Casio PX-110 Function Manual

Casio PX-110 Function Manual

Midi implementation
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PX-110/PX-310/PX-700 MIDI Implementation
Contents
1 Product Configuration as a MIDI Device............................................................................................ 6
1.1 Controller Block......................................................................................................................................... 6
1.2 Sound Source Block.................................................................................................................................. 6
1.3 Sound Source Common Sub-blocks ......................................................................................................... 6
1.4 Part Sub-blocks......................................................................................................................................... 7
1.5 MIDI Send by Auto Accompaniment or Song Memory (PX-110/PX-310) ................................................. 7
2 Different Operations Depending on Part Mode.................................................................................. 7
Part II
3 Receive Channel................................................................................................................................ 8
4 Send Channel .................................................................................................................................... 8
5 Note Off.............................................................................................................................................. 8
6 Note On.............................................................................................................................................. 8
7 Polyphonic Key Pressure................................................................................................................... 9
8 Control Change.................................................................................................................................. 9
8.1 Bank Select (00H) ..................................................................................................................................... 9
8.2 Modulation (01H)....................................................................................................................................... 9
8.3 Data Entry (06H,26H).............................................................................................................................. 10
8.4 Volume (07H) .......................................................................................................................................... 10
8.5 Pan (0AH) ............................................................................................................................................... 10
8.6 Expression (0BH) .................................................................................................................................... 11
8.8 Damper (40H) ......................................................................................................................................... 12
8.9 Sostenuto (42H) ...................................................................................................................................... 12
8.10 Soft (43H).............................................................................................................................................. 13
8.11 Envelope Release Time (48H) .............................................................................................................. 13
8.12 Envelope Attack Time (49H) ................................................................................................................. 13
8.13 Filter Cutoff (4AH) ................................................................................................................................. 14
8.14 Filter Resonance (47H) ......................................................................................................................... 14
8.15 Vibrato Rate (4CH)................................................................................................................................ 14
8.16 Vibrato Depth (4DH).............................................................................................................................. 15
8.17 Vibrato Delay (4EH) .............................................................................................................................. 15
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Summary of Contents for Casio PX-110

  • Page 1: Table Of Contents

    1.2 Sound Source Block... 6 1.3 Sound Source Common Sub-blocks ... 6 1.4 Part Sub-blocks... 7 1.5 MIDI Send by Auto Accompaniment or Song Memory (PX-110/PX-310) ... 7 2 Different Operations Depending on Part Mode... 7 Part II Channel Message 3 Receive Channel...
  • Page 2 14.1.4 Master Coarse Tuning ...23 14.1.5 Reverb Parameter ... 24 14.1.6 Chorus Parameter ... 24 14.1.7 GM System Message...26 14.1.8 GS Message ...27 14.2 PX-110/PX-310/PX-700 System Exclusive Message ... 27 Part IV PX-110/PX-310/PX-700 System Exclusive Message 15 Format... 28 15.1 Message Classifications... 28 15.2 Message Structures ...
  • Page 3 15.2.5 5...act : Action ...29 15.2.6 6...cat : Category ...30 15.2.7 7...prm : Parameter ID ... 30 15.2.8 8...ilen/dlen : index length / data length ...30 15.2.9 9...ps : Parameter Set Number ...31 15.2.10 10...index Parameter Index Number ...31 15.2.11 11...data Parameter Data ...32 15.2.12 12...sum Check Sum ...34 15.2.13 14...EOX : End of System Exclusive Message ...
  • Page 4 23.11 Algorithm 10 (0AH) : Phaser ... 52 23.12 Algorithm 11 (0BH) : Rotary ... 52 23.13 Algorithm 12 (0CH) : Overdrive - Rotary ... 52 23.14 Algorithm 13 (0DH) : Enhancer ... 52 23.15 Algorithm 14 (0EH) : Ring Modulator ... 53 23.16 Algorithm 15 (0FH) : LoFi ...
  • Page 5 Part VIII Setting Values and Send/Receive Values 25 Setting Value Table... 60 25.1 Off/On Setting Value Table ... 60 25.2 Damper Pedal Operation Value Table ... 60 25.3 Slow/Fast Setting Value Table ... 60 25.4 Rotate/Break Setting Value Table... 60 25.5 -24 - 0 - 24 Setting Value Table ...
  • Page 6: Part I

