This project allows the ESP8266 microcontroller to be connected to your NMEA 0183 device to broadcast NMEA sentences over Wi-Fi.
You can use it, for example, on your boat to connect your AIS receiver to your chart plotter wirelessly.
Features
- Almost completely configurable over Wi-Fi. Upload the code once; then configure away.
- Connect to an existing Wi-Fi network or set up its own station.
- Receive NMEA sentences over UDP, or view them live from your browser over websockets.
- Send back NMEA sentences over UDP, or send them from your browser.
- Choose the UDP transmission ip address mode; unicast, multicast, or broadcast. Read more.
- Features a captive portal to easily access the website. (Only possible when it provides Wi-Fi network itself.)
- Allows setting a mDNS hostname to reach the device by name instead of only by ip address.
- Uses a separate hardware serial TX port for debug output. By default, the one connected to usb is used for easy debugging.
- The onboard LED signals the Wi-Fi status so you have an idea what's going on.
This project was designed to require no configuration in software for the ESP8266, just flash it and connect to the NMEA device. Other devices require you first define the serial (UART) pins. All further configuration (including network settings) can be updated at any time over Wi-Fi using your browser.
The bridge connects to your NMEA device
using a hardware UART (serial) port.
The ESP8266 has two such ports (Serial
and Serial1
in the code),
although the second one only supports sending — not receiving.
By default, the first one is used to
receive NMEA data to be sent to the NMEA device
and send out debug output,
while the second port is used to receive sentences from the NMEA device.
Note that the first serial port is usually connected via USB.
The use of ports can be changed in the code.
Device | Receive NMEA | Send NMEA | Send debug |
---|---|---|---|
ESP8266 | UART1 Tx 1 | UART0 Rx | UART0 Tx |
NodeMCU v3 | D4 | RX | TX |
Most NMEA devices output RS-422 serial with two lines per unidirectional connection (For example: Tx- and Tx+). Although you might be able to safely interface directly with a microcontroller operating at TTL voltages in some cases (details), the best solution is undoubtably to go through a logic level converter.
An inexpensive converter based on the MAX490 chip has been found to work well. Connect it as follows to the microcontroller running the bridge on one side and the NMEA device on the other.
MAX490 | bridge |
---|---|
RSD | receive |
TXD | transmit |
MAX490 | NMEA device |
---|---|
B | Tx+ |
A | Tx- |
Z | Rx+ |
Y | Rx- |
When uploading the software to the microcontroller, by default the flash memory that contains the configuration is erased. If you're uploading for the first time, this is a good thing because it causes the default configuration to be used. However, if you've change the configuration later on, you might want to disable erasure to retain your changes (Arduino IDE: Tools > Erase Flash > Only Sketch).
If you're not erasing the flash on the first upload, you might end up with random settings bases on what was stored previously. This can prevent you from connecting to the device because, for example, the Wi-Fi password is some unknown value.
In this case, you can reset the configuration back to default by holding the reset-button after startup. The onboard LED will start to blink rapidly. After one second, the LED wil stay solidly on. You can release the botton now as the config has been successfully reset.
Assuming the default settings have been loaded by one of the above described methods, the bridge will create a Wi-Fi network named "NMEA Bridge" with password "nmeabridgeesp8266".
If you connect to this Wi-Fi network, your browser will hopefully notice the captive portal and ask you to "sign in" to the Wi-Fi network. This will guide you to the configuration page.
Otherwise, you can reach the page using the mDNS hostname nmea_bridge.local or by ip address 10.1.1.1.
The main page gives an overview of the configuration that it's currently using. The config page list all settings and their currently stored values. Most changes here go live immediately. Only changes to the Wi-Fi settings or ip address requires a restart. In this case, a notice on the overview page will remind you why the values displayed there are different from the current config.
Use the log page to check if NMEA sentences are correctly received. For example, if the log shows some unintellible text being received you might need to update the receive baudrate setting. Consult the documentation for the NMEA device to find what value to use.
Below is a description of each configuration setting and the meaning of its values.
Choose "Station" to connect to an existing Wi-Fi network, or "Access Point" to create a new Wi-Fi network.
Enter the name and password of the Wi-Fi network. In station mode, this is the name and password of the Wi-Fi network that the bridge should connect to. In access point mode, this will be of the new network that is created.
Enter a static IP address for the bridge, so you always know what address to reach it at.
Leave this empty to get an address through DHCP in station mode. Note that, in this case, reaching the bridge over UDP requires using either mDNS or a broadcast mode other than unicast.
Enter a name for your bridge to reach it using mDNS. For example, set it to "my_nmea_bridge" to access it in the local network at "my_nmea_bridge.local" on devices that support mDNS.
Leave this empty to disable mDNS support.
This setting allows you to specify how sentences received from the NMEA device are transmitted on the network.
Send sentences to a single IP address.
Since this means only a single device will receive the data and requires it's IP address to be a known constant, its the least flexible option. It is however the simplest option that should be supported on all platforms that can receive NMEA sentences over UDP.
Send sentences to a multicast address.
A multicast address is a special type of IP address that devices can subscribe to in order to receive all messages sent to the address. As such, it allows a single sender (ie. the nmea bridge) to transmit sentences to any number of recipients.
If you want to receive the data on multiple devices that all support multicast, this is an excellent option to avoid the need for a relay.
This option also solves the issue of having to hardcode the recipient IP address. You still need to choose a constant multicast address, but the recipient's address becomes a variable.
Again, use of this option will depend on the recipients support for it.
Send sentences on the local networks broadcast address.
A broadcast address is a single address on the local network to which all connected devices are subscribed.
This option is simliar to multicast mode in that it avoids the need for known constant ip addresses and enables multiple recipients.
Although it seems to be somewhat better supported that multicast mode, it might be less efficient since it requires transmission to all devices in the local network.
The IP address to transmit NMEA sentences too. The interpretation of this setting depends on the transmit mode.
In unicast mode, its the IP address of the single recipient of data.
In multicast mode, it must be a valid multicast IP address (224.0.0.0 through 239.255.255.255, although some addresses are reserved). Recipients must subscribe to this same address to receive the data.
In broadcast mode, the special value of 255.255.255.255 indicates the use of this address; the local network broadcast address. Any other value is ignored, and causes the subnet specific broadcast address to be used.
Note that this mode does not support IPv6.
The UDP port to transmit NMEA sentences to.
The UDP port that the bridge will listen at for UDP sentences.
The baudrate for the UART (serial) port at which NMEA sentences are received.
Refer to the NMEA device's documentation for the exact value to use. Typically 4800 is used, although many AIS devices use 38400.
If the wrong value is set, unintellible data is received.
The baudrate for the UART (serial) port at which NMEA sentences are transmitted.
Refer to the NMEA device's documentation for the exact value to use. Typically 4800 is used.
If the wrong value is set, unintellible data is received.