Combination action
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A combination action is a system designed to capture specific organ registrations to be recalled instantaneously by the player while he is playing. Because of this, it is also referred to as a capture system. It usually consists of several numbered pistons (buttons) situated in the space between the manuals at the organ console. The pistons control either the stops of the whole organ (in which case they are called general pistons or generals) or the stops of a particular division (in which case they are called divisional pistons or divisionals). Each piston is programmed by the organist with a particular registration to be activated when it is pressed. This allows the organist to change registrations on the fly, without the assistance of a registrant.
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[edit] Systems
[edit] Mechanical
Over the years, organ builders have designed various combination action systems. The simplest combination actions are toe studs that move a predetermined combination of stop knobs when pressed. Most often, because of the way in which the mechanism operates, these toe studs are not reversible (i.e., pressing a toe stud again will not turn off the stops that were turned on when it was first pressed). More complex versions of this system are reversible, and furthermore can activate a predetermined registration without moving the stop knobs. Certain large organs of the romantic era (such as the organ built by Friedrich Ladegast for the cathedral in Merseburg, Germany) feature this kind of combination action. Often, the toe studs will be labeled with dynamic markings reflecting the loudness of the registrations which result when they are pressed. For example, an organ may have two of these combinations, one labeled p (for piano, Italian for "soft") and one labeled ff (for fortissimo, Italian for "very loud"). This system allows the organist to set the stops to a specific registration (very quiet, for example) and then suddenly change it for a short period of time (to very loud, for example) simply by pressing the appropriate toe stud. The organist can then return to the original registration by pressing the toe stud again. This is especially helpful when playing the organ works of German romantic composers such as Max Reger and Franz Liszt.
[edit] Saint-Sulpice
The combination action in the organ at the church of Saint-Sulpice in Paris deserves special mention. It was designed by the renowned French organ builder Aristide Cavaillé-Coll. Because the organ predates the advent of electricity, the entire system operates through mechanical and pneumatic means. There are no pistons or toe studs. The combination action consists of six stop knobs, one for each division of the organ, connected to a system of pneumatics. When one of these knobs is pulled, the registration on its respective division may be altered without the stop changes taking effect. When the knob is pushed back in, the new registration sounds. Using this system along with the pédales de combinaison, an organist (and an assistant or two) can prepare elaborate registrations in advance of their use during a performance. Unlike a modern electrical combination action, this system cannot retain combinations to be recalled later; registrations must be prepared on the spot. It is, in spite of its shortcomings (which are only recognized in light of present-day combination actions), an ingeniously designed system that was groundbreaking for its time.
[edit] Early twentieth century
When electricity became commonplace, organ builders realized that it could be used to create more complex and capable combination actions. Large setterboards consisting of a grid of switches were built inside the console or the organ case. The piston numbers formed one axis of the grid, and the stop names formed the other axis. To set a combination, the organist would have to go to the setterboard and flip the switches for each stop corresponding to the desired piston number. This process was quite time-consuming, and in most cases required the organist to leave his position at the console entirely to change even one stop on a piston.
A more advanced system which is still in use in some organs is the electropneumatic capture system. To set a piston, the organist must press and hold the desired piston while pulling the desired stops. This represented an improvement over the setterboard in that the organist could remain seated at the console while altering registrations. Neither the setterboard system nor the electropneumatic system is built in new organs today; they have both been supplanted by the modern solid-state combination action.
[edit] Modern
The most widely used combination action in newly built organs has at its heart a system of electronics. The combinations are stored in a computer memory. To set a combination, the organist pulls the desired stops, holds the setter button (usually labeled "Set"), and presses the desired piston. Larger organs, especially in the academic realm, as well as organs played by several organists or guest artists sometimes feature a system of memory levels: each organist is assigned a level or a range of levels and is able to keep his registrations separate from those of other organists who play the instrument. This is especially useful in academic and concert settings, as it makes it unnecessary for organists to write down their registrations and reset the pistons every time they sit down at the organ. Some organs feature a disk drive, enabling the organist to save combinations to a floppy disk or other removable media.
[edit] Sequencers
In recent times, sequencers have become an integral part of combination actions, primarily on large organs. A sequencer allows an organist to program a list of registration changes and advance through it by pressing a piston labeled "+" (or regress through it using a "–" piston). It becomes unnecessary for the organist to push the proper piston; he must only press the "+" piston and the next registration in the sequence will be activated. Some sequencers have an "all pistons plus" feature, which makes all the pistons on the console (excepting the General Cancel and the "–" pistons) function like the "+" piston; in this case the organist can press any piston which is in convenient reach to advance through the sequence.
Using a sequencer can remove many of the complications related to changing registrations during a performance that have traditionally plagued organists. However, there is a school of thought that decries the use of the sequencer on the grounds that it makes organ playing too easy. Members of this school hold that working one's way through general and divisional pistons during a piece is an integral part of playing the organ, and that the advent of the sequencer has resulted in a generation of organists who cannot play a large organ without sequencing their registrations.