Listed below are
the 12 functions of the Moogiestyle MIDIJACK:
MIDIJACK advantages
All user selections
of MIDI channel, MIDI Off, MIDI On, single note triggering, multiple
note triggering, and MIDI transpose are stored in nonvolatile
flash memory, so your preferences will be remembered even with the
power off! The Synhouse MIDIJACK requires no batteries for this.
Incorporating the latest advances in MCM (Multi-Chip Module) and VLSI
(Very
Large Scale Integration) technology, the MIDIJACK is the world's
smallest MIDI device. The MIDIJACK utilizes a RISC processor and
proprietary data processing architecture to make it the world's fastest
MIDI processor.
Since the introduction
of MIDI, users have suffered from slow response time and "MIDI lag".
For this reason, Synhouse has developed Accelerated MIDI for use
in professional music applications. Accelerated MIDI utilizes a
combination
of digital sampling techniques and computerized numerical data
filtering
processes to separate critical MIDI data from unusable redundant MIDI
data, process it, and implement it instantaneously. This creates
a new type of MIDI processor that is dedicated to the specific
applications
of the Analog User, without ever allowing the CPU (Central Processing
Unit) to be interrupted by useless data such as MIDI clocks and
commands
sent to other MIDI slave instruments on other MIDI channels. With
the MIDIJACK, the analog note sounds while the slow-moving MIDI message
is still in the MIDI cable! This allows the analog synthesizer to
instantly respond to the players note action, preserving the finest
rhythmic nuances. No other brand of products has ever achieved this
level of timing accuracy.
* For adjustment of
intonation during MIDIJACK installation and instrument service. For
more information, see Moogiestyle MIDIJACK Quick
Installation Manual.
Setting up a MIDIJACK-equipped
synthesizer for performance
Setting up for
performance with a MIDIJACK-equipped synthesizer is simple. No analog
patch cables are needed. All that is required is a standard MIDI
cable. One end of the cable should be connected to the MIDI output
of the desired controller, which may be a personal computer sequencer,
MIDI keyboard, or other MIDI controller. The other end of the MIDI
cable should be plugged into the MIDIJACK installed on the analog
synthesizer. The MIDIJACK is for MIDI input only. MIDI notes should be
sent to
the MIDIJACK one note at a time. The MIDIJACK is for analog monosynths
and groups of notes sent as chords may be misinterpreted, causing
a malfunction of the analog synthesizer. The MIDIJACK does not have
a MIDI output and Synhouse does not condone MIDI through. The
MIDIJACK-equipped
instrument is now ready for performance.
MIDI
Channel Selection and MIDI Panic Button
All functions
are arranged in a Function Ladder on a single MIDI function button. The
advantage of having a single button is that it requires drilling only
one hole on the analog synthesizer to make the entire MIDI control
panel. The Function Ladder concept is quite intuitive and has been
implemented
for use without any visual indicators during setup or playing. This
permits use under poor lighting conditions, while reading music, or
while looking at a computer or video monitor. For this reason, the
button may be mounted out of sight, such as at the back of the
instrument or even on the bottom side. Most importantly, the
Synhouse Function Ladder allows a non-sighted user to access all MIDI
functions
without assistance. No other brand of products has this capability.
The MIDI Function Ladder is like a physical ladder but with the mode of MIDI Off at the base of the ladder, MIDI On/channel 1 on the first rung up, MIDI On/channel 2 on the second rung, MIDI On/channel 3 on the third rung, and so forth up to the top rung of the ladder, MIDI On/channel 16. A short push of the button advances the MIDI channel by climbing up to the next rung.
While in use, a push of the button also stops the playing of the current note and clears
all previous notes from the note buffer. This allows a fresh start
on a newly selected MIDI channel with full note buffer capabilities and
no MIDI glitches. A stuck MIDI note can be easily turned off this
way. A functional description of the note buffer is provided later
in this manual in the section entitled "4-Note Buffer".
When the user
pushes the button many times to advance the MIDIJACK all the way up the
Function Ladder to MIDI On/channel 16, it will go no further and
does not wrap around. To go to a higher MIDI channel, simply
press the button as many times as necessary to reach the desired
channel. For example, to go from MIDI channel 4 to channel 6, press
the button two times. While on the Function Ladder, the MIDI
channel selection will only increment and will not decrement. To
set to a MIDI channel of a lower number, the MIDIJACK must be reset
to turn MIDI off and the new channel must be selected starting at the
base
of the ladder. For example, to go from MIDI channel 6 to channel
4, reset and start over, advancing up the ladder to MIDI channel
4. See the section entitled "MIDI Off Mode".
While set to MIDI
On/channel 16, a push of the button mutes the machine and clears
the buffer, however, the MIDIJACK remains in the mode of MIDI
On/channel 16. This is the only setting where a push of the button
does not change the MIDI channel, making the button act as a dedicated
MIDI Panic Button to silence stuck notes. For this reason, channel 16
is the best channel for live performance with a MIDIJACK-equipped
instrument. The MIDI channel selection will be stored in nonvolatile
flash memory.
