To connect your computer to a DCC Base Station, first install the appropriate drivers. For the DCC Base Station with JMRI, you may need to install a device driver on your computer. Please refer to the Arduino Getting Started pages for instructions. Windows (See Step 4) Mac: No drivers should be required. Once connected, you can control your locomotives and your entire model railroad. Speed, direction, and up to 29 DCC functions are supported for one to six locomotives or consists. You can create and edit consists (software-defined). You can also control layout power, turnouts, routes, and access JMRI web panels and windows.

XPressNet

Supported Hardware

1. Digitrax Big Book of DCC. PR3 / PR4 Windows 10 Drivers.Return to Downloads. Click Here to Download (14.4 MB) Subscribe To The Digitrax YouTube page!
2. No separate drivers are required for a SPROG with Windows 10. It uses Windows own built in USB serial driver. This was Microsoft being kind to users in that you no longer need to disable driver signing. The downside is they do not interrogate the device correctly so it appears in the device manager as a USB serial, rather than a SPROG.
3. Support and Downloads for the SPROG family of DCC devices All required software to install and run your SPROG device are provided on the USB Flash drive supplied with the SPROG Complete Package. You do not need to download or search the web for any software or drivers to use your SPROG.

Devices, command stations, networks, and protocols:

• WiFi Throttles

Applications

By the community of JMRI.org:

Tools

JMRI tools for working with your layout:

• Common Tools:
• Blocks:
• Routing and Control:
• Other:

Layout Automation

Use JMRI to automate parts of your layout and operations:

JMRI Help:
Contents/ Index
Glossary/ FAQ

XpressNet is a Command Bus developed by Lenz and used by: Atlas, Hornby, Lenz, OpenDCC (DIY), Paco Canada (DIY), Roco (some models), Viessmann and ZTC Controls.

The XpressNet specification (available from the Lenz website) specifies the electrical communications standards and command set for devices to communicate with the command station.

• Hardware
• Connecting with:

Supported Hardware

Command Station

The XpressNet protocol allows the DCC manufacturers that use it to select what functionality they wish to provide in their command stations. This functionality ranges from 'supports all features' to 'bare bones minimal'. Unfortunately, this restricts the features you can access via JMRI - if the hardware doesn't support it, it isn't there to be used by JMRI.

In general, the features that JMRI cares about can be grouped into three areas:

• Operating Locomotives and Turnouts on the layout
• Programming decoders on a programming track or in ops mode
• Getting Feedback from the layout (the state of turnouts, ops-mode feedback, etc.)

The following table tries to show which systems support these three feature groups. System specific limitations are also expressed in the Limitations section of each system below.

Full

Operating Programming Feedback

• Lenz LZ100 based systems (software version 3.x)
• Lenz LZV100 based systems (software version 3.x)
• Lenz LZV200 based systems (software version 3.x)
• OpenDCC's Command Center
• Paco Canada's NanoX-S88

Partial

Operating Programming Feedback

• Roco LocoMaus 2 (Roco Part number 10760)
• Roco MultiMouse (Roco Part number 10810)
• Hornby Elite
• Paco Canada's NanoX

Minimal

Operating ProgrammingFeedback

• Atlas Commander
• Lenz Compact
• Lenz LH200
• ZTC Controls ZTC511 (with Command Station Software version 4.0)

Operating Programming Feedback

• Lenz BlackBox

OperatingProgramming Feedback

• Paco Canada's GenLI-S88 (adds Feedback to existing XpressNet System)
• Paco Canada's RS2PC (adds RS-Bus based Feedback without XpressNet)

Unknown

The following systems are untested, but should be at least partially supported:

• ZTC Controls ZTC521 (with XpressNet (aka X-Bus V3.0) software)
• Hornby Select
• Viessmann Commander
• Roco 10830 multiZENTRAl-PRO

Computer Interfaces

Currently the following XpressNet computer interfaces are supported by JMRI:

• The Lenz LI100 is Lenz's original computer interface. It is limited to a serial port speed of 9,600 baud.
• The Lenz LI100F is an improved version of the LI100. It supports serial port speeds of 9,600 and 19,200 baud. The Factory default is 9,600 baud.
• The Lenz LI101F is Lenz's last serial port based computer interface. It is significantly different than the LI100 and LI100F in physical appearance, and in the method by which the device is configured. The device is configured via a software tool provided by Lenz which runs on Windows only. We have included a configuration tool with JMRI that will allow users of other operating systems to configure their LI101F as well. The LI101F supports serial port speeds of 19,200, 38,400, 57,600, and 115,200 baud. The factory default is 19,200 baud.
• The Lenz LI-USB (Lenz part number 23150 ) is Lenz's first USB based computer interface. Internally, the device contains a USB to RS232 serial adapter, and an XpressNet interface circuit similar to that of the LI101F. Note: If you are using the XpressNet version 3.6 update in your command station, you should also update your LI-USB to version 3.6. There are instructions in this user group message or on the Lenz website. The device is configured via a software tool provided by Lenz which runs on Windows only. JMRI provides a tool that will allow users of other operating systems to configure their LI-USB as well. On Windows, starting with version 2.7.2, JMRI supports interfacing with the LI-USB through the Lenz LI-USB Server.
• The Lenz LI-USB-Ethernet (Lenz part number 23151) is a revised version of the LI-USB which includes a built-in Ethernet adapter. The USB connection on the device is provided by a Microchip chipset and registers itself as a USB CDC-ACM (Abstract Control Model) device. For Windows users, connection via the USB port will be identical to the previous version of the LI-USB. For Linux users, the device will appear as a /dev/ttyACMx device (where x is replaced with a number). For MacOS users, the device name will be /dev/tty.usbmodemXXX (where XXX is replaced with a 3 digit number)
  The protocol used to connect to the device via USB is identical to the prior LI-USB device, so the USB connection is supported by any JMRI version with support for the LI-USB. When configuring to communicate with the device via USB, be sure that Flow Control is turned off.
  Connection via an Ethernet connection is available through the LI-USB Ethernet connection type, which was first made available in JMRI version 2.13.7.
• The Lenz LZV200 is Lenz's command station with a built in computer interface. The computer interface is very similar to the LI-USB and can ve configured using the JMRI tool for configuring the LI-USB. The LZV200 connection option was added in version 4.15.7, though thr LZV200 can also be configured using the LI-USB or LI-USB Server options.
• In addition to the Lenz purpose built computer interfaces, we have also included support for using an XpressNet Phone Adapter (XPA) as an interface to the an XpressNet based DCC system. This interface is relatively slow, and it only allows controlling mobile and stationary decoders, but it may be perfect for someone who is interested in trying out the control functions of a computer before deciding to go with a full fledged interface. Note that an XPA cannot be used to program decoders.
• The ZTC Controls ZTC640 is ZTC's USB interface. We have had limited experience with this device, though the current JMRI drivers are believed to be stable. Operationally, the device appears to be similar to the Lenz LI-USB.
• The Hornby Elite's built-in USB interface can also be used. Hornby has provided limited information about how the device works, and currently only provides a USB driver for Windows, so we are unsure of it's usability with other operating systems. As with the ZTC640, we have had limited experience with this device, though the current JMRI drivers are believed to be stable. Note: The first JMRI release supporting the Hornby Elite USB connection is version 2.1.2
• The XnTcp interface allows you to connect to your XpressNet layout via Ethernet-based networking from the JMRI programs. Note: The first JMRI release supporting the XnTcp adapter is version 2.1.5
• Paco Canada's GenLi is a do-it-yourself XpressNet interfaces that emulate an LI100. There is also a USB version of this device. To configure these devices in JMRI, please see the instructions for configuring the Lenz LI100.
• Paco Canada's Gen-LI-S88 has the same functionality as a GenLI, plus adds an S88 feedback module. It can be used to add feedback to an existing XpressNet equipped layout. To configure this devices in JMRI, please see the instructions for configuring the Lenz LI100.
• Paco Canada's RS2PC Interface allows adding Lenz (and compatible) RS Feedback Bus modules to a system that does not support the RS Feedback Bus. To configure this devices in JMRI, please see the instructions for configuring the Lenz LI100.
• Like Paco Canada's GenLi project, there is an interface called S88XpressNetLi, which is designed and built by Karst Drenth and Wim Ros, and consists of a small print (available as kit or built module) with 2 XpressNet connectors, a serial interface (9,600baud at the moment), and a S88 connection (both traditional and S88-N connectors).
• The OpenDCC project has two interfaces for use with JMRI. The OpenDCC Command Station and the OpenDCC Gateway. These devices should be configured as LI100F devices with the port speed set to 19,200bps. The OpenDCC Command Station provides feedback via an S88 connection.

