SvxLink Beginners Guide: Difference between revisions
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* GPS>LIP Configuration/Destination ISSI = 9999 | * GPS>LIP Configuration/Destination ISSI = 9999 | ||
= Linking to a Reflector = | = Linking to a Reflector = | ||
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== Install SVXLink == | == Install SVXLink == | ||
Work in progress... | |||
=== Software Installation === | === Software Installation === | ||
''' Aproach #2 ''' | |||
<pre> | |||
sudo git clone https://github.com/f5vmr/svxlink_raspberry.git | |||
sudo chmod +x svxlink_raspberry/*.sh | |||
sudo bash svxlink_raspberry/install.sh | |||
sudo cp /etc/svxlink/svxlink.conf /etc/svxlink/svxlink.bak | |||
</pre> | |||
<pre> | |||
sudo nano /etc/svxlink/svxlink.conf | |||
</pre> | |||
<pre> | |||
/etc/svxlink/svxlink.d/ModuleEchoLink.conf | |||
</pre> | |||
You can test the audio of your simplex node by Transmitting to it with DTMF ‘1#’ to enable the Parrot repeater. Whatever you say will be repeated back to you. To cancel the parrot transmit a ‘#’ and the node will confirm the disconnection. | |||
USRP version | |||
<pre> | |||
sudo apt-get install qt-sdk | |||
sudo apt-get -yq install gcc/g+\+ | |||
sudo apt-get -yq install make cmake groff | |||
sudo apt-get -yq install gzip doxygen tar git | |||
sudo apt-get -yq install libsigc++ | |||
sudo apt-get -yq install libpopt | |||
sudo apt-get -yq install tcl | |||
sudo apt-get -yq install libgcrypt libasound libgsm | |||
sudo apt-get -yq install libjsoncpp libspeex | |||
sudo apt-get -yq install librtlsdr libqt libgpiod | |||
sudo apt-get -yq install alsa-utils opus-tools | |||
</pre> | |||
<pre> | |||
</pre> | |||
<pre> | |||
</pre> | |||
<pre> | |||
</pre> | |||
=== Software Installation === | |||
''' Aproach #1 ''' | |||
In your Raspberry Pi configuration, activate the "Serial Port" interface, and deactivate "serial console". Disable bluetooth (for pi3B+). This requires restarting your Raspberry Pi. | In your Raspberry Pi configuration, activate the "Serial Port" interface, and deactivate "serial console". Disable bluetooth (for pi3B+). This requires restarting your Raspberry Pi. | ||
Line 328: | Line 373: | ||
/home/repeater/svxlink/src/svxlink/svxlink/svxlink.conf | /home/repeater/svxlink/src/svxlink/svxlink/svxlink.conf | ||
<pre> | <pre> | ||
/etc/svxlink/svxlink.conf | sudo nano /etc/svxlink/svxlink.conf | ||
</pre> | </pre> | ||
==== TetraLogic configuration ==== | ==== TetraLogic configuration ==== | ||
Tetralongic.conf is the config file of the tetra configuration since 2022 oct. It is located in | Tetralongic.conf is the config file of the tetra configuration since 2022 oct. It is located in /etc/svxlink/svxlink.d | ||
<pre> | <pre> | ||
/etc/svxlink/svxlink.d | /etc/svxlink/svxlink.d | ||
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The operating mode is set in TETRA_MODE in the TetraLogic.conf file. It is used as an entry point to parse the file /etc/svxlink/pei-init.json | The operating mode is set in TETRA_MODE in the TetraLogic.conf file. It is used as an entry point to parse the file /etc/svxlink/pei-init.json | ||
{ | {| class="wikitable" | ||
!colspan="4"|TETRA_MODE | |||
|- | |||
| TETRA_MODE=TMO | | TETRA_MODE=TMO | ||
| Enables mode TMO (AT+CTOM=0) | | Enables mode TMO (AT+CTOM=0) | ||
|- | |||
| TETRA_MODE=DMO-MS | |||
| Enables mode DMO (AT+CTOM=1) | |||
|- | |- | ||
| TETRA_MODE=DMO-RPT | | TETRA_MODE=DMO-RPT | ||
| Enables mode Dmo repeater (AT+CTOM=6) | | Enables mode Dmo repeater (AT+CTOM=6) | ||
|- | |- | ||
| TETRA_MODE=GATEWAY | | TETRA_MODE=GATEWAY | ||
Line 648: | Line 695: | ||
<pre> | <pre> | ||
sudo nano /home/repeater/serial_write-CR.py | sudo nano /home/repeater/serial_write-CR.py | ||
<pre> | </pre> | ||
And add the following code: | And add the following code: | ||
Line 668: | Line 715: | ||
Make the script executable with | Make the script executable with | ||
<pre> | <pre> | ||
chmod 744 serial_write-CR.py | sudo chmod 744 serial_write-CR.py | ||
</pre> | </pre> | ||
Latest revision as of 03:01, 15 February 2023
Introduction
Terestrial Trunked Radio (TETRA)
Terrestrial Trunked Radio (TETRA) is a four slot TDMA radio technology that fits in a standard 25khz channel. It supports voice, text, and data from up to four talkers (called terminals) simultaneously. It even supports phone calls bridged to the public switched telephone network (think private autopatch). The audio codec is patented, but the code is open source... so experimentation is at least technically possible. Some of the designed applications are public service, emergency response, and railroads. It is very popular in Europe and South America.
