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• The first four functions and the lights can always be con
-
trolled by means of the first address; additional functions
can be used, depending on the consecutive addresses.
• All of the settings from the function mapping for mfx or
DCC programming are taken on for fx (Motorola).
• Automatic recognition corresponding to the active ad
-
ditional or consecutive addresses. What is recognized is
whether the function can be turned on or off continuously
by means of a consecutive address. This function map-
ping can only be determined in the mfx or DCC protocol.
• See the CV description for the fx protocol for additional
information.
DCC Protocol
Addresses
• Short address – long address – multiple unit address
• Address range:
1 - 127 for short address and multiple unit address,
1 - 9999 for long address
• Every address can be programmed manually.
• A short or a long address is selected using the CVs.
• A multiple unit address that is being used deactivates the
standard address.
Programming
• The characteristics can be changed repeatedly using the
Configuration Variables (CV).
• The CV numbers and the CV values are entered directly.
• The CVs can be read and programmed repeatedly. (Pro
-
gramming is done on the programming track).
• The CVs can be programmed in any order desired. (Pro
-
gramming can be done on the main track PoM). The PoM
can only be done with those designated in the CV table.
Programming on the main track PoM must be supported
by your central controller (Please see the description for
this unit).
• The default settings (factory settings) can be produced
repeatedly.
• 14/28 or 126 speed levels can be set.
• All of the functions can be controlled according to the
function mapping (see CV description).
• See the CV description for the DCC protocol for additional
information.
We recommend that in general programming should be
done on the programming track.