From 4e1a29cab8d31cff30d88d2dfc0f526372fc33bd Mon Sep 17 00:00:00 2001 From: Chris Xiong Date: Sat, 22 Jun 2024 19:59:16 -0400 Subject: Move blog posts out of the tree. --- blog/post/2024-02-02.html | 612 ---------------------------------------------- 1 file changed, 612 deletions(-) delete mode 100644 blog/post/2024-02-02.html (limited to 'blog/post/2024-02-02.html') diff --git a/blog/post/2024-02-02.html b/blog/post/2024-02-02.html deleted file mode 100644 index 58fc59c..0000000 --- a/blog/post/2024-02-02.html +++ /dev/null @@ -1,612 +0,0 @@ - - - - -Chrisoft::Blog(r#"R-BUS Technical Information") - - - - - - - - - - - - - - - - - - - - - - - -
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R-BUS Technical Information

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2024-02-02
#music #electronics
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Background

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R-BUS (also called RMDB2 / RMDB II on older products) is an obsolete -proprietary interconnect format that carries bidirectional MIDI and -digital audio data created by Roland. It was used on Roland products -released from the late 90s to early 2000s.

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There was a physically incompatible and much rarer predecessor of -R-BUS called RMDB (Roland Multipurpose Digital Bus). RMDB is not the -subject of this article.

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Much of the information here is gathered from schematics inside -service manuals for various Roland products, mainly the XV-5080 and -VS-2400. These can be easily found with a search through the -interwebz.

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This article assumes minimal electronics knowledge from the reader. -As a matter of fact, the author is also a layperson in this space. -Report of any issues in the article would be appreciated.

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For other R-BUS related stuff on this website, please visit this page.

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Devices with R-BUS support

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Here is a not necessarily complete list of Roland products that comes -with at least one R-BUS connector:

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    -
  • Mixing Console -
      -
    • VM-3100Pro
    • -
    • VM-7100 / VM-7200 (3 ports on optional VM-24E I/O expansion)
    • -
  • -
  • Studio Workstation -
      -
    • VS-2400
    • -
    • VS-2480 (2 ports)
    • -
    • VSR-880
    • -
  • -
  • Production Studio -
      -
    • MV-8000 / MV-8800 (available through the MV8-OP1 audio I/O -expansion)
    • -
  • -
  • Synthesizer -
      -
    • XV-5080 (output only)
    • -
  • -
  • Interface Modules -
      -
    • RPC-1 (Conventional PCI R-BUS interface)
    • -
    • ADA-7000 (A/D converter)
    • -
    • AE-7000 (R-BUS <=> AES/EBU converter)
    • -
    • DIF-AT (R-BUS <=> TDIF & ADAT converter)
    • -
    • DIF-AT24 (R-BUS to ADAT and MIDI interface, 24-bit)
    • -
  • -
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Pin definition

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Connection for VS-2400 and XV-5080 is extracted from their respective -service manuals. Pin usage inferred from these connections.

- ------ - - - - - - - - - - - - - - - - - - - - - - - - - - - - - - - - - - - - - - - - - - - - - - - - - - - - - - - - - - - - - - - - - - - - - - - - - - - - - - - - - - - - - - - - - - - - - - - - - - - - - - - - - - - - - - - - - - - - - - - - - - - - - - - - - - - - - - - - - - - - - - - - - - - - - - - - - - - - - - - - -
PINVS-2400XV-5080Usage
1+5V+5VPower output
2RBOUT11SDO4Channel 1/2 output (SDOUT1[1])
3RBOUT12SDO5Channel 3/4 output (SDOUT2)
4RBOUT13SDO6Channel 5/6 output (SDOUT3)
5GNDGNDGround
6RBOUT14SDO7Channel 7/8 output (SDOUT4)
7NC [2]NCUnused?
8RBIN14NCChannel 7/8 input (SDIN4)
9GNDGNDGround
10RBIN13NCChannel 5/6 input (SDIN3)
11RBIN12NCChannel 3/4 input (SDIN2)
12RBIN11SDI2Channel 1/2 input (SDIN1)
13NCNCPower reception for bus-powered devices -[3]
14PC_TXD1RBUS_TXMIDI transmit [4]
15GNDGNDGround
16GNDGNDGround
17GNDGNDGround
181FSLRCK4Frame sync (word clock) output
19GNDGNDGround
20GNDGNDGround
21RBFS1RBUS-WDCLKFrame sync (word clock) input
22GNDGNDGround
23GNDGNDGround
24GNDGNDGround
25PC_RXD1RBUS_RXMIDI receive [5]
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Official cable wiring

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Roland has only disclosed partial information on the wiring scheme -used by the official R-BUS cables. [6] -However, it’s rather easy to infer the full wiring scheme from that -information. This has been confirmed by other third-party sources. -[7] [8]

