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The SIMCom SIM7600A-H Audio mPCIe is Multi-Band LTE-FDD module solution in a mPCIe form factor. SIM7600A-H is a LTE CAT4 module with support of up to 150Mbps downlink data transfer.
With abundant application capability like TCP/UDP/FTP/FTPS/HTTP/HTTPS/DNS, the module provides much flexibility and ease of integration for customer's application.
SIM7600A-H is for the North American market. This version of SIM7600A-H supports analogue audio.
Standard version without audio is also available, 10781 SIMCom SIM7600A-H CAT-4 mPCIe US
Datasheet document for the SIM7600x -H series LTE cat4 modules.
This document describes the hardware of the SIMCom SIM7600* and SIM7600* -H miniPCIe modules.
This document describes the electronic specifications, RF specifications, interfaces, mechanical characteristics and testing results of the SIMCom SIM7600E and SIM7600E-H module. With the help of this document and other software application notes/user guides, users can understand and use module to design and develop applications quickly.
Simcom SIM7500 series and SIM7600 series AT commands manual
This Application Note PDF document describes how the USB Voice/Audio feature for Simcom SIM7x00 series modules.
This manual gives general guidelines worth considering when designing and selecting main and diversity antennas for cellular applications.
This archive contains the SIMCOM:
SIM7X00 Series_GPIO_Application Note_V1.00.pdf
SIM7X00 Series_GPS_Application Note_V1.00.pdf
SIM7X00 Series_SAT_Application Note_V1.00.pdf
SIM7X00 Series_Sleep Mode_Application Note_V1.00.pdf
SIM7X00 Series_SMS_Application Note_V1.00.pdf
SIM7X00 Series_TCPIP_Application Note_V1.00.pdf
SIM7X00 Series_UART_Application Note_V1.00.pdf
SIM7100_SIM7500_SIM7600 Series_LBS_Application Note_V1.00.pdf
SIM7100_SIM7500_SIM7600 Series_UIM HOT SWAP_Application Note_V1.01.pdf
SIM7100_SIM7500_SIM7600 Series_USB AUDIO_Application Note_V1.03.pdf
SIM7100_SIM7500_SIM7600_Sleep Mode_Application Note_V1.01.pdf
SIM7100_SIM7600M22 Series_TTS_Application Note_V1.02.pdf
SIM7500_SIM7600 Series_Delta_Package_Update_Application Note_V1.02.pdf
SIM7500_SIM7600_SIM7800 Series_FTPS_AT Command Manual_V1.00.pdf
SIM7500_SIM7600_SIM7800 Series_HTTP_AT Command Manual_V1.00.pdf
SIM7500_SIM7600_SIM7800 Series_MQTT_AT Command Manual_V1.00.pdf
SIM7500_SIM7600_SIM7800 Series_SSL_AT Command Manual_V1.00.pdf
SIM7500_SIM7600_SIM7800 Series_TCPIP_AT Command Manual_V1.00.pdf
SIM7600 Hardware Design Notice V1.02.pdf
This document is a reference guide to all the AT commands defined for FTP(S). Through these FTP AT commands, you can download files from FTP(S) server or upload files to FTP(S) server.
This document is a reference guide to all the AT commands defined for HTTP(S). Through these HTTP AT commands, you can send HTTP GET/POST request to HTTP server and read HTTP response from HTTP server.
This archive contains REACH reports for Simcom SIM7600 and SIM7600 -H series variants cellular modules, both for SMT and miniPCIe variants.
This archive contains ROHS reports for Simcom SIM7600 and SIM7600 -H series variants cellular modules, both for SMT and miniPCIe variants.
This archive contains the SIMcom SIM7500 and SIM7600 series modules Linux base firmware update tool and source code and update guide.
This archive contains the Windows operating system drivers for the SIM7000, SIM7100, SIM7230, SIM7500, SIM7600, SIM7800 series Qualcomm chipset based cellular modules. Please refer to the installation instructions document for USB mode selection details.
This archive contains the SIMCom SIM7500 - SIM7600 series modules Linux NDIS driver and system integration guide
This archive contains the Simcom SIM7500 and SIM7600 Series Linux Network NDIS driver installation files and guide on how to install them without rebuilding the kernel.
Please relate to FAQ "How to integrate Simcom SIM7500/SIM7600 Series Linux NDIS driver without rebuilding kernel" for further details.
