1
R-88 MIDI Implementation
Model:
R-88
Date:
May. 31, 2013
Version:
1.10
1. Data Reception
■
■
Channel Voice Messages
■
●
Note Off
Status
2nd byte
3rd byte
9nH
kkH
00H
n = MIDI channel number:
0H - FH (ch.1 - 16)
kk = note number:
00H - 7FH (0 - 127)
When a note-off is received, the result will be the same as when a finger is released
from a switch or button.
■
●
Note On
Status
2nd byte
3rd byte
9nH
kkH
vvH
n = MIDI channel number:
0H - FH (ch.1 - 16)
kk = note number:
00H - 7FH (0 - 127)
vv = note on velocity:
7FH (127)
When a note-on (vv=7FH) is received, the result will be the same as when a switch or
button is held down.
The mute switches and transport buttons of the R-88 can be controlled by sending a
note-on (vv=7FH) or note-off from an external MIDI controller.
n
kk
Explanation
n
kk
Explanation
0H
10H
CH 1 MUTE
0H
5BH
REWIND
0H
11H
CH 2 MUTE
0H
5CH
FAST FORWARD
0H
12H
CH 3 MUTE
0H
5DH
STOP
0H
13H
CH 4 MUTE
0H
5EH
PLAY
0H
14H
CH 5 MUTE
0H
5FH
RECORD
0H
15H
CH 6 MUTE
0H
16H
CH 7 MUTE
0H
17H
CH 8 MUTE
■
●
Pitch Bend Change
Status
2nd byte
3rd byte
EnH
llH
mmH
n = MIDI channel number:
0H - FH (ch.1 - 16)
mm, ll = Pitch Bend value:
00 00H - 40 00H - 7F 7FH
(-8192 - 0 - +8191)
The parameters that are controlled will depend on the R-88’s UM-ONE CONTROL
setting.
INPUT
: Input levels and master volume
MIXER
: Mixer channel faders and master volume
n
INPUT
MIXER
n
INPUT
MIXER
0H
INPUT 1 LEVEL
CH 1 FADER
4H
INPUT 5 LEVEL
CH 5 FADER
1H
INPUT 2 LEVEL
CH 2 FADER
5H
INPUT 6 LEVEL CH 6 FADER
2H
INPUT 3 LEVEL
CH 3 FADER
6H
INPUT 7 LEVEL
CH 7 FADER
3H
INPUT 4 LEVEL
CH 4 FADER
7H
INPUT 8 LEVEL CH 8 FADER
8H
MASTER
How pitch bend values are related to fader values (levels)
mm
(MSB)
ll
(LSB)
Level
(dB)
mm
(MSB)
ll
(LSB)
Level
(dB)
mm
(MSB)
ll
(LSB)
Level
(dB)
0H
0H
-INF
2BH
0H
-27.0
56H
0H
-5.5
1H
0H
-66.0
2CH
0H
-26.5
57H
0H
-5.0
2H
0H
-65.0
2DH
0H
-26.0
58H
0H
-4.5
3H
0H
-64.0
2EH
0H
-25.5
59H
0H
-4.0
4H
0H
-63.0
2FH
0H
-25.0
5AH
0H
-3.5
5H
0H
-62.0
30H
0H
-24.5
5BH
0H
-3.0
6H
0H
-61.0
31H
0H
-24.0
5CH
0H
-2.5
7H
0H
-60.0
32H
0H
-23.5
5DH
0H
-2.0
8H
0H
-59.0
33H
0H
-23.0
5EH
0H
-1.5
9H
0H
-58.0
34H
0H
-22.5
5FH
0H
-1.0
0AH
0H
-57.0
35H
0H
-22.0
60H
0H
-0.5
0BH
0H
-56.0
36H
0H
-21.5
61H
0H
0.0
0CH
0H
-55.0
37H
0H
-21.0
62H
0H
0.5
0DH
0H
-54.0
38H
0H
-20.5
63H
0H
1.0
0EH
0H
-53.0
39H
0H
-20.0
64H
0H
1.0
0FH
0H
-52.0
3AH
0H
-19.5
65H
0H
1.5
10H
0H
-51.0
3BH
0H
-19.0
66H
0H
1.5
11H
0H
-50.0
3CH
0H
-18.5
67H
0H
2.0
12H
0H
-49.0
3DH
0H
-18.0
68H
0H
2.0
13H
0H
-48.0
3EH
0H
-17.5
69H
0H
2.5
14H
0H
-47.0
3FH
0H
-17.0
6AH
0H
2.5
15H
0H
-46.0
40H
0H
-16.5
6BH
0H
3.0
16H
0H
-45.0
41H
0H
-16.0
6CH
0H
3.0
17H
0H
-44.0
42H
0H
-15.5
6DH
0H
3.5
18H
0H
-43.0
43H
0H
-15.0
6EH
0H
3.5
19H
0H
-42.0
44H
0H
-14.5
6FH
0H
4.0
1AH
0H
-41.0
45H
0H
-14.0
70H
0H
4.0
1BH
0H
-40.0
46H
0H
-13.5
71H
0H
4.5
1CH
0H
-39.0
47H
0H
-13.0
72H
0H
4.5
1DH
0H
-38.0
48H
0H
-12.5
73H
0H
5.0
1EH
0H
-37.0
49H
0H
-12.0
74H
0H
5.0
1FH
0H
-36.0
4AH
0H
-11.5
75H
0H
5.5
20H
0H
-35.0
4BH
0H
-11.0
76H
0H
5.5
21H
0H
-34.0
4CH
0H
-10.5
77H
0H
6.0
22H
0H
-33.0
4DH
0H
-10.0
78H
0H
6.0
23H
0H
-32.0
4EH
0H
-9.5
79H
0H
6.5
24H
0H
-31.0
4FH
0H
-9.0
7AH
0H
6.5
25H
0H
-30.0
50H
0H
-8.5
7BH
0H
7.0
26H
0H
-29.5
51H
0H
-8.0
7CH
0H
7.0
27H
0H
-29.0
52H
0H
-7.5
7DH
0H
7.5
28H
0H
-28.5
53H
0H
-7.0
7EH
0H
7.5
29H
0H
-28.0
54H
0H
-6.5
7FH
0H
8.0
2AH
0H
-27.5
55H
0H
-6.0
Copyright © 2013 ROLAND CORPORATION
All rights reserved. No part of this publication may be reproduced in any form without the written permission of ROLAND CORPORATION.
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