TECHSHIP IS A GLOBAL SUPPLIER OF WIRELESS COMPONENTS
ME3630E1CV1.0B13 MP0Supplier number:
Gosuncn Welink ME3630 E1C mPCIe is a LTE CAT-4 module with download speeds of up to 150Mbps and upload speed of up to 50Mbps. It is fully backward compatible with existing 3G and 2G networks.
A rich set of internet protocols (PAP and CHAP used for PPP connections) and abundant functions (GNSS, Remote wakeup, MMS, SMS,FOTA) extend the applicability of the module to a wide range of M2M applications. ME3630 PCIE can be widely used in M2M industries such as smart meter, Security and monitor, Industrial router, DTU, CPE, Telematics etc.
This module is also available as LCC, please refer to our article 10582 ZTE ME3630 E1C LCC
This Guide describes the AT Command for Gosuncn Welink ME3630 series modules.
This manual describes the hardware related specifications of the ZTE Welink ME3630 mini-PCIE module
Datasheet for ZTE Welink ME3630 series
This Guide describe the ZTEWelink WeFOTA features.
This document describes the ZTE Welink ME3630 Power Management
This manual describes the ZTE Welink GE2015 Dev Board and it's functionality
This guide describes the dev kit base board and how to use it.
This guide describes the baking process for ZTE SMT/LGA surface mounted modules.
This manual describes the ZTE Welink ME3630 Software interface and application V2.7.
This manual describes how to load the ZTEWelink Wireless Module in Linux and embedded Linux.
This archive contains the graphical ZTE Welink ME3630 module firmware update tool.
This ZIP archive contains the ZTE Welink Android RIL Driver library.
This archive contains the driver files used to manually install the module device endpoint drivers.
The included guide describe the installation steps.
This archive contains the ZTE Linux Log Capture Tool and related manual
This archive contains the ZTE Welink Windows Log Capture Tool V1.3 and related user guide.
This archive contains the ZTE Welink ME3630 Windows Driver V.126.96.36.199 and the installation and configuration guide to set the module in correct operating mode depending on host operating system version.
This ZIP archive contains the ZTE Welink Windows CE 6 Driver and Integration Manual
This archive contains the ZTE Gosuncn Welink ME3630 E1C Firmware Update File V1.0 B19 and Release Notes
This archive contains the ZTE Welink ME3630 E1C Firmware Update File and Release Notes.
Use the ZTE Windows Firmware update tool to apply the update.
How can we activate and use dual stack IPv4 and IPv6 functionality on the Gosuncn ZTE Welink ME3630 series cellular modules in Linux?
This can be done by configuring and using the Gosuncn ZTE Welink ME3630 module in Linux the following way:
Check with AT commands that you are using the most recent firmware version on the cellular module:
ME3630E1CV1.0B19 [Jan 15 2019 16:03:19]
The module have to be switched from default USB mode in order to support this, in this mode it uses RNDIS interface and drivers instead in host.
This mode can be switched with AT commands:
The module will restart now and appear in system with the following USB IDs:
T: Bus=03 Lev=01 Prnt=01 Port=01 Cnt=03 Dev#= 9 Spd=480 MxCh= 0
D: Ver= 2.00 Cls=00(>ifc ) Sub=00 Prot=00 MxPS=64 #Cfgs= 1
P: Vendor=19d2 ProdID=0601 Rev=03.18
C: #Ifs= 5 Cfg#= 1 Atr=a0 MxPwr=500mA
I: If#=0x0 Alt= 0 #EPs= 1 Cls=e0(wlcon) Sub=01 Prot=03 Driver=rndis_host
I: If#=0x1 Alt= 0 #EPs= 2 Cls=0a(data ) Sub=00 Prot=00 Driver=rndis_host
I: If#=0x2 Alt= 0 #EPs= 2 Cls=ff(vend.) Sub=ff Prot=ff Driver=option
I: If#=0x3 Alt= 0 #EPs= 3 Cls=ff(vend.) Sub=00 Prot=00 Driver=option
I: If#=0x4 Alt= 0 #EPs= 3 Cls=ff(vend.) Sub=00 Prot=00 Driver=option
If the option driver is not attached initially it can be done so by force loading the driver:
echo 19d2 0601 > /sys/bus/usb-serial/drivers/option1/new_id
Activate the network interface in the Linux host system (check e.g. with dmesg what system named it to):
ip link set enp0s20u2 up
Make sure you have a cellular subscription and APN that allow usage of IPV4 and IPV6 functionality combined.