Some of it's cooler features include a "gateway" mode, where if one radio can't reach the infrastructure (repeater), but it can communicate with a radio that can, the radio in the middle can act as a bridge. Similarly, the radios can act as virtual repeaters in the total lack of any infrastructure at all: you can talk simplex to any radio you can hear, and through it, any radio it can hear, etc. Imagine being at an event with no repeater coverage, but being able to have a self expanding network of radios on a simplex network.
Here I will explain using DMO mode only, as TMO very expensive.
How to
There are two options, if you are located in an area with repeater/node coverage you only need a TETRA radio. I there is no repeater/node in your area you can setup one an link it to the TETRA Mexico network.
To use an existing repeater you will need:
- 01 TETRA Radio 430-440 MHz.
- Programming periferials (PC, cable, CPS, etc).
Radio Programming
To access the TETRA Mexico radio network you will need to program your radio as follows:
Subscriber Unit Parameters
- Radio ISSI = 1234567 (request your ID from tetraid.wodielite.com)
DMO Parameters>DMO Group Call Timers
- DMO Reservation Time, sec = 1
DMO Parameters>DMO Address Extension
- MCC 901
- MNC 16383
TalkGroups>DMO>DMO Folders List
DMO Folders List | ||||||||||||||||
---|---|---|---|---|---|---|---|---|---|---|---|---|---|---|---|---|
Name | Status | Transmision Timeout Timer, sec | Transmision Timeout Warning Timer, sec | Number of Talkgroups in Range | Receive Only | |||||||||||
DMO Ham | On | 120 | 110 | 2 |
En la sección Talk Groups>DMO>DMO Talkgroup List necesitarás programar dos canales con la frecuencia del repetidor/nodo que utilizarás.
DMO Talkgroup List | ||||||||||||||||
---|---|---|---|---|---|---|---|---|---|---|---|---|---|---|---|---|
Name | ID | Status | DMO Folder List | Communication type | Gateway Selection | Gateway Address | Frequency Channel | Receive Call to DMO Partnership Networks | Network MCC | Network MNC | TMO Mapping | Key Group | Incoming Call Minimum Security Class | Outing Call Security Class | Status/Alarm/Addressing | GPS LIP Addressing |
Channel 1 | 1 | Programmed | 1:DMO Ham | Direct | None | 433.650 | User Defined | 901 | 16383 | NO_KG | Security Class 1 | Security Class 1 | None | None | ||
Channel 2 | 1 | Programmed | 1:DMO Ham | Repeater | None | 433.650 | User Defined | 901 | 16383 | NO_KG | Security Class 1 | Security Class 1 | None | None |
Data Services>Status ID List
Add the following messages to the table. These messages will allow you to connect and disconnect from different Reflectors or Nodes.
GPS>GPS Settings>GPS
If your radio have a GPS, you can program it. Remember to use LIP, as it it the supported protocol.
- GPS>GPS Settings>GPS Location Protocol = LIP
- GPS>LIP Configuration/Destination ISSI = 9999
Linking to a Reflector
To link a Repeater/Node to a reflector, on your radio press Menu then Messages then Send Status, select the Reflector/Node you want to connect and send a Group Message.
Here is a link to the nodes dashboard.
Programming a Repeater/Node
If you want to set up your own Repeater/Node, you will need the following stuff:
- 01 Motorola MTM800e or MTM5400 for 430-440 MHz (Gateway).
- 01 Raspberry Pi 2B or 3B with PSU, etc.
- 01 FTDI cable for 3.3 Volts RS232 to USB.
- 01 URIxB interface or Signalink or R1 2020.
- 01 UHF antenna with cable, etc.
- 01 12 Volts PSU
- 01 Micro SD card with at least 8 Gb.
- Internet.
- Programming periferials (PC, cable, CPS, etc).
