MIDI Implementation

Vibrato Rate (Controller number 76)

Status

2nd byte

3rd byte

BnH

4CH

vvH

n = MIDI channel number:

0H - FH (Ch.1 - 16)

vv = Vibrato Rate value (relative change): 00H - 7FH (-64 - 0 - +63)

Vibrato Depth (Controller number 77)

Status

2nd byte

3rd byte

BnH

4DH

vvH

n = MIDI channel number:

0H - FH (Ch.1 - 16)

vv = Vibrato Depth Value (relative change): 00H - 7FH (-64 - 0 - +63)

Vibrato Delay (Controller number 78)

Status

2nd byte

3rd byte

BnH

4EH

vvH

n = MIDI channel number:

0H - FH (Ch.1 - 16)

vv = Vibrato Delay value (relative change): 00H - 7FH (-64 - 0 - +63)

Effect 1 (Reverb Send Level) (Controller number 91)

Status

2nd byte

3rd byte

BnH

5BH

vvH

n = MIDI channel number:

0H - FH (Ch.1 - 16)

vv = Reverb Send Level: 00H - 7FH (0 - 127)

Effect 3 (Chorus Send Level) (Controller number 93)

Status

2nd byte

3rd byte

BnH

5DH

vvH

n = MIDI channel number:

0H - FH (Ch.1 - 16)

vv = Chorus Send Level: 00H - 7FH (0 - 127)

RPN MSB/LSB (Controller number 100, 101)

Status

2nd byte

3rd byte

BnH

65H

mmH

BnH

64H

llH

n = MIDI channel number:

0H - FH (Ch.1 - 16)

mm= upper byte (MSB) of parameter number specified by RPN ll = lower byte (LSB) of parameter number specified by RPN

<<< RPN >>>

Control Changes include RPN (Registered Parameter Numbers), which are extended When using RPNs, first the RPN (Controller numbers 100 and 101; they can be sent in any

This device receives the following RPNs.

RPN

Data entry

 

 

MSB, LSB

MSB, LSB

Notes

00H, 00H

mmH, llH

Pitch Bend Sensitivity

 

 

mm:

00H - 18H (0 - 24 semitones)

 

 

ll:

ignored (processed as 00H)

 

 

Up to 2 octave can be specified in semitone steps.

 

 

* In Performance mode, the Part Pitch Bend

 

 

Range parameter (PERFORM/PART) will

 

 

change.

00H, 01H

mmH, llH

Master Fine Tuning

 

 

mm, ll: 20 00H - 40 00H - 60 00H (-8192 x 50 /

 

 

8192 - 0 - +8192 x50 / 8192 cent)

 

 

* In Performance mode, the Part Fine Tune

 

 

parameter (PERFORM/PART) will change.

00H, 02H

mmH, llH

Master Coarse Tuning

 

 

mm:

10H - 40H - 70H (-48 - 0 - +48 semitones)

 

 

ll:

ignored (processed as 00H)

*In Performance mode, the Part Coarse Tune parameter (PERFORM/PART) will change.

7FH, 7FH

---, ---

RPN null

RPN and NRPN will be set as "unspecified".

Once this setting has been made, subsequent

Parameter values that were previously set will not change.

mm, ll: ignored

Program Change

Status

2nd byte

CnH

ppH

n = MIDI channel number:

0H - FH (Ch.1 - 16)

pp = Program number: 00H - 7FH (prog.1 - prog.128)

System Exclusive messages

Universal Non-realtime System Exclusive Message” and Data Set 1 (DT1) are the only System Exclusive messages transmitted by the XV-3080.

Universal Non-realtime System Exclusive Message

Identity Reply Message

Receiving Identity Request Message, the XV-3080 send this message.