MIDI Off Mode
If you forget
your MIDI channel selection, need to set to a lower MIDI channel, or
would like to turn MIDI reception off, the MIDIJACK must be reset
to the base of the Function Ladder. To return to the base of the
Function Ladder and to turn MIDI reception off, press the button
and hold it for at least a half of a second (>.5 seconds), then
release. The machine will be set to MIDI Off Mode and no MIDI
information will be
received. The new MIDI Off setting will now be stored in nonvolatile
flash memory. At this time, all MIDIJACK MIDI functions are
inactive and the analog synthesizer returns to its original state,
allowing local analog keyboard control with original factory
performance
controls and external CV/Gate control if the unit was originally so
equipped. While the MIDI On Mode is active, the MIDIJACK provides a
MIDI input
to the analog synthesizer and temporarily interrupts the original local
keyboard and CV/Gate inputs control over the synthesizer but does not
interfere
with the CV/Gate outputs at any time, allowing the original keyboard
to output its own control voltages even while the analog voice is
sounding
incoming notes from a computer sequencer or other MIDI controller
plugged
into the MIDIJACK MIDI input.
An example of
a useful application of the MIDI in/analog out capability of the
Synhouse MIDIJACK would be a simple 3-piece setup using a PC running MIDI
sequencer software, a Moogiestyle MIDIJACK-equipped Moog Rogue analog
monophonic keyboard synthesizer, and an unmodified Moog modular synthesizer
without keyboard. The PC plays a MIDI sequence and is plugged into
the Moogiestyle MIDIJACK on the Rogue. The Rogue's CV/Gate outputs
are patched through the appropriate adapter cables into the CV/Gate inputs
on the Moog modular. This way, the Analog User's hands are
on the Rogue keyboard controlling the modular system in real time to accompany
the sound of the sequenced Rogue live onstage.
An improvement
over this setup that would eliminate the need for special adapter cables
and free the Analog User's hands to tweak the knobs on both synthesizers
in real time while the music plays would be to put a Moogiestyle MIDIJACK
on the Moog modular system as well, putting the entire analog synthesizer
setup under MIDI control.
MIDI On Mode
If MIDI is off
(in MIDI Off mode) and you would like to receive MIDI, activate the
MIDI On mode by pressing the button the number of times equal to
the desired MIDI channel number. For example, if MIDI is off
and you want to set it to receive MIDI on channel 6, press the button
6 times. The MIDIJACK is now ready to play on the selected MIDI
channel, channel 6. The MIDI channel selection will be stored in
nonvolatile
flash memory.
4-Note Buffer
The Synhouse MIDIJACK
utilizes a unique software algorithm that causes a RAM (Random Access Memory)
buffer to store the 4 most recently played MIDI notes that have not yet
been released. This allows musical trill effects to be performed
by letting newer notes revert to older notes by holding the oldest notes
and releasing the newer ones.
The MIDIJACK always
gives the monophonic analog synthesizer voice latest note priority.
When combined with the 4-Note Buffer, this provides a certain degree
of automatic error correction. Most analog synthesists playing around
the time of the turn of the century actually became familiar with
playing
music in the 1980s and 1990s by using newer digital computer-based,
proper multiple note triggering, truly polyphonic synthesizers and
samplers. The playing habits that resulted from using this superior
technology made using low-note rule, single-triggering analog
synthesizers
a very difficult and unpredictable task. The use of the monophonic
Moog synthesizers in the 1970s required the skilled player to hold his
or her wrists high above the keyboard and to quickly strike and release
the keys in a staccato style: This avoided bass lines with missing
note attacks. With the application of newer Synhouse technology, even
older instruments such as these may be controlled reliably. The
combination of 4-Note Buffering, multiple note triggering, and latest
note priority implemented in the MIDIJACK ensures that the correct
note is always available.
