The Multiband-Wearable Mesh Rider radio is a small, rugged, light-weight IP-based tactical radio designed for military, law-enforcement, and emergency services personnel. With cutting-edge technology and rugged durability, this radio is designed to deliver reliable, secure, and uninterrupted communication in the most challenging environments.
The Multiband-Wearable radio employs Doodle Labs' patented Mesh RiderĀ® technology with state-of-the-art RF and networking capabilities that enable communication further, faster, and more reliably than any comparable solution on the market. Smart Devices can conveniently connect to the Mesh Rider network over either the built-in Wi-Fi radio, or the USB interface. The battery pack supports many hours of continuous operation, and is fully USB-PD compliant, allowing it to be charged by a wide variety of chargers for cell phones, laptops and even the USB port of a vehicle.
For fixed installations, the radio is also available in an External form-factor with additional interfaces (Ethernet, USB-Host, UART).
This user guide details the main features of the radio, and walks you through the setup and usage of the radio.
Fig. 1 lists the Multiband Wearable's external interfaces.
Fig. 2 shows the front panel of the Multiband Wearable radio with the battery attached after removing the front-panel stickers.
The Multiband Wearable form factor is designed to be used with the Doodle Labs battery pack. It can be charged using a USB-PD compliant power source conforming to specifications in the radio's datasheet.
The battery is attached to the radio using a simple locking mechanism. Align the legs of the battery with the corresponding holes in the radio casing, slide the battery in place, and then rotate the locking mechanism. Fig. 3 shows the disassembled battery and radio unit.
Table 1 list summarizes the Buttons and indicators, and their functions.
| Button/Indicator | Function |
|---|---|
| Power Button (ON) | Switch the radio between different power states (see table 2) |
| Turbo Button | Manually toggle between 1x1 and 2x2 MIMO operation for power savings |
| Power LED | Indicate the power mode |
| Turbo LED | Indicate whether the radio is in 1x1 or 2x2 MIMO mode |
| Mesh Rider Indicator | Indicate the RSSI on the Mesh Rider interface |
| Battery indicator | Indicate the battery status |
| Wi-Fi indicator | Indicate the Wi-Fi signal strength |
| Battery Power Button | switch ON/OFF the battery. Press and hold for 5 seconds |
The radio's power states are described in table 2.
| Mode | Description | Power LED Status |
|---|---|---|
| On | The radio is fully on | On |
| Off | The radio is in extreme low-power mode. Only essential components remain on | Off |
The radio's power button functionality is described in table 3.
| Power Button Action | Operation |
|---|---|
| 4-second press | On -> Off Off -> On |
Table 4 shows LED behavior for different operating states of the radio.
| Condition | Power LED | Wi-Fi Indicator | Mesh Rider Indicator |
|---|---|---|---|
| Radio booting up | slow blinking (1200ms period) | slow blinking (1200ms period) | slow blinking (1200ms period) |
| ON | Steady | See table 5 | See table 5 |
| Both Power button and Turbo button held and preparing to factory reset on release | fast blinking (600ms period) | fast blinking (600ms period) | fast blinking (600ms period) |
Table 5 shows the behavior of the Mesh Rider and Wi-Fi indicators.
| Status | Mesh Rider indicator | Wi-Fi indicator |
|---|---|---|
| Not associated | OFF | OFF |
| Associated but link lost | Slow blink (1800ms period) | Steady |
| Connected | Steady, number of bars illuminated dependent on RSSI | Steady |
Table 6 shows the Turbo button and LED behavior.
| Turbo button action | Mode | LED behavior |
|---|---|---|
| 2-second or longer press | 1x1 SISO -> 2x2 MIMO | Blinking (1200ms period) until link re-established -> Steady |
| 2-second or longer press | 2x2 MIMO -> 1x1 SISO | Blinking (1200ms period) until link re-established -> Off |
Table 7 shows the battery level indicator behavior.
| Battery voltage | LED behavior |
|---|---|
| > 7.84 V | Steady, Green |
| 7.39 - 7.84 V | Steady, Yellow |
| 6.5 - 7.39 V | Steady, Red |
| < 6.5 V | blinking (1200ms period), Red |
To factory reset, hold down both the Turbo button and the Power button until the indicators all start flashing. After that, release the two buttons and wait for the device to reboot. A factory reset may take up to 5 minutes. Do not power down the unit during the factory reset.
Attach the battery to the Multiband Wearable radio following the guidelines above, and the antennas provided in your evaluation kit to the TNC-Female connectors.
The Auxiliary USB-C port uses non-standard wiring to suppport Ethernet, USB-Host, and UART interfaces. The USB-Host interface uses standard USB2.0 wiring on the USB-C port, so it will work with USB dongles which are limited to USB2.0. USB2.0 USB to Ethernet bridges will be automatically bridged to the Mesh Rider network.
