | | align="center" | |
− | LTE-TDD | + | LTE-TDD |
− | | align="center" |B38, B40, B41 | + | | align="center" |B38, B40, B41||-B34, B38, B39, B40, B41, B42, B43, B46③ (LAA), B48 (CBRS) |
+ | |||
|- | |- | ||
| align="center" | | | align="center" | | ||
2xCA | 2xCA | ||
− | | align="center" | | + | |align="center"|B1+B1, B5, B8, B20, B28, B3+B3, B5, B7, B8, B20, B28, B7+B5, B7, B8, B20, B28,B20+B32②, B38+B38; B40+B40; B41+B41|| Intra-band, Inter-band |
− | B1+B1, B5, B8, B20, B28 | ||
− | B3+B3, B5, B7, B8, B20, B28 | ||
− | B7+B5, B7, B8, B20, | ||
− | |||
− | B40+B40 | ||
|- | |- | ||
| align="center" | | | align="center" | | ||
− | WCDMA | + | WCDMA |
− | | align="center" |B1, B3, B5, B8 | + | | align="center" |B1, B3, B5, B8||B1, B2, B3, B4, B5, B6, B8, B19 |
|- | |- | ||
| align="center" | | | align="center" | | ||
− | GNSS | + | GNSS |
− | | align="center" |GPS/GLONASS/BeiDou (Compass)/Galileo/QZSS | + | | align="center" |GPS/GLONASS/BeiDou (Compass)/Galileo/QZSS||GPS/GLONASS/BDS/Galileo |
− | |-align="center" | + | |-align="center" |
− | | colspan=" | + | | colspan="3" | |
− | ''' | + | '''Data Transmission''' |
|- | |- | ||
| align="center" | | | align="center" | | ||
LTE-FDD | LTE-FDD | ||
− | | align="center" |300 Mbps (DL) / 50 Mbps (UL) | + | | align="center" | |
+ | 300 Mbps (DL) / 50 Mbps (UL) | ||
+ | | rowspan="2" |300 Mbps (DL) / 50 Mbps (UL) | ||
|- | |- | ||
| align="center" | | | align="center" | | ||
LTE-TDD | LTE-TDD | ||
− | | align="center" | 226 Mbps (DL) / 28 Mbps (UL) | + | | align="center" |226 Mbps (DL) / 28 Mbps (UL) |
|- | |- | ||
− | | align="center" | | + | |-align="center" | |
− | DC-HSPA+ | + | |DC-HSPA+ |
− | | | + | | colspan="2"|42 Mbps (DL) / 5.76 Mbps (UL) |
− | |- | + | |-align="center"| |
− | + | |WCDMA | |
− | WCDMA | + | | colspan="2" |384 Kbps (DL) / 384 Kbps (UL) |
− | | | + | |-align="center" |
+ | |Note: | ||
+ | |colspan="2"| | ||
+ | ① Excluding Japan and CMCC; ② B32 in LTE-FDD supports reception only and is used for auxiliary component carrier only in 2×CA; ③ B29/B32 in LTE-FDD and B46 in LTE-TDD support reception only and are used for auxiliary component carrier only. | ||
|} | |} | ||
− | = Test | + | = Test Instruction = |
− | + | ==AT Command== | |
{| class="wikitable" | {| class="wikitable" | ||
|- | |- | ||
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=Windows Instruction= | =Windows Instruction= | ||
==Install Driver== | ==Install Driver== | ||
− | *After connecting the EM06-E LTE Cat-6 HAT to the computer through a double-ended usb3.0 data cable, there are a series of devices without drivers installed on other devices | + | *After connecting the EM06-E LTE Cat-6 HAT to the computer through a double-ended usb3.0 data cable, there are a series of devices without drivers installed on other devices. |
[[File:em06 driver.png]] | [[File:em06 driver.png]] | ||
*Download the driver [https://www.waveshare.net/w/upload/f/f0/RM500U_Windows_MBIM_v1.2.zip]to your computer and unzip the compressed package. | *Download the driver [https://www.waveshare.net/w/upload/f/f0/RM500U_Windows_MBIM_v1.2.zip]to your computer and unzip the compressed package. | ||
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*Click setup.exe to install the driver. After the installation is complete, the device manager will generate the following devices: | *Click setup.exe to install the driver. After the installation is complete, the device manager will generate the following devices: | ||