Single Note Triggering
and Multiple Note Triggering
If a keyboard
player plays a musical passage with several notes that have no pauses
between
them, it may be intelligently interpreted by the MIDIJACK in two
different ways. The type of analog synthesizers controlled by the
MIDIJACK have analog envelope generators that would ordinarily see this
passage of several notes as a single note event and would not retrigger
the envelope generators several times for a fresh attack for each new
note. This type of response may be selected on the MIDIJACK and is
called single
note triggering, giving a legato sound to all notes that are performed
without a pause or a rest between them. If the analog synthesizer
is set to have a filter envelope with the sustain stage set to a fairly
low cutoff frequency on the lowpass filter, playing a continuous
passage of notes without pauses will give the mellow sound of lounge
music. If an Analog User accustomed to modern polyphonic keyboard
instruments
plays with this type of single triggering, the results will be very
unpredictable and it may be impossible to play a properly articulated
bass
line because some notes will fail to have a strong attack. For this,
multiple note triggering may be used. Multiple note triggering causes
the analog gate output to intelligently retrigger with every new note,
whether or not there are time spaces or rests between notes.
There are two
note triggering modes, single and multiple. The most recent
selection of single or multiple note triggering is stored in
nonvolatile
flash memory. To toggle from the current triggering mode to the other,
power-up the MIDIJACK-equipped synthesizer while holding the MIDI
function
button down, then release. The new setting will now be stored
in nonvolatile flash memory.
MIDI Transpose Select
Mode
The Synhouse Moogiestyle
MIDIJACK has the fullest MIDI note range capability possible with a
MIDI-retrofitted
Moog synthesizer, performing 123 MIDI notes from 5-127. This
allows performance over a range greater than 10 octaves. Imagine
a computer arpeggiator performing a long run of notes, from a deep
sub-bass rumbling oscillator around MIDI notes 5-12 up to supersonic
audio
notes so high that the lowpass filter must be opened up to allow the
fundamental
frequencies to pass through! Any computer sequencer will allow this
range of MIDI note control with the Moogiestyle MIDIJACK. Additionally,
Moog synthesizers have an octave or footage select switch to offset
this
range by a few extra octaves. However, some analog users with
simple MIDI setups may not be able to utilize the full note range in
some
circumstances because MIDI keyboards with 61 plastic keys are generally
fixed to output MIDI notes 36-96 only, considerably less than half
the potential of the Synhouse Moogiestyle MIDIJACK. The Analog User
may find that the lowest C on the keyboard, note 36, is not
low enough for bass sounds on the Moogiestyle MIDIJACK-equipped analog
synthesizer at the normal full-range setting. For this reason, Synhouse
has developed the MIDI Transpose Select Mode. This allows
a selection of intervals to transpose downward by one, two, or three
octaves, in addition to the normal full range setting. Standard Western
music uses a 12-tone scale, so that there are 12
half-step notes in one octave, just as a piano-style keyboard has
12 keys in one octave. Transpose intervals selectable are -12 half
steps (one octave down), -24 half steps (2 octaves down), and -36 half
steps (3 octaves down). When set to -12, MIDI
note 36 becomes MIDI note 24, effectively making a 36-96 note range
MIDI keyboard into 24-84. When set to -24, MIDI note 36 becomes
MIDI note 12, effectively making a 36-96 note range MIDI keyboard
into 12-72. When set to -36, MIDI note 41 becomes MIDI note
5, effectively making a 36-96 note range MIDI keyboard into 5-60. Due
to the fact that the Moog synthesizer interprets even integer voltages
such as 0v, 1v, 2v, 3v, 4v, 5v, 6v, 7v, 8v, 9v, and 10v as the musical
note F, it is
incapable of playing the full MIDI note range with a MIDI retrofit. It
plays MIDI note 5 (an F) when it receives zero volts. Therefore, the
MIDI notes 0-4 below that are not recognized.
To enter MIDI
Transpose Select Mode, press the button and hold it down for at least
five seconds (>5 seconds). After five seconds, the MIDIJACK
will begin to play the analog synthesizer all by itself. Release
the button and listen. It will play the true middle C (MIDI note
60, which is five volts, the same as an Original MIDIJACK)
for one second, then play the same note shifted down five semitones
(-5) to show the standard transposition already in effect on the
Moogiestyle
MIDIJACK. This is the normal setting with no additional transposition.
It will then play 60, then 48 one octave down, demonstrating
a one-octave downward transposition of -12 half steps. Then it will
do this two more times to let the Analog User hear -24 half steps and
-36
half steps, then it will start from the top again without repeating
the -5 showing but rather playing the same note twice to show that no
transposition
is in effect on the normal setting. It will then loop forever unless
stopped. To make a transpose selection, wait until the correct
transpose interval is heard between a pair of notes, then press the
button to select it and exit the MIDI Transpose Select Mode. The
new setting will be stored in nonvolatile flash memory. The instrument
will be at the first step up on the Function Ladder, in MIDI On Mode,
MIDI channel 1.