Fig. 4 shows how the USB dongles, USB-W03-A (Locking USB-C to USB-C Power and USB-Data) and USB-W04-A (Locking USB-C to RJ45 Female) can be connected to the Wearable Mesh Rider Radio. See the Products page of your Mesh Rider radio for more information.
You can connect to the radio over it's built-in Wi-Fi radio. By default, the built-in Wi-Fi radio starts up an Access Point with SSID DoodleLabsWiFi-<last 6 hex digits of MAC> and password DoodleSmartRadio. No cables are required for this connection method.
See the Software Setup section for details on IP addressing.
Alternatively, you can connect to the radio over the USB port on the front panel. This will require you to peel off the outer sticker on the front panel. You can connect to the radio's USB port from a PC or a smart device (e.g. tablet or phone) which supports USB reverse tethering. In this mode, the Wearable is a USB Device, and the PC/tablet/phone is a USB Host.
If you are powering the Wearable radio externally (not using the battery), then you can use Doodle Labs' power/data cable splitter (USB-W03-A) to split the data and USB ports.
See the Software Setup section for details on IP addressing.
You could also use the USB-W04-A dongle to break out the RJ45 Female connector.
See the Software Setup section for details on IP addressing.
As a final alternative, you can use the Wearable Mesh Rider Radio's built-in USB-Host port to connect to a USB Device such as an Android Smart Phone with a USB OTG port. Doodle Labs does not provide a USB dongle for this purpose, however, you can use any off-the-shelf USB-C to USB-A dongle as long as it is limited to USB 2.0. USB 3.0 is not supported, and the USB 3.0 wires should not be connected to the Wearable Mesh Rider radio.
The Multiband Wearable Mesh Rider radio uses the same IP addressing scheme as all Mesh Rider radios. Therefore, you will need to assign a static IP address to your host machine in the 10.223.0.0/16 subnet in order to access the radios. This is true for both the USB connection and the Wi-Fi connection. Details on how to configure a static IP address differ depending on your operating system, and guidelines for a Windows 10 PC are shown here.
If you are connecting to the radio over the USB port, then your system will need to have the driver for the LAN9500A chipset installed. It should be available by default in Windows machines, most Linux distributions (smsc95xx driver), and Android devices which support USB reverse tethering. Fig. 5 shows the Ethernet 2 adapter (LAN9500A USB to Ethernet) appearing after plugging in the Wearable Mesh Rider radio in a Windows 10 machine.
The default configuration of the Mesh Rider radios allows them to automatically form a mesh on first boot-up without any configuration changes. You can immediately run IP-based connections over the Mesh Rider network. That said, you should at least modify the following settings for security:
You will be prompted to modify the root password the first time you attempt to login to the radio over the web GUI. Open a web browser and navigate to the IP address printed on the label of the device. After changing the root password, you can navigate to the Simple Configuration page.
This page allows you to modify the most common settings on the radio in one step. Aside from the changes mentioned above, you can optionally
Make sure to make similar changes on all other radios to maintain connectivity. We encourage you to read through our guides in the Technical Library for additional tips on working with Mesh Rider radios.
As with all Mesh Rider radios, the default configuration behaves like a wireless ditributed layer-2 switch. Connecting devices to Mesh Rider radios is similar to connecting the same devices to an Ethernet switch. The Mesh Rider network passes traffic over the mesh transparently, and devices which need to communicate with one another need to be on the same IP subnet. Details on the Mesh Rider's networking modes are available here.
A simple use case for the Wearable Mesh Rider radio is shown in Fig. 7. In this case, we have three connected workers in a mesh network. Each worker's tablet is connected to a Wearable Mesh Rider radio over Wi-Fi, and is assigned a static IP address. The workers can use applications for team collaboration to enable voice chat, video streaming, file sharing, and locating one another among other things. You can test the latency over the network using the ping utility, and you can test the throughput using iperf.
We can add internet access to the simple use case above by connecting one of the Wearable Mesh Rider radios to the LAN interface of a modem/router (this works with any Mesh Rider radio). Since the router typically runs a DHCP server, the tablets should also use DHCP client mode (i.e. automatic IP assignment). The Mesh Rider radio will automatically get an IP address from the DHCP server to go along with the default static one. At this point, the connected workers can still use the same applications to communicate with one another as before, and in addition, they have access to the internet.
In the example above, the Wearable Mesh Rider radio could also act as a gateway to the internet. There are also other advanced features that were not discussed in this guide. For more information, please look through the rest of the Doodle Labs Technical Library.