[[File:mbim.png]] | [[File:mbim.png]] | ||
+ | |||
==MBIM Dial-up== | ==MBIM Dial-up== | ||
*Open the AT port of EM06-E and send the following commands to dial up the Internet: | *Open the AT port of EM06-E and send the following commands to dial up the Internet: | ||
Line 147: | Line 149: | ||
*After dialing and restarting, the corresponding network card appears on the network connection interface, and the dialing is successful. | *After dialing and restarting, the corresponding network card appears on the network connection interface, and the dialing is successful. | ||
[[File:em06 driver 2.png]] | [[File:em06 driver 2.png]] | ||
− | =User Guides of Raspberry= | + | =User Guides of Raspberry Pi= |
==RNDIS Dail-up== | ==RNDIS Dail-up== | ||
*Connect the USB port of EM06-E LTE Cat-6 HAT to the USB port of Raspberry Pi, and then execute the command to see if the device and ttyUSB2 can be recognized normally. | *Connect the USB port of EM06-E LTE Cat-6 HAT to the USB port of Raspberry Pi, and then execute the command to see if the device and ttyUSB2 can be recognized normally. | ||
− | [[File: | + | [[File: EM060K-GL LTE Cat-6 19.png]] |
− | *Open minicom | + | *Open minicom. |
sudo apt-get install minicom | sudo apt-get install minicom | ||
sudo minicom -D /dev/ttyUSB2 | sudo minicom -D /dev/ttyUSB2 | ||
− | *Send the following command RNDIS dial in minicom | + | *Send the following command RNDIS dial in minicom. |
AT+QENG="servingcell" | AT+QENG="servingcell" | ||
AT+QCFG="usbnet",1 | AT+QCFG="usbnet",1 | ||
AT+CFUN=1,1 | AT+CFUN=1,1 | ||
− | [[File: | + | [[File: EM060K-GL LTE Cat-6 HAT20.png]] |
− | *After the module restarts, the NET light is on, use the following command to check the network status (optional) | + | *After the module restarts, the NET light is on, use the following command to check the network status (optional). |
AT+QENG="servingcell" | AT+QENG="servingcell" | ||
*Get the IP and set the DNS with the following commands: | *Get the IP and set the DNS with the following commands: | ||
Line 166: | Line 168: | ||
sudo udhcpc -i usb0 | sudo udhcpc -i usb0 | ||
sudo route add -net 0.0.0.0 usb0 | sudo route add -net 0.0.0.0 usb0 | ||
− | *After dialing, you can see that usb0 has obtained the | + | *After dialing, you can see that usb0 has obtained the IP by using the following command: |
Ifconfig | Ifconfig | ||
− | [[File: | + | [[File: EM060K-GL LTE Cat-6 HAT21.png]] |
− | *Test usb0 networking status | + | *Test usb0 networking status: |
ping -I usb0 www.baidu.com | ping -I usb0 www.baidu.com | ||
− | [[File: | + | [[File: EM060K-GL LTE Cat-6 HAT22.png]] |
+ | |||
==GNSS Example== | ==GNSS Example== | ||
===AT command to obtain positioning information=== | ===AT command to obtain positioning information=== | ||
− | *Install | + | *Install Minicom and open the ttyUSB2 port. |
sudo apt-get install minicom | sudo apt-get install minicom | ||
sudo minicom -D /dev/ttyUSB2 | sudo minicom -D /dev/ttyUSB2 | ||
− | *Send the following command through minicom to turn on GNSS and obtain positioning information | + | *Send the following command through minicom to turn on GNSS and obtain positioning information. |
AT+QGPS=1 | AT+QGPS=1 | ||
AT+QGPSGNMEA="GGA" | AT+QGPSGNMEA="GGA" | ||
− | [[File: | + | [[File: EM060K-GL LTE Cat-6 23.png]] |