This archive contains the RIL library and drivers for Android versions 4.0, 4.2, 4.4, 5 ,6 ,7 and 8
Included is also the related user guide.
This archive contains the Windows firmware update tool for SIM7500 and SIM7600-series modules.
Please follow the included instructions regarding usage.
This archive contains the Windows firmware update tool for SIM53-series, SIM7-series and SIM89-series modules.
Please follow the included instructions regarding installation and usage.
This archive contains the Simcom SIM7600A-H firmware LE11B03SIM7600A-H update files and release notes
How do we configure the Simcom SIM7100, SIM7500 and SIM7600 series cellular modules for usage in Windows 8 and 10 systems and support Windows built-in connection manager?
The Simcom modules are by default set in a USB configuration used most often by Linux and Windows 7 systems. If you want to use the module in Windows 8, 8.1, 10 systems with the Windows integrated connection manager you have to once configure and set the module to expose Mobile Broadband Interface Model (MBIM) interface as bellow:
Start by installing the latest Simcom series Windows drivers (instructions included in download package). They can be found on on our dedicated product web pages.
In Windows device manager you can now find a serial interface called e.g."SimTech HS-USB AT Port 9001 (COM5)" Memorize the COM* interface number in your system.
Open a command prompt with admin rights (right click Windows icon in bottom left corner). Copy and paste the command bellow, edit port number to match the one in your system and hit enter. The command will then be sent to module overt the serial interface.
ECHO AT+CUSBPIDSWITCH=9003,1,1 >\\.\COM5
If the command is received successfully by module, a restart of the cellular module will be performed and it appears with the new USB endpoints supporting Windows 8 systems and later.
Make sure that all Simcom module end points are correctly loaded in Windows device manager, a system restart might be necessary also.
By clicking the Windows network connection symbol in the start bar or navigating to the "Cellular" topic in Windows system settings you can now activate the connection and configure APN details and enter PIN code if it is necessary for the cellular connection and subscription you have.
How to collect initial diagnostics data and logs for Simcom cellular modules, needed when requesting Techship technical support?
In order to troubleshoot and solve a technical problem, we ask you to please provide information about your host system and logs from the related Simcom module when creating a technical support ticket.
Detailed problem description and in what situations it present or can be reproduced.
Describe the host system:
-Hardware (system board, peripherals...)
-Operating system and detailed versions (E.g. Windows, Linux release, kernel...)
-Drivers and driver versions
Identify the precise details of cellular module found on label:
-SKU/BOM or P/N code
(For RMA returns the IMEI number is mandatory)
If you are running on a Linux based system, please capture the terminal logs bellow:
ls -l /dev/serial/by-id
ls -l /sys/bus/usb-serial/devices
The logs from the cellular module firmware can be acquired by accessing the USB enumerated serial (COM) interfaces accepting AT commands. They can be named modem, AT, PC UI etc. (In Windows device manager, found under modem or serial interfaces). Send the following AT commands bellow to module and capture the output and include them when creating the the technical support ticket.
Test that you get a reply with command:
Command echo enabled:
Basic module info:
Detailed module version info:
Verbose error reporting:
Last error report:
USB endpoint configuration:
List current configuration:
Request UE system info:
Preferred network mode:
Preferred band selection:
Preferred acquisition order:
List network operator info:
Network registration status:
Network EPS registration status:
Packet domain attach status
List APN details/PDP profiles:
PDP profiles attach status:
Show PDP IP address:
RM network interface status:
The support ticket can be created after login at: https://techship.com/technical_support/
How-to change the cellular modulesUSB composition mode to Mobile Broadband Interface Model (MBIM) used by Windows 8 and 10 systems for controlling and establishing data connectivity through the built-in connection manager in Windows?
This is done by sending a set of AT commands to the cellular modules Modem or AT serial interface found in Windows Device Manager. Please see list below for associated AT commands.
(For additional details, refer to the product specific software, ports, and AT commands guides found on the Techship product web pages under technical documentation tab).
After the AT commands have been received by the module and has restarted, the USB interface endpoint composition should have changed to include MBIM interface as well.
You can find the correct Serial COM port number by checking Windows Device Manager, under the Modems drop down -> (right click and see properties for selected COM port info) or under the Ports (COM & LPT) drop down.
