User Manual
Table Of Contents
- Legal Notice
- Table of Contents
- About this Main Manual
- Rigs and Signal Chain
- Front Panel Controls Head, PowerHead, Rack, and PowerRack
- Chicken Head Knob (1)
- INPUT Button (2)
- INPUT LED (2)
- Module and Section Buttons (3)
- OUTPUT/MASTER Button (4)
- OUTPUT LED (4)
- NOISE GATE Knob (5)
- Direct Control Knobs (6)
- MASTER VOLUME Knob (7)
- TAP Button (8)
- SYSTEM Button (9)
- RIG Button (10)
- QUICK Button (11)
- TYPE Knob (12)
- BROWSE Knob (13)
- Soft Buttons and Soft Knobs (14)
- ON/OFF Button (15)
- LOCK Button (16)
- COPY and PASTE Buttons (17)
- STORE Button (18)
- UNDO and REDO Buttons (19)
- EXIT Button (20)
Buttons (21) - RIG Navigation Cross (22)
- HEADPHONE Output (23)
- GAIN Knob (24)
- RIG VOLUME Knob (25)
- Front INPUT (26)
- USB (27)
- Back Panel Overview Head, PowerHead, Rack, and PowerRack
- Front Panel Controls Stage
- On/Off Button (1)
- Mode Select Buttons (2)
- INPUT Button (3)
- INPUT LED (3)
- Module and Section Buttons (4)
- OUTPUT/MASTER Button (5)
- OUTPUT LED (5)
- MASTER VOLUME Knob (6)
- SYSTEM Button (7)
- PEDALS Button (8)
- RIG Button (9)
- TYPE Knob (10)
- BROWSE Knob (11)
- Soft Buttons and Soft Knobs (12)
- MORPH Button (13)
- LOCK Button (14)
- EDIT Button (15)
- COPY and PASTE Buttons (N/A)
- STORE Button (16)
- Button (17)
Buttons (18) - GAIN Knob (19)
- Up/Down Buttons (20)
- Rig Buttons 1-5 (21)
- TAP Button (22)
- TUNER Button (23)
- Effect Buttons I-IIII (24)
- Looper (25)
- Back Panel Overview Stage
- Basic Setups
- Using the Tuner
- Rig Settings
- Working with Amplifier PROFILEs, Cabinet PROFILEs, Power Amps and Guitar Cabinets
- Separating Amps and Cabinets: CabDriver
- Browsing Amps or Cabinets
- Direct PROFILEs
- Direct Amp PROFILEs
- Cabinet Impulse Responses
- Merging Studio PROFILEs and Direct Amp PROFILEs
- Running a Guitar Speaker Cabinet from a Power Amplifier, “Monitor Cab Off”
- The Built-in Power Amplifier
- The Sound of Guitar Cabinets versus Mic'ed Speakers
- PURE CABINET
- Output Section
- Instrument Input and Reamping
- Expression Pedals and Foot Switches
- Stack Section
- Effects
- Wah Effects (Orange)
- Distortion (Red)
- Booster (Red)
- Shaper (Red)
- Equalizer (Yellow)
- Compressor (Cyan)
- Noise Gate (Cyan)
- Chorus (Blue)
- Phaser and Flanger (Purple)
- Pitch Shifter (White)
- Delay (Green)
- Delay Mix
- Mix Location Pre/Post
- Low Cut & High Cut
- Cut More
- To Tempo
- Delay Time & Delay Ratio
- Note Value
- Feedback
- Freeze
- Infinity
- Cross Feedback
- Reverse Mix
- Input Swell
- Smear
- Stereo
- Grit
- Stereo Modulation
- Flutter Intensity & Flutter Rate
- Single Delay
- Dual Delay
- Two Tap Delay
- Serial Two Tap Delay
- Rhythm Delay
- Quad Delay
- Legacy Delay
- Pitch Shifter Delay (Light Green)
- Reverb (Green)
- Effect Loop (Pink)
- System Settings
- Bass Players: Special Hints and Features
- Performance Mode
- PROFILER Remote
- MIDI
- Continuous Controllers
- Effect Switches
- Rig Change in Performance Mode
- Rig Change in Browser Mode
- MIDI Global Channel
- MIDI Clock
- Transmitting MIDI Commands to Two External Devices in Performance Mode
- Transmitting Pedal Controllers for Morphing, Wah, Volume, and Pitch to Two External Devices
- Transmitting User Interface to MIDI Global Channel
- NRPN
- Getting Organized
- Updates, Backups and Sharing Sounds
- PROFILING an Amp
- Trouble Shooting
- KEMPER PROFILER Specifications
- Dimensions
- Weight
- Analog Inputs PROFILER Head, PowerHead, Rack, and PowerRack
- Analog Inputs PROFILER Stage
- Analog Outputs PROFILER Head, PowerHead, Rack, and PowerRack
- Analog Outputs PROFILER Stage
- Power Amp PROFILER PowerHead and PROFILER PowerRack
- Control and Data Interfaces
- Digital Inputs and Outputs PROFILER Head, PowerHead, Rack, and PowerRack
- Digital Inputs and Outputs PROFILER Stage
- Electrical Requirements
- Environmental Requirements
- Electrical Approvals
PROFILING an Amp 292
Under the Hood
In case you enjoy reading about technical details, below is a description of what the PROFILER is doing during the
PROFILING process:
During the first phase, you will hear white noise with a rising amplitude. The PROFILER is now collecting data about
the frequency response of the reference amp. The frequency response will change dramatically as the gain
increases. This is how the PROFILER learns about the circuitry of the reference amp and the frequency response of
the guitar cabinet. Also, the characteristic impedance curve of the speaker, including its feedback to the power amp,
is detected in fine detail.
In the next phase, slowly pulsating white noise is sent to the reference amp. The volume of the white noise is set to a
level at which the reference amp starts to distort. This is how the PROFILER learns about the dynamic distortion
curve of the tubes in the reference amplifier. Using this information, the PROFILER can recreate that curve with the
highest possible accuracy. This is also true for transistor-based, as well as digitally-modeled, distortions.
In the third step, the PROFILER sends a complex tonal texture that follows a mathematically based set of rules to
the reference amp. This texture creates unique interference patterns that allow the PROFILER to take a “fingerprint”
of the DNA of the reference amp’s sound. The distortions of the speaker, along with the partial pattern of the
loudspeaker diaphragm (also known as “cone breakup” are excited by this tonal mixture. They complete the
characteristic interference pattern that the PROFILER will reproduce faithfully, once the measurements have been
taken.