The MIDIJACK has
a scale adjustment trimmer that affects the musical intonation of the analog
synthesizer while it is under MIDI control. It is less than one inch
away from the MIDI function button and may be adjusted by inserting a small
flatblade screwdriver into the control panel opening. A Synhouse
Pocket Screwdriver fits perfectly.
Note
added 10/18/2018: An earlier version of this Analog User Manual that
existed for over 18 years suggested that the Original MIDIJACK can be
intonation calibrated by ear, while at the same time, the "18) Analog
Calibration Mode" section of the Quick Installation Manual described
how to calibrate it using a digital voltmeter (DMM) and additionally
described how someone with a good sense of pitch but no DMM could
instead adjust it by ear. This was written and completely forgotten as
a lot of time went by. The ear method, if it was ever used even once
for inspecting/testing/calibrating new units or for the Factory
Installations done here, surely hasn't been done since then, because
it's too difficult to do, and it's just too easy to do it very, very
quickly with a DMM (even a $5 DMM, so there's no excuse for anyone with
a studio or any electronic music machines at home not to have one) and
having no chance of making a mistake due to poor hearing or judgment.
This Analog User Manual was meant for the use of someone not having the
keyboard open with a DMM in it, so the only method described here was
the ear method, which is now considered to be very difficult to do, and
it is not recommended that someone try it unless they are willing to
open it up and use a voltmeter if they fail at it. So the official word
from now on is to do it with the DMM method which is very easy, but the
original text is left below for reference, because it does explain some
helpful concepts about doing it by ear.
The scale adjustment
trimmer may be set by ear if the Analog User has a good sense of pitch.
A MIDI controller keyboard should be connected with a MIDI cable to the
MIDIJACK and the audio output of the analog synthesizer to a sound
system
for monitoring. The MIDIJACK should be in MIDI On Mode and set to
the same MIDI channel as the MIDI controller keyboard. While playing
alternating notes on the MIDI controller keyboard that are an octave
apart, the user can turn the scale adjustment trimmer very slowly
until the proper one-octave interval is heard and the entire keyboard
plays
in tune. It may be easiest to hear the tones clearly by adjusting
the analog synthesizer so that the filter is open with the frequency
set
to maximum, the resonance (also known as "Q", or emphasis)
set to minimum, and the envelope generators set to sustain, without any
vibrato on the oscillators. An extra help would be to
use a MIDI synthesizer or sample playback keyboard as the MIDI
controller
and listen to its sound output as a reference tone to match the analog
synthesizers intonation while adjustments are being made. A low note
may be played on the MIDI keyboard while the analog synthesizer's
master
tuning knob is adjusted to bring the two sound sources into tune. Next,
play higher octave intervals of that note, and slowly
turn the MIDIJACK scale adjustment trimmer until the entire keyboard
plays
in tune.
Analog calibration
should only be performed occasionally, as overuse of the scale adjustment
trimmer may cause excessive wear and premature failure of the part.
Troubleshooting
At times, the MIDIJACK may not work as desired. This is likely due to incorrect
connections or settings.
Question 1: The MIDI control of my
analog synthesizer is great but the keyboard on my analog synthesizer doesn't
work anymore. What's wrong?
Answer: MIDI On mode has probably
been selected. If the synthesizer is receiving MIDI, the MIDIJACK
bypasses the local (built-in) analog keyboard. To turn MIDI off, hold
the MIDI function button down for at least a half a second (>.5
seconds)
and the MIDI will be off. In this MIDI Off mode, the built-in
keyboard on the analog synthesizer will work, as well as all normal
factory performance controls such as pitch bend, portamento, etc..
Since the MIDIJACK provides proper multiple note triggering
and last note priority with a 4-note buffer, it is often best to
use MIDI control even if playing live without a computer sequencer. Old
analog synthesizers often have dirty electrical contacts in the
keyboard,
or even worse, completely rotten rubber and metal mechanisms, which
causes missed notes or double-triggers. Use of such a primitive
keyboard with a range of only a few octaves is pointless when the
analog
synthesizer is equipped with a Moogiestyle MIDIJACK which has a
123-note
range.
Question 2: My analog synthesizer
has a MIDIJACK but it won't receive MIDI. What's wrong?