Default configuration with setting a empty string lets the module subscribe for an APN from cellular network:
With defined APN:
If you have to modify/set AT+CGDCONT, please re-register in cellular network e.g. by toggling:
(Enter PIN again with AT+CPIN if necessary)
Check that you are registered in the cellular network and module are attached on packet switched network and have got an IP:
Now start the network interface data connection:
With empty string APN details in second parameter, then module try to request them from network:
Or with APN defined:
You should receive bellow if successful:
Check the status of the network interface activation, both IPV4 and IPV6 information should be listed as bellow if successful:
+ZECMCALL: IPV4, 188.8.131.52, 184.108.40.206, 220.127.116.11, 18.104.22.168
+ZECMCALL: IPV6, 2a02:aa1:1018:5fc2:b532:a78c:7e20:fedb, , 2a02:aa0::55, 2a02:a6
In Linux you should now run a DHCP client on the network interface in order to acquire an IPV4 adress:
dhclient -v enp0s20u2
Listening on LPF/enp0s20u2/56:60:35:1b:9f:7f
Sending on LPF/enp0s20u2/56:60:35:1b:9f:7f
Sending on Socket/fallback
DHCPDISCOVER on enp0s20u2 to 255.255.255.255 port 67 interval 3 (xid=0x914b302a)
DHCPOFFER of 22.214.171.124 from 126.96.36.199
DHCPREQUEST for 188.8.131.52 on enp0s20u2 to 255.255.255.255 port 67 (xid=0x2a304b91)
DHCPACK of 184.108.40.206 from 220.127.116.11 (xid=0x914b302a)
bound to 18.104.22.168 -- renewal in 19393 seconds.
Try ping an IPv4 address using the module network interface:
ping -4 -I enp0s20u2 22.214.171.124
PING 126.96.36.199 (188.8.131.52) from 184.108.40.206 enp0s20u2: 56(84) bytes of data.
64 bytes from 220.127.116.11: icmp_seq=1 ttl=55 time=31.1 ms
64 bytes from 18.104.22.168: icmp_seq=2 ttl=55 time=26.8 ms
64 bytes from 22.214.171.124: icmp_seq=3 ttl=55 time=44.7 ms
--- 126.96.36.199 ping statistics ---
3 packets transmitted, 3 received, 0% packet loss, time 5ms
rtt min/avg/max/mdev = 26.776/34.198/44.722/7.650 ms
Try ping an IPv6 address over the module interface:
ping -6 -I enp0s20u2 2600::
PING 2600::(2600::) from 2a02:aa1:1018:5fc2:c2:afb2:2c6e:66f3 enp0s20u2: 56 data bytes
64 bytes from 2600::: icmp_seq=1 ttl=47 time=200 ms
64 bytes from 2600::: icmp_seq=2 ttl=47 time=177 ms
64 bytes from 2600::: icmp_seq=3 ttl=47 time=177 ms
64 bytes from 2600::: icmp_seq=4 ttl=47 time=176 ms
64 bytes from 2600::: icmp_seq=5 ttl=47 time=175 ms
64 bytes from 2600::: icmp_seq=6 ttl=47 time=174 ms
--- 2600:: ping statistics ---
6 packets transmitted, 6 received, 0% packet loss, time 12ms
rtt min/avg/max/mdev = 174.342/180.176/200.333/9.096 ms
Please note that this functionality is not supported in all firmware versions and target regional variants of the ME3630 series yet. Here tested on the ME3630 E1C version for European target region using ME3630E1CV1.0B19
How to collect initial diagnostics data for Gosuncn ZTE WeLink cellular modules when requesting technical support?
Solution: In order to troubleshoot and solve a technical problem, we ask you to please provide information about your system and logs from the related cellular module when creating a technical support ticket via Techship.com.
Include a problem description of what exact problem is and in what precise situations it is present/occurring.
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 the cellular module found on product label:
-SKU/BOM or P/N code
(For RMA returns the IMEI number is also required)
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 log output requested from the commands bellow, can be acquired from the module by accessing one of the USB enumerated serial (COM) interfaces accepting AT commands. (In Windows this is generally found listed as a Modem interface or AT commands serial interface in the device manager and in Linux it is usually found on some of the /dev/ttyUSB* interfaces). Send the following commands to module and capture the text output and include them when creating the the technical support ticket.
Enable input command echo:
Request general vendor, type and unique ID about module:
Enable verbose error reporting:
Sub firmware version:
USB endpoint configuration:
Allowed network bands:
List network operator info:
Network registration status:
Serving network & cell information:
Network Selection configuration and order:
Service domains status:
List APN details:
Show APN authentication details:
Attach UE to default PDP Context:
List PDP profiles status:
List default bearer and data connection details:
List IP addresses:
Show data call and host data ECM interface status:
Show chipset temperature:
List configured temperature limit:
The support ticket can be created after login at: https://techship.com/technical_support/
How to change USB composition mode to Mobile Broadband Interface (MBIM) that is used by Windows 8 and 10 systems for data connectivity and enabling support for the built-in connection manager in Windows?
This is done by sending AT commands to the Modem or AT serial interfaces that are accepting AT commands and changing the USB endpoint composition:
Sierra Wireless EM74xx, MC74xx series module:
Sierra Wireless EM73xx, MC73xx series module:
Simcom SIM7xxx series modules:
ZTE Welink ME3630 series:
Telit LE910x V2:
On Huawei modules the USB mode changing is done automatically by the Windows drivers and otherwise defaults to the modules standard endpoint interfaces.
