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Cover feature (February 2006)

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Lewtak Pipe Organ Builders, Camillus, New York, 2005

St. Joseph’s Catholic Church “On the Hill,” Camillus, New York


The Church

The history of St. Joseph’s Church in Camillus, New York, goes back to 1852, when the first resident pastor came to the parish and began to care for the religious needs of local Catholics. The original St. Joseph’s Church in the village of Camillus was built in 1867. The congregation eventually outgrew the small space of the old church, and in 1965 construction started on a new building—the cross-shaped church, with parabolic arches rising 90 feet and dramatic windows at the ends of each wing. As is often the case when substantial funds are required for construction, the purchase of a new pipe organ had to wait its turn. The delay turned out to be a long one—almost 40 years!
For years the rich and varied music program of St. Joseph’s Parish was supported by an electronic organ substitute and a Kawai grand piano. During the fall of 2001, an opportunity came along, and finally the decision was made to begin the construction of a new pipe organ that would fulfill the musical needs of the congregation and would aesthetically complete the sanctuary of St. Joseph’s. That year, another church in the Diocese of Syracuse—St. Louis in Oswego, New York—was closed and the pipe organ from this church was purchased with the thought that it would become a jump-board for a much larger instrument at St. Joseph’s.

The Old Organ

The old organ, a tracker consisting of two manuals with 21 stops, was built by Casavant Frères in 1896 as their Opus 69. It was the first organ from this builder imported in the United States.
At the time of acquisition, the Casavant organ was in a state of complete disrepair. It was obvious that a true historical renovation was not feasible for two primary reasons: the cost and the size of the instrument. Even if the parish were to allocate the funds, St. Joseph’s has a cubic volume approximately four times that of St. Louis Church. The volume of sound required to fill this large space could not possibly be achieved from a rather small and softly voiced instrument. With heavy hearts and facing no other options, the old organ from Oswego was dismantled and moved to St. Joseph’s in Camillus. Only the salvageable parts would be used in a new instrument. Virtually all of the old pipework was saved. A total of 1,202 pipes were moved to Camillus, most of which were in shoddy physical condition; some were badly damaged due to poor maintenance and careless handling. For example, an existing Mixture III on the second manual had twelve original pipes missing in the center, the sign of an obvious “tuning accident” occurring many years ago. These were replaced with “stock” pipes that did not make any sense in terms of either scaling or in the proper Mixture repetition sequence. Many wooden pipes also had visible water damage. The same was true for both manual windchests, which were also transported to St. Joseph’s. From four pedal chests only two were salvageable, with the remaining two damaged beyond any reasonable repair.

The New Tonal Design

Even though the old organ had to be dismantled, it became the backbone for—first and foremost—the tonal design of the new instrument. Professor Ulrik Spang-Hanssen from the Royal Danish Music Conservatory in Aarhus, Denmark was consulted, and a plan was devised for the preservation of the original stop configuration, augmenting it with a new third keyboard that would serve as the foundation for the “big sound.” Very few old ranks have been shifted. What was acquired from Oswego became the second and third manuals (Positif and Récit) with some changes necessary to move the timbre out of the dark and 8'-heavy character. The original configuration did not have any fifths or thirds among its stops. In addition, the first manual (the Great) had four 8' stops and one 4' stop; the second manual (the Swell) had a 16' Bourdon and a sub-octave coupler to the Great. New ranks were added with the purpose of not just strengthening the volume, but more importantly brightening the sound of the organo pleno in these two divisions. The old Great (current Positif) received the 2' Piccolo from the old Swell, and the original Dulciana 8' was moved to the new Grand Orgue division. The old Swell (current Récit) received a new Nasard 22?3', Principal 2' and Tierce 13?5'. From the same division, the Trumpet 8¢ and Bourdon 16' were moved to the new Grand Orgue.

The addition of a new first manual (the Grand Orgue) allowed not only for keeping the stop configuration as close to the original as possible, but also opened completely new sound prospects to build on and to draw from. This is the division that is by far the strongest. It is rather basic in terms of utilized ranks, not too far from the tonal character of the old instrument and yet created with the sole purpose of giving a complete Principal chorus to the entire instrument. The Cornet Harmonique III deserves special mention. It is a three-rank cornet (22?3¢, 2¢ and 13?5¢) consisting of widely scaled, overblown flute pipes with two small holes midway through the body length. The aural effect is quite unusual: the cornet combination has a far greater penetration and clarity of timbre thanks to the characteristic “hollow” sound of the harmonic pipes.

Obviously the Pedal division required more power. This was simply achieved by adding to the original three stops (Double Open 16', Bourdon 16' and Violoncello 8') a new Octave 8', Cor de Nuit 4' and a round-sounding 16' Buzène, a reed stop with leathered shallots. It would have been an asset to have a mixture in the Pedal; however, the financial constraints made it impossible. The total number of new pipes added is 1,100.

The New Façade

The difficult task of designing the façade for this organ fell on our shoulders after we approached various outside architects and artists. The problems we encountered with the architects were their lack of understanding the principles of how the organ works, not knowing what is and what is not attainable. There was also the lack of positive and healthy aesthetics. The objectives were quite simple: first, to fit the organ into the arch shape of the ceiling, and second, to show that this instrument blends the old with the new. An additional requirement came from the fact that it had been explicitly requested that the console must stay on the main floor of the church while the rest of the organ rests on a 10-foot high loft. The reasoning for this came from the liturgical documents of the Second Vatican Council, which dictates that the music ministry is not to be separated from the congregation. In the case of a tracker organ, it immediately makes things a lot more complicated simply because the linkage becomes dangerously long.

The design of this church building cannot be classified as “contemporary” but it may be described as “modern.” However, all throughout the building there are many elements of traditional architectural design: harmonious lines, time-honored proportions, and a lot of symmetry. The answer to all of these challenges came from my brother, architect Pawel Lewtak. He is the creator of the design that became a real head-turner among parishioners and visitors alike. In his words, his worst fear was to create another organ that would be sitting “up there” with the console that is placed “down there,” and one has little to do with the other. Instead, he created a homogenous shape that ties the top with the base in a seamless manner. The tower-like structure of segments gives it slenderness and allows for traditional pipe grouping. To reflect what is inside the organ case, the original façade pipes were kept in their distinctive clusters, and new groups of double flamed copper pipes were added. Copper was definitely the material of choice for its perfect blend with the surrounding color scheme.

There is one special feature of this façade that separates it from all others: mirrors, more specifically, forty of them! Hardly noticeable at first glance, they add light, depth, spark, and elegance. The mirrors are only four inches wide, and are of various lengths. They are placed in wooden frames in the spaces between the pipe clusters. They enhance the design by offering a true three-dimensional effect. As people walk through the church they are always viewing a distinctive picture with variegated light reflections, innumerable shadows and highlights, an array of geometrical shapes, yet all elements are well organized with pleasing aesthetic integrity.

The façade is made of white ash with mahogany ornaments, and the case behind it is made from birch and carefully selected white poplar.

