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Locomotive decoder LE063XF

 

7

 

Atlas Model Railroad Co., Inc.

 

 

 

CV

 

Reg.

 

Description

 

Range 

Default 

Value

**

 

8

 

8

 

Manufacturers Identification:

 

This value is the manufacturer ID of the decoder, 

(Atlas=127).  

Writing the decimal number “33” 

to this Register will reset all CVs in the 

decoder to their factory-default values 

EXCEPT FOR the speed step settings in CV67 

to CV94

.

 

127 

17

 

Long Address, High Byte 

The long (also called extended) address, if used, 

is contained in CV17 and CV18. 

192-

231 

18

 

Long Address, Low Byte

 

 

0-255 

19

 

Advanced Consist Address

 

The Advanced Consist address, if used, is 

stored in CV19. (In Atlas Commanders the 

allowable range is 1-99.) 

0-255 

23 

Acceleration Trim 

This CV contains additional 

acceleration rate information that will be added 

to (or subtracted from) the base value contained 

in CV3. 

 

0-255 

255 

24 

Deceleration Trim 

This CV contains additional 

braking rate information that will be added to (or 

subtracted from) the base value contained in 

CV4. 

0-255 

255 

29  Decoder Configuration, Byte 1:

 

Several decoder properties are set with CV29. Changes 

are easiest if done in binary mode, but can also be done 

by adding together the decimal values (shown in 

parenthesis) for all the desired features and writing the 

total into CV29.  (For an example, see the section

 

Converting Binary Values of Individual Bits within a 

Configuration Variable into the Equivalent Decimal Value 

of the Entire CV

.)

 

The definitions for the individual bits of CV29 are given 

below. 

0-55 

 

Bit 0 

 

 

Locomotive direction:

 

This bit sets the direction that the locomotive will 

move when told to move forward in digital (DCC) 

mode.  
0 = locomotive’s direction is normal  

1 = locomotive’s direction is reversed 

0,1 

 

(1) 

 

Summary of Contents for 447199

Page 1: ...by setting a CV Supports both short 2 digit and long 4 digit addressing Supports advanced consist control lashing up locomotives that have different DCC addresses Operates on conventional DC layouts t...

Page 2: ...ad The Configuration Variables and their Definitions section for details on the configuration variables supported by the LE063XF The LE063XF decoder supports all forms of programming described in NMRA...

Page 3: ...that connect to the wheel sets the headlights and the motor Any contact to other parts of the decoder can cause a direct internal short circuit and destroy the DCC decoder The LE063XF decoder is not c...

Page 4: ...he motor when the decoder installation has been completed In the photograph of the bottom of the LE063XF decoder on the first page these motor contact pads are the two rectangles in the narrow center...

Page 5: ...ized to the individual locomotive in which the decoder is installed These customized properties will be saved in non volatile memory locations on the decoder so that they will retain their values even...

Page 6: ...les CVs for the LE063XF Decoder CV Reg Description Range Default Value 1 1 Short address This is the number that you enter into your DCC system to tell it the locomotive you wish to run with a short 2...

Page 7: ...e added to or subtracted from the base value contained in CV3 0 255 255 24 Deceleration Trim This CV contains additional braking rate information that will be added to or subtracted from the base valu...

Page 8: ...2 Bit 2 Usage on conventional DC layouts 0 locomotive operates only in digital DCC mode 1 locomotive can operate in either analog conventional DC or digital DCC mode 0 1 1 4 Bit 3 Always 0 0 0 Bit 4 S...

Page 9: ...Headlights CV51 1 0 Headlights cannot be dimmed CV51 1 1 Headlight can be dimmed CV51 0 0 Directional headlights at constant brightness CV51 0 1 See explanations given below for Bits 2 and 3 0 1 0 2 B...

Page 10: ...are used to specify the speed step values for a customized speed curve The factory default values for these CVs are specified in Table 2 in the section Creating a Customized Speed Curve 0 255 Factory...

Page 11: ...values Procedure for Converting Individual CV Bit Values into a Decimal Equivalent Value for the CV The following table illustrates how to calculate the decimal value that must be written into a CV i...

Page 12: ...he default values of bits 1 and 2 are binary 1s whereas all other bits in CV29 have a default value of binary 0 In order to compute the decimal equivalent default value of CV29 simply write in the rig...

Page 13: ...ng a customized non default speed curve is to assign a value to each internal speed step This assignment is done by specifying a value for each of the CVs from CV67 to CV94 using a table such as that...

Page 14: ...70 3 5 20 71 6 24 72 4 7 28 73 8 33 74 5 9 38 75 10 43 76 6 11 48 77 12 53 78 7 13 60 79 14 67 80 8 15 74 81 16 82 82 9 17 90 83 18 98 84 10 19 106 85 20 115 86 11 21 125 87 22 137 88 12 23 152 89 24...

Page 15: ...the value 0 into CV19 DCC functions can be activated when DCC system is set to the locomotive address but the locomotive does not move Decoder is set to use a customized speed curve CV29 4 1 but you...

Page 16: ...Repair 378 Florence Avenue Hillside NJ 07205 Defects due to misuse improper maintenance and or abuse are not covered by the warranty This warranty gives you specific legal rights and you may also hav...

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