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".
Technology / Antenna Frequency: GSM 850/900/1800/1900, UMTS 2100 | Mounting method: Connector | Antenna Location: External | VSWR: 2.5 :1 | Gain: 3 dBi | Connector Type: SMA-M | Impedance: 50 Ohm | Polarization: Linear | Operating Temperature Range: -40 °C – 85 °C
SAMPLE PRICE $4.80
UMTS Bands: B1 (2100), B2 (1900), B8 (900), B5 (850) | MIMO (Multiple-Input Multiple-Output): Yes | LTE Bands: B1 (2100), B2 (1900), B3 (1800), B4 (AWS), B7 (2600), B8 (900), B20 (800DD), B5 (850) | GSM/EDGE Bands: B5 (850) , B8 (900), B3 (1800), B2 (1900) | Manufacturer: Huawei | LTE Region: Europe, Asia | FOTA Firmware Updates: Yes | Form Factor: mPCIe - full size | Technology: LTE - cat 4 | Antenna Interface: IPEX MHF/U.FL | GPS: No | GNSS technology: | Max DL Speed: 150 Mbps | Max UL Speed: 50 Mbps | Chipset: Hisilicon, Balong 711 | Operating Temperature Range: -40 °C – 85 °C | Driver Support: Windows 7, Linux, Android, Windows 8, Windows CE, Windows Mobile, Windows 8.1 | Interface: USB 2.0 | Voice Call Support: Yes | SIM interface: Through miniPCIe connector | GPIO: No | Extended Operating Temperature Range: -40 °C – 85 °C | Audio interface: Digital PCM signal input/output in socket | Certification: CE, RoHS, GCF, WEEE, CE RED
SAMPLE PRICE $59.00
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
Technology / Antenna Frequency: GSM 850/900/1800/1900, UMTS 2100, Wifi/Bluetooth 2400, LTE 790-960/1710-2690 | Mounting method: Connector | Antenna Location: External | Connector Type: SMA-M | Impedance: 50 Ohm | Polarization: Vertical | Max power: 50 W | Width: 21 mm | Length: 157 mm | Height: 157 mm
SAMPLE PRICE $7.30
UMTS Bands: B1 (2100), B8 (900) | GSM/EDGE Bands: B5 (850) , B8 (900), B3 (1800), B2 (1900) | Manufacturer: Huawei | Form Factor: mPCIe - full size | Technology: HSPA+ | Antenna Interface: IPEX MHF/U.FL | GPS: No | GNSS technology: | Max DL Speed: 21.6 Mbps | Max UL Speed: 5.76 Mbps | Chipset: Hisilicon, Balong 330 | Operating Temperature Range: -30 °C – 75 °C | Driver Support: Windows 7, Linux, Android, Windows, Windows 8 | Width: 30.4 mm | Interface: USB 2.0 | Length: 51 mm | Height: 3.4 mm | Voice Call Support: Yes | SIM interface: Through miniPCIe connector | GPIO: No | Extended Operating Temperature Range: -30 °C – 75 °C | Audio interface: Digital PCM signal input/output in socket | Certification: CE, CCC, RoHS, GCF, WEEE, CE RED
SAMPLE PRICE $28.90
Technology / Antenna Frequency: GSM 850/900/1800/1900, UMTS 2100, LTE 698-960/1710-2170/2500-2700 MHz | Mounting method: Adhesive | Antenna Location: External | VSWR: 3 :1 | Gain: 2.14 dBi | Connector Type: SMA-M | Impedance: 50 Ohm | Cable length: 30 cm | Cable Specification: RG174 | Polarization: Linear | Max power: 35 W | Operating Temperature Range: -40 °C – 85 °C | Width: 60 mm | Length: 112.5 mm | Height: 11.3 mm
SAMPLE PRICE $6.80
Technology / Antenna Frequency: GSM 850/900/1800/1900, UMTS 2100, LTE 698-960/1710-2690, Wifi/Bluetooth 2400 | Mounting method: Adhesive, Screw | Antenna Location: External | VSWR: 2.5 :1 | Gain: 2 dBi | Connector Type: SMA-M | Impedance: 50 Ohm | Cable length: 300 cm | Cable Specification: RG174 | Polarization: Linear | Max power: 50 W | Operating Temperature Range: -40 °C – 85 °C | Width: 49.6 mm | Length: 107.6 mm | Height: 37.6 mm
SAMPLE PRICE $11.80
Technology / Antenna Frequency: Wifi/Bluetooth 2400, Wifi 5000 | VSWR: 2 :1 | Connector Type: IPEX MHF/U.FL | Impedance: 50 Ohm | Cable length: 15 cm | Cable Specification: 1.13 mm coax | Polarization: Vertical, Linear | Max power: 1 W | Operating Temperature Range: -10 °C – 55 °C | Width: 15 mm | Length: 35 mm
SAMPLE PRICE $4.80