The Mechanics and Materials

The key action is purely mechanical. It is referred to as a suspended action and was the only logical choice given our circumstances. Long distance between the keyboards and the windchests dictated absolute precision in the making of the tracker action. The longest linkage run is 33 feet and yet the average weight of the key—when the chests are under pressure—is only 120 grams. The action is not the least sluggish thanks to the employment of a pressure rail on the back of each keyboard with springs that remove some of the key weight. Each division has its own floating rail allowing for climatic changes of the wood of the trackers, which are made of red cedar. The squares are fashioned out of aluminum as are the rollers and roller arms. On the longest rollers, needle bearings were utilized to support the weight of each roller.

The keys are made of tight-grained pine covered with black African wood (grenadilla) for the naturals, and bone-on-maple for the sharps. The cheeks of the keyboards are white oak with ebony inlays.
All windchests are of slider and tone-channel construction. Two old windchests (Positif and Récit) have been completely taken apart and restored to mint condition. In both, the pallets used are of a so-called “relief” type: in essence, each pallet consists of two pieces, one of which is being pulled down first thus releasing the pressure and breaking the initial resistance. After cleaning, releathering and complete re-regulating of all the parts, they work flawlessly. New windchests are made out of select yellow pine and have single pallets in all but the lowest octaves. In the bass, we installed two pallets per tone channel, but with sequential opening, which causes the touch to be the same as the rest of the keys.
Pedal pipes are split diatonically and stand on either side of the case. The open 16¢ flute stands on its own two chests (C side and C# side). The remaining pedal pipes received two new windchests with space for both the old and the new ranks.

The stop action is state-of-the-art electric. The stop plates, made of grenadilla, hide behind them contactless switches. The system offers full convenience of 1,280 memory levels for even the most demanding performer. Half of the levels are lock-protected. The layout of thumb and toe pistons is very simple and offers some necessary redundancy. Couplers can be operated either by thumb pistons or toe studs. Also, the navigation through the system’s memory levels can be done either by hand, by foot or on the side by an assistant. There is one expression pedal for the Récit and a Crescendo pedal. The Crescendo, in order to work, first must be activated by a toe stud. It is fully programmable and has a digital level display from 0 through 30. A similar kind of digital level display is in place for the expression pedal of the Récit. The shutters are operated by a 30-stage, digitally controlled electric motor.

The organ utilizes a three-phase 1.5 hp electric blower with slow RPM. There are two reservoir bellows—one old one and one new— providing ample air supply to the whole instrument. There are three tremolos, one for each manual. Two of them have electronically adjustable speed of undulation right at the console.

The Voicing

Any organ is only as good as it sounds. Therefore, even though we spared neither time nor money on mechanical details, the most important element remained the voicing. All of the old ranks received some sort of voicing re-vamp. They had all previously been voiced down for a much smaller building. We made them more free speaking, definitely less obstructed at the toe. All of the old ranks were heavily nicked, which made things difficult at times. The new ranks were voiced with a little bit of chiff, just enough to make their speech more pronounced in the large acoustics of St. Joseph’s Church. The old reeds needed to be re-tongued in order to gain a larger sound. The Trumpet 8¢, especially, required more brilliance and volume in order to balance well with the rest of the Grand Orgue. The organ is tuned to a Tartini-Vallotti temperament, which gives it a pleasant color and tonal personality. The instrument has much to offer in terms of variety of sound colors as well as the dynamics and individual stop character.



From an organbuilder’s perspective, taking a vintage 1896 organ and bringing it up to present day expectations, and having an organ that could be used for church services as well as concert performances has been a personally demanding and ingratiating experience. In organ building, the idea is always to be creative while retaining the original elements and merging them with new technologies. It is rewarding beyond words when an artist sits down at the console and you begin to see the smiles of pleasure. It means you have accomplished your goal of creating the finest organ from available sources.
Lewtak Pipe Organ Builders wishes to extend our sincere thanks to all volunteers who gave their time and energy to this most worthy project. We also thank the parishioners of St. Joseph’s Church of Camillus, New York, for their continuing understanding, patience and support.

—Tomasz Lewtak

Organbuilder




The following craftsmen took part in the construction of the organ for St. Joseph’s Church in Camillus, New York:

Tomasz Lewtak – mechanical design, pipe scaling, voicing, woodworking

Pawel Lewtak – façade design, woodworking, traction

Gerry DeMoors – electronics, carillon, general construction

Kevin Reedy – general construction

John Fergusson – woodworking.




Lewtak Opus 1

St. Joseph’s Church “On the Hill”

Camillus, New York


GRAND ORGUE

16' Bourdon*

8' Grand Principal

8' Dulciane*

8' Flûte à Cheminée

4' Octave

4' Flûte à Fuseau

3' Quinte

2' Doublette

2' Flûte

III Cornet Harmonique

IV Mixture

8' Trompette*

Tremblant Fort

POSITIF

8' Montre*

8' Mélodie*

8' Gambe*

4' Prestant*

2' Piccolo*

Carillon a22–f42

Tremblant Doux

RÉCIT

8' Viole de Gambe*

8' Principal*

8' Flûte Harmonique*

8' Bourdon*

8' Voix Cèleste*

4' Flûte Harmonique*

4' Fugara*

22?3' Nasard

2' Principal

13?5' Tierce

III Mixture*

8' Basson-Hautbois*

8' Cor Anglais*

Tremblant Doux

PÉDALE

16' Flûte Basse*

16' Bourdon*

8' Octave

8' Violoncello*

4' Cor de Nuit

16' Buzène




* Original Casavant stop

Mechanical key action

Electric stop action

Electronic register presets, 1280 memory levels

Wind pressure: 90 mm Positif, Récit & Pédale; 82 mm Grand Orgue

Couplers: III-I, II-I, III-II, III-P, II-P, I-P

Tuning A34=438 Hz at 18ºC

Temperament: Tartini-Vallotti

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Lewtak Pipe Organ Builders, Inc.,
Camillus, New York, Opus 2
West Baptist Church, Oswego, New York

From the music minister
The original organ in the West Baptist Church was built by John G. Marklove in 1867, and was placed in the front right corner of the sanctuary with the console attached. The instrument had two manuals with mechanical key and stop action. Anything beyond this is not known, although the former organist has said that there was a second console in the back of the organ, which allowed the instrument to be played from the adjoining room. Unfortunately, we don’t even know the original stoplist.
In 1951 Paul C. Buhl of Utica was contracted to do a full rebuild of the church’s organ. Sadly, the work was not up to today’s standards. The organ was completely taken apart and the original Marklove slider-and-pallet windchests were chopped into pieces (we found parts of old chests used as catwalks, ladders, etc.). The pipework was mixed and matched with pipes from other instruments of unknown origin. In some cases, we found pipes from the same rank used in four different stops; this was especially apparent in the Pedal division. The configuration of ranks hardly made sense in terms of scale matching or materials used, not to mention any tonal coherence. Two manual keyboards that were built into the façade were disposed of and replaced with a three-manual console with electric action, detached from the organ chamber. Inside the organ chamber the Buhl Company placed new, direct-electric chests and distributed the existing pipework into three divisions. They ended up adding a few “modern strings,” changing the configuration of mixtures, duplexing many ranks, borrowing stops from one manual to another—all of it in a way that the person playing the organ couldn’t possibly tell whether the sound was coming from this or that division. In addition, the electrical system suffered from poor wiring and faults caused by climatic conditions. For years the church’s building has been extremely humid during summer months, which contributed to severe mold growth and this, in turn, caused a complete deterioration of old insulation made of fabric. Shorting wires caused an array of ciphers and dead notes and created a situation of serious unreliability.
In addition, the Pedal had only two independent stops and was unable to sufficiently support the sound of the full organ. The organ committee quickly became aware that another renovation was not a feasible option and decided to employ Lewtak Pipe Organ Builders to build a new instrument that would retain the original façade (at least in the general sense) and restore as much of the old pipework as possible, leaving the judgment of selecting the useful pipes to the organbuilder. All other components of the organ are brand new and were built specifically for this instrument.
—Abel Searor

