Version 33 (modified by Cale Collins, 4 years ago) ( diff )

added note that ftx_prog is on gw ppa

GW16130 Iridium Satellite Modem

The GW16130 is a Mini-PCIe Satellite Modem that provides cost-effective, short burst satellite connectivity for asset tracking, fleet management, telemetry, oceanographic data, grid monitoring and Internet of Things (IoT) applications. The GW16130 features an Iridium 9603N satellite transceiver which allows two-way communications anywhere in the world with a clear line of sight to the sky. The Iridium network consists of 66 satellites and provides 24/7 world wide coverage. The 9603N module is used for short burst data packets (340bytes uplink, 270bytes downlink) and perfect for IoT remote sensor applications with minimal non-realtime data requirements. The GW16130 modem will work in a full size Mini-PCIe socket that includes a USB 2.0 interface. See the Gateworks website for suggested single board computers that can be used with this modem. Serial communications to the module is through an onboard FTDI USB to UART bridge. All power conditioning circuitry is contained on the board in addition to an u.Fl antenna connector for connecting an external satellite antenna. Note that an Iridium approved satellite antenna must be used when operating on the Iridium network. The GW16130 modem requires a monthly data plan which can be established with a number of 3rd party providers. Typical data charges are ~$20 USD per month with 12Kbytes of data included.

GW16130 = GW16127 Mini-PCIe carrier + Iridium 9603 modem module

Single Board Computer Support

The modem has been tested and verified on Gateworks SBCs in a Mini-PCIe slot with USB 2.0 routed. The modem is supported on a wide variety of software, as it works over AT commands using a USB to UART adapter. The FTDI USB to UART driver must be installed on the operating system, however, this is default on Gateworks BSPs. The GW16130 utilizes the FT231XQ USB to UART device.

See below for the Mini-PCIe edge finger pinout on the GW16130. The USB signals are mapped to the standard pins specified in the Mini-PCIe specification (pins 36 & 38).

Mini-PCIe Edge Finger Pinout

Data Providers and Modem Activation

Modems need to be activated using an approved Iridium carrier/provider.

During the activation, the modem is configured for the destination of the messages:

  • Direct IP
  • Email address
  • Another modem

Some providers found on the internet, but not endorsed or approved by Gateworks:


To comply with Iridium's module certification an approved Iridium antenna must be used with the GW16130.

Please see below recommended antennas:

A small u.Fl patch cable (GW10135, included) is connected from the modem module to J6 or J7 (interchangeable) on the Mini-PCIe base board. The modem would then be connected to either J6 or J7, whichever is not used by the modem module. This is purely for convenience, if required, antenna can be connected directly to the modem module. See below schematic snippet.

  • Antenna Characteristics
    • Impedance = 50 Ohms nominal
    • Gain (maximum) = 3dBi
    • Polarization = RHCP
    • VSWR (in band) = 1.5:1
    • VSWR (out of band) = 3:1

Turning on Modem *REQUIRED*

An FTDI FT231XQ USB to UART Chip is used to communicate with the Iridium Satcom modem via its serial UART. The FT231XQ datasheet can be found here.

The FTDI GPIO pins control the modem:

  • CBUS0: SAT_ON (input to modem; 10k pull-down)
  • CBUS1: SAT_FND (output from modem)
  • CBUS2: SAT_SUPPLY_OUT (output from modem)
  • CBUS3: not connected

Important Run the following to configure GPIO & enable the modem (only works with 4.20 kernel or newer. Note that Newport is on 4.14) :

base=$(for i in $(ls -1d /sys/class/gpio/gpiochip*); do [ "ftdi-cbus" = "$(cat $i/label)" ] && cat $i/base; done)
[ "$base" ] || { echo "Error: could not find ftdi-cbus device"; }
echo $((base+0)) > /sys/class/gpio/export
echo out > /sys/class/gpio/gpio$((base+0))/direction
echo 1 > /sys/class/gpio/gpio$((base+0))/value # enable modem
echo $((base+1)) > /sys/class/gpio/export
echo in > /sys/class/gpio/gpio$((base+1))/direction
echo $((base+2)) > /sys/class/gpio/export
echo in > /sys/class/gpio/gpio$((base+2))/direction

Procedure for 4.20 kernel or prior

Because support for controlling the FTDI GPIOs was introduced in Kernel 4.20, a program (ftx_prog) can be used to control GPIO via the EEPROM on the FTDI chip on earlier kernels.