Vendor specific commands to use:
Sierra Wireless EM75xx series module:
Sierra Wireless EM74xx, MC74xx series module:
Sierra Wireless EM73xx, MC73xx series module:
Simcom SIM7100, SIM7500 and SIM7600 series modules:
ZTE Welink ME3630 series:
Telit LE910C1 and LE910C4 series:
Telit LM940 and LM940A11:
Telit LM960 and LM960A18:
Telit LE910 V2 series:
On Huawei and Telit LN94x series modules the USB mode changing is done automatically by the modules Windows drivers based on current Windows version.
Please be aware that some USB mode configurations do not include any serial interfaces, making it impossible to revert the changes using AT commands.
How can we establish data connection for cellular modules in Windows 8 and Windows 10 systems?
Microsoft Windows desktop versions starting from Windows 8 and newer have built in data connection manager for WWAN, Wifi etc. that can be used to configure, control and establish the data connection of cellular module that support MBIM interface, which most cellular modules do.
The connection managers settings and controls can be found and accessed on Windows desktop start menu through the network icon (see picture).
The Cellular tab can be found in Windows system settings and if needed the connection APN details can be manually entered through "Advanced options".
What Linux kernel modules and configs are commonly used for communicating with cellular modules over their USB interface?
Most cellular modules can be supported in Linux by using som of the in-kernel drivers. The physical data interface to the host Linux system is usually done over USB which enumerates a set of different endpoints/interfaces. A set of serial interfaces for Modem/PPP, AT commands, NMEA location data and chipset debug information are almost always available in all configurations.
In addition some type of network endpoint/interface are also available and exposed. This can vary between manufacturers and chipset vendors and can also commonly be configurable by using USB configuration mode switching or through vendor specific AT commands.
Recommended kernel configurations to enable are listed bellow. Many cellular modules base their Linux support on these modules and drivers. Once included in the kernel build, the USB interfaces will be detected and bound correctly out-of-the-box or after applying source code patches to the driver modules.
Configs for USB serial drivers:
Configs for Modem/PPP support:
Configs for USB network drivers:
Please relate to the Techship product specific web pages for vendor specific Linux integration guides.
Below is a selection of kernel commits relating to cellular module support in Linux kernels:
qmi_wwan: Add support for Fibocom NL678 series
qmi_wwan: Added support for Telit LN940 series
qmi_wwan: Added support for Fibocom NL668 series
USB: serial: option: add support for GosunCn ME3630 RNDIS mode
USB: serial: option: add support for Simcom SIM7500/SIM7600 RNDIS mode
USB: serial: option: add Simcom SIM7500/SIM7600 (MBIM mode)
USB: serial: option: add Fibocom NL678 series
USB: serial: option: add Telit LN940 series
USB: serial: option: add Fibocom NL668 series
USB: serial: option: add GosunCn ZTE WeLink ME3630
qmi_wwan: apply SET_DTR quirk to the SIMCOM shared device ID
If you use any of the listed cellular modules, drivers and specified USB modes in the commits above, ensure that your kernel version already include the patch or apply it to your build.
We cannot acquire an DHCP address over qmi_wwan driver when using Raspbian Linux OS?
Raspbian uses dhcpd to probe all available network interfaces found in the system, which is problematic for the qmi_wwan driver interface, if it is done before being configured properly when using cellular modules supporting only Raw-IP.
This can be avoided by setting dhcpd to deny the related cellular module network interface (most often named wwan0 by the system).
Add to the /etc/dhcpcd.conf file in Raspbian the following line (in the end):
Now, restart the system (preferably re-power it) so cellular module fully restarts also.
At next startup, the settings should be applied and you can now configure and use the qmi interface as described in some of the others faq's, found on the Techship webpage.
How can we integrate the Simcom SIM7500/SIM7600 Series Linux NDIS driver in Linux kernel without rebuilding it?
The Simcom SIM7500/SIM7600 series Linux NDIS network driver can be built and installed without rebuilding the complete Linux kernel your OS distribution uses. Please see steps and pre-requirements bellow and download the attached "Simcom SIM7500 and SIM7600 Series Linux Network NDIS driver installation files and guide (without kernel rebuild)" archive to get started.
Should you instead want to include the NDIS driver into your customized Linux kernel build, please relate to "SIMCom SIM7500 - SIM7600 series modules Linux NDIS driver and system integration guide V2.01" attached to the FAQ.
