The QuadNet Array supports D-STAR, DMR and Yaesu System Fusion II systems!

Using Quadnet

Please use our round robin name for your server,

Username is your call sign, and password is left blank. For example, in the IRCDDBGateway initialization file:

Routing on ircDDB

Routing is the main point of any ircDDB network and it is a great asset to your gateway communications. There are three ways to route:

  1. Call Sign Routing is a one to one route. Call Sign Routing is much maligned in many circles because it can be disruptive if the source and/or destination of a Call Sign Route happens to be on a busy repeater. It is best used when you are operating from a personal hot spot and you know your desired contact is currently on their own personal hot spot.
  2. Zone Routing (also called Repeater Routing) is when you route to a specific repeater and talk to those on that repeater. In the result, Zone Routing is just like linking directly to a repeater, but it has lower system overhead, and if you set up your radio with a Zone Route, it's faster than linking.
  3. Group Routing is where you route into a group of other users. There are two kinds of Routing Groups available on the QuadNet network, Smart Groups and STARnet Groups. They both behave like a channel on a reflector, but you route to it instead of linking to it. If you've never used routing before, this is probably where you should start.

    You can Route into the QuadNet array using one of four different Smart Groups, DSTAR1, DSTAR2, DSTAR3 or DSTAR4, located in New York, California, Ohio and Alabama, respectively. To use any Routing Group, you must have your gateway logged into the QuadNet IRC Open Network, using Next you need to place Routing Group callsign in your UR field in your d-star radio. Try connecting to one of the DSTAR Smart Groups. Key up your radio once and watch the display on your radio for the login confirmation. If you can't watch for the login text listen for a confirmation beep. Once logged in you can now talk on the QuadNet Array. To log off of the Array, add a T in the 8th character of the UR field of your radio and key up. For example if you are subscribed to DSTAR4, then DSTAR4 T will get you unsubscribed. Just like when you logged in, you will see a "logged off" message as well as hear a confirming beep to let you know that you are unsubscribed.

    See the Routing Groups page for a lists of who's currently subscribed and what groups are available and the callsigns to use for subscribing and unsubscribing.

Port Forwarding

If you have a reasonably modern Internet router on your home network, you may not have to do anything other than to enable uPnP (universal Plug-and-Play) if it is not already enabled. Our first advice is to try subscribing to QNET20 C. If you get the "logged on" message on you radio, you are good to go! If after a few unsuccessful tries at logging in, see if uPnP is enabled on you home network. If you don't see a way to enable uPnP on you home network, you'll have to set up explicit port forwarding rules on you home network. In that case, keep reading.

To be able to link to XRF and DCS reflectors and to be able to do routing, ports that are usually blocked by your local area net gateway/firewall have to be opened to the computer where your ircDDB client is running. You'll need to access your home gateway, usually by browsing to or, or some similar address. You will need to login with a name (usually "admin") and a password (obtained from you Internet service provider). The "port forwarding" section can usually be found in the advanced page. Once in, you can set up rules to forward the necessary ports to the computer running your ircDDB client. Note that the DPlus UDP port 20001 probably doesn't need a forwarding rule, but it certainly doesn't hurt to have it defined.

Accessing the QuadNet Array via DMR

To access the QuadNet Array via DMR, you have a couple of options. The simplest option is to activate Talkgroup 31012 if you are connected to BrandMeister’s servers. If you are not, and you have access to DMRGateway, you can simply enable the XLX configuration and point it to XLX307. The XLXHosts file that comes with DMRGateway defaults to Module D, which is the module the transcoder is active on, so no further configuration should be necessary.

Accessing through DMRGateway

Typical configuration of DMRGateway will have you using TG6 to transmit over the XLX link. This can be changed manually in your DMRGateway configuration if you wish. In the future, QuadNet will likely add other modules for transcoding as well, but currently only module D is being used. A sample configuration section for the XLX master is listed below:

[XLX Network]
Id=[insert CCS7 ID here]

Please be aware that this sample configuration makes the assumption that your DMRGateway installation is in /opt/DMRGateway.

Accessing through Pi-Star

Pi-Star users simply need to select the XLX307 master from the list of XLX masters. In Pi-Star, navigate to the configuration tab and select DMRGateway as your DMR Master, and select XLX307 from the drop down list of XLX Masters. Once the configuration is applied, your system should automatically link to XLX307 Module D. Any transmission made to TG6 will automatically be routed through the XLX Server to the transcoder link. You may prefer to use TG31012 on BrandMeister to access the system for ease of use, but the DMRGateway/XLX combination allows users who are not using BrandMeister as their master server to access the link as well.