Request a Password for your Node
Entra al siguiente link y solicita una cuenta para solicitar una cuenta nueva para accesar al reflector.
La respuesta te llegará en unas 24 horas.
Install SVXLink
Work in progress...
Software Installation
Aproach #2
sudo git clone https://github.com/f5vmr/svxlink_raspberry.git sudo chmod +x svxlink_raspberry/*.sh sudo bash svxlink_raspberry/install.sh sudo cp /etc/svxlink/svxlink.conf /etc/svxlink/svxlink.bak
sudo nano /etc/svxlink/svxlink.conf
/etc/svxlink/svxlink.d/ModuleEchoLink.conf
You can test the audio of your simplex node by Transmitting to it with DTMF ‘1#’ to enable the Parrot repeater. Whatever you say will be repeated back to you. To cancel the parrot transmit a ‘#’ and the node will confirm the disconnection.
USRP version
sudo apt-get install qt-sdk sudo apt-get -yq install gcc/g+\+ sudo apt-get -yq install make cmake groff sudo apt-get -yq install gzip doxygen tar git sudo apt-get -yq install libsigc++ sudo apt-get -yq install libpopt sudo apt-get -yq install tcl sudo apt-get -yq install libgcrypt libasound libgsm sudo apt-get -yq install libjsoncpp libspeex sudo apt-get -yq install librtlsdr libqt libgpiod sudo apt-get -yq install alsa-utils opus-tools
Software Installation
Aproach #1
In your Raspberry Pi configuration, activate the "Serial Port" interface, and deactivate "serial console". Disable bluetooth (for pi3B+). This requires restarting your Raspberry Pi.
Go to the /home/repeater directory
cd /home/repeater
Clone the tetra-contrib branch to get the TetraLogic function which interfaces the MTM via the PEI interface:
sudo git clone -b tetra-contrib https://github.com/dl1hrc/svxlink
This creates the svxlink directory.
For information, installation instructions are provided in the INSTALL.adoc file.
cd svxlink
Make an update to your Raspberry Pi.
sudo apt-get update sudo apt-get upgrade
Install the compiler packages and other libraries (to be installed only once) :
sudo apt-get -yq install gcc g++ make cmake libgcrypt-dev libgsm1-dev libsigc++-2.0-dev tcl-dev libspeex-dev libasound2-dev libpopt-dev libssl-dev libopus-dev groff libcurl4- git gpiod sudo apt-get update sudo apt-get -yq install libjsoncpp-dev mc doxygen sudo apt update && sudo apt upgrade && sudo apt install curl && sudo apt-get install libcurl4-openssl-dev # sudo apt-get -yq install openssl-dev # sudo apt-get -yq install ligpiod-dev
Create a svxlink user, and integrate it into the group daemon. The password is your choice: (enter) :
sudo adduser svxlink sudo usermod -a -G daemon svxlink
Compile the source code for the Raspberry Pi. With the parameters in the cmake line, svxlink will be installed in the /usr/bin directory (parameter DCMAKE_INSTALL_PREFIX). The compilation takes about 15 mn.
cd src sudo mkdir build cd build sudo cmake -DUSE_QT=OFF -DCMAKE_INSTALL_PREFIX=/usr -DSYSCONF_INSTALL_DIR=/etc - DLOCAL_STATE_DIR=/var -DCMAKE_BUILD_TYPE=Release -DWITH_CONTRIB_TETRA_LOGIC=ON .. sudo make sudo make doc sudo ldconfig sudo make install
Note that it sets the DUSE_QT variable to no, which does not compile Qtel, which is the Echolink client.
The compilation will create the config files in /etc/svxlink. If they are already existing, they will not be overwritten. The tetralogic.conf file is located in /etc/svxlink/svxlink.d
The following command avoids the TclVoiceMail error message when running svxlink:
- ERROR: The spool directory (/var/spool/svxlink/voice_mail) is not writable by the current user or does not exist."
sudo chmod -R 777 /var/spool/svxlink/voice_mail
French voices installation
To give French voices to the repeater, install the sound files (16k WAV format). Choose one of the French voices available on the F8ASB GitHub repository.
cd /usr/share/svxlink/sounds/ sudo wget https://github.com/F8ASB/fr_FR_Agnes/archive/fr_FR_Agnes.zip sudo unzip fr_FR_Agnes.zip ls
The fr_FR_Agnes directory now contains all the directories and wav files used to give voice to the relay. Rename the directory to fr_FR (This is the name that must be configured in the svxlink.conf file in the default language) sudo mv fr_FR_Agnes-master fr_FR
Installing the USB sound card
On a Raspberry Pi 3 and Jessie configuration, it is necessary to add dwc_otg.fiq_split_enable = 0 at the end of the line of the /boot/cmdline.txt file (long line)
sudo nano /boot/cmdline.txt
Edit file /boot/cmdline.txt
sudo nano /boot/cmdline.txt
And add the next line at the end.