This is an open source program located here:

The following commands are used to control the GPIO:

sudo ./ftx_prog --cbus 3 Keep_Awake #prevent suspend mode
sudo ./ftx_prog --load-vcp true #force the loading of the virtual com port
sudo ./ftx_prog --cbus 0 Drive_1 #drive GPIO 0 high to enable modem
sudo ./ftx_prog --dump #print FTDI EEPROM Configuration

Note: Power cycle board after running commands.

Note: This program is available from Gateworks PPA.

Modem AT Commands

The Iridium SBD modems communicate via AT commands over the UART (default 19200 baud).

In a Linux system the UART mapping is dynamic. See the following for examples on determining the correct port mapping. Note these commands only work if there is a single FTDI device in the system.

If there is only a single FTDI device in the system, it typically will enumerate as /dev/ttyUSB0

AT Commands via picocom: (only works if there is one ftdi device being used in the system)

DEVICE=/dev/$(basename $(ls -d /sys/bus/usb/drivers/ftdi_sio/*/ttyUSB*))
picocom $DEVICE -b 19200 --omap lfcr

AT Commands via shell: (auto-magic device select script only works if there is one ftdi device being used in the system)

DEVICE=/dev/$(basename $(ls -d /sys/bus/usb/drivers/ftdi_sio/*/ttyUSB*))
stty -F $DEVICE 19200 ignbrk -brkint -icrnl -opost -onlcr -isig -icanon -iexten -echo -echoe -echok -echoctl -echoke
cat $DEVICE &
at() { echo -n -e "$1\r" > $DEVICE; }
at "AT+GMI" # Manufacturer Identification 'Iridium'
at "AT+GMM" # Model Identification 'IRIDIUM 9600 Family SBD Transceiver'
at "AT+GMR" # Revision details
at "AT+GSN" # serial number (IMEI)
at "AT+CSQ" # signal strength (0 to 5): '+CSQ:0' (where 5 is the best, as in 5 bars of service vs 0 bars of service

Additional commands:

  • Send message on Modem (to destination configured in modem admin where modem is registered)
    AT&K0 # Prepare
    AT+SBDWT=Hello World #enter message as string
    AT+SBDIX # Send message
    +SBDIX: 0, 4, 0, 0, 0, 0 #Response saying it was successful 
    • Typically the first number should be 0 for success. To read more about the SBDIX response, read through one of the AT Command Documents


  • If no AT commands are working, verify the modem is enabled using the FTDI CBUS GPIOs as described in the Turning on Modem section on this wiki page.
  • Be sure the satellite antenna has a clear view of the sky, check the signal strength with the AT+CSQ
  • If the module hangs/resets during a transmit verify your SBC can provide the needed power to the device. When transmitting the modem can draw over 6.5W which can exceed the limits of some SBCs. Gateworks SBCs have been designed to handle large power transients such as these.


Dimensions: 30.00 wide x 50.95 long x 11.60 mm tall (1.18 x 2.00 x 0.46 in)

Note that the GW16130 will not fit inside of a standard Gateworks Indoor Enclosure.

GW16130 on Non-Gateworks Platforms

Note this is not supported by Gateworks, but here are some notes:

  • Power: Initial testing on a Windows 10 Dell Laptop revealed the modem with a USB to Mini-PCIe adapter was detected and AT commands could be sent. Upon trying to transmit a packet, the serial connection with the modem was lost. It is assumed there was not enough power out of the 500mA USB port to support the transmit.
  • GPIO: It is very important to ensure the modem is enabled with the FTDI CBUS GPIOs as described in the Turning on Modem section on this wiki page.

Attachments (6)

Download all attachments as: .zip

Note: See TracWiki for help on using the wiki.