All commands are supposed to be executed with elevated system privileges/as root user.
Ensure that your original kernel was built with the following config options enabled, this will allow the option and usbnet driver pre-requirments to be included in kernel. (usually already included in larger distributions)
Build-tools and Linux header files for your kernel version are also required, these can be installed e.g. through your OS distributions package manager, on Debian/Ubuntu systems:
apt-get install build-essential make gcc
apt-get install linux-headers-`uname -r`
The in-kernel qmi_wwan driver should be blacklisted and prevented from loading as it will block the Simcom wwan driver, this is how it can be done e.g. in Ubuntu systems:
grep -q -F 'blacklist qmi_wwan' /etc/modprobe.d/blacklist-modem.conf || echo 'blacklist qmi_wwan' >> /etc/modprobe.d/blacklist-modem.conf
Build and install the driver:
Unzip the archive and copy the folder sim7600 to your selected working directory.
Navigate to it, e.g.:
Build and install the drivers:
Some warnings might appear, but verify that no errors are reported.
Restarting the host system should now result in the correct network drivers being loaded for the cellular module once the USB device is detected in the system.
It can be verified by finding lsusb -t listing "Driver=simcom_wwan" for a USB endpoint:
Bus 001 Device 005: ID 1e0e:9001 Qualcomm / Option
/: Bus 01.Port 1: Dev 1, Class=root_hub, Driver=xhci_hcd/8p, 480M
|__ Port 4: Dev 5, If 0, Class=Vendor Specific Class, Driver=option, 480M
|__ Port 4: Dev 5, If 1, Class=Vendor Specific Class, Driver=option, 480M
|__ Port 4: Dev 5, If 2, Class=Vendor Specific Class, Driver=option, 480M
|__ Port 4: Dev 5, If 3, Class=Vendor Specific Class, Driver=option, 480M
|__ Port 4: Dev 5, If 4, Class=Vendor Specific Class, Driver=option, 480M
|__ Port 4: Dev 5, If 5, Class=Vendor Specific Class, Driver=simcom_wwan, 480M
dmesg | grep 'simcom_wwan'
simcom_wwan 1-4:1.5 wwan0: register 'simcom_wwan' at usb-0000:00:15.0-4, SIMCOM wwan/QMI device, 8a:d8:ff:c2:87:11
Additional make options and information:
If you've built the driver previously already, first clean out any old builds with:
If you only want to build the driver but not install it into /lib/modules/`uname -r`/kernel/drivers/net/usb/, use make without install parameter:
Testing of the cellular connection can easily be done by first performing the necessary initiation AT commands to the cellular module over Modem/AT commands serial interface normally located on /dev/ttyUSB2. Use e.g. minicom tool to communicate with it.
Can be installed e.g. through the distributions package manager:
apt-get install minicom
Access the serial interface:
minicom -D /dev/ttyUSB2
Please relate to AT commands guide for full details on what commands are supported.
Issue AT and check that you get OK as reply.
Enable echo on characters sent to module:
Request general info about module:
Enter the SIM pin code (if necessary for SIM card)
Enter your operators APN details:
Enter APN authentication details (if necessary) further details found in the AT commands guide.
Check network registration:
Activate and connect the cellular data connection to the network interface installed in Linux system:
When you get the reply $QCRMCALL: 1, V4 from cellular module it means that the data connection to your network operator is fully established and you can now exit the minicom tool (CTRL+A followed by Z key and Q key and select yes to exit).
Once here you can now perform a DHCP request on the cellular network interface in the Linux system by using your favorite DHCP client in Linux e.g. dhclient or udhc e.g.:
dhclient -v wwan0
The cellular network interfaces are normally named starting from wwan0 but might get renamed by some Linux distributions automatically. All available network interfaces can be listed with command:
ip link show
The network interface can be tested e.g. by sending ping requests to a remote server over the selected network interface:
ping -I wwan0 126.96.36.199
PING 188.8.131.52 (184.108.40.206) from 10.163.183.209 wwan0: 56(84) bytes of data.