    Controller Block The Controller Block issues messages in accordance with real-time controllers (keyboard and pedals), song memory, and auto accompaniment functions (PX-110, PX-310). An operation causes the corresponding message to be sent to the sound source and from MIDI OUT.
  • Page 7: Part Sub-Blocks

    Part Channel MIDI Send by Auto Accompaniment or Song Memory (PX-110/PX-310) This document provides information about which operations are sent by each message. Note however, that auto accompaniment and Song Memory auto accompaniment operations that include playback data can cause any MIDI message to be sent, and so they are not included here.
  • Page 8: Channel Message

    Part II Channel Message Receive Channel The channel number of the channel messaged received by each part is explained in the table in "1.4 Part Sub- blocks". The MIDI Channel of messages that can change effect settings is determined by the MIDI Channel, which is described in the footnote titled "MIDI Channel Number"...
  • Page 9: Polyphonic Key Pressure

    Polyphonic Key Pressure Format Message Format: AnH kkH vvH n: MIDI Channel Number kk: Key Number vv: Pressure Value Send Operation This message is not sent when the Instrument is operated. Receive Operation This message is not received. Control Change Format Message Format: BnH ccH vvH n: MIDI Channel Number...
  • Page 10: Data Entry (06H,26H)

    Receive Receipt adds vibrato of a depth specified by the value to the tone being sounded. In the case of a tone that already has vibrato applied, receipt of this message increases the vibrato depth. Data Entry (06H, 26H) Format Message Format: BnH 06H vvH (MSB) BnH 26H vvH (LSB) n: MIDI Channel Number...
  • Page 11: Expression (0Bh)

    Expression (0BH) Format Message Format: BnH 0BH vvH n: MIDI Channel Number vv: Value (Note1) Note 1: The setting value matches the value that is sent and received. Send This message is not sent when the Instrument is operated. Receive Receipt changes the Expression value.
  • Page 12: Damper (40H)

    Damper (40H) Format Message Format: BnH 40H vvH n: MIDI Channel Number vv: Value Send Sent when the damper pedal is operated. For send values, see "25.2 Damper Pedal Operation Value Table" in "VIII Setting Values and Send/Receive Values". Receive Receipt performs an operation equivalent to a damper pedal operation.
  • Page 13: Soft (43H)

    8.10 Soft (43H) Format Message Format: BnH 40H vvH n: MIDI Channel Number vv: Value (Note 1) Note 1: For information about the relationship between setting values and send/receive values, see the "25.1 Off/On Setting Value Table" in "Part VIII Setting Values and Send/Receive Values." Send Sent when soft pedal of the damper pedal that has been assigned the soft pedal function is operated.
  • Page 14: Filter Cutoff (4Ah)

    8.13 Filter Cutoff (4AH) Format Message Format: BnH 43AH vvH n: MIDI Channel Number vv: Value (Note 1) Note 1: For information about the relationship between setting values and send/receive values, see "25.6 -64 - 0 - 63 Setting Value Table" in "Part VIII Setting Values and Send/Receive Values". Send This message is not sent when the Instrument is operated.
  • Page 15: Vibrato Depth (4Dh)

    8.16 Vibrato Depth (4DH) Format Message Format: BnH 4DH vvH n: MIDI Channel Number vv: Value (Note1) Note 1: For information about the relationship between setting values and send/receive values, see "25.6 -64 - 0 - 63 Setting Value Table" in "Part VIII Setting Values and Send/Receive Values". Send This message is not sent when the Instrument is operated.
  • Page 16: Chorus Send (5Dh)

