Instruction/ maintenance manual of the product F-120R Roland
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1 MIDI Implementation Model: F-120R, RP301R Date: Jun. 28, 2012 V ersion: 1.00 1. Receiv e Data ■ Channel V oice Messages ● Note o Status 2nd byte 3rd byte 8nH kkH vvH 9nH kkH 00H n = MIDI channel number: 0H-FH (ch.
MIDI Implementation 2 ❍ Hold 1 ( Contr oller Number 64) Status 2nd byte 3rd byte BnH 40H v vH n = MIDI channel number: 0H-FH (ch.1-ch.16) vv = Control value: 00H-7FH (0-127) * Not r eceived when Rx. HOLD1 = OFF . (Initial value is ON) ❍ P ortamento (C ontroller Number 65) Status 2nd byte 3rd byte BnH 41H v vH n = MIDI channel number: 0H-FH (ch.
MIDI Implementation 3 ❍ P ortamento Control ( Contr oller Number 84) Status 2nd byte 3rd byte BnH 54H k kH n = MIDI channel number: 0H-FH (ch.1-ch.16) kk = source note number: 00H-7FH (0-127) * A Note-on received immediately after a P ortamento Control message will change continuously in pitch, starting from the pitch of the Source Note Number .
MIDI Implementation 4 ❍ RPN MSB/LSB ( Contr oller Number 100, 101) Status 2nd byte 3rd byte BnH 65H mmH BnH 64H llH n = MIDI channel number: 0H-FH (ch.1-ch.16) mm = upper byte (MSB) of parameter number speci ed by RPN ll = lower byte (LSB) of parameter number speci ed by RPN * Not r eceived when Rx.
MIDI Implementation 5 ● All Notes O ( Controller Number 123) Status 2nd byte 3rd byte BnH 7BH 00H n = MIDI channel number: 0H-FH (ch.1-ch.16) * When All Notes O is received, all notes on the c orresponding channel will be turned o . However if Hold 1 or Sostenuto is ON, the sound will be c ontinued until these are turned o .
MIDI Implementation 6 ❍ GM S ystem O “GM Syst em O ” is a command message that resets the internal state of this instrument from the GM state to its native c ondition.
MIDI Implementation 7 ❍ Chorus P arameters Status Data byte Status F0H 7FH, 7FH, 04H, 05H, 01H, 01H, F7H 01H, 01H, 02H, ppH, vvH Byte Explanation F0H Exclusive status 7FH ID number (Universal Realti.
MIDI Implementation 8 ● Data T ransmission This instrument can receive the various paramet ers using System Exclusiv e messages. The exclusive message of GS f ormat data has a model ID of 42H and a device ID of 10H (17), and it is common to all the GS devices.
MIDI Implementation 9 n = MIDI channel number: 0H-FH (ch.1-ch.16) pp = Program number: 00H-7FH (prog.1-prog .128) ■ System Realtime Message ● Realtime Clock Status F8H ● Star t Status FA H ● Continue Status FBH ● Stop Status FCH ● Active Sensing Status FEH * T his will be transmitted constantly at intervals of approximately 250 ms.
MIDI Implementation 10 3. P arameter A ddress Map (Model ID = 42H) This map indicates address, siz e, Data (range), Paramet er , Description, and Default Value of paramet ers which can be transferre d using and “Data set 1 (DT1). ” All the numbers of address, size , Data, and Default V alue are indicat ed in 7-bit Hexadecimal-form.
MIDI Implementation 11 02: Room 3 03: Hall 1 04: Hall 2 05: Plate 06: Delay 07: Panning Delay 40 01 31 00 00 01 00-07 REVERB CHARACTER 0-7 04 4 40 01 32 00 00 01 00-07 REVERB PRE-LPF 0-7 00 0 40 01 33.
MIDI Implementation 12 ● Part Paramet ers This instrument has 16 parts. Parameters that can be set individually f or each Part are called Part parameters. If you use exclusive messages to set P art parameters, specify the address by Block number rather than P art Number (normally the same number as the MIDI channel).
MIDI Implementation 13 40 1x 24 00 00 01 00-01 Rx. BANK SELECT LSB OFF/ON 00 OFF * T his instrument can be recognized Bank Select LSB (40H-43H) even if this message is OFF .
MIDI Implementation 14 40 2x 28 00 00 01 00-7F CAf LFO2 PITCH DEPTH 0-600 [cent] 00 0 [cent] 40 2x 29 00 00 01 00-7F CAf LFO2 TVF DEPTH 0-2400 [cent] 00 0 [cent] 40 2x 2A 00 00 01 00-7F CAf LFO2 TV A DEPTH 0-100.
MIDI Implementation 15 4. Supplementar y Mat erial ● Decimal and Hexadecimal T able In MIDI documentation, data values and addresses/sizes of exclusive messages et c. are expressed as hexadecimal values for each 7 bits . The following table show s how these correspond to decimal numbers .
MIDI Implementation 16 ● Example of an Exclusiv e Message and Calculating a Checksum Roland Exclusive messages are transmitt ed with a checksum at the end (before F7) to make sure that the message was correctly receiv ed. The value of the checksum is determined by the address and data (or size) of the transmitted ex clusive message.
MIDI Implementation 17 5. E ec t List 0100: Equalizer 0101: Spectrum 0102: Enhancer 0104: Isolator 0105: Low Boost 0106: High Pass F ilter 0110: Overdrive 0111: Distortion 0112: Overdrive2 0113: Di.