− | *Open the ttyUSB1 port (NMEA port) to receive satellite data | + | *Open the ttyUSB1 port (NMEA port) to receive satellite data. |
sudo minicom -D /dev/ttyUSB2 | sudo minicom -D /dev/ttyUSB2 | ||
− | [[File: | + | [[File: EM060K-GL LTE Cat-6 HAT24.png]] |
− | *Close GNSS | + | *Close GNSS. |
AT+QGPSEND | AT+QGPSEND | ||
+ | |||
===Program to obtain positioning information=== | ===Program to obtain positioning information=== | ||
− | *Enter the following command line in the Raspberry Pi terminal | + | *Enter the following command line in the Raspberry Pi terminal: |
<pre> | <pre> | ||
− | wget https:// | + | wget https://files.waveshare.com/upload/9/98/EM06E_GNSS_GAODE.zip |
sudo apt-get install python3-pip | sudo apt-get install python3-pip | ||
sudo pip3 install pyserial | sudo pip3 install pyserial | ||
Line 197: | Line 201: | ||
sudo python3 EM06E_GNSS_GAODE.zip | sudo python3 EM06E_GNSS_GAODE.zip | ||
</pre> | </pre> | ||
− | [[File: | + | [[File: EM060K-GL LTE Cat-6 HAT99.png]] |
+ | |||
=Resource= | =Resource= | ||
==Program== | ==Program== | ||
− | *[https:// | + | |
+ | *[https://files.waveshare.com/upload/9/98/EM06E_GNSS_GAODE.zip GNSS] | ||
==Data Manual== | ==Data Manual== | ||
− | *[https:// | + | *[https://files.waveshare.com/upload/b/b9/Quectel_rg50xq%26rm5xxq_series_gnss_application_note_v1.2.pdf EM06-E GNSS Guide] |
+ | |||
+ | ==Driver== | ||
+ | *[https://www.waveshare.com/wiki/File:Quectel_Windows_USB_Driver(Q)_NDIS_V2.3.3.zip Windows_USB_Driver(Q)_NDIS]<br> | ||
+ | *[https://www.waveshare.com/wiki/File:Quectel_Windows_USB_Driver(Q)_RNDIS_V1.0.9.zip Quectel_Windows_USB_Driver(Q)_RNDIS] | ||
− | |||
− | |||
=FAQ= | =FAQ= | ||
+ | {{RM520N-GL FAQ}} | ||
+ | <!-- | ||
{{FAQ|Which platform is the RM500U-CN based on? | {{FAQ|Which platform is the RM500U-CN based on? | ||
|RM500U-CN is based on Zhanrui platform | |RM500U-CN is based on Zhanrui platform | ||
Line 236: | Line 246: | ||
}} | }} | ||
{{FAQ|After receiving the Raspberry Pi, it keeps restarting, what is the reason? | {{FAQ|After receiving the Raspberry Pi, it keeps restarting, what is the reason? | ||
− | |The 5G module consumes a lot of power, especially at the moment of network access; the Raspberry Pi has limited power supply capacity | + | |The 5G module consumes a lot of power, especially at the moment of network access; the Raspberry Pi has limited power supply capacity and can be powered by a 5V (3A) power supply through the onboard TYPE-C interface. |
}} | }} | ||
{{FAQ|Can't access the Internet after restarting the Raspberry Pi? | {{FAQ|Can't access the Internet after restarting the Raspberry Pi? | ||
|When using an external power supply, after restarting the Raspberry Pi, the RM500U does not restart. At this time, you can restart the RM500U with the command and so on. | |When using an external power supply, after restarting the Raspberry Pi, the RM500U does not restart. At this time, you can restart the RM500U with the command and so on. | ||
}} | }} | ||
− | + | --> | |
− | {{ | + | =Support= |
+ | {{Servicebox1}} |
Latest revision as of 07:28, 20 February 2024
| ||
Feature
- Integrated multi-constellation high-precision positioning GNSS: GPS, GLONASS, BeiDou/Compass, Galileo, QZSS*.
- Integrate rich network protocols, support multiple drivers and software functions, and support operating systems such as Windows, Linux, and Android.