From the organbuilder
When in 2006 our firm was contracted for the maintenance of the Buhl organ at the West Baptist Church in Oswego, New York, from the first visit to the church we knew that something had to be done with the existing instrument and that the situation was quite serious. As time progressed, we were first asked to do a complete renovation; however, upon further examination of the instrument, we advised the organ committee that funds spent for the renovation would simply become money wasted—the organ was beyond any sensible repair. It was then that a small miracle happened. The members of the West Baptist Church, quite few in numbers and certainly not spoiled with overflow of extra capital, decided to accept our proposal for a new organ that would incorporate the existing pipework (with great modifications, however) and would retain the existing outside appearance (although slightly changed as well).
When the decision was made to build a new organ, there was no question that going the “old way” would most certainly be the best way. We are passionate supporters of tracker organs. It has been proven through centuries of experience that the most reliable and artistically gratifying key action is a mechanical one. We also put our complete trust in the time-proven manner of building windchests with sliders and pallets. We strongly believe that the characteristics and performance of a tracker organ are unquestionably superior to any other kind of action. Coming from this viewpoint, the new organ was designed with fully mechanical key and stop action. We opted to go back to the two-manual setup and designed a stoplist that was not influenced by any particular style or builder. We simply wanted to create an instrument that would be quite universal, full of tonal variety, and suitable for many musical genres. We intended, however, to sustain a bit of an “old fashioned” flavor, which is clearly manifested in the voicing of pipes.
The new organ was built on a tight budget; therefore, some of the work has been done by the members of the congregation. The Buhl organ from 1951 had been completely removed and disposed of. The organ chamber was emptied out and renovated. New plasterboard was installed, and everything got a fresh coat of paint. The floor was refinished, and sufficient room was made in front of the organ for a new console—built into the organ case with two manuals and a pedal keyboard. All of this work was done by the members of the church.
The largest pipes, from the wooden Principal 16? in the Pedal, were placed on “benches” along the walls and connected via flexible conduits to a separate chest designated exclusively for this rank. The reason for this was twofold. First, these pipes were too big to fit on a “regular” pedal chest and, second, they required a considerable amount of wind, which would almost certainly cause a shortage of wind for the rest of the ranks, if placed on the same chest. The remaining pedal ranks were placed on two identical windchests butting against each other side to side.
All pipework in all divisions is distributed in a major-third configuration, of course split in the middle into two traditional sides, C and C-sharp. The Swell and Great divisions are mounted above the three single-rise wedge bellows. All windchests were provided with small shocker bellows, allowing for steady wind supply even during times of high wind demand. All major wind conduits are made out of wood; small offsets were carried out with flexible conduits.
We kept roughly 70% of the pipework from the Marklove/Buhl organ. It was nearly impossible to determine which pipes were “true originals” from 1867 and which came from some other sources. We opted for keeping only the pipes that offered us a chance to do a decent revoicing. The remaining 30% we acquired from various sources; however, all the pipework was voiced together as one instrument—the process took nearly five months.
The new instrument boasts 27 stops, 33 ranks, for a total of 1,803 pipes. Since it is nearly impossible to describe the sound, we can only say that the goal was to have an organ with a confident, but not bold, tonal character. Therefore, all of our voicing efforts went in the direction of having the pipes speaking in a manner that is naturally free and unobstructed. There is never a problem with using fewer stops, if needed, but one cannot produce a fortissimo effect if there is no substance to support it. In no way, however, is the organ “shrieky” or unpleasant, even with all the stops pulled out. Working with the relatively low wind pressure of 69 mm for the manuals turned out to be quite rewarding. The pipes develop a sound that is not forced and is very “singing” in nature, yet not lacking in natural strength.
The façade was left in its original general concept. The façade pipes were completely stripped to bare metal and repainted with the addition of some subtle stenciling. In the top portion of the middle arch, we added a painted rosette with elaborate decorative floral elements. The lower portion of the frontal cabinet had to be modified in order to accommodate our new keyboards and the drawknob desks. We used American walnut for all new frontal elements—the same wood species as the old cabinet. Neither time nor money was spared when it came to the console area. The keys are made of tightly grained spruce, naturals with granadilla overlays, sharps with maple and natural bone. Natural keys have their fronts embellished with a half-circle arch. The key cheeks as well as the music stand are made of solid walnut with hard maple inlays. Drawknobs are made from Norwegian maple. In the center of the ball there is a round inlay made of sterling silver and Baltic amber in honey color. The knobs were custom turned for us by Johannes Rieber in Oslo, Norway; the amber pieces were also made especially for this purpose—they came from Poland from one of the most renowned figures in amber art circles, Mariusz Drapikowski (his original creations are on permanent display at the Vatican Museum).
The tracker action is carried out in the simplest of ways, which is a bulletproof formula ensuring reliability for many years to come. Keys are a double-armed lever, with 10 mm movement in the front and 7.5 mm in the back. Trackers are made from red cedar, squares from hornbeam, and rollers from aluminum with wooden arms. Because of extreme humidity problems, we chose to make all pallets out of aluminum. The windchests were made of solid oak and maple, toe boards and pipe racking out of poplar. The stop action is made from white ash, sliders from the laminated phenolic fabric. The air is supplied by a 1-HP, three-phase Ventus blower.
We wish to extend our thanks to all members of the West Baptist Church in Oswego, New York for entrusting us with this project. We hope that this project will indeed help to rejuvenate the church family and that it will serve the community “For the glory of God.”
—Tomasz Lewtak
Lewtak Pipe Organ Builders, Inc.
1003 Barnwood Lane
Camillus, NY 13031
<www.lewtak.com&gt;

Craftsmen who worked on this project:
Vanessa McCrea—woodworking, bookkeeping, purchasing and general help (doing all the things that nobody else wanted to do . . . )
Iwona Henschke—pipe restoration, stenciling
Jeff King—electrical work, organ chamber and floor finishing
Gerry DeMoors—carillon restoration and electronics
Johannes Rieber—drawknob turning
Mariusz Drapikowski—Baltic amber and sterling silver setting
Pawel Lewtak—façade design, woodworking, pipe restoration
Tomasz Lewtak—mechanical design, woodworking, voicing and tuning

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Lewtak Pipe Organ Builders, Camillus, New York

Holy Trinity Church,

Utica, New York

The pipe organ at Holy Trinity Church is, without doubt, a real treasure—not just for the parish community of Holy Trinity, but for the greater Utica area as well. It is a splendid instrument originally built in 1923 by Clarence E. Morey and his firm, located in Utica, New York. The organ has 29 speaking ranks divided among three manuals and pedal. Two of the manual divisions are enclosed in expression boxes. Interestingly, the original “identity” of this organ has been very well disguised. Previous restorers took down the plaque with the builder’s name, and only after opening the windchests did we discover the name of the original maker. The pastor of Holy Trinity Church, Rev. Arthur Hapanowicz, took it upon himself to find some information about the original builder. Since little is known about this builder, it is worth providing a bit of history. Following is the obituary from the Utica newspaper, The Observer-Dispatch, June 22, 1935:



CLARENCE E. MOREY, ORGAN BUILDER

March 31, 1872–June 20 1935



C. E. MOREY, 63 SUCCUMBS HERE




HAD BEEN MANUFACTURING ORGANS HERE SINCE 1893



Clarence E. Morey, 63, 1537 Oneida Street, organ builder, died in his home Thursday night after an illness of several months.

