Algorithm 15 ster«> pianger, Midi implementation – Roland VS-890 User Manual
Page 87
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MIDI Implementation
] OOK 7FH i OOH OOH
1 OOH 7FK COH OOK
1
I j 0.1 * Inverse,Synchro
* Pre Amp Middle is invalid when the Mode = Match Drive.
CGH 05H 1mrrH UH j
Flanger: Manual
a,..
. 0 0
’ When the Mode = Match Drive, Pre Amp Presence works counter to the value (-100,,
0).
OCH 06H 1mmH IIH j Fiangsr: Resonance
* Pre Amp Bright is available onlv when the Mode *
IC-120, Clean Twin, or BG Lead.
1
1
COH 07H 1mmK IIH j Fianger; Cross Feedback
Level
0,,.100
Algorithm 14 Stereo Phaser
OOH 08H 1 mmK UH j Flanger: Effect Level
-lOi}, , ,100
OCH 09H j
irsnK UH j
Fianger: Direct Level
NRPl^
Data 1
1
I
-100...100
Entr>'
OCH OAH j nmH UH 1
EQ: Lew EQ Type
OOH OOH i
nsnH ilH 1
Phaser Si*?
i
1
0,1 ■= Shelving, Peaking
1
0,1 = Otf,Dn
OOK OBH !nsrH UH 1
EQ: Lew EQ Gain
OOH OlH j
nuTiH IIK 1
EQ SW
!
1
-12,,.12dB
i
0.1 * Off,On
OOK OCH j mmK UH 1 EQ: Low EQ Frequency
OOH 02K 1
nsnH IIH 1
Phaser: Mode
1
1
2,,.200 = 20,,,2000K=
1
0,,.3 * 4.5.12.16stage
OOK ODH 1
rttnK UH 1 EQ': Low EQ Q
OOH 03H 1
rtsnH UH 1
Phaser: Rate
1
1
3...100 « 0.3,.,10.0
1
1
1,,.100 » Q.l,,.iO.OHz
OOK OEH jmmK llH 1 EQ: Hid EQ Gain
OOH 04H 1 mmK UH 1 Phaser: Depth
1
1
-12,,,12dB
1
1
G.,,100
OOH OFH 1 mnH UH 1 EQ: Hid EQ Frequency
OOH 05H 1mr-H UK j
Phaser: Polarity
1
1
20,,,800 = 20C,..80COH=
1
1
0,1 = Inverse, Synchro
ODH lOH j
nsnH IIH j EQ; Hid EQ Q
OOH 06H 1
tntfiH UH j
Phaser: Manual
I
i
3,,,1G0 = 0.3,,,10.0
1
1
C,,,100
OOH IIH 1mrnH UH 1 EQ; High EQ Type
OOH 07H j
nsnK IIH I
Phaser: Resonance
I
1
0,1 = Shelving, Peaking
1
1
0...100
OOH 12H 1
nsnH IIH ! EQ: Hioh EQ Gain
OOK O0H ! mmH UH j
Phaser: Cross Feedback
1
1
.,12dS
I
C,,.100
OOH 13H 1 mnH UK 1
EQ: Hioh EQ Frequency
OOH 09K i
irenH UH i
Phaser: Effect Level
1
1
14. , ,200 ■= 1.4, , .20.GkKs
i
j
-100...100
OSH 14H 1tnmH HE 1
EQ: High EQ Q
OOH OAH 1ncnH UH i
Phaser: Direct Le\'el
1
1
3,,,100 » 0.3,..10.0
1
1
-IOC,..100
OOH 15H j.mmE UH j EQ: Out Level
OOH OEH jnsnH UK 1 EC: Low EC Type
i
1
0,.,1C0
1
1
0,1 a Shelving, Peaking
OOH 16H 1OOH COH 1
(Reserved
1
OOH GCH 1
nsnH ilH j EQ; Low EC Gain
-12.,,12dB
i OOK 7FH 1OOH ODE 1
OOK ODH jiwnH UH j EC: Low EQ Frequency
2, . ,200 = 20.,.200QHZ
OOR OEH 1
mnsH llH j EQ; Low EC Q
3,,,100 » 0.3.,,10.0
Algorithm 16 Dual Compressor/Limiter
OOH CFH 1mmH IIH j EQ: Kid EC Gain
1
1
-12,.,12dB
Data j
OOK iOH 1 mmH UH j EQ: Hid EQ Freqfuency
20, , ,e00 » 200,..gOOOKz
NRPN j
OOH OOK 1
Entry i
mmH UK j Conp.'Linit A Sl^'
OOR ilH 1mmH IIH ! EQ: Hid EQ Q
i
i
0.1» Ofi.Cn
1
1
3,,,100 = 0.3..,10.0
OOH OlH 1mmH llH 1 Noise Suppressor A SW
OOR 12H 1mmH IIH 1 EQ: Hioh EQ Type
1
1
0,1
= off.Cn
i
1
C',1 = Shelving, Peaking
OOH 02H InsnH UH 1
Coirp/Limit B 3!r/
OOH 13K !mmK IIH j
EQ; Hiuh EQ Gain
I
1
0,1» Off,On
-12.,,12dB
OOH C3H j mmH UH 1 Noise Suppressor E SW
OOH 14K 1ramH UH i
EQ: High EQ Frequency
1
1
0,1 a Off, On
i
1
14., ,2C0 = 1.4. . .2C.0kHt
OOH 04H 1 mmH UH 1
Coit^/Limit A: Detect
OOH 15K 1 mmH UH 1
EQ: High EQ Q
I
i
C.1,2 » A.E.Link
t
3,,,10C » 0.3,,,10.0
OOH OSH i mmH UH 1
Conq:/Limit A: Level
OOH 16K j mmH UH 1
EQ; Out Level
1
I
-6C',.,12dS
i
1
0,,,100
OOH 06H 1 mmH UH 1 Conci/Lifflit A: Thresh
OOH 17H tOOK OOH i
(Reserved)
i
'
-50.,,GdS
Algorithm 15 Ster«> Pianger
ÎTRPN i Data
} Entry
OOH OOH I nimH IIH I Pianger ;
0,1 = Off.On
OOH OlH
mmH UH
EQ SVI
0,1 = Off,On
OOH 02K
itmHUK
Fianger:Rate
1,
,100 * 0.1..,lO.OHr
OOH 03H
iwriH
UH
Fianger:Depth
0,.,100
OOH 04K
nsnHUH
Fianger: Polarity
iicnH IIH I Ccirç/Limit A: Attack
ircnH IIH
I
Canp/Liniir A: Release
OOH 09H
mmH UK
Camp. Limit A; Ratio
0,,,3 ».5:1,2:-,4:1.100:1
COH OAH
ItBIlH
UH
Noise Suppressor A;
Detect
0,1,2 = A.E.Link
OOH OBH
nmH UH
Noise Suppressor A:
Threshold
0,,,100
OOH CCK
mmH UK
Noise Suppressor A;
Release
0,,,1C0
wnH IIH I Cortp/Limit £: Detect
.2
= A,E.Link I
ntnK IIH j CDiTp/'Li.T;it 3: Level
OOH OFK I mmH IIH I Cstip-'Limit 5: Thresh
87