- Onboard USB 3.1 interface, backward compatible with USB 2.0, can be used to connect to a computer, Raspberry Pi, or Jetson Nano for high-speed LTE-A Internet access.
- Onboard M.2 B KEY standard interface, compatible with optional EM06-E, EM06-J, and EM06-A series modules.
- On-board PWR and RST control pins, which can be enabled through DIP switches, and external IO ports to control the module on/off and reset.
- On-board USB Type-C interface, which can be enabled by the switch, can be used for external power supply to supply power to the module separately, so as to connect more loads, the power supply is stable and flexible.
- On-board power switch, reset button, and LED indicator light, which is convenient for the control module to switch on and off and check the running status.
- There are 4 channels of SMA to IPEX antenna conversion interface reserved, and 2 channels are welded by default when shipped. The antenna is easy to install, and the position of the SMA antenna can be flexibly customized and replaced.
- On-board high-efficiency power circuit that can output up to 3A.
Parameter
LTE Cat 6 | EM06-E | EM060K-GL |
Region/Provider |
EMEA / APAC (except Japan and CMCC) / Brazil | Global |
Module Size |
42.0 × 30.0 × 2.3 (mm) | |
Temperature Range | ||
Operating Temperature |
-30°C ~ +70°C | |
Extended Temperature | -40°C ~ +85°C | |
Frequency Band | ||
LTE-FDD | B1, B3, B5, B7, B8, B20, B28, B32② | B1, B2, B3, B4, B5, B7, B8, B12, B13, B14, B17, B18, B19, B20, B25, B26, B28, B29③, B30, B32③, B66, B71 |
LTE-TDD |
B38, B40, B41 | -B34, B38, B39, B40, B41, B42, B43, B46③ (LAA), B48 (CBRS) |
2xCA |
B1+B1, B5, B8, B20, B28, B3+B3, B5, B7, B8, B20, B28, B7+B5, B7, B8, B20, B28,B20+B32②, B38+B38; B40+B40; B41+B41 | Intra-band, Inter-band |
WCDMA |
B1, B3, B5, B8 | B1, B2, B3, B4, B5, B6, B8, B19 |
GNSS |
GPS/GLONASS/BeiDou (Compass)/Galileo/QZSS | GPS/GLONASS/BDS/Galileo |
Data Transmission | ||
LTE-FDD |
300 Mbps (DL) / 50 Mbps (UL) |
300 Mbps (DL) / 50 Mbps (UL) |
LTE-TDD |
226 Mbps (DL) / 28 Mbps (UL) | |
DC-HSPA+ | 42 Mbps (DL) / 5.76 Mbps (UL) | |
WCDMA | 384 Kbps (DL) / 384 Kbps (UL) | |
Note: |
① Excluding Japan and CMCC; ② B32 in LTE-FDD supports reception only and is used for auxiliary component carrier only in 2×CA; ③ B29/B32 in LTE-FDD and B46 in LTE-TDD support reception only and are used for auxiliary component carrier only. |
Test Instruction
AT Command
Command | Introduction | Return |
---|---|---|
AT | AT test instruction | OK |
ATE | ATE1 set up echo ATE0 close echo |
OK |
AT+CGMI | Query module manufacturers | OK |
AT+CGMM | Query the module model | OK |
AT+CGSN | Query product serial numbers | OK |
AT+CSUB | Query the module version and chip | OK |
AT+CGMR | Query the firmware version serial number | OK |
AT+IPR? | Set the module hardware serial port baud rate | +IPR: OK |
AT+CPIN? | Query the status of the SIM card, return READY, the SIM card can be returned after normal networking |
+CPIN: READY |
AT+COPS? | Query the current operator, the operator information will be returned after normal networking |
+COPS: OK |
AT+CGREG? | Query network registration status | +CGREG: OK |
AT+QENG="servingcell" | Query US system information | |
AT+QCFG="nwscanmode" | Network mode query: 0:Automatic 2:WCDMA only 3:LTE only ... .... |
OK |
AT+CFUN=1,1 | Reset module | OK |
Windows Instruction
Install Driver
- After connecting the EM06-E LTE Cat-6 HAT to the computer through a double-ended usb3.0 data cable, there are a series of devices without drivers installed on other devices.
