Operation Manual
Table Of Contents
- Table of Contents
- The Sequencer
- Routing Audio and CV
- Remote - Playing and controlling Reason devices
- Using Reason as a ReWire Slave
- Advanced MIDI - the External Control Bus inputs
- Synchronization
- Optimizing Performance
- Transport Panel
- Reason Hardware Interface
- The Combinator
- The Mixer
- The Line Mixer 6:2
- Redrum
- Subtractor Synthesizer
- Malström Synthesizer
- NN-19 Sampler
- NN-XT Sampler
- Introduction
- Panel Overview
- Loading Complete Patches and REX Files
- Using the Main Panel
- Overview of the Remote Editor panel
- About Samples and Zones
- Selections and Edit Focus
- Adjusting Parameters
- Managing Zones and Samples
- Working with Grouping
- Working with Key Ranges
- Setting Root Notes and Tuning
- Using Automap
- Layered, Crossfaded and Velocity Switched Sounds
- Using Alternate
- Sample Parameters
- Group Parameters
- Synth parameters
- Connections
- Dr. Rex Loop Player
- Matrix Pattern Sequencer
- ReBirth Input Machine
- BV512 Vocoder
- The Effect Devices
- Common Device Features
- The MClass effects
- The MClass Equalizer
- The MClass Stereo Imager
- The MClass Compressor
- The MClass Maximizer
- Scream 4 Sound Destruction Unit
- RV7000 Advanced Reverb
- RV-7 Digital Reverb
- DDL-1 Digital Delay Line
- D-11 Foldback Distortion
- ECF-42 Envelope Controlled Filter
- CF-101 Chorus/Flanger
- PH-90 Phaser
- UN-16 Unison
- COMP-01 Auto Make-up Gain Compressor
- PEQ-2 Two Band Parametric EQ
- Spider Audio Merger & Splitter
- Spider CV Merger & Splitter
- Menu and Dialog Reference
- About Audio on Computers
- MIDI Implementation
- Index
THE EFFECT DEVICES
251
Splitting CV
On the right half of the back panel you will find two split inputs “A” and “B”, each with
four output connectors. The signal connected to a Split input will be output by all four
corresponding outputs, where one is inverted.
Practical uses of splitting CV
There are many practical uses of splitting CV signals - here are a few examples:
D Connecting the CV Note and CV Gate outputs from a Matrix to Split Input
A and B, allows you to connect the Matrix to several instrument devices.
Simply route the CV and Gate outputs to the corresponding Sequencer Control
CV/Gate inputs on the instrument devices. Although this could also be done by
copying the Matrix Pattern data to several sequencer tracks and routing the out-
puts to the desired devices, the advantage by using Split is if you are editing Matrix
pattern data this will be immediately be reflected in all the connected devices,
without any copy/paste operations.
D Splitting modulation outputs from LFO’s, Curve CV data etc. allows you
to apply modulation from one source to several parameters.
By using the inverted output, you can create interesting modulation crossfades,
where one parameter value rises and another parameter value is lowered for exam-
ple.
Two CV Split Inputs (A & B).
Each of the two Split inputs provide four Split
outputs. The lower right Split outputs will
produce an inverted CV signal.