dwc_otg.fiq_split_enable = 0
Edit file /etc/modules
sudo nano /etc/modules
And add the next line at the end.
snd-usb-audio
Modify file /lib/modprobe.d/aliases.conf
sudo nano /lib/modprobe.d/aliases.conf
And change snd-usb-audio index from -2 to 0.
snd-usb-audio index=0 <pre> Add at the end of the file options add <pre> snd-usb-audio nrpacks=1
Reboot your Raspberry Pi.
sudo reboot
Connect the USB sound card to your Raspberry Pi. The LED will light up. Check that the USB device is recognized.
Test Sound Card is connected:
lsusb
Check if the microphone audio input is present:
arecord -l
For the audio recording channel, locate the card number (here 'card 1') and the device number (here 'device 0'), because they will be used in the configuration of SvxLink Check the audio output channel (speaker). It also appears the reading device that equips the Raspberry Pi (bcm2835)
aplay -l
SVXLINK Configuration
All the configuration (except modules) is in the file /etc/svxlink/svxlink.conf. The original unconfigured (raw) file is located in /home/repeater/svxlink/src/svxlink/svxlink/svxlink.conf
sudo nano /etc/svxlink/svxlink.conf
TetraLogic configuration
Tetralongic.conf is the config file of the tetra configuration since 2022 oct. It is located in /etc/svxlink/svxlink.d
/etc/svxlink/svxlink.d
TetraLogic is the logic used by the TETRA_CONTRIB branch of SvxLink.
TetraLogic uses the 115200 baud /dev/ttyUSB0 link by default to connect to the MTM and send information back to svxlink. This has to be changed if you want to use the pi internal UART.
Edit in the [TetraLogic] section Change dev/ttyUSB0 by /dev/ttyS0 on a pi3 if you are using a USB serial cable.
And for a pi2, /dev/ttyAM0
Change Bauds to 9600, which is the default speed of the PEI interface in the codeplug. Turn off Bluetooth.
At start, TetraLogic sets the Tetra station in DMO mode using AT+CTOM=1 command. It use the PEI link to retrieve information from Squelch (COS) and send PTT.
It also fetch the GPS to send the position to APRS. If the GPS board is not in the radio, you will get an error on the specific AT command if the DEBUG is set to 3.
Two access modes to squelch / PTT are possible depending on the logic used: TETRALOGIC to use squelch and PTT via software PEI interface or traditionally via hardware : SimplexLogic or RepeaterLogic for squelch and PTT via GPIO (but the SQ signal must be taken from the MTM800).
The operating mode is set in TETRA_MODE in the TetraLogic.conf file. It is used as an entry point to parse the file /etc/svxlink/pei-init.json
TETRA_MODE | |||
---|---|---|---|
TETRA_MODE=TMO | Enables mode TMO (AT+CTOM=0) | ||
TETRA_MODE=DMO-MS | Enables mode DMO (AT+CTOM=1) | ||
TETRA_MODE=DMO-RPT | Enables mode Dmo repeater (AT+CTOM=6) | ||
TETRA_MODE=GATEWAY | Enables mode Gateway (AT+CTOM=5) |
To use the MTM800/MTM5x00 in Direct DMO mode, set DMO-MS. To use the MTM5x00 in DMO Repeater, set DMO-RPT. In this case you must use the wired PTT (otherwise broadcasts from network won't be transmitted).