    8.19 Chorus Send (5DH) Format Message Format: BnH 5DH vvH n: MIDI Channel Number vv: Value (Note1) Note 1: The setting value matches the value that is sent and received. Send This message is not sent when the Instrument is operated. Receive Receipt changes the Chorus Send of Mixer Part 1 through 16.
  • Page 17: Rpn (64H,65H)

    Send This message is not sent when the Instrument is operated. Receive Receipt changes the Filter Resonance of the Tone Parameter. 8.21 RPN (64H,65H) Format Message Format: BnH 64H vvH (LSB) BnH 65H vvH (MSB) n: MIDI Channel Number vv: Value 8.21.1 Pitch Bend Sensitivity Format...
  • Page 18: Coarse Tune

    8.21.3 Coarse Tune Format Message Format: BnH 64H 02H 65H 00H 06H mmH 26H 00H n: MIDI Channel Number mm: Value (Note1) Note 1: For information about the relationship between setting values and send/receive values, see "25.5 -24 - 0 - 24 Setting Value Table"...
  • Page 19: All Sound Off (78H)

    8.22 All Sound Off (78H) Format Message Format: BnH 78H 00H n: MIDI Channel Number Send This message is not sent when the Instrument is operated. Receive Receipt stops all voices that are sounding. 8.23 Reset All Controllers (79H) Format Message Format: BnH 79H 00H n: MIDI Channel Number Send...
  • Page 20: Omni On (7Dh)

    Omni On (7DH) Format Message Format: BnH 7DH 00H n: MIDI Channel Number Mono (7EH) Format Message Format: BnH 7FH 00H n: MIDI Channel Number Poly (7FH) Format Message Format: BnH 7FH 00H n: MIDI Channel Number Send These messages are never sent. Receive Receipt of any of these messages releases (same as releasing the keyboard key) the currently sounding voice.
  • Page 21: Channel Aftertouch

    Channel Aftertouch Format Message Format: DnH vvH n: MIDI Channel Number vv: Value Send This message is not sent when the Instrument is operated. Receive Receipt of this message adds vibrato to the tone that is sounding. Details of the effect differ according to the tone setting.
  • Page 22: System Message

    System Exclusive Message Format Message Format: F0H...F7H This Instrument can send and receive Universal System Exclusive Messages, as well as PX-110/PX-310/PX-700 System Exclusive Messages that have a format that is unique to the Instrument. 14.1 Universal Realtime System Exclusive Message...
  • Page 23: Master Balance

    14.1.2 Master Balance Format Message Format: F0H 7FH 7FH 04H 02H llH mmH F7H ll: Value LSB (Note1) mm: Value MSB (Note1) Note 1: For information about the relationship between setting values and send/receive values, see "25.7 Pan Setting Value Table"...
  • Page 24: Reverb Parameter

    14.1.5 Reverb Parameter Format Message Format: F0H 7FH 7FH 04H 05H 01H 01H 01H 01H 01H ppH vvH F7H pp: Parameter vv: Value Type Format Message Format: F0H 7FH 7FH 04H 05H 01H 01H 01H 01H 01H 00H vvH F7H vv: Value (Note1) Note 1: For information about the relationship between setting values and send/receive values, see "25.10 Reverb Type...
  • Page 25 Note 1: For information about the relationship between setting values and send/receive values, see "25.11 Chorus Type Setting Value Table" in "Part VIII Setting Values and Send/Receive Values." Send This message is not sent when the Instrument is operated. Receive Receipt changes the System Chorus Type parameter.
  • Page 26: Gm System Message

    Send To Reverb Format Message Format: F0H 7FH 7FH 04H 05H 01H 01H 01H 01H 02H 04H vvH F7H vv: Value (Note1) Note 1: The setting value is the same as the value that is sent. Send This message is not sent when the Instrument is operated. Receive Receipt changes the Chorus Send To Reverb parameter.
  • Page 27: Gs Message