Mr. Morey was born in Little Falls, March 31, 1872. He was educated in the public schools and in Fairfield Seminary, and then came to Utica. He worked in the office of Edward D. Mathews, attorney, for a short time. Next he worked in the office of Crouse & Brandagee, clothing manufacturers.



Bought Equipment

In 1893, with A. L. Barnes he formed the firm of Morey & Barnes and bought the equipment of the organ factory of the late John G. Marklove and continued the manufacture of organs. Three years later Mr. Morey bought out the interest of his partner and continued the business alone. In 1901 he built a new factory at 305 Niagara Street and moved his business there. In 1925 Mr. Morey sold this building and built a new factory at 1024 Champlin Avenue. He has since continued his business at this location.
During his long career in the business Mr. Morey had constructed a great many organs and while they are in use in various parts of New York and adjoining states, about a score of them are used in Utica. Mr. Morey had been from its organization in 1917 a junior member of the firm of Earl B. Worden & Company, dealers in pianos and talking machines.



Active in Organizations

Mr. Morey was a member of Utica Lodge 47, F. & A.M Rotary Club, Utica Council, Boy Scouts of America, Winchell Camp 43, of Union Veterans of the Civil War, Oneida Historical Society, and the Commercial Travelers Mutual Accident Association of America. He attended Westminster Presbyterian Church.
February 10, 1897, Mr. Morey married Miss Jean H. Brockett, who is living. He has two sons, Frank B. of Albany, NY and Nathaniel B. of Hamburg, NY. Five grandchildren.



In many ways the organ at Holy Trinity Church is a special and valuable instrument. Many of the pipes have outstanding sonic qualities, rarely found in other organs. Among stops that deserve special mention is a Double Flute 8' (Concert Flute) on the Great, wooden pipes, each pipe having two mouths. It was originally voiced with very natural, open and unobstructed sound of an unusual strength. Another stop of particular beauty is the Mixture III in the same division, which adds brightness to the overall sound, but without the unpleasant shrillness so often found in other instruments of lesser quality.

The organ at Holy Trinity Church was originally built with tubular-pneumatic action, with its complicated array of lead tubing. Many years later, probably in the 1950s, the action was electrified. This system, even though much better than the original purely pneumatic arrangement, requires careful maintenance and complete renovation after a certain number of years. Also, as time goes by, every organ naturally goes through the process of aging—dust accumulates, leather deteriorates, air conduits start leaking, and many other elements of the inner structure call for some serious attention. The organ had been renovated in 1972 by Bryant Parsons & Sons (currently Parsons Organbuilders) of Canandaigua, New York. The work performed was good, but some 30-plus years later the instrument was obviously in need of serious repairs.

In the spring of 2006, Holy Trinity Parish contracted Lewtak Pipe Organ Builders of Camillus, New York, to carry out all necessary work in regards to both the internal technical problems and the external new appearance of this aging instrument. A total overhaul was performed, and a new façade was built over the past six months. The work done was truly all-encompassing: the organ was completely disassembled; all pipes were taken out for thorough cleaning and repairs of scrolls and stoppers; windchests were thoroughly repaired, including some releathering; nearly all air conduits were replaced; the entire pipe support was renovated and enhanced.

There was a big problem with the structural support of the Great windchest, which rested on one of the 16' pipes from the Pedal! We had no choice but to design and build a new support for this part of the organ. Twelve new pipes for the lowest octave of Bourdon 16' were added to improve the bass range of the Great division. Several ranks of the original pipework were revoiced to make them stronger in sound. The electrical system was also carefully checked and repaired, all contacts cleaned, and the combination action repaired.

In addition, we added a completely new appearance to this organ by building a new façade. The cabinetry is made of solid white oak. Original pipes were stripped of the several layers of old paint and cut to new dimensions. The dynamic configuration of the new design is the original creation of my brother, architect Pawel Lewtak. The colors on the new front of the organ were carefully selected from the two predominant shades of the stained glass windows and the entrance doors.

It is with great joy that we present this organ back to Holy Trinity Parish. We are confident that the beauty of the King of Instruments will enhance all liturgical celebrations and will serve this church community for many years to come. It is truly gratifying to know that there are still people who believe in the value of a real pipe organ. During his rededicatory message, the church’s music director and organist, Stephen Zielinski, stated: “There was never a doubt as to what to do with our aging pipe organ. The electronic substitute was never an option. This is because we know that the pipe organ fills our church with beautiful sound, and the electronic organ would simply fill it with noise . . .” To this, we just say AMEN.

—Tomasz Lewtak

Organbuilder



The rededication ceremony and organ recital took place on Sunday, October 29, 2006 at 5:00 p.m. The performance featured Gail Archer, who serves as Chair of the Music Department at Barnard College, Columbia University, and Professor of Organ at Manhattan School of Music. We are most grateful for her gracious acceptance of our invitation.

The following craftsmen took part in the restoration of the organ at Holy Trinity Church in Utica, New York:

Tomasz Lewtak—mechanical design, voicing, woodworking

Pawel Lewtak—façade design, woodworking

Janusz Rutkowski—general construction

Iwona Henschke—pipe stenciling

Gerry DeMoors—electronics and electrical components

Rita Ostrom–tuning and voicing assistance

Photo credit: Tomasz Lewtak


1923 C. E. Morey organ

GREAT

16' Bourdon

8' Open Diapason

8' Viola da Gamba

8' Concert Flute

8' Dulciana

4' Octave

4' Flute d’Amour

III Mixture

8' Trumpet

Chimes (21 tubes)

Gt 16'–UO–4'

Sw/Gt 16'–8'–4'

Ch/Gt 16'–8'–4'



SWELL

8' Open Diapason

8' Stopped Diapason

8' Aeolian

8' Salicional

8' Quintadena

8' Vox Celestis

4' Harmonic Flute

2' Piccolo

8' Oboe

8' Vox Humana

8' Cornopean

Sw 16'–UO–4'

Tremolo


CHOIR

8' Geigen Principal

8' Melodia

8' Dolce

8' Unda Maris

8' Flauto Traverso

Ch 16'–UO–4'

Sw/Ch 16'–8'–4'

Tremolo


PEDAL

16' Double Open Diapason

16' Bourdon

16' Lieblich Gedact

8' Flute

Gt/Ped 8'–4'

Sw/Ped 8'–4'

Ch/Ped 8'–4'

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Lewtak Pipe Organ Builders, Inc., Camillus, New York
First Presbyterian Church,
Greenville, North Carolina