TETRA branch configuration in svxlink.conf
[GLOBAL] LOGICS=ReflectorLogic,TetraLogic CFG_DIR=svxlink.d TIMESTAMP_FORMAT="%c" CARD_SAMPLE_RATE=48000 CARD_CHANNELS=1 LOCATION_INFO=LocationInfo # Pour RLF en TETRALogic LINKS=ALLlinkTetra [SimplexLogic] TYPE=Simplex RX=Rx1 TX=Tx1 #MODULES=ModuleHelp,ModuleParrot,ModuleMetarInfo MODULES=ModuleEchoLink CALLSIGN=xxxxx SHORT_IDENT_INTERVAL=60 LONG_IDENT_INTERVAL=60 #IDENT_ONLY_AFTER_TX=4 #EXEC_CMD_ON_SQL_CLOSE=500 EVENT_HANDLER=/usr/share/svxlink/events.tcl DEFAULT_LANG=fr_FR_Agnes [ReflectorLogic] TYPE=Reflector HOSTS=your tetra host HOST_PORT=your port CALLSIGN=your call AUTH_KEY=your key DEFAULT_TG=2080 MONITOR_TGS=2080,208,9 [ALLlinkTetra] CONNECT_LOGICS=TetraLogic:9:NET,ReflectorLogic DEFAULT_ACTIVE=1 TIMEOUT=300 ACTIVATE_ON_ACTIVITY=TetraLogic ==== Tetralogic.conf file configuration ==== [TetraLogic] DTMF_CTRL_PTY=/tmp/dtmf TYPE=Tetra RX=RxTetra TX=TxTetra MODULES=ModuleHelp,ModuleParrot,ModuleEchoLink,ModuleTclVoiceMail #MODULES=ModuleHelp,ModuleTclVoiceMail CALLSIGN=xxxxx DEFAULT_LANG=fr_FR_Agnes BAUD=9600 #0=pas de debug 1=LOGWARNING 2=LOGINFO 3=LOGDEBUG DEBUG=0 PORT=/dev/ttyS0 ISSI=123456 GSSI=1 MCC=901 MNC=1995 TETRA_MODE=DMO-RPT PEI_INIT_FILE=/etc/svxlink/pei-init.json #balise courte toutes les xx mn doit être un multiple de LONG_IDENT_INTERVAL SHORT_IDENT_INTERVAL=0 #balise longue toutes les xx mn LONG_IDENT_INTERVAL=60 TIME_FORMAT=24 #IDENT_ONLY_AFTER_TX=4 EVENT_HANDLER=/usr/share/svxlink/events.tcl RGR_SOUND_DELAY=0 #RGR_SOUND_ALWAYS=0 MACROS=Macros FX_GAIN_NORMAL=0 FX_GAIN_LOW=-12 PROXIMITY_WARNING=3.1 TIME_BETWEEN_SDS=3600 INFO_SDS=Welcome new user TETRA_USER_INFOFILE=/etc/svxlink/tetra_users.json TETRA_STATUS=Tetra_Status SDS_ON_USERACTIVITY=SdsOnUserActivity SDS_TO_OTHERS_ON_ACTIVITY=DMO_ON,DMO_OFF,PROXIMITY SDS_TO_COMMAND=SdsToCommand END_CMD=ATH #SHARE_USERINFO=0 DAPNET_SERVER=dapnet.afu.rwth-aachen.de DAPNET_PORT=43434 DAPNET_CALLSIGN=xxxxxxxx DAPNET_KEY=xxxxxxxxxxxx DAPNET_RIC2ISSI=Ric2ISSI DAPNET_RUBRIC_REGISTRATION=RicRegistration [Ric2ISSI] # RIC=ISSI #1234=23401 2089144=2089144 [RicRegistration] # RIC=Rubric1,Rubric2,Rubric54 1234=1024,1051 23451=1028,1051 2089144=1024 [Tetra_Status] # status=message #The section name that contain a list of status codes in decimal notation and #descriptions. Example: # 32768=$8000 32768=at home 32769=on the road 61004=Parrot: 61005=Parrot:# 61010=MetarInfo:1 [SdsOnUserActivity] 0=Hello user you have powered on 1=Hello user you have powered off 2=Hello user you want to declare the state of emergency? 3=Hello user Push-to-talk condition is detected 4=Hello user Status 5=Hello user TXI=on [SdsToCommand] #The section name that contain a list of status codes in decimal notation and the #according command that will be executed when the state sds has been received. #The idea behind is the possibility to connect/disconntct links. #32768=$8000 61000=9* 33009=919 33391=9191 33040=91204 33080=91208 33140=91214 33220=91222 33260=91226 33280=91228 33320=91232 33350=91235 33620=91262 33629=912629 40990=919990
ReflectorLogic configuration
[ReflectorLogic] TYPE=Reflector # host or ip address HOST=rlf-87.dyndns.org PORT=5387 CALLSIGN="xxxxxx" AUTH_KEY="xxxxxxx" JITTER_BUFFER_DELAY=2 EVENT_HANDLER=/usr/share/svxlink/events.tcl DEFAULT_TG=20887 MONITOR_TGS=20887 TG_SELECT_TIMEOUT=4000000000
Echolink.conf
Be careful to check if the MUTE_LOGIC_LINKING variable is set to 0 :
[ModuleEchoLink] NAME=EchoLink ID=2 #timeout de déconnexion si pas d'activité #TIMEOUT=60 # si 0 alors echolink transmet vers le gateway sinon non! MUTE_LOGIC_LINKING=0
Audio setup
Configure the Audio device to be used by Svxlink. Above it was identified that the recording (therefore the receiving channel Rx) is card 1, device 0. You must therefore have this in the configuration file:
[RxXXX] TYPE=Local AUDIO_DEV=alsa:plughw:1 AUDIO_CHANNEL=0
For the transmission part, the audio output channel (speaker) is also card 1, device 0 therefore in the configuration file:
[TxXXX] TYPE=Local AUDIO_DEV=alsa:plughw:1 AUDIO_CHANNEL=0
TETRA events (Tetralogic.tcl)
If the TetraLogic.tcl file is missing in /usr/share/svxlink/event.d Copy the file /home/pi/svxlink/src/svxlink/svxlink/TetraLogic.tcl to /usr/share/svxlink/event.d
sudo cp /home/repeater/svxlink/src/svxlink/svxlink/TetraLogic.tcl /usr/share/svxlink/event.d
Handling events to GPIO
It is possible to output event states to the GPIO interface. TCL syntax must be used in the TCL files. For instance, the code shows below how to export the squelch signal (whatever it comes from the GPIO or the PEI interface).