    PX-110/PX-310/PX-700 System Exclusive Message Format Message Format: F0H 44H 11H 02H...F7H These messages can control most of the Instrument's parameters, as well as user area data send/receive and some commands. For more information, see "Part IV PX-110/PX-310/PX-700 System Exclusive Message".
  • Page 28: Px-110/Px-310/Px-700 System Exclusive Message

    Parameter Set Bulk Dump The operation classification of a message is determined in accordance with the value of the "Action" field of the PX-110/PX-310/PX-700 SysEx message. The basic format for all operation type messages is described in "15.2 Message Structure", below.
  • Page 29: Man : Manufacturer's Id

    3...MOD : Model ID Format: 00010001B (MSB) 00000011B(LSB) The Model ID of the Instrument is shown by two consecutive bytes (MSB, LSB). (PX-110/PX-310/PX-700 Model ID MSB = 11H, LSB = 03H) 15.2.4 4...dev : MIDI Device ID 00H to 1FH,7FH...
  • Page 30: Cat : Category

    15.2.6 6...cat : Category Format: 0000ccccB 0cccccccB = Category (7bit) The category indicates the type of data handled by the System Exclusive Message. The ID number (ID) of the Category is indicated on the left, while the communication operation (Action) is indicated on the right. Category ID (c) Parameter Set...
  • Page 31: Ps : Parameter Set Number

    iiB (Binary) = index length "index length (iiB)" indicates the index field length, which is always the following, regardless of the "act" (Action) value. iiB...index byte size - 1 "act" Value Message Type 00, 01 IPC, IPR 02, 04 BDS, HDS 03, 05 BDR, HDR Control...
  • Page 32: Data Parameter Data

    In this case, "index" is a 3-byte fixed field. When transferring one parameter set, it indicates the divided packet serial number (starting with 00) and the size of the "data" field that immediately follows this field. i[0]...0nnnnnnnB Packet Number LSB (NNNNNNNnnnnnnnB = Packet Number) i[1]...0NNNNNNNB Packet Number MSB As explained in the data field section, 128 bytes can be sent per packet, so received data can be stored at [Parameter Set start address] + [Packet Number] ×...
  • Page 33 Indicates the value of the parameter itself. The length varies in accordance with the data size indicated by the "dlen" field, as shown below. This field is not included for a parameter request. dddddB + 1 Number of Data 1 - 7 8 - 14 15 - 21 22 - 28...
  • Page 34: Sum Check Sum

    15.2.12 12...sum Check Sum When act = 00(IPC), 01(IPR), 03(BDR), 05(HDR) or 7(EOD, HDA, HDJ, HDE, BSY, EOS, NOP) Format: This field is always empty. When act = 02(BDS) or 04(HDS) Format: 0sssssssB In this case, the "sum" field contains a value, which, when added to the total value of the "data" field, makes the lower seven bits 0.
  • Page 35: Parameter Set Transfer Mode (Px-310)

    Parameter Set Transfer Modes (PX-310) 17.1 Communication Modes 17.1.1 One-way and Handshake Parameter Sets can be transferred by bulk dump using the message exchange types described below. One-way mode Parameter Set send/receive (not used) • One-way mode Parameter Set send request send/receive (not used) •...
  • Page 36: One-Way Mode Communication Flow

    17.2 One-way Mode Communication Flow A session starts with the receiving device sending a request using a BDR, or with the sending device sending BDS data. The session ends after transfer of all the data in the parameter set being transferred by the sending device is complete.
  • Page 37 Data Receiver Data Sender HDR → ← HDS HDA → ← HDS HDA → HDA → ← EOD Other subsessions ← EOS The same packet is resent when a checksum mismatch or incompatible data structure error is detected. Data Receiver Data Sender HDR →...
  • Page 38 Data Receiver Data Sender HDR → ← HDS HDA → ← HDS HDJ → (Send Canceled) Data Receiver Data Sender HDR → HDA → ← HDS HDA → ← HDS ← HDJ (Send Canceled) When the BSY is received, the receiver must wait until the PX-310 enters a session-enabled mode, or use a Prepare for Data Management parameter (see "18.2 Data Management Command List") to change to a communication-enabled mode.
  • Page 39: Parameter List

