Book Image

The Music Producer's Ultimate Guide to FL Studio 21 - Second Edition

By : Joshua Au-Yeung

Book Image

The Music Producer's Ultimate Guide to FL Studio 21 - Second Edition

By: Joshua Au-Yeung

Overview of this book

The Music Producer's Ultimate Guide to FL Studio 21 is the essential handbook for any aspiring or professional music producer looking to take their craft to the next level. This comprehensive guide covers everything you need to make the most of FL Studio 21's powerful tools and features. You will learn the secrets to creating professional-sounding music, from creating chord progressions to tailoring your sounds to perfection with compression, equalization, and stereo width effects. You'll begin by getting up-and-running with FL Studio 21, creating a beat, and composing a melody. Once you're familiar with the piano roll and mixer console you'll learn how to use plugins to create your own instruments, explore audio width effects, and engage in sound design. You'll get insights into mixing and mastering, as well as promoting and selling your music. This new edition covers some of the most popular features and plugins in FL Studio 21, including FLEX, Luxeverb, Vintage Chorus, Vintage Phaser, Distructor, Fruity Newtime, VFX Sequencer, Pitch Shifter, Frequency Shifter, Fruity Granulizer, Multiband Delay, and Frequency Splitter.

Preface

Who this book is for

What’s new in the second edition

How to use this book

What this book covers

Section I: Getting Up and Running with FL Studio

Section I: Getting Up and Running with FL Studio

Free Chapter

Getting Started with FL Studio

Getting Started with FL Studio

Technical requirements

Exploring the music production landscape

The musician’s career path

Steps of composing a song

What is FL Studio?

Exploring the FL Studio workspace

Making your first song

Exploring the Browser, Playlist, and Channel Rack

Exploring the Browser, Playlist, and Channel Rack

Introducing the FL Studio workbench

Using the browser

Using the channel rack

Using the playlist

Using the main header toolbar features

Composing with the Piano Roll

Composing with the Piano Roll

Using the piano roll

Composing great chord progressions

Recording into the piano roll with MIDI instruments

Exporting sheet music

Using and exporting MIDI scores

Routing to the Mixer and Applying Automation

Routing to the Mixer and Applying Automation

What is mixing?

Routing audio to the mixer

Navigating the mixer console

Applying automation

Editing automation clips

Applying automation to external third-party plugins

Freezing audio clips

Section II: Music Production Fundamentals

Section II: Music Production Fundamentals

Sound Design and Audio Envelopes

Sound Design and Audio Envelopes

What causes a note’s pitch?

How do we hear things?

How do instruments create sound with different pitches?

Why do different instruments playing the same pitch sound different?

Modifying sound envelopes

Using Mod X and Mod Y for automation

Compression, Sidechaining, Limiting, and Equalization

Compression, Sidechaining, Limiting, and Equalization

Understanding compression

Applying gates and expanders

Applying sidechaining

Applying equalization

Stereo Width (Panning, Reverb, Delay, Chorus, and Flangers) and Distortion

Stereo Width (Panning, Reverb, Delay, Chorus, and Flangers) and Distortion

Using delay effects

Using chorus effects

Using Vintage Chorus

Using flanger effects

Using phaser effects

Using Vintage Phaser

Understanding distortion effects

Understanding mix buses

Recording Live Audio and Vocal Processing

Recording Live Audio and Vocal Processing

Technical requirements

Understanding microphones

Setting up your recording environment

Recording audio into FL Studio

Using pitch correction with Newtone

Retiming audio samples with Newtime

Vocals effect processing best practices

Vocoders and Vocal Chops

Vocoders and Vocal Chops

Understanding vocoders

Understanding MIDI

Creating vocal chops

Creating Your Own Instruments and Effects

Creating Your Own Instruments and Effects

Understanding glitch effects

Creating glitch effects with Gross Beat

Creating instruments with DirectWave

Creating effects with Patcher

Send any instrument to Patcher

Exploring Patcher presets

Using VFX Sequencer

Intermediate Mixing Topics and Sound Design Plugin Effects

Intermediate Mixing Topics and Sound Design Plugin Effects

Using Pitch Shifter

Using Frequency Shifter

Creating granular synthesis with Fruity Granulizer

Creating delay effects with Multiband Delay

Multiband processing with Frequency Splitter

Section III: Postproduction and Publishing Your Music

Section III: Postproduction and Publishing Your Music

Mastering Fundamentals

Mastering Fundamentals

What is mastering?

Equalization in mastering

Using multiband compressors

What are saturators/harmonic exciters?

Understanding limiters

Understanding stereo imaging with vectorscopes

Exporting audio for third-party mixing and mastering

Marketing, Content Creation, Getting Fans, and Going Viral

Marketing, Content Creation, Getting Fans, and Going Viral

Marketing essentials

Creating a brand

Making the most of your live performances

Collaborating with others to promote yourself

Creating music visuals with ZGameEditor Visualizer

Publishing and Selling Music Online

Publishing and Selling Music Online

Registering your music

Tagging your music in preparation for distribution

Selling music on online stores and streaming services

Claiming revenue from songs on YouTube using AdRev

Share your music

More from the author

Further reading

Other Books You May Enjoy

Other Books You May Enjoy

Index

Customer Reviews

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How do we hear things?

Sound causes air to expand and contract. Air expands under low pressure and compresses under high pressure. Changes in air pressure are useful because we can use devices to measure air pressure. Microphones detect changes in air pressure. Microphones are made up of a diaphragm stretched over a metal plate. As sound waves pass over it, the changes in high and low pressure cause the diaphragm to move back and forth and vibrate. This movement is measured by the device and converted into audio data. The data is then interpreted by your computer. The following figure shows an example of a microphone:

Figure 5.3 – Microphone

Your ears work in a similar fashion to a microphone. Your eardrums encounter air pressure changes, which cause them to vibrate. Your brain interprets these vibrations as sound.

When audio waves meet, they can react to one another. This can result in the following effects:

Constructive interference is where two...