A note from the organist/choirmaster
When I arrived at FPC Greenville in 1998, the 1971 two-manual W. Zimmer and Sons organ of about 20 ranks stood in the rear gallery. A gift of the Guy V. Smith, Max R. Joyner, and James Gibson families, it had served the congregation, community, and East Carolina University music department well for almost 40 years. When it was determined that the congregation and music program needed a larger instrument with placement in the chancel, we began exploring moving and expanding the organ.
The Zimmer’s copper façade pipes of the 8′ Pedal Principal were spread across the rear wall, directly behind the choir, in the shallow but wide gallery. With the Rückpositif division directly behind the organ bench and cantilevered over the balcony wall, the choir singers were literally in the middle of the organ pipes. The organ was of German neo-Baroque style, with no Swell or other enclosed division. It did have some nice pipework, a strong principal chorus, and a relatively independent pedal division for an organ of this size.
Originally the plan was to move the organ to the front chancel area with a few additions. The project evolved, and due to the generous gift from the estate of Mary Potts Goodman Sorenson, it was to become essentially a new organ—utilizing most of the pipes from the original instrument, along with new ranks, to make it over twice the original size.
We wanted the following qualities in a new instrument: well-rounded sound that would support and enhance congregational singing; an organ that would speak evenly through the worship space, filling but not overwhelming it; one that would play repertoire of all periods and be a worthy recital instrument. We also wanted to build upon the German nature of the original. I had wished for full-length 16′ pedal ranks, string ranks, a Swell division with reeds and mixtures, colorful mutations, and additional flutes and 8′ ranks—a lot to ask on a limited budget.
Upon the first visit of Tom Lewtak, his enthusiasm and vision of the possibilities for the space were inspiring to everyone. There were no problems or limitations that were not dealt with in a positive way and solved. When we got the first drawings, everyone was impressed by the boldness and artistry of the design, which was dramatic, yet still looked like it belonged in the space. It complements the contemporary design of the church building and its best feature, the beautiful stained glass windows.
Before renovations, which started in 2009, the focal point of the sanctuary was the prominent high pulpit with a large overhanging tester, which fanned out toward the congregation. Looking further and behind this, one would see the empty space behind the pulpit forming a kind of alcove, which rose to over 40 feet. What was this space designed for if not for organ pipes? So it is now filled with a beautiful arrangement of pipes, casework, and tower façades.
First Presbyterian Greenville is located on the edge of the campus of East Carolina University and enjoys a close relationship with the ECU music department. The Zimmer organ, at one time the premier instrument in Greenville, had been used as a teaching and practice tool for students. Many recitals, organ and other, have been held in our space. The church has been host to many AGO meetings and events.
Even when the organ was a little over half done and heard at the Eastern Carolina AGO chapter meeting last fall, participants were overwhelmingly positive about the sound, observing its sweetness of tone as well as power. This is even more the case now, and we are fortunate to have an instrument with character and color, warmth in the ensembles and choruses, with brilliance as well as depth.

William M. Wood, organist/choirmaster, is originally from Graham, North Carolina. He did undergraduate work at the University of North Carolina, Chapel Hill, and Elon University, and holds the Master of Sacred Music in organ from East Carolina University. His organ teachers have included Robert B. King, William J.N. Stokes, and Janette Fishell. A frequent recitalist, he has served churches in Richmond, Virginia, and in North Carolina.
From the organbuilder
Building a straight tracker organ in a space that requires 30-foot-long tracker runs is always a challenge. I feel very strongly that mechanical action is superior, so I had no doubts that this is what was needed at First Presbyterian Church in Greenville, North Carolina—that is, if the church wanted to remain a leading center for cultural events in town. The acoustics of the sanctuary are more like those found in concert halls than in churches. There is sufficient reverberation to fill the room with lively sound, and the bass response is excellent, thanks to brick walls all around. The conditions for a new instrument were very favorable; this allowed us to design an instrument that, despite having just two manuals, has a comprehensive specification throughout, giving the organist a wealth of possibilities.
The tonal design called for a mid-German-style organ, with full principal chorus in the Great and rich complement of flutes in the Swell, along with strings and a well-developed reed section throughout the instrument. Both manuals are based on 16′ stops—Bourdon 16′ in the Great, and Fagott 16′ in the Swell—which provides the necessary gravitas of sound. The Great offers Principals 8′, 4′, 22⁄3′, 2′, and Mixture. This, along with a warm Trumpet 8′ and a bright Clarion 4′,
guarantees a strong plenum. There are also two flutes in the Great, to enable soft registrations and good blend for accompaniments. Lastly, there is a lively Cornet III, which serves as a versatile transition stop, good for both solo as well as plenum, with or without the Mixture.
The Swell has a substantial selection of colorful ranks. At the 8′ level we have included a wide-scale Hohlflöte, Quintadena, and Gambe, along with complementing Celeste. The Prestant 4′ has a slightly stringy quality to it, and the metal Gedackt 4′ perfectly complements the 8′ flute. Going up, we added a 2′ Piccolo and 11⁄3′ Larigot—this gives lightness and a “sparkle” to this division. The Mixture III–IV in the Swell is a bit unusual in that it includes a Tierce. The Tierce is voiced very mildly, not to be too present, and yet changes the character of the Mixture toward the “wider” sound, rather than the typical high-pitched shrill. This allows the Mixture to be used more frequently even in smaller ensembles with no danger of overpowering the singers. The Swell offers a generous choice of reeds as well; aside from the already mentioned Fagott 16′, we have included Oboe 8′ and Rohrschalmei 4′.
The Pedal division features a Posaune 16′ with full-length metal resonators, which along with a metal Principal 16′ makes for a solid bass foundation, even at the loudest dynamic level. The Pedal is independent enough to support the manuals without coupling, but of course we installed traditional couplers I–P and II–P for additional flexibility.
Since flexibility was one of the main goals in the design of this organ, it is worth mentioning the inclusion of an additional II–I Sub coupler. It is a fully mechanical coupler and yes, it does make you work a bit harder than normal, but it is worth it. The usefulness of this coupler is unquestionable, both for solo combinations as well as full-organ playing. Just consider this—when you sub-couple the 16′ Fagott to the Great, you end up playing a 32′ pitch on the main manual!
One peculiarity of this organ is the fact that the Quintadena 8′ of the Swell division happens to be placed entirely outside of the expression box. This is because we inherited the façade pipes from the old Zimmer organ, and among them was this Quintadena, which had 20 of the lowest pipes in the façade. We did not want to have 20 pipes out in the open and the remaining 36 under expression, so the logical solution was to offset the top of this rank completely outside the Swell. It seems to be working quite well, giving the Quintadena a distinct solo capability.
The design of the façade went through several stages. We first submitted three different proposals from which one was chosen and then modified to fit the space, the needs, and the taste of the congregation. The cabinetry is made from solid cherry, real mahogany, sapele, and wenge (the last two species are native to African tropical forests). Milder wood tones were needed to complement the church interior, and yet we did not want to make a completely dark façade, as the light in the building is rather subdued. The façade consists of eight towers—five in the lower tier and three in the upper—with rather daring angles and lines. As one can see on the drawing, the windchests and all playing components sit on the loft, twelve feet above the floor level, but the console is placed on the main floor. In designing the façade, we strove to make the organ look as “one”, with no detectable division between the upstairs and the downstairs. The towers are visually supported by the console cabinet, making the design very cohesive. In reality, the presence of the “loft” is hardly noticeable. The highest tower peak is 41.5 feet (12.6 meters) above the floor of the sanctuary, and the façade is 17.4 feet (5.3 meters) wide. Needless to say, the rigging was difficult and risky. We were able to use 90% of the Zimmer façade pipes: 29 made from copper and 27 made out of tin. All pipes were totally renovated so that they would look like new.
The console boasts our trademark features: drawknobs turned in Norway from real mahogany wood and then inlayed with Baltic amber stones set in sterling silver. The jewelry work was hand-crafted in Poland. The keyboards were produced in Germany, with key coverings provided by us. The naturals are covered with Madagascar rosewood called Bois de Rose, the sharps covered with bone. Bois de Rose was also used throughout the keydesk, key cheeks, and the music stand for inlays. All thumb pistons that control the electronics were capped with this wood as well. Stop nameplates are made of sugar maple and laser-engraved. The music rack is made of solid wenge wood and has all lighting fixtures concealed within it. It is easily detachable, to provide access to action regulation right behind it.
The key action is purely mechanical, with suspended action. It only has two square rails per manual to change the direction of the tracker run. One of the square rails for each manual is free-floating, providing the necessary self-adjustment of the action for climatic changes. The trackers are made from bass wood (linden tree) and all tracker parts (squares, arms, etc.) are made of hornbeam. Because of the significant distance between the windchests and the keyboards, we opted for a “double pallet” construction—imagine a normal pallet being sliced horizontally into two parts; the lower part opens first (breaking very minimal pluck force) and then the upper part falls down, letting a sufficient amount of wind into the tone channel. It is a simple and bulletproof solution for long tracker runs, allowing the key action to be light and crisp even with many stops drawn.
For the stop action, we utilized a German-made solid-state system with 3,999 levels of memory. Stops are controlled by drawknobs connected through this electronic system to slider solenoids opening and closing the stops. The console layout is European in its character, with only a minimal amount of buttons and gadgets. There is a clear numeric indicator for the swell shutters and for the crescendo. The thumb pistons are placed above the second manual, not under or between the keyboards. An average American organist will find it very user friendly, although different from our typical AGO standard. We also included one special feature for the drawknobs—the nameplates become gently illuminated from the back when the stops are turned on. It makes one’s eyes immediately aware of which stop is on and which is off.
Voicing—always the most important part of any organ—took a good half-year to complete. All pipes from the old Zimmer organ were treated as virgin pipework and revoiced from scratch, just like new pipes. The neo-Baroque flavor was removed in favor of a more rounded but full-bodied sound. There is no hint of shrillness and yet the sound is vibrant and bright. The instrument has plenty of power to impress the listener, with the might so typical for the King of Instruments; however, it is not senseless noise, which annoys our ears so often these days. For those who really want to experience the sound of this instrument, I cannot offer words of description. You need to come to Greenville and listen. The dedication of this organ will take place this month, on March 27, presented by Christopher Marks, assistant professor of organ at the University of Nebraska-Lincoln.
I wish to offer my heartfelt thanks to the people and staff of First Presbyterian Church of Greenville, North Carolina. Their incredible kindness, patience, and enthusiasm made this project the most gratifying experience one can ask for. This project would not have been possible without the support of Dr. William Neely, pastor.

