18 large (1.25 inch square) velocity and pressure sensitive rubber pads
External control
MIDI In, out and thru, Foot Switch x2, Foot Controller x1 (hi-hat), Sync Tone In/Out, trigger outputs x2, trigger inputs x6
The Linn 9000 is an electronic musical instrument manufactured by Linn Electronics as the successor to the LinnDrum. It was introduced in 1984 at a list price of $5,000, ($7,000 fully expanded) and about 1,100 units were produced.[1]
It combined MIDIsequencing and audio sampling (optional) with a set of 18 velocity and pressure sensitive performance pads, to produce an instrument optimized for use as a drum machine. It featured programmable hi-hat decay, 18 digital drum sounds, a mixer section, 18 individual 1/4" outputs, an LCD display, 6 external trigger inputs and an internal floppy disk drive (optional).[2] Despite possessing innovative and groundbreaking features[3] and influencing many future drum machine designs,[4] chronic software bugs[5][6] led to a reputation for unreliability, and ultimately contributed to the eventual demise of Linn Electronics.[7][8]
The Linn 9000 was Roger Linn's first attempt to create an integrated sampling/sequencing/MIDI workstation, but it was plagued with problems from the beginning.[5][6] On early models, the power supply over-heated the CPU and had to be replaced under warranty, but insurmountable issues with the Linn 9000's operating system forced its eventual demise.
The original Linn 9000 operating system had numerous bugs and it was common for the machine to lock-up and lose data. The OS was mostly written in an esoteric high-level programming language called Forth with some machine language. In early versions, some of the FORTH code produced unacceptable delays in user interface functions and was rewritten in machine language. Linn attempted to debug, rewrite and enhance the operating system after firing the engineers who had written it, but he was limited by the 64K code space memory segmentation in the Intel 8088 microprocessor that left no room for new features. Further software development was abandoned.
The flawed Linn 9000 operating system was also used in the LinnSequencer,[12] a rack mount 32 track hardware MIDI sequencer introduced by Linn Electronics in 1985. As a result, both machines earned a reputation for being notoriously unreliable. A planned rack mount successor to the Linn 9000, the LinnDrum Midistudio, which would have utilized the same operating system, was never released.
The Linn 9000 has eighteen 8-bit 11 kHz ~ 37 kHz digitally sampled drum sounds: bass, snare, sidestick, hihat, two crash cymbals, two ride cymbals, four toms, cabasa, tambourine, high and low congas, cowbell and clap. The Linn 9000 had many firsts.[2][3]
In addition to being the first drum machine to incorporate a MIDIsequencer, it was the first drum machine with custom sounds, sampling capability (optional), a floppy disk drive (optional) and an LCD display.
The programmable hi-hat decay is a unique feature[13] that provides seven open hi-hat positions in addition to the closed hi-hat, allowing for subtle and expressive performances.
The Linn 9000's most distinctive feature was 18 large (1.25 inch square) velocity- and pressure-sensitive rubber pads. Pad pressure is used for the Note Repeat feature. If holding Timing Correction and applying continuous pressure to a pad while in record mode, that note is automatically repeated at the Timing Correction note value setting. The velocity (volume) level of each repeated note is determined by the amount of pressure applied at the time the note is played. Similar rubber pads would be seen on many subsequent drum machines and controllers including the Akai MPC60[14][full citation needed] and the Akai MPC4000.[4]
Standard features
32 track MIDI hardware sequencer
18 digital sample drum sounds
18 rubber velocity and pressure sensitive pads
Note repeat
Programmable 8 position hi-hat decay
A mixer section providing real-time control over volume, tuning, and pan
The Linn 9000 circuitry is deployed as a mother board with 14 slots. Daughter boards are used to deploy standard and optional features, with slots on the back panel resembling PCs of the time. It uses the Intel 8088 CPU chip.
^ abLinn, Roger. "What Happened to The Linn 9000". Bobby Nathan's Keyboard Magazine. Archived from the original on 2015-01-08. Retrieved 2015-01-29. What happened? We simply ran out of money and were unable to get more. Why? There were a number of reasons. The 9000 had technical problems early on and was expensive to re-engineer, manufacturer and service; we had strong competition; we had no investment financing; and we were experiencing all the classic 'growing pains' of a new business.
