User manual
A
t each program step 1 to 10, Sound outputs A1 and A2 as well as LED outputs L1 to L4 can be switched in using CVs 80 to 90.
T
o this end, a switching pulse is emitted via A1 and A2 (Bit0,1=1 Emit switching pulse, Bit0,1=0 No switching pulse) to trigger a sound module,
while L1 to L4 are switched on or off (Bit4-7=1 Switching on, Bit4-7=0 Switching off).
P
rogramming:
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Programming key and DCC programming cannot be used unless the attraction is at rest! (Switch S1 closed!)
1) Press the key => the LED flashes 3 x.
2) Now actuate some points on a Motorola control unit the LED flashes 3 x and the address has been adopted.
The control unit displays the Motorola data format. If a DCC capable control unit is used:
3) Press the key again => the LED flashes 3 x.
4) Now actuate some points on a DCC capable control unit the LED flashes 3 x and the address has been adopted.
The control unit displays the DCC data format. If no entry has to be made:
5) Press the key again => the LED flashes 3 x. The control unit is in the working mode again.
Important:
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If key programming was used to set the control unit to Motorola data format, it cannot be read and programmed via a DCC capable programming track.
If the control unit has to be set back again from Motorola data format to DCC data format, it must first be set to the DCC mode through key programming.
CV Description
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7 Software version
8 Manufacturer’s code (writing CV8 sets to default values)
47 Address HighByte
48 Address LowByte
Address = CV47*256 + CV48
49 Configuration
; Bit7 => 0=DCC 1=Mot
; Bit2 => Direction of rotation Motor 2
; Bit1 => Direction of rotation Motor 1
; Bit0 => =0 Only with Green Starting once
; =1 with Green Starting
with Red Stop at the end of last ride
50 Speed Drive to zero Motor 2
Step 0: (Motor 2 starts)
51 Speed M2 in Step 0
52 Start delay M2 in Step 0
53 Duration Step 0 in 0.5 s steps
Step 1: (Motor 2 stops, Motor 1 starts)
54 Speed M1 in Step 1
55 Start delay M1 in Step 1
56 Duration Step 1 in 0.5 s steps
Step 2: (start Motor 2 upwards and Motor 1 gets a new speed)
57 Speed M1 in Step 2
58 Start delay M1 in Step 2
59 Speed M2 in Step 2
60 Start delay M2 in Step 2
Step 3: (wait until Motor 2 is at the top, stop Motor 2, running time until Step 4)
61 Running time Step 3
Step 4: (Motor 2 starts downwards, Motor 1 gets new speed, running time Step 4)
62 Speed M1 in Step 4
63 Start delay M1 in Step 4
64 Speed M2 in Step 4
65 Start delay M2 in Step 4
66 Running time Step 4
Step 5: (Motor 2 stops, running time Step 5)