Answer: The MIDI may be connected
or selected incorrectly. Make sure the MIDI output of the controlling
computer
sequencer or MIDI keyboard is connected to the MIDIJACK with a known
good
MIDI cable. Do not use the MIDI through function on any MIDI device,
ever. Make sure the MIDI channel is correctly selected to be the
same as the channel on the MIDI controller. Review the earlier chapter
entitled "MIDI Channel Selection and MIDI Panic Button".
Question 3: My analog synthesizer
plays in tune with MIDI, but with the MIDI off, it no longer
plays in tune. What's wrong?
Answer: The old analog synthesizer
needs calibration but the MIDIJACK may play it in tune perfectly due to
it's infinite analog scaling. It should really be calibrated by a
service center specializing in the repair of older analog equipment,
but if it plays in tune with the MIDIJACK, you may be able to use
it as it is with MIDI and never use the built-in keyboard at all.
Question 4: My analog synthesizer
plays in tune with it's own built-in keyboard when the MIDI is turned
off, but when the MIDI is turned on, it's out of tune. What's wrong?
Answer: The MIDIJACK needs calibration
to achieve proper intonation. This can be done by the Analog User
with a keen sense of pitch. Review the earlier chapter entitled "Analog
Calibration Mode".
Question 5: My analog synthesizer
has a MIDIJACK and sometimes plays the wrong note or has a note stuck on
after the music has stopped playing. What's wrong?
Answer: The MIDIJACK is a MIDI
interface
for analog monosynths. These synthesizers have only one voice and
should be sent monophonic MIDI notes only. This means that only one
note at a time should be sent to a MIDIJACK-equipped analog
synthesizer, and computer sequences should be recorded with this
specific requirement
in mind. Many previously recorded computer sequences contain chords
instead of single notes. Since MIDI is a serial interface, these notes
cannot be sent simultaneously. The notes will be sent
one at a time in no particular order, as a string of note on commands
without any note offs, while the monosynth is playing one note at
a time. There is no way of knowing which note of the chord will sound
at any one time. Making matters worse, the MIDIJACK puts all
of these incoming notes into the 4-note buffer, then matches them
up with note off commands when they start arriving. When the MIDI
note on/note off data no longer makes sense, various active notes
may linger in the buffer. When this occurs causing a stuck MIDI note,
the user may push the MIDI function button to stop the stuck note. One
considerable defect of the MIDI specification is that it supposedly
has 16 channels, when it really has only one. Compared to multichannel
audio mixing consoles and televisions, the MIDI spec has really
misappropriated
the word "channel". All MIDI data is sent on a single wire regardless
of the "channel". One channel of MIDI data is sent on one wire. Sixteen
"channels" are also sent on one wire, but at a greatly reduced
speed due to the reduction of usable bandwidth. The result: All MIDI
devices set up in a standard "star" configuration have to read
and understand the MIDI data of all 15 irrelevant channels while set to
only one "channel". Not only does this drastically reduce the bandwidth
of the datastream, but it also increases the data processing chores
required by all MIDI devices in the setup, in some cases by thousands
of times. An audio signal processor set to receive a single a MIDI
program
change once during the middle of the song only (after doing nothing for
two minutes), instead has to read 3,750,000 bits of data while waiting
for the one command it will get during the song being played. The
result may be poor, slow DSP (Digital Signal Processor) performance
damaging the audio, and different results entirely when some MIDI
tracks are muted, due to suddenly increased bandwidth of the
datastream. If the MIDI setup is configured in the daisy chain
configuration where
the MIDI through function is used, the results are bound to be a
hundred times worse due to added MIDI delays and distortion of the MIDI
signal by pointlessly optoisolating the MIDI signal several times
turning
a sharp, clean digital string of zeroes and ones into a sleepy analog
sinewave that may be interpreted incorrectly and differently by the
MIDI
slave devices. In such a situation, synchronization between
MIDI tracks is lost, and the feeling of the music wanders as it plays.
To maximize performance in a MIDI setup with multiple instruments, the
MIDI data should be channelized by any means available so that one
instrument receives only the channel data sent on the channel to which
it is assigned. It will still receive potentially unnecessary MIDI
clocks and system exclusive data, but for now, this is as good
as it gets.
Warranty
The Moogiestyle
MIDIJACK is warranted against defects in parts and manufacture for a period
of 90 days from the date of purchase. Warranty becomes void if in
the opinion of Synhouse Multimedia Corporation the Moogiestyle MIDIJACK
has been subjected to unauthorized service, modification, or
unintended usage. No liability is assumed by Synhouse Multimedia
Corporation for any loss or damage, direct or indirect, resulting
from the use of or inability to use the Moogiestyle MIDIJACK.
Copyright © 7/11/2024 Synhouse Multimedia Corporation