Reverb; Long Reverb; Super Filter; Filter+Drive - Roland V-Drums TD-50 Data List

Multi-Effect Parameters

REVERB

Adds reverberation to the direct sound, simulating an acoustic
space.
Parameter Value
ROOM1, ROOM2,
Type
STAGE1, STAGE2,
HALL1, HALL2
Pre Delay
0.0–100 msec
Time
0–127
200–8000 Hz,
HF Damp
BYPASS
Low Gain -15–+15 dB
High Gain -15–+15 dB
Level
0–127

LONG REVERB

This is a very rich sounding reverb with a choice of character.
Parameter Value
Depth 0–127
Time
0–127
16–15000 Hz,
Pre LPF
BYPASS
BYPASS,
Pre HPF
16–15000 Hz
Peaking Freq 200–8000 Hz
Peaking Gain -15–+15 dB
Peaking Q 0.5–8.0
16–15000 Hz,
HF Damp
BYPASS
BYPASS,
LF Damp
16–15000 Hz
Character 1–6
EQ Low Freq 200–400 Hz
EQ Low Gain
-15–+15 dB
EQ High Freq 2000–8000 Hz
EQ High Gain -15–+15 dB
Level
0–127
38
Explanation
Type of reverb
Adjusts the delay time from the
direct sound until the reverb sound
is heard.
Time length of reverberation
Adjusts the frequency above which
the reverberant sound will be cut
(BYPASS: no cut).
Gain of the low range
Gain of the high range
Output Level
Explanation
Depth of the effect
Time length of reverberation
Frequency of the filter that cuts the
high-frequency content of the input
sound (BYPASS: no cut)
Frequency of the filter that cuts the
low-frequency content of the input
sound (BYPASS: no cut)
Frequency of the filter that boosts/
cuts a specific frequency region of
the input sound
Amount of boost/cut produced by
the filter at the specified frequency
region of the input sound
Bandwidth of the filter that boosts or
cuts the specified frequency region
of the input sound
Frequency at which the high-
frequency content of the resonant
sound will be cut (BYPASS: no cut)
Frequency at which the low-
frequency content of the resonant
sound will be cut (BYPASS: no cut)
Type of reverb
Center frequency of the low region
Gain of the low range
Center frequency of the high region
Gain of the high range
Output Level

SUPER FILTER

This is a filter with an extremely sharp slope. The cutoff frequency
can be varied cyclically
Parameter Value
Filter type
Frequency range that will pass through each filter
LPF
Filter Type
BPF
HPF
NOTCH
Amount of attenuation per octave
-12 dB
Filter Slope
-24 dB
-36 dB
Filter Cutoff 0–127
Filter Resonance 0–127
Filter Gain 0–+12 dB
Modulation Sw
OFF, ON
How the cutoff frequency will be modulated
TRI
SQR
SIN
SAW1
Modulation Wave
SAW2
SAW1
Tempo Sync OFF, ON
0.05–10.00 Hz,
Rate
note
Depth
0–127
Attack 0–127
Level 0–127

FILTER+DRIVE

This is a low-pass filter equipped with overdrive. It cuts the upper
range and adds distortion.
Parameter Value
Cutoff 0–127
Resonance
0–127
Drive 0–127
Level 0–127
Explanation
Frequencies below the cutoff
Frequencies in the region of the
cutoff
Frequencies above the cutoff
Frequencies other than the region of
the cutoff
Gentle
Steep
Extremely steep
Cutoff frequency of the filter
Increasing this value will raise the
cutoff frequency.
Filter resonance level
Increasing this value will emphasize
the region near the cutoff frequency.
Amount of boost for the filter output
On/off switch for cyclic change
Triangle wave
Square wave
Sine wave
Sawtooth wave (upward)
Sawtooth wave (downward)
SAW2
Specifies whether the modulation
rate is specified as a note value (ON)
or not (OFF).
Rate of modulation
Depth of modulation
Speed at which the cutoff frequency
will change
This is effective if Modulation Wave is
SQR, SAW1, or SAW2.
Output Level
Explanation
Cutoff frequency of the filter
Increasing this value will raise the
cutoff frequency.
Filter resonance level
Increasing this value will emphasize
the region near the cutoff frequency.
Amount of distortion
Output Level