    Part V Parameter List These lists show the parameters that can be transferred individually using System Exclusive Messages. Note 1: Any parameter that has "r" to the right of its Parameter ID number is a read-only parameter that can be •...
  • Page 40: Data Management Command Parameter List

    None index bit Value 0000 Depends on model. 0000 0~FFFF Default Setting Value (Decimal) nn00 = reserved nn01 = PX-110 nn02 = PX-310 nn03 = PX-700 nn is version (00 to 3F) Bit0...Part1 Bit1...Part2 Bit15...Part16 0...Nop 1...DSP cancel 0...partial 1...all...
  • Page 41: Command Parameter List

    Data Management Command List ParamID Parameter Prepare for Data Management (Note1) Free Size of SMF (Note2) Delete SMF Note 1: Receipt of this parameter causes the PX-310 to terminate all music and note play, and enter a mode that is optimized for bulk dump.
  • Page 42 Split Point Layer Layer Balance Touch Response Transpose Assignable Pedal Mode Damper Middle Depth Mixer Hold Music Count Metronome (PX-110/PX-700) Metronome Beat (PX-110/PX-700) Accomp Mode (PX-110/PX-310) MIDI Parameter List ParamID Parameter Keyboard MIDI Channel MIDI Chord judge (PX-110/PX-310) Accomp/Song Memory MIDI Out...
  • Page 43: Patch Parameter

    Patch Parameter The patch parameter is a temporary area that controls the sound source operation mode. The registration function copies part of the parameters in this area to registration memory, and loads parameters stored in registration memory to this temporary memory. 19.1 Patch Common Parameter List This list shows setting parameters that are common for each part.
  • Page 44 Note 3: See "25.7 Pan Setting Value Table". Note 4: This specifies the volume of data sent from System Chorus to System Reverb. Note 5: When "Bypass" is specified for "DSP Line Bypass," the DSP Line Select settings of all parts are disabled, and all DSP lines are treated as if they are turned off.
  • Page 45 Master Equalizer (Brilliance) ParamID Parameter MasEq Low Freq (Note1) MasEq Low Gain (Note2) MasEq Mid-Low Freq (Note3) MasEq Mid-Low Gain (Note4) reserved MasEq Brilliance Gain (Note5) MasEq High Freq (Note6) MasEq High Gain (Note7) Note 1: Selects the Master EQ low-range cutoff frequency. See "25.12 Equalizer Low Frequency Setting Value Table". Note 2: Selects the Master EQ low-range gain.
  • Page 46 DSP Type parameter The value of this block's parameter is rewritten whenever the DSP Type or Tone is changed. ParamID Parameter DSP Name A (Note1) DSP Name B (Note1) DSP Algorithm ID (Note2) DSP Chorus Send DSP Reverb Send Note 1: These parameters change the DSP name.
  • Page 47: Patch Part Parameter List

    Sets the melody and rhythm modes of the part play operation. For detailed operations, see "10.1 About the Part Mode". Tune / Mix parameter ParamID Parameter Pitch Fine Tune Pitch Coarse Tune Volume Accomp Volume (PX-110/PX-310) Bend Range Value Default Setting Value (Decimal) 2~6 0~1 0~4 Value Default Setting Value (Decimal) 00~FF...
  • Page 48 Tone parameter ParamID Parameter Tone Name A (Note1) Tone Name B (Note1) Line Select Tone Octave Shit Tone Attack Time Tone Release Time Tone DCF Cutoff Tone DCF Resonance Chorus Send Reverb Send Tone Level Tone Touch Sens Note 1: Change the tone name.
  • Page 49: Smf Data Parameter (Px-310)