Limitations

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JMRI

JMRI supports the current version (XBus/XpressNet Version 3.0). We may add XBus Version 1.0 and 2.0 support in the future, which will allow all XBus based systems to work with JMRI.

Atlas

The Atlas Commander provides support only for operation of equipment on a layout (running trains and throwing switches) from JMRI. You cannot program decoders from a computer with the Commander.

If you have an Atlas Commander, and would like to use it to control your layout from the computer, an XPA and Hayes Compatible Modem may be a more cost effective solution than the LI100, LI100F, LI101F or LI-USB

Hornby

We provide support for the Hornby Elite using it's built in USB connection. The Elite can be used for operating equipment on a layout (running trains and throwing switches) and for programming from JMRI.

It is unknown at this point in time if we can control either an Elite or a Select using one of the other interfaces. Hornby's manuals warn against using their equipment with that of other manufacturers, so we expect some incompatibilities in this area.

Lenz

We have a pretty good handle on what instructions each Lenz Command station should support. If you find that you cannot perform a function you think you should be able to using a Lenz system and the LI100, LI101F or LI-USB, please let us know.

LZ100, LZV100, and LZV200 based systems support the full range of JMRI functionality. The LZ100 is the command station used in the Set-01. The LZV100 is the command station used in the Set-90, Set-100, and Set-LI.

The LH200 provides support only for operating equipment on a layout (running trains and throwing switches) from JMRI. The LH200 is the command station used in the Set-02. You can't program decoders from a computer with Set-02.

The Compact is the same device as the Atlas Commander, and has the same restrictions as the commander. The Compact is not available in North America.

If you have either an LH200 or a Compact, and wish to add computer control to your layout, an XPA and Hayes Compatible Modem may be a more cost effective solution than the LI100, LI100F, LI101F, or LI-USB.

The BlackBox is a standalone decoder programmer. It can be connected through an XpressNet interface (such as the LI101F, etc) with a suitable cable. There are some instructions for creating that cable in the LZV100 manual. The BlackBox only does programming, and cannot operate either locomotives or accessory decoders (turnouts) on the layout.

Roco

Note: Roco calls their XpressNet implementation 'RocoNet'.

The Roco LocoMaus 2 (Roco Part number 10760) has been shown to support operating equipment on a layout (running trains and throwing switches) as well as programming locomotives on the programming track.

For programming in service mode, the LocoMaus 2 appears to only be able to write to CV's.

It is not known at this point in time if the LocoMaus 2 supports Operations Mode Programming.

The LocoMaus 2 does not support feedback.

The Roco MultiMaus (Roco Part number 10810) has been shown to support operating equipment on a layout (running trains and throwing switches) and programming locomotives in both service and operations mode.

The Roco multiZENTRAL-PRO (Roco Part number 10830) is the new command station for use with Roco's MultiMaus-PRO wireless throttles. The unit features a built in USB port, but it is unknown at this time how we can utilize it.

The multiZENTRAL-PRO also provides ports for connecting a RocoNet device (MultiMaus, LocoMaus 2, etc). These ports can be used to connect one of the supported XpressNet computer interfaces, but it is unknown at this point what, if any, limitations exist when using this connection.

The Roco Z21 Command Station is covered here.

OpenDCC

The OpenDCC Command Station should be supported by JMRI through either the RS232 port or the built in USB port.

This device should be configured as an LI100F device with the port speed set to 19,200 bps.

Paco Canada

Paco Canada has two versions of his do-it-yourself Nanox DCC system available, both are compatible with JMRI.

The original NanoX DCC system supports operating equipment on a layout (running trains and throwing switches) and programming locomotives.

The NanoX-S88 adds feedback capabilities to the NanoX system. This feedback comes through the use of S88 compatible feedback modules.

Paco Canada also provides two methods for adding feedback to non-feedback equipped systems.

