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Non-Sound Decoder MX600 - MX638 and Sound Decoder MX640 - MX659
INC-
CV
Denomination
Range
Step
Chuff sound
LEAD
- CV
0 - 255
10
volume at low speed
#275
and no-load
Volume at high
#276
0 - 255
10
speed and no-load
Chuff volume
#277
changes according
0 - 255
10
to load
LEAD
Load change
- CV
0 - 255
10
threshold
#278
Reaction speed
#279
0 - 255
1
to load change
Chuff volume
-
0 – 255
Acceleration
(internal
threshold for full load
1
LEAD
speed
- CV
sound
steps)
#281
Default
Description
With this CV the chuff volume can be adjusted
for low speed and "basic load" (same conditions
as during the "automated recording run").
Here, the engine is driven by about 1/10 of its
60
full speed, adhering to the exact speed is how-
ever not important.
During this adjustment CV #277 is to be left at
"0" (default), so that the setting for "no-load driv-
ing" is not influenced by load factors.
Same procedure as in CV #275 above, but for
high speed.
80
CV #276 defines the "basic-load" chuff sound
volume at full speed. Set the speed regulator to
maximum during this set-up.
When deviating from the basic load (as deter-
mined by the "Automated recording of the mo-
0
tor's "basic load" factor", see above), the chuff
beat volume should be increasing (on inclines)
=
no
or decreasing on declines (even muted).
reaction
CV #277 defines the degree of change, which
must be set to the proper value by trial.
With this CV, a change in volume to small load
changes can be suppressed (i.e. in curves) in
order to prevent chaotic sound impressions.
0
Suitable settings can only be determined by tri-
al.
This CV determines how quick the sound reacts
to load changes, whereas the factor is not just
time but rather "load-change dependent time"
(= the bigger the change the faster the effect).
0
This CV is also used to suppress chaotic sound
changes.
Suitable settings can only be determined by tri-
al.
More powerful and louder chuff sounds should
be played back indicating increased power re-
quirements during accelerations, compared to
"basic load". The model railroad motor's current
consumption however does not change notice-
ably during accelerations (can't be measured
easily), so the effect has to be simulated.
1
As is the case with the prototype, the increased
sound should be noticeable before the increase
in speed becomes visible, since the latter is a
result of the increased steam volume supplied
to the pistons. It is therefore practical that the
heavy acceleration sound is played back when
the speed has increased by just one speed step
0 - 255
Duration of
#282
10
=
acceleration sound
0 - 25 sec
Chuff sound
volume during full
#283
0 - 255
10
acceleration
0 -255
LEAD
- CV
Threshold for
(internal
1
speed
#284
deceleration sound
steps)
0 - 255
Duration of reduced
#285
volume during
10
=
deceleration
0 - 25 sec
Volume level during
#286
deceleration
0 - 255
10
Page 47
(when no real speed change is noticed), to be
able to control the proper sound sequence with
the speed regulator.
In this fashion, the "engineer" can adjust the
sound (by increasing the speed by 1 step) in
anticipation of an imminent incline.
=1: Acceleration sound played back (at full vol-
ume) if speed has increased by just one speed
step.
= 2, 3.... Acceleration sound played back at full
volume only after increasing speed by this
number of speed steps; before that: proportion-
al volume.
The acceleration sound should remain for a cer-
30
tain length of time after the speed increased
(otherwise each single speed step would be
=
audible, which is unrealistic).
3 sec
Value in CV #282 = time in tenth of a second!
The volume of steam chuffs at maximum accel-
eration is set with CV #283 (default: 255 = full
volume).
255
If CV #281 = 1 (acceleration threshold set to 1
speed step), the volume defined here is applied
with each speed increase, even if it's just 1
step.
Steam chuffs should be played back at less
volume (or muted) signifying the reduced power
requirement during deceleration. The sound re-
duction logic is analog to a reversed accelera-
tion (per CV #281 to #283).
1
= 1: Reduces sound to a minimum (as per CV
#286) when speed is reduced by just 1 step.
= 2, 3 ... sound reduced to minimum after
lowering speed by this number of steps.
After the speed has been reduced, the sound
30
should remain quieter for a specific time (ana-
=
log to the acceleration case).
3 sec
Value in CV #285 = time in tenth of a second!
CV #286 is used to define the chuff volume dur-
ing deceleration (Default: 20 = pretty quiet but
not muted).
If CV #284 = 1 (deceleration threshold set to 1
speed step), the volume defined here is applied
20
with every reduction in speed (even if de-
creased by just 1 step).
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