Tomasz Lewtak was educated as an organist, having two master’s degrees in organ performance. His inspiration to become an organbuilder came at the age of 16, when he viewed the building process of the monumental organ at St. Mary’s Cathedral in Gdansk (Danzig), Poland, by the German firm of Hillebrand. Later, he studied organbuilding and design during his five years at the Academy of Music in Katowice, Poland. The following years took him to Denmark and Norway, where he apprenticed with Carsten Lund Organ Builders of Copenhagen. He acquired his voicing skills from Mogens Pedersen, chief voicer of Frobenius Organ Builders. Tomasz Lewtak is responsible for tonal design, pipe scaling, voicing, windchest and action design.
The following people worked on this project: Tomasz Lewtak, Pawel Lewtak, Craig Regan, Elliott Regan, Peter Clouser, Vanessa McCrea, Tony Pernisi, Michael McCrea, Kevin Reedy, and Joe Stillwell. Special thanks to Dick Marks for his volunteer service.
Photo credit: Tomasz Lewtak, unless indicated otherwise.
For more information about Lewtak Pipe Organ Builders: <A HREF="http://www.lewtak.com">www.lewtak.com</A&gt;.

First Presbyterian Church
Greenville, North Carolina
2 manuals, 30 stops, 40 ranks

GREAT
16′ Bourdon
8′ Principal
8′ Rohrflöte
4′ Octave
4′ Spillflöte
22⁄3′ Quinte
2′ Principal
Cornet III
Mixture IV–V
8′ Trumpet
4′ Clarion

SWELL (under expression)
8′ Quintadena (outside of Swell)
8′ Hohlflöte
8′ Gambe
8′ Celeste
4′ Prestant
4′ Gedackt
2′ Blockflöte
11⁄3′ Larigot
Mixture III–IV
16′ Fagott
8′ Oboe
4′ Rohrschalmei
Tremolo

PEDAL
16′ Principal
16′ Subbass
8′ Octavbass
8′ Bassflöte
4′ Choralbass
Rauschquinte II
16′ Posaune
Couplers
II–I
II SUB–I
I–P
II–P

Manual keyboard compass: C–g′′′ (56 keys), naturals in black, sharps in white.
Pedal keyboard compass: C–g′ (32 keys), parallel keys, slightly concave.
Wind pressure: 90 mm water column for manuals, 99 mm for the pedal.
Mechanical key action (suspended), self-compensating for seasonal changes.
Electric stop action with 3,999 levels of electronic memory.

 

Cover feature

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Glück New York Organbuilders, New York, New York
Union Church of Pocantico Hills, Tarrytown, New York

From the pastor: Our latest chapter When Marc Chagall and Henri Matisse never miss a service, and a church is blessed with a warm, close, and giving congregation, special events in the life of a church somehow become even more special. The commissioning of the Laurance Spelman Rockefeller Memorial Pipe Organ was a remarkable milestone in our history, and a finishing touch to our beautiful sanctuary, 85 years after its cornerstone was laid. The instrument was funded by Mr. Rockefeller’s brother, David, his daughter, Dr. Lucy Rockefeller Waletzky, and other members of the family, supplemented by the generosity of their fellow congregants and friends.
Planning for the organ began several years ago and proceeded at a careful pace. Several organbuilders were consulted before selecting Sebastian M. Glück of New York City. An organist, organbuilder, and preservation architect, he was sensitive to all of our concerns, knowing that his creation could neither upstage our worship nor compete with the peerless stained glass that adorns our landmark church. The long process of on-site voicing and tonal finishing resulted in the “perfect fit” of this outstanding pipe organ. The congregation’s sense of the holy is lifted as the clear tones of the organ fill the space. Praising God in the sanctuary soars here to new heights!
—Rev. Dr. F. Paul DeHoff