sudo nano /usr/share/svxlink/events.d/TetraLogic.tcl
Write 1 (3,3V) to the GPIO18 when squelch opens. Exec command is the TCL script execution command. You can then use any raspbian command which is not supported by TCL syntax. Don't forget to declare the use of GPIO18 in /etc/rc.local (see below).
It can be used to drive LEDss according to svxlink state (running/idle), drive a PTT keyer for another transceiver etc...
GPIO configuration
You don't have to use GPIO configuration with tetra PEI interface (except for DMO repeater mode for PTT). For the use of the classic wired interface, the GPIO from the PI to the local station is used. Open the /etc/rc.local file for editing and change it according to the wiring of the PTT and COS (Squelch). Example here GPIO16 = PTT = output = out; GPIO19 = SQL = input = active when 1.
#!/bin/sh -e # # rc.local # # This script is executed at the end of each multiuser runlevel. # Make sure that the script will "exit 0" on success or any other # value on error. # # In order to enable or disable this script just change the execution # bits. # # By default this script does nothing. # Print the IP address _IP=$(hostname -I) || true if [ "$_IP" ]; then printf "My IP address is %s\n" "$_IP" fi #GPIO16=PTT echo "16" >/sys/class/gpio/export sleep 2 echo out >/sys/class/gpio/gpio16/direction #GPIO19=SQL echo "19" >/sys/class/gpio/export sleep 2 echo "in" >/sys/class/gpio/gpio19/direction #GPIO18=utilitaire echo "18" >/sys/class/gpio/export sleep 2 echo out >/sys/class/gpio/gpio18/direction #GPIO23=stop button directly handling in python script # vide le tampon du MTM en envoyant un CR /home/pi/serial_write-CR.py exit 0
GPIO I/O can be tested with the instruction:
gpio readall
Restriction
With the MTM5x00, if the DMO Repeater mode is used, it is not possible to use the PEI interface to key the transmiter on. A broadcast from the network will to be transmited by the MTM5x00. You must use the wired PTT via GPIO16 and modify the Tx section accordingly.
UART release script
Install Python Serial module.
sudo wget https://files.pythonhosted.org/packages/1e/7d/ae3f0a63f41e4d2f6cb66a5b57197850f919f59e558159a4dd3a818f5082/pyserial-3.5.tar.gz sudo tar -xvzf pyserial-3.5.tar.gz cd pyserial-3.5 sudo python setup.py install cd /home/repeater
In order for TetraLogic to communicate correctly with the PEI interface the first time it is powered on, a carriage return (CR) must be sent to the station to empty the buffer. This macro must be launched before running svxlink, in a file called "serial_write-CR.py" in /home/repeater:
sudo nano /home/repeater/serial_write-CR.py
And add the following code:
#!/usr/bin/env python import serial # ser = serial.Serial(port='/dev/ttyS0', # Address for UART on your Pi ser = serial.Serial(port='/dev/ttyUSB0', # Address for UART on your Pi thru USB baudrate=9600, parity=serial.PARITY_NONE, stopbits=serial.STOPBITS_ONE, bytesize=serial.EIGHTBITS, timeout=1 ) ser.write(13) ser.close
Make the script executable with
sudo chmod 744 serial_write-CR.py
This script is to be launched when starting the pi, it will of course be necessary for the MTM station to be powered on when the pi is powered on, we have done this already in: add it in:
/etc/rc.local
on the last lines:
# vide le tampon du MTM en envoyant un CR /home/pi/serial_write-CR.py
Run Svxlink for testing
Before launching svxlink, free the MTM buffer by with the command
./serial_write-CR.py
Start svxlink by typing the following command:
svxlink
The led of the USB sound card should blink if it is equipped. At launch it is possible to get errors from the PEI. According to the MUTE_FIRST_TX_LOC variable, the first push of PTT selects the TG (described in TETRALOGIC). The 2nd PTT call starts the talker which directs the audio to the TG on the network.