If you have any issues or need any assistance, feel free to contact us and one of the administrators will be happy to assist you in any way we can.

Accessing through DMR+

To use DMR+ to access the QuadNet Array, the DMR+ Master is DMR+_IPSC2-Quadnet. The reflector you will want to connect to is 4541 and is linked to the Quadnet Array. This means if you are connected to reflector 4541 you will hear activity across the entire Array.

In PI-STAR, click on configuration and then scroll down to DMR Configuration.

Once your hotspot reboots, you will be automatically connected to the QuadNet Array. In your radio code plug you will want to add Talkgoup 8 as a group call. You need to use talkgroup 8 to be able to transmit through your hotspot to the DMR+ reflector.

Accessing through YSF

Both XLX reflectors, XLX307 and XLX587, support direct, WiresX-enabled linking. To connect to either reflector, here are the MMDVM.ini setting needed:

[System Fusion Network]
# ModeHang=3

Or, if you want to connect to XLX587, use

WiresX returns the operational TX and RX frequencies of the YSF node you are operating from whenever you send a WiresX command, so the reflector needs to know the frequencies your YSF node is operating on. You can register your hot-spot TX and RX frequency on either XLX reflector, XLX307 and/or XLX587. When you register your hot-spot, be sure to remember your password because the QuadNet administors have no way to recover your password once it's installed in the reflector's database.

Accessing through G3 Terminal or Access Point Mode

You can also access any of the Quadnet refectors using Icom's implementation of G3 routing. The IC-9700 can do this out of the box, otherwise you can connect this way using any radio supported by Icom's G3 application, RS-MS3W (for Windows) and RS-MS3A (for Android). If using the RS-MS3 software, follow Icom's instructions for installing and configuring the software and connecting a compatible radio. Due to limitations in their software, you have to use the IPv4 dotted-number address for the "Server IP/Domain" in order to connect to any of the Quadnet reflectors. To find the IPv4 address, do a ping -4 <domain-name> in a command shell. Here, <domain-name> is the domain name of the reflector, e.g.,,, or Don't forget the -4 so that ping returns the IPv4 address of the reflector.

If you are behind a home router, it's best to port-forward UDP 40000 to the device on which RS-MS3 is running. If this isn't possible, you may need to turn on "UDP Hole Punch" in the software configuration. You can set the radio to operate in either Terminal or Access Point Mode. Set the "Terminal/AP Callsign" field to your callsign with a module sufix in the 8th position.

Finally, program the UR field in your radio with a slash, followed by the reflector callsign and module. For example, connecting to the Quadnet Array on 787, you would program /XRF787A. A quick-key should link you to your desired reflector module. Leave that routing callsign in your UR field as you listen and transmit on your connected module.

Accessing Quadnet through the US C4FM North America YCS310 Server

To gain access to the QuadNet YCS310 C4FM System Fusion II Multi-protocol Server, you will need to install or configure a YSFGateway using QnetGateway Multi-Protocol Build (MPB), PiStar, or OpenSpot software/device or a Yaesu System Fusion II Repeater, DR2X. The server will except MMDVM hot-spots and have the capability on 99 rooms. In addition, you will have access to what's called a DV-Matrix of world wide DG-IDs or what can be equated to what is known as world wide like DMR Talk Groups.

For example, the QuadNet Array on the C4FM YCS Server is on DG-ID 80 or is accessible on DMR+ TG 320, the QuadNet Tech Chat channel is DG-ID 79 or is accessible on TG 321. WM-Connect Michigan is on DG-ID 35 or on TG 322. The IPSC2-QuadNet DMR+ Server can be or is linked when requested to the YCS C4FM server. The server can also link in YSF and FCS reflectors on request. The C4FM YCS310 server dashboard is located at -->

You can build your own multi-mode hotspot using the Multi-Protocol Build of QnetGateway. The general instructions for MPB is in the MMDVM.README file.

The YSFGateway Config file example is below. If you have any questions we would like to invite you to join the QnetGateway for contact and discussion. Thanks and lets ham it up!

# Startup=QuadNet-Tech-Chat
# book DG-ID for Reflector

[YSF Network]

[FCS Network]

Specific Software/Hardware Instructions

Here is another guide to a popular hardware/software combination.