The Gen-LI-S88is an XpressNet interface that includes an S88 feedback module, so it can be used to add feedback to an existing XpressNet equipped layout.

The RS2PC interface allows adding Lenz (and compatible) RS Feedback Bus modules to a system that does not support the RS Feedback Bus. This device does not require an XpressNet connection.

Viessmann

The Viessmann Commander's Low Speed Bus port supports the XpressNet protocol. We should be able to use this to connect using one of the supported XpressNet computer interfaces, but the limitations of this port have not been determined.

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Viessmann has indicated the Commander's built in USB port can only be used for updating the firmware and sending data to the commander, not for operating the device.

ZTC

The ZTC Controls ZTC511 (with Command Station software version 4.0) has been shown to support operating equipment on a layout (running trains and throwing switches). The ZTC511 does not support any programming operations from XpressNet devices.

The onboard serial interface of the ZTC511 is not supported at this point in time.

The ZTC521 (with XBus V3.0 software) has yet to be tested, so the full extent of what is supported is not known at this time.

You can use any of the Lenz or ZTC interfaces listed above to connect to a ZTC system that supports the XpressNet (aka X-Bus V3.0) protocol.

If you have either ZTC system and wish to add computer control to your layout, an XPA and Hayes Compatible Modem may be a more cost effective solution than one of the purpose built interfaces.

XPA and Hayes Compatible Modem

If you choose to use an XPA and a Hayes Compatible Modem to control your XpressNet based system, you will be limited to control of locomotives and accessory decoders. You cannot program decoders from a computer using the XPA, regardless of which system you have.

Connecting

Wiring

While the Command Stations mentioned on this page support the same commands over the XpressNet connection, they do not all use the same hardware connectors. It may be necessary to build an adapter to plug an XpressNet accessory into a Command Station from another manufacturer.

Connecting using a Lenz LI100, LI101F, or LI101F

1. Connect your Lenz LI100, LI100F or LI101F to your DCC Command station via their XpressNet connections. Then connect the LI100/LI100F/LI101F to the computer's serial port using a 9-pin serial cable.
2. Then go to the preferences panel of a JMRI-based program. This opens automatically the first time a program is run, or you can select it from the 'Edit' menu.
3. Select your Lenz interface (LI100, LI100F or LI101F) from the top selection box. You can then select the proper serial port in the second selection box.
4. The Baud rate selection box should be set to match your LI100, or LI100F, or LI101F. From the factory, the LI100 and LI100F are set to 9,600 baud. The LI101F is set to 19,200 baud.
5. The box 'Lxx Connection Uses' should be left on 'hardware flow control (recommended)' unless you later consistently get a message about the LI100 control leads being improperly set up, in which case you might want to try to bypass that by selecting 'no flow control'.
6. Output Interval : 250 ms
7. Click 'Save'. You'll be asked if it's OK for the program to quit, click 'Yes'.
8. Restart the program. You should be up and running.

Connecting using a Lenz LI-USB

1. To connect your computer to one of these XpressNet based DCC systems, you can use a Lenz LI-USB interface unit. Connect the LI-USB to your DCC command station via their XpressNet connections. Then connect the LI-USB to your computer's USB port using the supplied cable.
2. Install the appropriate drivers.
   • For the LI-USB (Lenz part Number 23150) with JMRI, you must first install a software driver on your computer. Internally, the device contains a FTDI FT232BM USB to Serial converter. There are two drivers available for this device, make sure you obtain the Virtual Comm Port (VCP) driver.
     The device drivers for Windows are included on the CD that comes with the device.
     The device drivers for Linux are included with recent versions of the Linux kernel.
     Device drivers for Linux, and MacOS (8,9 and X ) and Windows are available from the FTDI website (direct link to the drivers current as of this writing: http://www.ftdichip.com/Drivers/VCP.htm).
   • For the LI-USB-Ethernet (Lenz part Number 23151) in USB mode with JMRI, you must first install a software driver on your computer. Internally, the device contains a The USB connection on the device is provided by a Microchip chipset that registers itself as a USB CDC-ACM (Abstract Control Model) device. Functionally, the device acts like a serial port. The Lenz documentation indicates the drivers for Windows 7 and MacOS are installed automatically if the computer is connected to the internet. For Linux, the drivers are part of the standard kernel distribution.

