Roland MC-808 Sound List page 58

Rhythm editing parameters
Parameter Value
P-Env Depth -12– +12
P-Env V-Sens -63– +63
(Pitch Envelope Velocity
Sensitivity)
P-Env T1 V-Sens -63– +63
(Pitch Envelope Time 1
Velocity Sensitivity)
P-Env T4 V-Sens -63– +63
(Pitch Envelope Time 4
Velocity Sensitivity)
P-Env Time1–4 0–127
P-Env Level0–4 -63– +63
Filter
These parameters are settings for the TVF (Time Variant Filter). They modify the timbral character of the tone by adjusting the brightness and
fatness of the sound.
Parameter Value
Filter Type OFF,
LPF,
BPF,
HPF,
PKG,
LPF2,
LPF3
Cutoff Frequency 0–127
Cutoff Velo Curve FIX, 1–7
(Cutoff Frequency Ve-
locity Curve)
Cutoff Velo Sens -63– +63
(Cutoff Frequency Ve-
locity Sensitivity)
58
Description
Pitch envelope depth
Increasing this value will produce greater change. Negative (-) values will invert the change pro-
duced by the envelope.
Amount by which velocity will affect the depth of the pitch envelope
Amount by which velocity will affect T1 (time) of the pitch envelope
Set a positive (+) value if you want to speed up the T1 time, or a negative (-) value if you want to slow
it down.
Amount by which the key-off velocity will affect T4 (time) of the pitch envelope
Set this to a positive (+) value if you want to speed up the T4 time, or to a negative (-) value to slow
it down.
Pitch envelope times (T1–T4)
Increasing this value will lengthen the time until the next pitch level is reached (for example, T2 is the
time over which the pitch will change from L1 to L2).
Pitch envelope levels (L0–L4)
These parameters specify the amount by which the pitch will change from the basic pitch (specified
by Coarse Tune and Fine Tune) at each point of the envelope. Positive (+) values will raise the pitch
above the basic pitch, and negative (-) values will lower it.
Description
Type of filter
A filter cuts a specific frequency region of the sound to modify the brightness or thickness of the
sound.
OFF: A filter will not be used.
LPF: Low Pass Filter. Cuts the region that lies above the cutoff frequency. The sound will become
more mellow as the high frequency region is cut. This is the most commonly used type of filter.
BPF: Band Pass Filter. Leaves only the region in the vicinity of the cutoff frequency, and cuts the rest.
Suitable for creating sounds with a distinctive character.
HPF: High Pass Filter. Cuts the region that lies below the cutoff frequency. Suitable for creating per-
cussion instrument sounds that have a distinctive high range.
PKG: Peaking filter. Emphasizes the region in the vicinity of the cutoff frequency. You can create a
wah effect by using an LFO to cyclically modulate the cutoff frequency.
LPF2: Low Pass Filter 2. Cuts the region that lies above the cutoff frequency. This lets you leave the
cutoff frequency fixed, and use the TVF envelope settings to vary the depth of the cutoff. Since this
does not impair the feeling of energy of the sound, it is effective for acoustic-type sounds.
* The resonance setting is ignored.
LPF3: Low Pass Filter 3. Cuts the region that lies above the cutoff frequency. This filter cuts the high
frequency region more gently than LPF2. Since this does not impair the feeling of energy of the sound,
it is effective for acoustic-type sounds.
* The resonance setting is ignored.
Frequency (cutoff frequency) at which the filter will begin affecting the frequency content of the wave-
form
If the Filter Type is LPF/LPF2/LPF3, reducing the cutoff frequency will diminish the higher over-
tones, producing a more mellow sound. Raising the cutoff frequency will brighten the sound.
If the Filter Type is BPF, the cutoff frequency value will change the harmonic content that will be
sounded. This is suitable for creating sounds with a distinctive character.
If the Filter Type is HPF, raising the cutoff frequency will diminish the lower overtones, emphasiz-
ing only the bright portion of the sound.
If the Filter Type is PKG, the cutoff frequency value will change the harmonic content that will be
boosted.
Curve by which velocity will affect the cutoff frequency
If this is "FIX," the cutoff frequency will stay the same regardless of how the velocity varies.
1 2 3
Amount by which velocity will affect the cutoff frequency
4 5 6 7