From the consultant: Looking forward through the rear view mirror

Building an organ for a small space is a challenge for both design and execution, and these challenges have been creatively met in this installation. The builders have carefully engineered the instrument to fit the space, providing good tonal egress and ample accessibility for ease of tuning and maintenance. The instrument possesses character and a distinctive personality, and the magnificent windows by Matisse and Chagall made it seem fitting to emulate the orgue de chœur of the French tradition. Choral and congregational accompaniments are the important functions of this organ, and it contains surprising resources for playing a considerable variety of organ literature.
Essentially a two-manual instrument, a third manual division has been derived from the tonal scheme through studied extension and duplexing. This “found” Positif adds to the versatility of the organ in which each stop must pull its weight, individually and in ensemble. The success of this master plan is in its careful scaling and meticulous tonal finishing.
All of the ranks embody individual character, yet blend effectively in the total ensemble. Some of the ranks deserve special mention because of their creativity and success in this installation. The 16' Contrebasse gives clarity and definition to the pedal, and in combination with the stopped 16' Sous Basse provides a firm foundation. The Contrebasse can also be used beneath the Récit strings, which have a delightful, sizzling, French edge as well. This is a welcome relief from the ubiquitous 16' Gedeckt extensions found on most organs. As the bass to the principal chorus, the 16' Contrebasse undergirds with clarity. An interesting historical aspect of this stop is that it was typical of French Baroque churches to have a double bass playing with the orgue de chœur for additional sonority. On the manuals, this same rank (playing as the 8' Violoncelle) has a desirable incisive quality that is important for color and contrast in the family of foundation stops.
Another stop that serves multiple functions is the Clarinette. It provides gravity and weight as the 16' manual stop for the Récit reed chorus without competing with the Pédale 16' Bombarde. As an 8' solo stop it is more refined than a Cromorne, but has more color and personality that most other Clarinet stops. This is an effective solution for a small instrument.
The removal of the carpet from the chancel revealed an attractive hardwood floor that adds warmth to the music of the organ and the Union Church Choir.
This project was the outcome of a happy collaboration among organist, organbuilder, and consultant. The congregation and its pastor have been most helpful in making this a successful project with rewarding musical results. I am happy to be associated with this organ installation, from the initial discussions, through the building phase, to the dedication and inaugural recital.
—Dr. Gordon Turk

From the director of music: An about-face in the right direction

My service at Union Church began in 1999 when our last organ had aged precisely 30 years. Replacing Wurlitzer’s 1922 Opus 548, it had been assembled by a local organ man utilizing pipes imported from Holland. Unfortunately, the electric valve action of this heavily unified instrument had not withstood the test of time, and Union Church faced the pressing need to replace its console, relays, and playing mechanisms, as well as address the obvious tonal imbalances. After much discussion, the church decided that a new instrument would be a better investment.
The thin, prismatic sound of the old organ, truly a product of its time, actually required amplification to reach our small sanctuary, and from the outset Sebastian Glück had suggested a completely different approach, based upon his ongoing fascination with the orgues de chœur and orgues de salon of fin-de-siècle France. I had the opportunity to play his Opus 10 at Our Lady of Loretto in Cold Spring, New York, a small new organ in this French Romantic style, and I became convinced of both the concept and the builder.
Our consultant agreed with my stipulation that the instrument should be a worthy vehicle for choral accompaniment. He also concurred that Mr. Glück’s focus on a French symphonic character would serve our worship better than yet another neoclassical design, as it could more effectively support our choir with its abundance of properly scaled unison ranks. We were hopeful that the sound generated in the right chancel chamber would somehow fill the entire room, a feat dependent upon Sebastian’s scaling and voicing, as no changes could be made to the historic building. Ironically, all of these ideals represented the opposite of the situation with which we started!
Mr. Glück and I pored over the smaller documented Cavaillé-Coll designs, and I shared his excitement when he returned from his close examination of the famous Merklin/Mutin organ at l’Église Réformée du Saint-Esprit on Paris’s Rue Roquépine as he prepared for his tonal work at Union Church. Although the prototype instruments by Cavaillé-Coll and Mutin usually found their way into highly reverberant rooms, he was correct in asserting that an organ of this character would bloom with a greater presence in our intimate setting than another neo-Baroque organ.
I am elated that the entire church family and the local organ community have expressed nothing but admiration and enthusiasm for this new musical instrument. Its frank sound and rich color activate every corner of the room without ever sounding “loud.” It is thrilling to launch a virile grand chœur in the context of our worship, and satisfying to employ the fonds d’huit without apology. These marvelous attributes do not preclude the performance of music from other schools of literature, as this organ embraces the components of a respectable plein jeu as well as solo stops and ensembles of great clarity.
I often ponder the fact that our new pipe organ continues to be a gift each and every time it is engaged in its sacred function. I wish to express my sincere gratitude to Dr. David Rockefeller, Dr. Lucy Waletzky, Dr. Paul DeHoff, Dr. Gordon Turk, Mr. Sebastian M. Glück, Mr. Albert Jensen-Moulton and the entire Glück staff, as well as all of the donors at the Union Church of Pocantico Hills who made this amazing instrument a reality.
—Thomas Zachacz

From the organbuilder: A French recipe from an American chef

The Laurance Spelman Rockefeller Memorial Pipe Organ is a 21st-century instrument inspired by the school of organbuilding that flourished late in the reign of Napoléon III and during the first 30 years of the Third Republic. The French Romantic organ is characterized by bold, warm, and rich colors. Despite their strong individuality, these organs’ diverse voices form a cooperative community akin to a superb ensemble of celebrated actors, in which the sum of the distinctive parts is exceeded by the exhilarating effect of the whole.
French pipe organs and music of the period exhibit the same passion and spiritual freedom as the painting, sculpture, architecture, and dance of the era, a phenomenon that has captivated the Rockefellers for generations. The family had commissioned the Aeolian company to build large organs for their homes, so in addition to growing up with historically pivotal visual arts, they appreciated the pipe organ in a secular, purely musical context, in addition to what they heard in church.
I made it clear from the start that this would not be an historical copy. The copyist develops solid technique, but does not always make artistic progress as he reproduces the flaws and limitations of his models along with their glories.
The Rockefeller family and Union Church have consistently managed to balance strong tradition with a keen eye for the new. Since my own mindset has always been on “the cutting edge of the passé,” I felt immediately comfortable with them. I could create something new that still took its cues from the past, and they would understand what I was doing. As Dr. Turk said at his dedicatory recital, the organ comes with its own character, but “it has a definite French accent.”

