Contents - Peavey.com
Contents - Peavey.com Contents - Peavey.com
FX-TYPE 9:Classic EQPRAM0 = Low Gain1 = Mid Gain2 = Mid Shift3 = High GainFX-TYPE $A:T-Band Graphic EqualizerPRL4M0 = 100 Hz Gain (0 - 48 => -12 to +12 in . j cl13 steps)1 = 330 Hz Gain (0 - 48 => -12 to +12 in .5 dB steps)2 = 1 kHz Gain (0 - 48 => -12 to +12 in .5 dB steps)3 = 3 kHz Gain (0 - 48 => -12 to +12 in . j clB steps)4 = 10 kHz Gain (0 - 48 => -12 to +12 in .5 dB steps)FXJ’KPE $I2S-Band Mid Sweep EqualizerPRAM0 = Lo Gain (0 - SO>1 = Mid Freq (mantissa) \ may be loaded as 1 b);te or 2 bytes of data2 = Mid Freq ( exponent) /3 = Mid Gain (0 - 50)4 = High Gain (0 - 50)j =TYPeFX-TYPE $C=4-Band Parametric EqualizerPRAM0 = Band 1 Frequency (mantissa) \ may be loaded as 1 byte or 2 bytes of data1 = Band 1 Frequency (exponent:) /2 = Band 1 l/Bandwidth3 = Band 1 Gain (0 - 72 => -24 to +12 in .5 clB steps)4 = Band 2 Frequency (mantissa) \ may be loadecl as 1 byte or 2 hYtes of data5 = Band 2 Frequency (exponent) /6 = Band 2 l/Rmdwidth7 = Band 2 Gain (0 - 72 => -24 to +12 in .5 clB steps)8 = Band 3 Frequency (mantissa) \ may be loadecl as 1 byte or 2 bytes of data9 = Band 3 Frequency (exponent) /A = Band 3 l/BandwidthB = Band 3 Gain (0 - 72 => -24 to + 12 in .5 clB steps)C = Band 4 Frequency (mantissa) \ may be loaclecl as 1 byte or 2 bytes of dataI> = Band 4 Frequency (exponent) /E = Band 4 l/BandwidthF = Band 4 Gain (0 - 72 => -24 to +12 in . j clB steps)Appendix D Remote Editing with SysEx D-5
FXJ’YPE $D: Hum FiilterPRAM0 = Frequency (0 - 1 => 50 - 60 Hz)FX-fYPE $E:Coil TapPRL4M0 = Frequency1 = PhaseFX-f’KPE $F: ExciterPRflM0 = Drive1 = Tune (integer) \ may be loaded as 1 byte or 2 bytes of data2 = Tune (fraction) /3 = Type4 = BalanceFX_TypE $10: Envelope FilterPRAM0 = Sensitivitv1 = Frequency3 = Resonance4 = Type5 = MixFX-f-‘KPE $11: Auto PanPRAM0 = Rate (units) \ may be loaded as 1 byte or 2 bytes of data1 = Rate (tenths) /2 = DepthFX-TKPE $12: Speaker SimulatorPRAIVl0 = TypeD-6
- Page 6 and 7: Introduction(obligatory Opening9Con
- Page 8 and 9: Chapter 1SetupTU6EFEX’”TUBE GUI
- Page 10 and 11: COAHVECTION DIAGRAMSThere are many
- Page 12 and 13: 3. Using a separate preamp, distort
- Page 14 and 15: 5. Direct connection to a mixing co
- Page 16 and 17: Chapter 2OverviewGETTING STARTEDAft
- Page 18 and 19: CHROMATIC TUNERThe Tube Fex comes w
- Page 20 and 21: PERFORMANCE PARAMETER CONTROLMost e
- Page 22 and 23: The format of the IMIDI lxmk select
- Page 24 and 25: To dump a set of presets to an exte
- Page 26 and 27: Chapter 5 RAM CartridgeThe optional
- Page 28 and 29: Program Mapping‘TWX the night bef
- Page 30 and 31: 10. Press the right arrow button on
- Page 32 and 33: 3. Position the cursor under DP; us
- Page 34 and 35: Clean, Crunch, Lead parameters (Pas
- Page 36 and 37: Compressor ccn)The Compressor effec
- Page 38 and 39: The versatile Chorus effect allows
- Page 40 and 41: This delay creates a stereo delay f
- Page 42 and 43: Pitch 1 and Pitch 2 (PI and P2)In o
- Page 44 and 45: Clussic EQ (CQ)The Classic Equalize
- Page 46 and 47: Envelope Filter (EF)The Envelope Fi
- Page 48 and 49: 71~ The Thr (Threshold) parameter s
- Page 50 and 51: Appendix B MIDI ImplementationModel
- Page 52 and 53: Levels:Reverb:Overdrive:Chorus:Dela
- Page 54 and 55: Effects can be added to the current
- Page 58 and 59: FX-TYFE $13: Stereo SimdutorPRAM0 =
- Page 60 and 61: SpecificationsFrequency Response12H
- Page 62: IMPORTANT SAFETY INSTRUCTIONSSAVE T
FX-TYPE 9:Classic EQPRAM0 = Low Gain1 = Mid Gain2 = Mid Shift3 = High GainFX-TYPE $A:T-Band Graphic EqualizerPRL4M0 = 100 Hz Gain (0 - 48 => -12 to +12 in . j cl13 steps)1 = 330 Hz Gain (0 - 48 => -12 to +12 in .5 dB steps)2 = 1 kHz Gain (0 - 48 => -12 to +12 in .5 dB steps)3 = 3 kHz Gain (0 - 48 => -12 to +12 in . j clB steps)4 = 10 kHz Gain (0 - 48 => -12 to +12 in .5 dB steps)FXJ’KPE $I2S-Band Mid Sweep EqualizerPRAM0 = Lo Gain (0 - SO>1 = Mid Freq (mantissa) \ may be loaded as 1 b);te or 2 bytes of data2 = Mid Freq ( exponent) /3 = Mid Gain (0 - 50)4 = High Gain (0 - 50)j =TYPeFX-TYPE $C=4-Band Parametric EqualizerPRAM0 = Band 1 Frequency (mantissa) \ may be loaded as 1 byte or 2 bytes of data1 = Band 1 Frequency (exponent:) /2 = Band 1 l/Bandwidth3 = Band 1 Gain (0 - 72 => -24 to +12 in .5 clB steps)4 = Band 2 Frequency (mantissa) \ may be loadecl as 1 byte or 2 hYtes of data5 = Band 2 Frequency (exponent) /6 = Band 2 l/Rmdwidth7 = Band 2 Gain (0 - 72 => -24 to +12 in .5 clB steps)8 = Band 3 Frequency (mantissa) \ may be loadecl as 1 byte or 2 bytes of data9 = Band 3 Frequency (exponent) /A = Band 3 l/BandwidthB = Band 3 Gain (0 - 72 => -24 to + 12 in .5 clB steps)C = Band 4 Frequency (mantissa) \ may be loaclecl as 1 byte or 2 bytes of dataI> = Band 4 Frequency (exponent) /E = Band 4 l/BandwidthF = Band 4 Gain (0 - 72 => -24 to +12 in . j clB steps)Appendix D Remote Editing with SysEx D-5