Computers have assumed a pivotal role in music-making as the power to convert sound into numbers creates unimaginable artistic options for the musician. The editors of Keyboard magazine have revised and expanded the original edition of this book to include the latest in technical advances and creative application for the use of computers in music. Written by Bob Moog, Roger Powell, Craig Anderson and a variety of other experts, this is an indispensable addition to the basic library of every musician today.
From acid house to prog rock, there is no form of modern popular music that hasn't been propelled forwards by the synthesizer. As a result they have long been objects of fascination, desire and reverence for keyboard players, music producers and fans of electronic music alike. Whether looking at an imposing modular system or posing with a DX7 on Top of the Pops, the synth has also always had an undeniable physical presence. This book celebrates their impact on music and culture by providing a comprehensive and meticulously researched directory of every major synthesizer, drum machine and sampler made between 1963 and 1995. Each featured instrument is illustrated by hand, and shown alongside its vital statistics and some fascinatingly quirky facts. In tracing the evolution of the analogue synthesizer from its invention in the early 1960's to the digital revolution of the 1980s right up until the point that analogue circuits could be modelled using software in the mid-1990's, the book tells the story of analogue to digital - and back again. Tracing that history and showing off their visual beauty with art-book quality illustrations, this a must for any self-respecting synth fan.
This text reflects the current state of computer technology and music composition. The authors offer clear, practical overviews of program languages, real-time synthesizers, digital filtering, artificial intelligence, and much more.
A major advantage of a direct digital synthesizer is that its output frequency, phase and amplitude can be precisely and rapidly manipulated under digital processor control. This book was written to find possible applications for radio communication systems.
The Fundamentals of Synthesizer Programming provides an introduction on how to program a synthesizer for creating music in the studio and on stage. Used as a textbook for the introductory electronic music course at the Department of Recording Industry at Middle Tennessee State University, it covers the components and controls, of both hardware and software synthesizers, that are used to create a patch on a typical synth. Concepts are explained thoroughly with block diagramming, and practical examples are given with Reason Studio's Subtractor and a Moog Voyager.
As classic digital computers are about to reach their physical and architectural boundaries, interest in unconventional approaches to computing, such as quantum and analog computers, is rapidly increasing. For a wide variety of practical applications, analog computers can outperform classic digital computers in terms of both raw computational speed and energy efficiency. This makes them ideally suited a co-processors to digital computers, thus forming hybrid computers. This second edition of "Analog and Hybrid Computer Programming" provides a thorough introduction to the programming of analog and hybrid computers. It contains a wealth of practical examples, ranging from simple problems such as radioactive decay, harmonic oscillators, and chemical reaction kinetics to advanced topics which include the simulation of neurons, chaotic systems such as a double-pendulum simulation and many more. In addition to these examples, it contains a chapter on special functions which can be used as "subroutines" in an analog computer setup.
Dive hands-on into the tools, techniques, and information for making your own analog synthesizer. If you’re a musician or a hobbyist with experience in building electronic projects from kits or schematics, this do-it-yourself guide will walk you through the parts and schematics you need, and how to tailor them for your needs. Author Ray Wilson shares his decades of experience in synth-DIY, including the popular Music From Outer Space (MFOS) website and analog synth community. At the end of the book, you’ll apply everything you’ve learned by building an analog synthesizer, using the MFOS Noise Toaster kit. You’ll also learn what it takes to create synth-DIY electronic music studio. Get started in the fun and engaging hobby of synth-DIY without delay. With this book, you’ll learn: The differences between analog and digital synthesizers Analog synthesizer building blocks, including VCOs, VCFs, VCAs, and LFOs How to tool up for synth-DIY, including electronic instruments and suggestions for home-made equipment Foundational circuits for amplification, biasing, and signal mixing How to work with the MFOS Noise Toaster kit Setting up a synth-DIY electronic music studio on a budget
Thanks to the advance of semiconductor and communication technology, the wireless communication market has been booming in the last two decades. It evolved from simple pagers to emerging third-generation (3G) cellular phones. In the meanwhile, broadband communication market has also gained a rapid growth. As the market always demands hi- performance and low-cost products, circuit designers are seeking hi- integration communication devices in cheap CMOS technology. The phase-locked loop frequency synthesizer is a critical component in communication devices. It works as a local oscillator for frequency translation and channel selection in wireless transceivers and broadband cable tuners. It also plays an important role as the clock synthesizer for data converters in the analog-and-digital signal interface. This book covers the design and analysis of PLL synthesizers. It includes both fundamentals and a review of the state-of-the-art techniques. The transient analysis of the third-order charge-pump PLL reveals its locking behavior accurately. The behavioral-level simulation of PLL further clarifies its stability limit. Design examples are given to clearly illustrate the design procedure of PLL synthesizers. A complete derivation of reference spurs in the charge-pump PLL is also presented in this book. The in-depth investigation of the digital CA modulator for fractional-N synthesizers provides insightful design guidelines for this important block.
The industry's best-selling book on the subject has been completely revised and expanded, bringing you detailed instruction for using your computer to create music. In three exciting areas, Edstrom vividly covers MIDI orchestration, musicianship, understanding and using today's music technology plus an anatomy of styles including example scores to demonstrate the use of computers and synthesizers to create music in a variety of modes. An audio CD demonstrates concepts used throughout the book making this title an absolute must-have for anyone using a computer for hard disk, MIDI, recording, composing or orchestrating music!