MIDI Implementation 18 ● 0102: Enhancer Controls the ov ertone struc ture of the high frequencies, adding sparkle and tightness to the sound. No Paramet er V alue Description 1 Sens #1 0–127 0–1.
MIDI Implementation 19 ● 0110: Overdriv e Creates a soft distortion similar to that produced by vacuum tube ampli ers. No Paramet er V alue Description 1 Drive 0–127 0–127 Degree of distortion Also changes the volume.
MIDI Implementation 20 ● 0114: Guitar Amp Simulator This is an e ect that simulates the sound of a guitar ampli er . No Paramet er V alue Description 1 Pre Amp Sw 0–1 O , On Turns the amp swit ch on/o .
MIDI Implementation 21 ● 0129: Multi Stage Phaser Extremely high settings of the phase di erence produce a deep phaser e ect. No Paramet er V alue Description 1 Mode 0–5 4-Stage, 8-Stage, 12.
MIDI Implementation 22 ● 0128: 2Band Flanger A anger that lets you apply an e ect independently to the low-frequency and high-frequency ranges. No Paramet er V alue Description 1 Split Fr eq 0–16 200–8000 Hz Frequency at which the low and high ranges will be divided 2 Low P re Delay 0–125 0.
MIDI Implementation 23 ● 012b: Ring Modulator This is an e ect that applies amplitude modulation (AM) to the input signal, producing bell-like sounds. Y ou can also change the modulation frequency in response to changes in the volume of the sound sent into the e ect.
MIDI Implementation 24 ● 0131: Limiter Compresses signals that ex ceed a speci ed volume level, preventing distortion from occurring. No Paramet er V alue Description 1 Release 0–127 0–127 Adjusts the time after the signal volume falls below the Threshold Lev el until compres- sion is no longer applied.
MIDI Implementation 25 ● 0143: Space D This is a multiple chorus that applies two-phase modulation in stereo. It gives no impression of modulation, but produces a transparent chorus e ect. No Paramet er Value Description 1 Pre Delay 0–125 0.0–100.
MIDI Implementation 26 ● 0122: Rotar y The Rotary e ect simulates the sound of the rotary speakers often used with the electric organs of the past. Since the movement of the high range and low range r otors can be set indepen- dently , the unique type of modulation characteristic of these speakers can be simulated quite closely .
MIDI Implementation 27 ● 015b: Stereo Dela y1 This is a stereo delay . No Paramet er V alue Description 1 Delay Left Mode 0–1 ms, note When this is set to “note, ” the e ect is synchronized with the tempo. 2 Delay Left 0–127 1–1270 ms Adjusts the time until the delay sound is heard.
MIDI Implementation 28 ● 015e: Stereo Dela y4 This is a stereo delay . No Paramet er Value Description 1 Delay Left Mode 0–1 ms, note When this is set to “note, ” the e ect is synchronized with the tempo. 2 Delay Left 0–127 1–1270 ms Adjusts the time until the delay sound is heard.
MIDI Implementation 29 ● 0151: Modulation Dela y Adds modulation to the delayed sound . No Paramet er Value Description 1 Delay Left Mode 0–1 ms, note When this is set to “note, ” the e ect is synchronized with the tempo. 2 Delay Left 0–127 1–1270 ms Adjusts the time until the delay sound is heard.
MIDI Implementation 30 ● 0159: T ape Echo A virtual tape echo that produces a realistic tape delay sound. This simulates the tape echo section of a Roland RE-201 Space Echo.
MIDI Implementation 31 ● 0156: Gate Rev erb This is a special type of reverb in which the rev erberant sound is cut o before its natural length. No Paramet er Value Description 1 T ype #1 0–3 N.
MIDI Implementation 32 ● 0206: Enhancer Chorus This e ect connects an enhancer and a chorus in series. No Paramet er Value Description 1 Enhancer Sens 0–127 0–127 Sensitivity of the enhancer 2 Enhancer Mix 0–127 0–127 Lev el of the overtones generated by the enhancer 3 Chorus Pre Delay 0–125 0.
MIDI Implementation 33 ● 020a: Flanger Delay This e ect connects a anger and a delay in series. No Paramet er Value Description 1 Flanger Pr e Delay 0–125 0.0–100.0 ms Adjusts the delay time from when the direct sound begins until the anger sound is heard.
MIDI Implementation 34 6. T one List [Piano] button No. Name Upper La yer MSB LSB PC MSB LSB PC 1 G.Piano1 0 68 1 - - - 2 G.Piano2 16 67 1 - - - 3 G.Piano3 8 66 2 - - - 4 Honk yT on 0 64 4 - - - 5 P+ .
35 Function... T ransmitted Rec ognized Remarks Basic Channel Default Changed 1 1–16 1–16 1–16 Mode Default Messages Altered Mode 3 X ************** Mode 3 Mode 3, 4 (M = 1) *2 Note Number : Tru.
36 MIDI Implementation 1 1. Receive Data 1 Channel Voic e Messages 1 Note o 1 Note on 1 Polyphonic Key P ressure 1 Control Change 1 Bank Select (Controller Number 0, 32) 1 Modulation (Controller Nu.
An important point after buying a device Roland F-120R (or even before the purchase) is to read its user manual. We should do this for several simple reasons:
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If you already are a holder of Roland F-120R, but have not read the manual yet, you should do it for the reasons described above. You will learn then if you properly used the available features, and whether you have not made any mistakes, which can shorten the lifetime Roland F-120R.
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