   When the device drivers are installed, and the LI-USB is connected to both your PC and your DCC system, the LI-USB should have a Red LED turned on, indicating the XpressNet connection is OK, and a green LED turned on, indicating the USB connection is OK.

   NOTE: If you have installed the Lenz software, make sure none of it is running. This includes the LI-Server, which may be running in the background.

3. Once the drivers are installed, you are ready to configure JMRI. Start one of the JMRI-based programs, Then go to the preferences panel. This opens automatically the first time a program is run, or you can select it from the 'Edit' menu.
4. Select 'Lenz LI-USB' from the top selection box. You can then select the proper serial port in the second selection box.
5. The baud rate selection box should be set to 57,600 baud.
6. The fourth box should be
   1. (for the Lenz LI-USB, Lenz Part 23150) left on 'hardware flow control' unless you later consistently get a message about the LI-USB control leads being improperly set up, in which case you might want to try to bypass that by selecting 'no flow control'.
   2. (for the Lenz LI-USB-Ethernet, Lenz Part 23151) set to 'no flow control' (the LI-USB-Ethernet does not support flow control).
7. Output Interval : 250 ms
8. Click 'Save'. You'll be asked if it's OK for the program to quit, click 'Yes'.
9. Restart the program. You should be up and running.

Connecting using a Lenz LI-USB and the Lenz LI-USB Server (Windows Only)

Note: The first JMRI release supporting the Lenz LI-USB Server connection is 2.7.2

1. To connect your computer to one of these XpressNet based DCC systems, you can use a Lenz LI-USB interface unit and the Lenz LI-USB Server software. Connect the LI-USB to your DCC command station via their XpressNet connections. Then connect the LI-USB to your computer's USB port using the supplied cable.
2. In order to use the LI-USB server with JMRI, you must first install the Lenz drivers and software. These are provided on the CD that comes with the LI-USB.

   When the device drivers are installed, and the LI-USB is connected to both your PC and your DCC system, the LI-USB should have a Red LED turned on, indicating the XpressNet connection is OK, and a green LED turned on, indicating the USB connection is OK.

   NOTE: to use the LI-USB server, you MUST install the Lenz software and the LI-Server must be running.

3. Once the drivers are installed, you are ready to configure JMRI. Start one of the JMRI-based programs, Then go to the preferences panel. This opens automatically the first time a program is run, or you can select it from the 'Edit' menu.
4. Select 'Lenz LI-USB Server' from the top selection box. There are no additional configuration steps required to use the LI-Server.
5. Output Interval : 250 ms
6. Click 'Save'. You'll be asked if it's OK for the program to quit, click 'Yes'.
7. Restart the program. You should be up and running.

Connecting using a Lenz LI-USB Ethernet (Lenz Part Number 23151) via the Ethernet connection

Note: The first JMRI release supporting the Lenz LI-USB Ethernet connection was v 2.13.7.

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1. To connect your computer to one of these XpressNet based DCC systems, you can use a Lenz LI-USB Ethernet interface unit in Ethernet mode.
   Connect the LI-USB to your DCC Command Station via their XpressNet connection, then connect the LI-USB Ethernet to your computer Network using the supplied Ethernet cable.
   When the device is properly connected to the XpressNet, the Red XpressNet LED will turn on.
   When the Ethernet is properly connected, a Green status LED will turn on. This LED is located on the ethernet port itself. This signals the drivers are installed, and the LI-USB is connected.
2. Once the device is connected, refer to the device documentation for information on setting the IP address. The default IP address is 192.168.0.200. Make note of the IP address for use when configuring the device. If the IP address is unknown, and your system supports auto-configuration via the MDNS protocol (also known as Bonjour), you can open a web browser to http://XPressNet.local./.
   In the LI-USB-Ethernet Configuration interface, the IP address appears in the field circled in the image below:
   
3. Start one of the JMRI-based programs, Then go to the preferences panel. This opens automatically the first time a program is run, or you can select it from the 'Edit' menu.
4. Select 'Lenz LI-USB Ethernet' from the top selection box. There are two configuration options available for the LI-USB-Ethernet. You may choose to use Manual configuration (the default) or Automatic configuration:
   • To use Manual configuration, enter the IP address you saved earlier into the box labeled 'IP Address', as shown in the image below:
     
   • Automatic configuration is optional if you set the IP Address of your LI-USB-Ethernet device to a fixed value. If you use DHCP to configure the LI-USB-Ethernet's IP address, it is highly recommended that you use Automatic Configuration.
     To use Automatic Configuration, check the Automatic Configuration checkbox. as shown in the image below:
     
5. Click 'Save'. You'll be asked if it's OK for the program to quit, click 'Yes'.
6. Restart the program. You should be up and running.