    SMF Data Parameter (PX-310) SMF Data Parameters contain address, size, and name information about SMF data. 20.1 SMF Data Information System Exclusive Format Field Value SYSEX 11,03 Either 00 to 1F, or 7F 00(IPC), 01(IPR) SMF = 10 00-7F ilen/dlen 0 / bit size - 1 LSB,MSB = SMF Data number For details, see "21 About Parameter Set (PS) numbers".
  • Page 50: Smf Parameter Set (Px-310)

    00 to 1F, or 7F 04(HDS), 05(HDR), 07(Control) SMF = 10 00-7F ilen/dlen See "Part IV PX-110/PX-310/PX-700 System Exclusive Message". Indicates the SMF number being transferred. For details, see "21 About Parameter Set (PS) numbers". index See "PX-110/PX-310/PX-700 Instrument System Exclusive Messages".
  • Page 51: Dsp Algorithm List (Single Effect)

    Part VII DSP Parameter List This list shows the parameters for each of the DSP algorithms. U0 to U7 indicate User Parameters 0 to 7, while I00 to I15 indicate Internal Parameters 00 to 15. Parameters for which no setting range is indicated, receipt of a value from 0 to 127 is assigned as-is to the parameter.
  • Page 52: Algorithm 06 (06H) : Compressor

    23.7 Algorithm 06 (06H) : Compressor Number Parameter Notes Depth Attack Release Level Threshold Note 1 Note 1:This algorithm adjusts the level at which the compressor effect starts. 23.8 Algorithm 07 (07H) : Limiter Number Parameter Notes Limit Attack Release Level 23.9 Algorithm 08 (08H) : Distortion...
  • Page 53: Algorithm 14 (0Eh) : Ring Modulator

    23.15 Algorithm 14 (0EH) : Ring Modulator Number Parameter OSC Frequency LFO Rate LFO Depth Wet Level Dry Level 23.16 Algorithm 15 (0FH) : LoFi Number Parameter Noise Level 1 Noise Density 1 Noise Level 2 Noise Density 2 Tone Resonance Bass Level...
  • Page 54: Algorithm 22 (16H) : 3-Tap Delay

    23.23 Algorithm 22 (16H) : 3-Tap Delay Number Parameter Delay Time Wet Level Feedback High Damp Ratio L Ratio C Ratio R 23.24 Algorithm 23 (17H) : Gate Reverb Number Parameter Feedback High-Damp Diffusion Wet Level Dry Level 23.25 Algorithm 24 (18H) : Reverse Number Parameter Feedback...
  • Page 55: Dsp Algorithm List (Multi Effect)

    Note 5:See "25.14 Equalizer Hi Frequency Setting Value Table". Note 6:See "25.15 Equalizer Gain Setting Value Table". DSP Algorithm List (Multi Effect) The multi-algorithms (M00 to M31) listed below are combinations of the algorithms described above. Parameter operations and other details are the same as the previous algorithms, so there is no separate explanation provided here.
  • Page 56: Algorithm M05 (25H) : Multi05

    24.6 Algorithm M05 (25H) : Multi05 Number Parameter Enhancer Low Frequency Enhancer Low Gain Enhancer High Frequency Enhancer High Gain Chorus LFO Rate Chorus LFO Depth Chorus Feedback Chorus Wet Level 24.7 Algorithm M06 (26H) : Multi06 Number Parameter Enhancer Low Frequency Enhancer Low Gain Enhancer High Frequency Enhancer High Gain...
  • Page 57: Algorithm M12 (2Ch) : Multi12