Update Svxlink to the latest version
Login to your Raspberry and run the following commands:
sudo systemctl stop svxlink cd /home/pi/svxlink/src/build sudo git pull sudo make install sudo systemctl start svxlink
Configure SVXLink
You will need to edit the svxlink.conf file as follows
nano /etc/svxlink/svxlink.conf
Global
If you are using a R1 2020 change te value to 2, if not, leave it as 1.
CARD_CHANNELS=1
ReflectorLogic
HOST=dashboard.vktetra.com
Replace your YourCallSign with your callsign.
CALLSIGN="YourCallSign-L"
Add your ReflectorPasswordHere
AUTH_KEY="ReflectorPasswordHere"
TetraLogic
Replace your YourCallSign with your callsign.
CALLSIGN=YourCallsign
Replace your YourCallSign with your callsign.
APRSPATH=APRS,qAR,YourCallsign-10:
SdsOnUserActivity
Replace your YourCallSign with your callsign.
0=Hello from YourCallSign-L! Refer to vktetra.com for more info.
Tetra_Users
Replace your YourCallSign with your callsign.
0901163830YourRadioISSI=YourCallsign-1,YourName,/1,Tetra DMO Your Gateway Frequency vktetra.com
LocationInfo
Replace 33.12.12S with your Lat using degreens.minutes.seconds
LAT_POSITION=33.12.12S
Replace 151.12.45E with your Long using degrees.minutes.seconds
LON_POSITION=151.12.45E
Replace your YourCallSign with your callsign.
CALLSIGN=EL-YourCallSign
Replace Your Frequency with the one you will be using on your Gateway, i.e. 433.650
FREQUENCY=Your Frequency
Replace Your Suburb with your suburb’s name.
COMMENT=TETRA DMO - Your Suburb Your Gateway Frequency vktetra.com
To save changes press <CTRL> + <X> followed by <Y> and then <Enter>.
Restart to apply all changes.
sudo reboot
Linking you Raspberry to the radio
You will ned to use the rear accessory port.
For the MTM800 the RAP is a 20 pin header.
MTM800 | ||||||||||||||
---|---|---|---|---|---|---|---|---|---|---|---|---|---|---|
PTT | Pin 3 | |||||||||||||
Tx audio | Pin 5 | |||||||||||||
Analog Ground | Pin 7 | |||||||||||||
Rx audio | Pin 11 |
For the MTM5400 the RAP is a 26 pin header.
MTM5400 | ||||||||||||||
---|---|---|---|---|---|---|---|---|---|---|---|---|---|---|
Digital Gnd | Pin 16 | |||||||||||||
PTT | Pin 17 | |||||||||||||
Tx Audio | Pin 11 | |||||||||||||
Analog Ground | Pin 12 | |||||||||||||
Rx Audio | Pin 14 | |||||||||||||
RXD (serial) | Pin 20 | |||||||||||||
TXD (serial) | Pin 25 |
Programming the Repeater/Node radio
Subscriber Unit Parameters
- Radio ISSI = 9999
DMO Parameters>DMO Group Call Timers
- DMO Reservation Time, sec = 1
DMO Parameters>DMO Address Extension
- MCC 901
- MNC 16383
TalkGroups>DMO>DMO Folders List
DMO Folders List | ||||||||||||||
---|---|---|---|---|---|---|---|---|---|---|---|---|---|---|
Name | Status | Transmision Timeout Timer, sec | Transmision Timeout Warning Timer, sec | Number of Talkgroups in Range | Receive Only | |||||||||
DMO Ham | On | 120 | 110 | 1 |
Talk Groups>DMO>DMO Talkgroup List
Type the frequency you will be using.
DMO Talkgroup List | ||||||||||||||||
---|---|---|---|---|---|---|---|---|---|---|---|---|---|---|---|---|
Name | ID | Status | DMO Folder List | Communication type | Gateway Selection | Gateway Address | Frequency Channel | Receive Call to DMO Partnership Networks | Network MCC | Network MNC | TMO Mapping | Key Group | Incoming Call Minimum Security Class | Outing Call Security Class | Status/Alarm/Addressing | GPS LIP Addressing |
Repetidor | 1 | Programmed | 1:DMO Ham | Repeater | None | 433.650 | User Defined | 901 | 16383 | NO_KG | Security Class 1 | Security Class 1 | None | None |
DMO Repeater Mode
This is a work in progress...