Status

 

 

Data byte

Status

F0H

 

 

7EH, dev, 06H, 02H, 41H, 10H, 01H, 00H, 00H, 00H, 00H, 00H, 00H

F7H

 

 

 

 

Byte

 

 

Explanation

 

FOH

 

 

Exclusive status

 

7EH

 

 

ID number (Universal Non-realtime Message)

dev

 

 

 

Device ID (use the same as the device ID of Roland)

06H

 

 

 

Sub ID#1 (General Information)

02H

 

 

 

Sub ID#2 (Identity Reply)

41H

 

 

 

ID number (Roland)

 

10H

01H

Device family code

 

00H

00H

Device family number code

00H

00H 00H 00H Software revision level

F7H

 

 

EOX (End of Exclusive)

Data Transmission

 

Data set 1

DT1 (12H)

 

Status

 

 

Data byte

Status

F0H

 

41H, dev, 00H, 10H, 12H, aaH, bbH, ccH, ddH, eeH, ... ffH, sum F7H

Byte

 

Explanation

 

F0H

 

Exclusive status

 

41H

 

 

ID number (Roland)

 

dev

 

Device ID (dev: 00H - 1FH, Initial value is 10H)

00H

 

Model ID #1 (XV-3080)

 

10H

 

Model ID #2 (XV-3080)

 

12H

 

 

Command ID (DT1)

 

aaH

 

 

Address MSB: upper byte of the starting address of the data to be sent

bbH

 

Address: upper middle byte of the starting address of the data to be sent

ccH

 

Address: lower middle byte of the starting address of the data to be sent

ddH

 

Address LSB: lower byte of the starting address of the data to be sent.

eeH

 

 

Data: the actual data to be sent. Multiple bytes of data are transmitted in order

 

 

 

starting from the address.

 

:

:

 

 

 

 

ffH

 

Data

 

 

sum

 

Checksum

 

 

F7H

 

EOX (End Of Exclusive)

 

*The amount of data that can be transmitted at one time depends on the type of data, and data will be transmitted from the specified starting address and size. Refer to the Address and Size given in Section 3, “Parameter address map.”

*Data larger than 256 bytes will be divided into packets of 256 bytes or less, and each packet will be sent at an interval of about 20 ms.

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Roland XV-3080 owner manual 180, Universal Non-realtime System Exclusive Message

XV-3080 specifications

The Roland XV-3080 is a powerful and versatile sound module that has become a favorite among musicians, producers, and composers since its release in the late 1990s. This module is renowned for its extensive sound library, advanced synthesis capabilities, and user-friendly interface, making it a staple in studios and on stages worldwide.

One of the standout features of the XV-3080 is its impressive range of sounds. It boasts 1,024 preset sounds and 256 user patches, which can be expanded with Roland's SR-JV80 expansion boards to access even more diverse sounds. The XV-3080 is equipped with a Waveform Memory of 128 MB, providing high-quality samples and ensuring rich, detailed sound. The module also features a powerful multitimbral engine, allowing up to 16 simultaneous parts to be played, making it an ideal choice for complex arrangements and live performances.

Another key technology in the XV-3080 is its advanced SuperNATURAL technology. This innovation enhances traditional sample playback by incorporating physical modeling, enabling more expressive and nuanced tones. Musicians can take advantage of features like dynamic layering and velocity-sensitive control, adding an organic quality that is often missing in digital instruments.

The built-in effects processor is another highlight, offering a wide range of high-quality effects, including reverb, chorus, flanger, and distortion. These effects can be applied to individual parts or used globally, allowing for creative sound design and customization. The XV-3080 also supports real-time editing, letting users tweak parameters on the fly, which is particularly useful in live settings.

Connectivity is plentiful on the XV-3080, with MIDI In/Out, as well as digital and analog outputs. This allows for seamless integration with other equipment, whether it's a DAW, a keyboard controller, or an audio interface.

The XV-3080's intuitive interface, featuring a bright LCD screen and a straightforward layout, makes navigating through options quick and easy. Musicians can spend less time fumbling with settings and more time focusing on their music.

In summary, the Roland XV-3080 is a sophisticated sound module that combines cutting-edge technology with user-friendly features. Its extensive sound library, advanced synthesis capabilities, and solid effects processing make it an essential tool for any serious musician or producer looking to create professional-quality music.