Connecting using a Lenz LZV200

1. To connect your computer to Lenz LZV200using the built in USb port, connect the LZV200 to your computer's USB port using a standard USB A to USB B cable.
2. Install the appropriate drivers.

   For the LZV200 USB connection with JMRI, you must first install a software driver on your computer. Internally, the device contains a FTDI FT232BM USB to Serial converter. There are two drivers available for this device, make sure you obtain the Virtual Comm Port (VCP) driver.
   The device drivers for Windows are included on the CD that comes with the device.
   The device drivers for Linux are included with recent versions of the Linux kernel.
   Device drivers for Linux, and MacOS (8,9 and X ) and Windows are available from the FTDI website (direct link to the drivers current as of this writing: http://www.ftdichip.com/Drivers/VCP.htm).

   When the device drivers are installed, and the LZV200 is connected to your PC, the LZV200 should have a Red LED turned on, indicating the USB connection is OK.

   NOTE: If you have installed the Lenz software, make sure none of it is running. This includes the LI-Server, which may be running in the background.

3. Once the drivers are installed, you are ready to configure JMRI. Start one of the JMRI-based programs, Then go to the preferences panel. This opens automatically the first time a program is run, or you can select it from the 'Edit' menu.
4. Select 'Lenz LZV200' from the top selection box. You can then select the proper serial port in the second selection box.
5. The Baud rate selection box is fixed to 57,600 baud.
6. The fourth box should be set to 'no flow control' (the LZV200 does not support flow control, but check the model numbers).
7. Output Interval : 250 ms
8. Click 'Save'. You'll be asked if it's OK for the program to quit, click 'Yes'.
9. Restart the program. You should be up and running.

Connecting to the XpressNet Simulator

Use the XpressNet Simulator connection when you don't have hardware connected. This will let JMRI still use XPressNet sensors, turnouts and other objects so you can develop your panels and scripts without access to real devices.

1. Start one of the JMRI-based programs, Then go to the preferences panel. This opens automatically the first time a program is run, or you can select it from the 'Edit' menu.
2. Select 'XpressNet Simulator' from the top selection box. There are no additional configuration steps required to use the XpressNet Simulator.
3. Click 'Save'. You'll be asked if it's OK for the program to quit, click 'Yes'.
4. Restart the program. You should be up and running.

Connecting using a ZTC ZTC640

1. To connect your computer to one of these XpressNet based DCC systems, you can use a ZTC ZTC640 interface unit. Connect the ZTC640 to your DCC command station via their XpressNet connections. Then connect the ZTC640 to your computer's USB port using the supplied cable.
2. In order to use the ZTC640 with JMRI, you must first install a software driver on your computer. Internally, the device contains a FTDI FT232BM USB to Serial converter. There are two drivers available for this device, make sure you obtain the Virtual Comm Port (VCP) driver.

   The device drivers for Windows are included on the CD that comes with the device.

   The device drivers for Linux are included with recent versions of the Linux kernel

   Device drivers for Linux, and MacOS (8,9 and X ) and Windows are available from the FTDI website. (direct link to the drivers current as of this writing: http://www.ftdichip.com/Drivers/VCP.htm)

   When the device drivers are installed, and the ZTC640 is connected to both your PC and your DCC system, the ZTC640 should have a Red LED turned on, indicating the XpressNet connection is okay, and a green LED turned on, indicating the USB connection is okay.