If you are going to use your MTM5400 in DMO Repeater mode is used, you must use the wired PTT via raspberry Pi GPIO 16 and modify the Tx section accordingly, it is not possible to use the PEI interface to key the transmitter on when a broadcast from the network needs to be transmitted by the MTM5x00.
Wired PTT via GPIO16 and modify the Tx section accordingly.
TBD
Install Phyton Serial
sudo apt-get install python-serial
sudo nano /home/pi/serial_write-CR.py
#!/usr/bin/env python import serial ser = serial.Serial(port='/dev/ttyUSB0', baudrate=9600, parity=serial.PARITY_NONE, stopbits=serial.STOPBITS_ONE, bytesize=serial.EIGHTBITS, timeout=1 ) ser.write(13) ser.close
sudo chmod +x /home/pi/serial_write-CR.py
Test with
/home/pi/serial_write-CR.py
You will need to edit the rc.local file:
sudo nano /etc/rc.local
Add the following lines to the file:
#!/bin/sh -e # # rc.local # # This script is executed at the end of each multiuser runlevel. # Make sure that the script will "exit 0" on success or any other # value on error. # # In order to enable or disable this script just change the execution # bits. # # By default this script does nothing. # Print the IP address _IP=$(hostname -I) || true if [ "$_IP" ]; then printf "My IP address is %s\n" "$_IP" fi # GPIO 16 = PTT echo "16" >/sys/class/gpio/export sleep 1 echo "out" >/sys/class/gpio/gpio16/direction sleep 1 echo 1 >/sys/class/gpio/gpio16/value; # GPIO 19 = SQL echo "19" >/sys/class/gpio/export sleep 1 echo "in" >/sys/class/gpio/gpio19/direction # GPIO 18 = Utility echo "18" >/sys/class/gpio/export sleep 1 echo "out" >/sys/class/gpio/gpio18/direction # GPIO 23 = Stop button directly handling in python script. # Clears the MTM buffer by sending a CR # /home/pi/serial_write-CR.py (…) exit 0
Press <CTRL> + <X> then <Y> and last <Enter>.
sudo nano /usr/share/svxlink/events.d/TetraLogic.tcl
# Executed each time the squelch is opened or closed # proc squelch_open {rx_id is_open} { Logic::squelch_open $rx_id $is_open; puts "Le squelch change: $is_open"; if {$is_open==0} { exec echo 0 >sudo /sys/class/gpio/gpio18/value; } if {$is_open==1} { exec echo 1 >sudo /sys/class/gpio/gpio18/value; } }
Test Serial Port
sudo apt-get install minicom minicom -b 9600 -o -D /dev/ttyUSB0
Restart to apply changes.
sudo reboot
Audio leveling
On the command line type:
sudo alsamixer
Choose your external sound card (the one you qre using to talk to the radio). Adjust the input and output levels. For that, you can use the Parrot Reflector 9990.
Finally, save your audio change with the following command:
sudo alsactl store 0
Connecting to Echolink (optional)
Run the following commands, watch the upper case and lowercase “L” on Echolink word.
sudo mv /usr/lib/arm-linux-gnueabihf/svxlink/ModuleEchoLink.so /usr/lib/arm-linux-gnueabihf/svxlink/ModuleModuleEcholink.so sudo cp /etc/svxlink/svxlink.d/ModuleEchoLink.conf /etc/svxlink/svxlink.d/ModuleEcholink.conf
Edit the following file with your Echolink information.
sudo nano /etc/svxlink/svxlink.d/ModuleEcholink.conf
Notice that the first line need to be modified as follows (watch the “l” on Echolink.
[ModuleEcholink]
Edit the following lines with your Echolink account information.
if 0 then Echolink transmits to the gateway otherwise no!
MUTE_LOGIC_LINKING=0
CALLSIGN=MYCALL PASSWORD=Password SYSOPNAME=Tu Nombre LOCATION=[Svx] Frecuencia, Ciudad DESCRIPTION="You have connected to a SvxLink node,\n" "a voice services system for Linux with EchoLink\n" "support.\n" "Check out http://svxlink.sf.net/ for more info\n" "\n" "QTH: My_QTH\n" "QRG: Simplex link on 433.650 MHz\n" "CTCSS: 901-16383\n" "Trx: TETRA DMO\n" "Antenna: Comet/Omni/GP-3\n"
Press <CTRL> + <X> then <Y> and last <Enter>.
Restart to apply changes.
sudo reboot