- ------- - - - - - - - - - - - - - - - - - - - - - - - - - - - - - - - - - - - - - - - - - - - - - - - - - - - - - - - - - - - - - - - - - - - - - - - - - - - - - - - - - - - - - - - - - - - - - - - - - - - - - - - - - - - - - - - - - - - - - - - - - - - - - - - - - - - - - - - - - - - - - - - - - - - - - - - - - - - - - - - - - - - - - - - - - - - - - - - - - - - - - - - - - - -
Usage 🖙Pin on one sideis connected toPin on the other side🖘 Usage
+5V113+5V In
SDOUT1212SDIN1
SDOUT2311SDIN2
SDOUT3410SDIN3
GND59GND
SDOUT468SDIN4
NC77NC
SDIN486SDOUT4
GND95GND
SDIN3104SDOUT3
SDIN2113SDOUT2
SDIN1122SDIN1
+5V In131+5V
MIDI TX1425MIDI RX
GND1524GND
GND1623GND
GND1722GND
FS Out1821FS In
GND1920GND
GND2019GND
FS In2118FS Out
GND2217GND
GND2316GND
GND2415GND
MIDI RX2514MIDI TX
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Electrical -characteristics of the interface

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Power

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The +5V supply is derived straight from the +5V rail that goes into -the main board, with polarity protection (both in the XV-5080 and -VS-2400) provided with a Schottky diode, and sometimes current protected -with a thermistor (not present in the XV-5080).

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The +5V pin measured 5.28V to ground on my XV-5080.

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Digital Audio

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The format of digital audio portion of R-BUS resembles I²S, but with a few -key differences:

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    -
  • There’s no bit clock.
  • -
  • Sample data are transmitted as if they are 32-bit, despite only the -first 24-bit is being used.
  • -
  • Logic level on the data line is inverted.
  • -
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To give a standalone description of the R-BUS digital audio -protocol:

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    -
  • The frame sync (word clock) signal runs at the same frequency as the -audio sampling rate.
  • -
  • When frame sync is low, left channel of each channel pair is being -transmitted, otherwise right channel is being transmitted.
  • -
  • Each half cycle of the frame sync clock is divided into 32 periods, -during each of which a bit of sample data is sent on every serial data -line.
  • -
  • Sample data are sent most significant bit (MSB) first. Each sample -is 24-bit long, leaving 8 bits unused at the end of each half cycle of -frame sync.
  • -
  • Logic low on the data line means the bit being sent is 1, and high -means it’s a 0.
  • -
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If you’d like a timing diagram of all this, please look up the -datasheet of TC9271 made by Toshiba (used in the XV-5080 as its S/PDIF -encoder chip). Figure 1b is a good representation of the relationship -between frame sync (LRCK in the datasheet) and audio data. The LRS=H -case in figure 3a shows how the frame sync signal sent over R-BUS should -be interpreted.

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There are 4 serial data lines in each direction, giving the 8 -channels in total for each direction. Each direction has its own frame -sync signal, which is shared among all data lines in that direction.

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MIDI

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What is sent over the MIDI wires in the R-BUS cable has not been -confirmed by me.

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The MIDI interface is used differently on different Roland -products:

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    -
  • XV-5080 seem to ignore everything on the R-BUS MIDI interface, -despite having all the facilities to handle it. Roland disclosed this in -RPC-1’s user manual (see the section on XV-5080). I have not tested this -claim.
  • -
  • MV-8000 series with MV8-OP1 installed can use the R-BUS MIDI output -as a separate MIDI port. Data going into the R-BUS MIDI port will be -mixed with the built-in MIDI input.
  • -
  • VM-3100Pro can pass through the MIDI data to its built-in MIDI -ports, and can control the host sequencer if connected to a -computer.
  • -
  • V-Studio products can receive MIDI clock over R-BUS.
  • -
  • Any aspects / products not mentioned here are unknown to me.
  • -
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Roland calls the signals that go in to / out of these pins “IPC” or -“PC”. [9]

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Inside both the VS-2400 and the XV-5080, the signal is generated / -goes into a dedicated microcontroller (a M3888 1M2), specifically, a -pair of its UART ports. An inverter is between the R-BUS connector and -the MCU in each direction of the signal.

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Roland claims in VS-2480’s manual that R-BUS carries 8 channels of -bidirectional digital audio (which are already fully accounted for in -the previous section), plus MIDI, MMC (MIDI Machine Control) and MTC -(MIDI Timecode).

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The factual portion of this section ends here. Everything below is my -guesswork. Since MMC commands and MTC are both usually just sent as -normal MIDI messages, it’s a reasonable assumption that, the only thing -that is transmitted over these wires is MIDI, which is also why I named -them MIDI TX/RX in my pin usage chart.

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Since MIDI is pretty much just UART with a bit of isolation, I would -venture a guess that the signal sent / expected on these two pins is -just inverted MIDI UART signal.

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It would be pretty trivial to build some experimental circuitry to -test my theory. Maybe I’ll do it one day. However this may end up with -nothing – as the XV-5080 will probably just ignore the MIDI data going -through R-BUS.

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[1]: Serial data -output (input). Overline indicates that 1-bit is represented with low -logic level and 0-bit with high logic level. Same -below.
[2]: Not connected. Same -below.
[3]: Inferred from wiring scheme
[4]: Often abbreviated -as TX.
[5]: Often abbreviated -as RX.
[6]: R-BUS, -RBUS, RBC, RBC-5: Where Can I Find an R-BUS Cable?
[7]: Roll -your own: R-Bus Cable Pin Out.
[8]: DIY -R-BUS cable for 20€
[9]: I have no idea what these could mean. My -software-dominated brain tells me they stand for “Inter-Process -Communication” and “Program Counter” but they clearly stand for -something else here.
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