64 bytes from 220.127.116.11: icmp_seq=1 ttl=120 time=191 ms
64 bytes from 18.104.22.168: icmp_seq=2 ttl=120 time=46.1 ms
64 bytes from 22.214.171.124: icmp_seq=3 ttl=120 time=52.8 ms
64 bytes from 126.96.36.199: icmp_seq=4 ttl=120 time=43.3 ms
--- 188.8.131.52 ping statistics ---
4 packets transmitted, 4 received, 0% packet loss, time 3004ms
rtt min/avg/max/mdev = 43.350/83.407/191.281/62.376 ms
How do we enable basic standalone GPS tracking with the SIMcom cellular modules that include GNSS tracking feature?
The SIM7100 series, SIM7500 series SIM7600 series and SIM7600 -H series cellular modules that include a GNSS tracker can be used to acquire current accurate location data with and active or passive GNSS antenna connected to the module.
Details of the available AT commands related to GNSS functionality are described in the AT command reference manuals under GPS section. The AT command reference manuals can be found under our product web pages under technical documentation tab.
Depending on if an GNSS antenna with or without low noise amplifier (active/passive antenna) are used, the AT+CVAUXV and AT+CVAUXS command can be used to adjust if the antenna power supply of 3 VDC should be enabled or disabled on the GNSS antenna connector.
Module configured for active GNSS antenna with 3VDC power supply enabled directly from module:
Module configured for passive GNSS antenna and antenna voltage supply from cellular module is disabled:
A basic standalone GNSS tracking session outputting the location data on the dedicated NMEA virtual serial interface can be started with the following AT command:
Other useful commands:
(Please note that GNSS configuration parameters can only be changed when tracking is not active)
Stop ongoing GNSS tracking:
Clear GNSS fix related data stored in module:
Set minimum accuracy threshold in meters for location fix (default value 50 meters):
Enable autostart of GNSS tracking at module start up:
The latest GNSS fix can also be requested by AT command:
And the output is in the form:
+CGPSINFO: [lat],[N/S],[log],[E/W],[date],[UTC time],[alt],[speed],[course]
For details on how to configure the GPS for different application and scenarios, such as using Assisted GPS, or changing output formats etc. please relate to the AT commands reference manuals for the specific SIMcom module.
UMTS Bands: B1 (2100), B2 (1900), B8 (900), B4 (AWS), B3 (1800), B5 (850) | MIMO (Multiple-Input Multiple-Output): Yes | LTE Bands: B1 (2100), B2 (1900), B3 (1800), B4 (AWS), B7 (2600), B12 (700ac), B13 (700c), B20 (800DD), B5 (850), B25 (1900), B26 (US 850 Ext), B29 (US 700de Lower), B41 (TDD 2500), B30 (2300 WCS) | Manufacturer: Sierra Wireless | LTE Region: Europe, North America, Asia, South America, Africa | FOTA Firmware Updates: Yes | Form Factor: mPCIe - full size | Technology: LTE - cat 6 | Antenna Interface: IPEX MHF/U.FL | GPS: Yes | GNSS technology: GPS, GLONASS, BeiDou | Max DL Speed: 300 Mbps | Max UL Speed: 50 Mbps | Chipset: Qualcomm | Operating Temperature Range: -40 °C – 85 °C | Driver Support: Windows 7, Linux, Android, Windows 8, Windows 8.1, Windows 10 | Interface: USB 2.0, USB 3.0 | Voice Call Support: No | GNSS antenna support: Passive, Active 3.3VDC | SIM interface: Through miniPCIe connector, Dual SIM interface | GPIO: Yes | Carrier Certification: AT&T, Verizon, Sprint, Vodafone, Rogers, Telus, Bell, US Cellular | Extended Operating Temperature Range: -40 °C – 85 °C | Audio interface: Digital PCM signal input/output in socket, Digital I2S signal input/output in socket | Certification: FCC, CE, GCF, NCC, PTCRB, IC, CE RED | Size: 51 x 30 x 2.7mm
SAMPLE PRICE $111.40
Technology / Antenna Frequency: GSM 850/900/1800/1900, UMTS 2100, LTE 790-960/1710-2690 | Mounting method: Connector | Antenna Location: External | VSWR: 2.5 :1 | Gain: 5 dBi | Connector Type: SMA-M | Impedance: 50 Ohm | Polarization: Vertical | Radiation pattern: Omnidirectional | Max power: 50 W | Length: 195 mm | Diameter: 12.8 mm
SAMPLE PRICE $6.00