- Download the driver [1]to your computer and unzip the compressed package.
- Enter the RM500U_Driver directory.
- Click setup.exe to install the driver. After the installation is complete, the device manager will generate the following devices:
MBIM Dial-up
- Open the AT port of EM06-E and send the following commands to dial up the Internet:
AT+QENG="servingcell" AT+QCFG="usbnet",2 AT+CFUN=1,1
- After dialing and restarting, the corresponding network card appears on the network connection interface, and the dialing is successful.
User Guides of Raspberry Pi
RNDIS Dail-up
- Connect the USB port of EM06-E LTE Cat-6 HAT to the USB port of Raspberry Pi, and then execute the command to see if the device and ttyUSB2 can be recognized normally.
- Open minicom.
sudo apt-get install minicom sudo minicom -D /dev/ttyUSB2
- Send the following command RNDIS dial in minicom.
AT+QENG="servingcell" AT+QCFG="usbnet",1 AT+CFUN=1,1
- After the module restarts, the NET light is on, use the following command to check the network status (optional).
AT+QENG="servingcell"
- Get the IP and set the DNS with the following commands:
sudo dhclient -v usb0 sudo apt-get install udhcpc sudo udhcpc -i usb0 sudo route add -net 0.0.0.0 usb0
- After dialing, you can see that usb0 has obtained the IP by using the following command:
Ifconfig
- Test usb0 networking status:
ping -I usb0 www.baidu.com
GNSS Example
AT command to obtain positioning information
- Install Minicom and open the ttyUSB2 port.
sudo apt-get install minicom sudo minicom -D /dev/ttyUSB2
- Send the following command through minicom to turn on GNSS and obtain positioning information.
AT+QGPS=1 AT+QGPSGNMEA="GGA"
- Open the ttyUSB1 port (NMEA port) to receive satellite data.
sudo minicom -D /dev/ttyUSB2
- Close GNSS.
AT+QGPSEND
Program to obtain positioning information
- Enter the following command line in the Raspberry Pi terminal:
wget https://files.waveshare.com/upload/9/98/EM06E_GNSS_GAODE.zip sudo apt-get install python3-pip sudo pip3 install pyserial sudo apt-get install unzip unzip EM06E_GNSS_GAODE.zip sudo chmod 777 EM06E_GNSS_GAODE.zip sudo python3 EM06E_GNSS_GAODE.zip
Resource
Program
Data Manual
Driver
FAQ
As RM500U-CN and RM500Q-GL modules support simultaneous access to two SIM cards, dual-card single standby, can be switched to enable one of the SIM cards to work through the AT command:
*SIM card 1 is used by default, you can use the following commands to check: AT+QUIMSLOT? *Switch to SIM card 2 using the following commands: AT+QUIMSLOT=2 *Switch to SIM card using the following commands: AT+QUIMSLOT=1 *Query whether the corresponding card slot identifies the SIM card: AT+CPIN?
{{{5}}}
- Qualcomm platform:
AT+QCFG="data_interface" AT+QCFG="data_interface",0 //Switch to the default USB mode
- Zhanrui platform:
AT+QCFG="ethernet",0
{{{5}}}
Please use the following commands to configure the dial-up mode to a stable routing mode:
AT+QCFG="nat",1
{{{5}}}
RM500U-CN: based on Zhanrui
RM500Q-GL: based on the Qualcomm platform, supports GNSS positioning, mainly for China
RM500q-AE/RM502Q-AE: based on the Qualcomm platform, supports GNSS positioning, mainly for countries except for China.
{{{5}}}
{{{5}}}
{{{5}}}
AT+QCFG="usbnet",0 driver type is NDIS(QMI)); AT+QCFG="usbnet",1 The driver type is ECM; AT+QCFG="usbnet",2 The driver type is MBIM; (RM5XXQ support) AT+QCFG="usbnet",3 The driver type is RNDIS AT+QCFG="usbnet",5 The driver type is NCM;
{{{5}}}
ATE1
{{{5}}}
Yes, it is a Qualcomm X62 platform like RM520.
{{{5}}}
Support
Technical Support
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