    24.13 Algorithm M12 (2CH) : Multi12 Number Parameter Ring OSC Frequency Ring LFO Rate Ring LFO Depth Ring Wet Level Ring Dry Level Chorus LFO Depth Delay Time Delay Wet Level Chorus LFO Rate Chorus Feedback Chorus Wet Level Delay Feedback Delay High-Damp Delay Ratio L Delay Ratio R...
  • Page 58: Algorithm M18 (32H) : Multi18

    24.19 Algorithm M18 (32H) : Multi18 Number Parameter Compressor Depth Compressor Attack Compressor Level Enhancer Low Gain Enhancer High Gain Delay Delay Time Delay Wet Level Delay Feedback Enhancer Low Frequency Enhancer High Frequency Delay High-Damp Delay Ratio L Delay Ratio R 24.20 Algorithm M19 (33H) : Multi19 Number...
  • Page 59: Algorithm M24 (38H) : Multi24

    24.25 Algorithm M24 (38H) : Multi24 Number Parameter Distortion Gain Distortion Low Distortion Hi Distortion Level Chorus LFO Depth Delay Delay Time Delay Wet Level Delay Feedback Delay High-Damp Delay Ratio L Delay Ratio R 24.26 Algorithm M25 (39H) : Multi25 Number Parameter Compressor Depth...
  • Page 60: Part Viii Setting Values And Send/Receive Values

    24.31 Algorithm M30 (3EH) : Multi30 Number Parameter Distortion Gain Distortion Low Distortion Tone Distortion Level Chorus LFO Rate Chorus LFO Depth Chorus Feedback Chorus Wet Level 24.32 Algorithm M31 (3FH) : Multi31 Number Parameter Distortion Gain Distortion Low Distortion Tone Distortion Level Flanger LFO Rate Flanger LFO Depth...
  • Page 61: 99 - 0 - 99 Setting Value Table

    25.8 -99 - 0 - 99 Setting Value Table Value Transmit/Receive (MSB-LSB) 00H-40H 40H-00H 7FH-00H 25.9 Type 0 to Type 7 Setting Value Table Value Transmit Receive Type0 00H-0FH Type1 10H-1FH Type2 20H-2FH Type3 30H-3FH Type4 40H-4FH Type5 50H-5FH Type6 60H-6FH Type7 70H-7FH...
  • Page 62: Equalizer Gain Setting Value Table

    25.15 Equalizer Gain Setting Value Table Value Transmit Receive 00H-04H 05H-09H 0AH-0EH 0FH-13H 14H-18H 19H-1DH 1EH-22H 23H-27H 28H-2CH 2DH-31H 32H-36H 37H-3BH 3CH-43H 44H-48H 49H-4DH 4EH-52H 53H-57H 58H-5CH 5DH-61H 62H-66H 67H-6BH 6CH-70H 71H-75H 76H-7AH 7BH-7FH Note 4:The parameter value is not equivalent to dB (decibels).
  • Page 63: Dsp Preset List

    25.18 DSP Preset List Preset AlgorithmID Compressor 1 Compressor 2 Stereo Phaser Enhancer - Chorus Enhancer - Flanger 3-Tap Delay Stereo Delay Stereo Cross Delay Enhancer Delay Phaser - Chorus 1 Phaser - Chorus 2 Phaser - Delay 1 Phaser - Delay 2 Chorus - Delay 1 Chorus - Delay 2 Chorus - Delay 3...
  • Page 64: Part Ix Midi Implementation Notation

    Part IXP MIDI Implementation Notation 25.19 Hexadecimal Notation MIDI implementation sometimes requires that data be expressed in hexadecimal format. Hexadecimal values are indicated by the letter "H" after the value. The hexadecimal equivalents of decimal values 10 through 15 are expressed as the letters "A" through "F". The table below shows the hexadecimal equivalents for the decimal values 0 through 127, which are often used for settings.
  • Page 65 CASIO COMPUTER CO.,LTD. 6-2, Hon-machi 1-chome Shibuya-ku, Tokyo 151-8543, Japan MA0508-A...

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