3. Once the drivers are installed, you are ready to configure JMRI. Start one of the JMRI-based programs, Then go to the preferences panel. This opens automatically the first time a program is run, or you can select it from the 'Edit' menu.
4. Select 'ZTC Controls ZTC640' from the top selection box. You can then select the proper serial port in the second selection box.
5. The baud rate selection box should be set to 19,200 baud.
6. The fourth box should be left on 'no flow control'.
7. This option has been removed starting in version 2.9.5 Check Buffer Status When Sending? Defaults to 'yes' on Windows and Linux, and 'no' on MacOS 8/9 and Mac OS X. Except when debugging problems, you should leave this at the default.
8. Click 'Save'. You'll be asked if it's okay for the program to quit; click 'Yes'.
9. Restart the program. You should be up and running.

Connecting using the Hornby Elite's built in USB connection

Note: The first JMRI release supporting the Hornby Elite's built-in USB connection is 2.1.2

1. To connect your computer to the Hornby Elite using it's built in USB connection, connect your Hornby Elite's USB port and the computer's USB port using the supplied cable.
2. In order to use the Hornby Elite's built in USB port, you must first install a software driver on your computer.

   The device drivers for Windows are included on the CD that comes with the device and from the Hornby Website.

   It is unknown at this point if there are device drivers available for MacOS or Linux.

   The Hornby Elite has a Green LED that illuminates when it is recognized by the computer.

3. Once the drivers are installed, you are ready to configure JMRI. Start one of the JMRI-based programs, Then go to the preferences panel. This opens automatically the first time a program is run, or you can select it from the 'Edit' menu.
4. Select 'Hornby' as Manufacturer, and 'Hornby Elite USB port' from the System Connection drop down.
5. You can then select the proper serial port in the second selection box.
6. The baud rate selection box should be set to 19,200 baud.
7. The fourth box should be left on 'no flow control'.
8. Output Interval : 250 ms
9. Click 'Save'. You'll be asked if it's OK for the program to quit, click 'Yes'.
10. Restart the program. You should be up and running.

Connecting via an XnTcp adapter

Note: The first JMRI release supporting the XnTcp adapter is 2.1.5 More information on the XnTcp adapter can be found on its home page.

Instructions for configuring JMRI to connect to an XnTcp adapter can be found on the adapters configuration page.

During configuration, the program tries to find all interfaces available on the LAN by broadcasting a UDP request. Any adapter(s) present will reply with their NetBios name, which can then be selected. The preferences store the NetBios name of the interface, rather than the storing the IP address digits, since the IP address can change due to DHCP addressing.

Connecting using the XPA and a modem

We have developed an alternative method for connecting to an XpressNet based system which should prove to be more cost effective on XpressNet based systems that do not support programming or feedback via the LI100, LI100F, or LI101F computer interfaces, or for those who are interested in experimenting with computer control, but don't need all the features supported by the Lenz interfaces.

This system uses the Lenz XpressNet Phone Adapter and a Hayes Compatible modem to provide control of locomotives and stationary decoders.

1. Connect your computer to a Hayes Compatible modem - either a built-in modem card or an external serial modem.
2. Next, Connect the 'Phone In' jack on your XPA to the 'Wall In' jack on your modem using the cable supplied with the XPA for connecting a telephone to the XPA.
3. Then go to the preferences panel of a JMRI-based program. This opens automatically the first time a program is run, or you can select it from the 'Edit' menu.
4. Select 'Lenz' from the Manufacturer and 'XPA-Modem' as the System Connection. You can then select the proper serial port in the second selection box.
5. The Baud rate selection box defaults to 9,600 baud and can not be changed.
6. Output Interval : 250 ms
7. Click 'Save'. You'll be asked if it's OK for the program to quit, click 'Yes'.
8. Restart the program. You should be up and running.

JMRI XpressNet Tools

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The following tools are available from the XpressNet menu when this connection is active (click on the name to read more on each tool):

• XpressNet System Information - This tool displays the software version and type of the Command Station and the software version of the LI100/LI100F/LI101F connected to the computer.
• Send XpressNet Command
• Command Station Database Manager
• LI101 Configuration Manager - to configure the LI101 computer interface
• LI-USB Configuration Manager
• LZ100 Configuration Manager
• LZV100 Configuration Manager - to configure the LZV100 Command and Power Station
• LV102 Configuration Manager

Documentation

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JMRI Help

Third Party info

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• Atlas Commander Manual (pdf file; 363 kb)
• Atlas Commander Consisting Instructions (not included in the above manual)

Credits

Thanks to Paul Bender and others for implementing XpressNet