Algorithm 23 4 band parametric eq, Algorithm 2410 band graphic eq, Midi implementation – Roland VS-890 User Manual
Page 90
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MIDI Implementation
OOH 7FH I OOH OOH i
Algorithm 21 Space Chorus
KRPN
Oaca
Entrj’ ;
cofi OOH 1
nonH IIH Chorus 3W
C,1 * Off,On
OOH OlH 1mmH IIH
Chorus: Input Mode
1 • Mono,Stereo
OOH 02H 1panH UK
j
Chorus: Mode
3,4,l*4,2-4,5-*-4
OOH G3H 1mmH llH jChorus: Mix Balance
0,.,100
OOH 04K 1OOH OQH j ;Reservea!
[ OOH 7FH 1OOH OOH 1
Algorithm 22 Lo-Fi Processor
HRPN 1
Data i
Entri' I
OOH OOH 1 mniH UK
j
Lo-Fi Processor SW
O.i = Off.On
OOH aiH 1 nmH IIH 1Realtime Modify Filter Sii
C.l = Off.On
OQH 02K 1 fflmH UH ;
Lc-Fi Processor: ?re Filter SVJ
0,1 = Off.On
OOK 02K j
!
nonH UK
j
Lo-Fi Processor: Rate
0,.,31 *
Off.1/2,,,1/32
OOH 04K
j
arniH UH i
Lo-Fi Prccesser; Number of Bit
0,,.15
* Off,lS,,.lbit
OOH OSH 1 mmH UH t Lo-Fi Processor: Post Filter Si*.’
0,1 r Off,On
OOH 06K 1 mmH UH ; Lo-Fi Processor: Effect Level
0,,.100
OOH OOH 1 inmK UH
j
Lo-Fi Processor: Direct Level
0. . .100
OOK 06H 1 RcnH UH 1
Realtime Hodify Filter: Filter T>*ps
0,,,
2 = LPF.BPF.HPF
OOH OSH 1 mmK UH j
1
Realtime Modify Filter: Cut Off
0.,,100
OOH CAH 1aenK UH j
!
Realtime Modify Filter: Resonance
0,.,100
OOH C3H 1aaRH UH j Realtime Modify Filter; Gain
0,,,24dB
^ OOH OCK 1oisH UR 1 Noise Suppressor: Threshold
0..,100
; OOH DDH 1
itmH ilK j Noise Suppressor; Release
0.,,i00
i OOH OEH 1OOH OOK !
¡Reser\'ed;
1 OOH 7FH 1OOK OOK 1
Algorithm 23 4 Band Parametric EQ
NRPN
OOH OOH
j Data
I Entry
1 EnmH UH
Parametric EC Link SW
Q.l = Off,On
OOK OlH 1 »«■:
UH
j Parametric EQ Ach SW
0,1
s Off.On
OOH 02H 1 mmH UH
1 Parametric EG Bch SW
0,1 « Off.On
OQH 03K 1 »«i UK
j EQ Ach: Input Gain
-60,.,l2dS
OOH 04H 1
!
UH
1 EQ Ach: Lew EQ Type
1 0.1 *
Shelving, Peaking
OOH C5H j mmH UH
j EG Ach: Low SC Gain
-12.,,12dB
OOH 06H 1 mmH UK
1 EG Ach; Low EQ Frequency
1 j 2.,,20G = 20,.,2000Hz
OOH 07H
mmH UH
EC Ach: Lew EG 0
3,,,100 * 0.3.,,10.0
OOH OSH
nmH UK
EQ Ach:
LOW
Hid EQ Gain
-12,,.12da
OOH OOH
mmH UK
EQ Ach;
Low
Mid EQ Frequency
20,,,800 = 20G..,6000Hz
OOH OAK
mmH IIH
EC Ach:
Low
Mid £Q C
3...100 * 0.3,..10.0
OOH OBH
mmH UK
EG Ach: High Hid EQ Gain
-12..,12dB
OOH OCH
tre* UH
EC Ach: High Hid EQ Frequency
20...600 = 200,,,8000Hz
OOH ODH
mnH UK
EG Ach: High Mid EQ Q
3.,,100 = 0.3,,.10.0
OOH OEH
mmH UH
EQ Ach: High EQ Type
0.1 = Shelving. Peaking
OOH OFH
RimH IIH EQ Ach: High EQ Gain
-12,,,12dB
OOH lOH
xmH
UH
EQ Ach: High EQ Frequency
14.,,200 * 1.4,,,20.0kHz
OOH UH
mmH UH
EQ Ach: High EQ Q
3,,.100 = 0.3,,.10.0
OOK 12H
tnmH UH
EQ Ach: Output Level
-60..,12dB
OOK 13H
mmH UH
EQ Bch: Input Gain
-60.,,12dB
OOH 14 H tnmH UK
EQ Bch; Low EQ Type
0,1 = Shelving, Peaking
OOH 15K
mmH UK
EQ Bch: Low EQ Gain
-12,,,12dB
OOH 16H
msOi UK
EQ Bch: Low EQ Frequency
2
.,,200 * 20,,,2000Hz
OOH 17K
mmH UH
EQ Bch: Low EQ Q
3.,,100 ■ 0.3,.,10.0
OOH ISH
mmH UH
EQ Bch: Low Mid EQ Gain
-12,,.12dE
OOK 19H
mmH UH
EQ Bch: Low Mid EQ Frequency
20,,,600 = 20C,,,8000Hz
OOH lAH
nonK UH
EQ Bch; Low Mid EQ Q
3,,,100 = 0.3..,10.0
OOH IBK
irinK UH EQ Bch: High Mid EQ Gain
-l2,.,12dB
OOH ICH
mmH UK
EQ Bch: High Hid EQ Frequency
20, , ,600 = 20C...BOOOHz
OOH IDH
nsnK UH
EQ Bch: High Mid EQ Q
3...100 = 0.3..,10.0
OOH lEH
tnmH UH
EQ Bch: High EQ Type
0,1 = Shelving, Peaking
OOH IFH
nodi UK
EQ Bch: High EQ Gain
-12.,,12dB
OOH 20H
mmH UK
EQ Bch: High EQ Frequency
14.,.200 « 1.4,,,20.0kKr
OOH 21H
mH IIH
EQ Bch: Hiah EQ Q
3,,.100 » 0.3.,,10.0
OOK 22H
mtnH UK
EQ Bch: Output Level
-60,,,12dB
OOK 23H
OOH OCH
{Reser\'ed’>
OOK 7FH
OOH CCH
* When Link SW = On. Bch corresponds lo Ach.
Algorithm 2410 Band Graphic EQ
i NRFN I Data
QQH OOH
1 Entry :
«■SSSSXSSSS-«'
1 mmK UH 1 Graphic EG Link SW
0,1 - Off,On
OOH OlH 1 mmH UH :Graphic EQ Ach SW
0,1 » Off.On
OOH 02H j irnnH UH Graphic ED Bch SW
0,1 = Off,On
OOH OSH j mnH IIH 1
1
EQ Ach: Input Gain
-60 ,,12dB
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