Historical antecedents of the design
Le Grand-Orgue

The structural blueprint of the Grand-Orgue was influenced by Cavaillé-Coll’s 1879 design for the same division in the II/18 instrument in Le Château du Compte de Liminghe, Gesves, Belgium, an orgue de salon for which Lemmens served as consultant. It struck me as a sensible and still-modern concept for the main division for nearly any school of composition. Such compact specifications usually bore either a 2' chorus member or a mixture, but rarely both. The inclusion of both, to the exclusion of yet another 4' flute, seemed to afford more options for the interpretation of a broader range of repertoire. The Fourniture II–IV begins as a Progression Harmonique, adding lower pitches without breaking, then moves to classical plagal breaks in the treble. With slightly smaller scales and higher cutups, the mixture is one that melds smoothly, adding brilliance and line without the harsh separation one might encounter from a “neo-classical” mixture.
Supplying the fonds d’huit would prove more difficult, simply because of space. While the 16' Bourdon was most often “duplexed” to the Pédale in such instruments, I reversed the procedure, extending the substantial 16' Sous Basse upward, making it available at 16' and 8' pitch. The 8' proved a bit too large for proper balance, so I provided a new treble with narrower scales and higher mouths. The 8' Violoncelle is large, warm, vibrant, and nearly reedy, furnishing the third member of the 8' quartet, but we had run out of room.' The 8' Flûte Harmonique was almost pulled out of thin air. I opted to transmit the Récit 4' Flûte Octaviante an octave lower, with one personal quirk. While traditionally one would build an open wood 8' octave (as opposed to the American practice of switching to non-matching stopped pipes), the compromise was to use the stopped poplar pipes of the Récit 8' Cor de Nuit for the first eleven notes, and then build a single low BB pipe of open spotted pewter to complete the octave. My reasoning? I cannot bear to hear the final left-hand note in Franck’s Prélude, Fugue, et Variation land on a stopped pipe, and I was determined that it not happen here. It is a smaller, less soaring sound than normal, being based upon the Récit scale, but provides an essential component that otherwise would be omitted.

Le Récit-Expressif

The Récit had to be an economically designed powerhouse, faithful to its French spirit without locking out other schools of music. Since the French Romantic tradition is one that specifies a string and its undulant under expression, the effect had to be authentic. There would be no washed out, noncommittal, characterless Violas here. Cutting, pungent, keen, energized strings of narrow scale and high tin content were the order of the day, emitting the tone color known and expected by composers and organists of the era.
Cavaillé-Coll would modify his choir of 8', 4', and 2' harmonic flutes in his small organs, and I did so as well. Still stylistically appropriate, the chimneyed 8' Cor de Nuit is a fine stop for continuo use and vocal accompaniment, and it combines beautifully with the Viole de Gambe and Voix Humaine. The 2' Flûte Conique adapts to all music, from Baroque trios to modern choir accompaniments. While unidiomatic to the size and genre of this organ, the 4' Prestant has proven itself to be indispensable, a tonal anchor for the secondary manual in northern literature, and a binding element for anthem accompaniment.
A shortage of space placed the burden of all reed tone upon the Récit. The “usual suspects” (Trompette, Basson et Hautbois, and Voix Humaine) had to be included, tailored to the intimate church and its non-reverberant acoustic. The first step was to acknowledge that a full-throttle blaze of French reeds would work against our goals, so a bright English trumpet with harmonic resonators fit the bill. Despite its modest scale this voice speaks with remarkable authority.
The 8' Basson et Hautbois is a variation of what I had observed in France. French practice called for single-taper resonators and closed, tapered shallots for the bass and tenor octaves, and stem-and-bell resonators and open, domed, parallel shallots for the remainder of the stop. Such a break would have been abrupt and evident in Union Church’s acoustic, so a structural compromise was struck: Bertounêche shallots throughout, with traditional, coned-in Hautbois resonators for the treble, and stem-and-bell resonators with lifting lids for the 8' and 4' Basson octaves.
The huge, woody 16' Clarinette-Basse is a rarity of great impact if properly scaled, built, and voiced. The inspiration for this stop was Cavaillé-Coll’s 1894 design for the III/46 instrument in the salle de concert in the hôtel particulier of the erudite Baron de l’Espée at 55 Avenue des Champs-Élysées. It was the only 16' manual reed in the organ, residing in one of two powerful Récits.
Half-length cylindrical reeds such as this effectively resonate the fundamental, whereas half-length inverted conical ones do not. It is for this reason that the half-length 16' Bassoon extensions so often built sound weak and thin. I opted for an enormous scale, a world away from the anæmic 16' Dulzians that plagued this nation’s Swell divisions in decades past. Its sound latches on to the 8' Trompette and gives the impression of a 16' Double Trumpet when accompanying English anthems and adds complex color to the ensemble.

Le Positif (perdu et trouvé)

When Union Church embarked on this journey, I maintained the position that I would build a smaller, finer instrument than the one they were using, and that a three-manual organ was not possible; I have seen grand dreams push organ projects to unsatisfactory results, and was ethically bound to protect the clients. As the two-manual design was in the process of refinement, Dr. Turk, Mr. Zachacz, and I collectively admitted that despite the sumptuousness of our little banquet, we still felt pangs of hunger. Could we have a third manual for dessert, even though our stomach was full?
While I could not add a third manual division, I could extract one from the material at hand. Cavaillé-Coll’s designs revealed that there were many ‘givens’, trends, and features within his œuvre, but there were no “standard” specifications, beyond the marketed stock models, which were so often customized for the client. A creative license had been granted.
The 8' extension of the 16' Clarinette-Basse, speaking from the Grand-Orgue in the two-manual design, was the first resident of the new Positif. The mezzo-forte fluework was duplexed to this manual, and two 4' extensions, exclusively in this department, provided it a distinctive timbre and center of gravity. Having lived with this organ since its completion, no one involved can imagine it as a two-manual instrument in light of the returns on this small investment.

La Pédale

Two-manual organs of this style often had pedal divisions borrowed entirely from the manuals. As I had no desire to fall back upon historic precedent as an excuse for absent majesty, I asked organbuilder and consultant Randall Wagner, a longtime friend, to help our firm engineer my desires into the available space.
In addition to the aforementioned 16' Sous Basse unit, there is a 16' Contrebasse, an extension of the 8' Violoncelle. It is built with Haskell re-entrant tubes to save space, and maintains bowing string tone all the way to 16' CCC. The 16' string extension is something I had used in Opus 5, Opus 8, and Opus 9, lending variety, pitch definition, and clarity in lieu of the dull “Echo Lieblich” so often found over the past century.
The 4' Quinzième is an independent principal stop essential to the pedal line. Experience confirms that a 4' pedal voice borrowed from a manual unit interferes with the inner voices of polyphony, contributing to “missing note syndrome” and never quite balancing correctly. When funds and space are rationed, such a measure saves the pedal line.
The 16' Bombarde, with full-length resonators, is an extension of the 8' Trompette. The combined result of all of these ideas results in a more effective pedal division.

The nuts and bolts

The organ’s playing action is electro-pneumatic, combining pitman windchests with individual-pouch unit chests for extensions and duplexed voices. The pipe ranks are planted in major third formation, a centuries-old arrangement that assures both easy access and stable tuning. A turbine located beneath the organ delivers wind at a pressure of four inches water column through single-rise reservoirs, providing a stable, unfailing wind supply, even when the tout ensemble is unleashed. The intake is routed from the church itself for added temperature stability, and the entire organ is built on the same level, with the exception of the 16' octaves.
The console is constructed of mahogany and white oak, bearing manual keyboards of cow bone and walnut. The drawknobs and toe studs are turned from pao ferro, and the pedal clavier is constructed of maple and rosewood. I carved the music desk with a medallion that adheres to this firm’s ideals of “opulent restraint.” It acknowledges 19th-century French harmonium grilles as well as the Art Nouveau botanical forms in Matisse’s rose window, his final work, the design for which he completed two days before his death.
While the console is patterned after the work of Aristide Cavaillé-Coll, there are some concessions to make the contemporary American organist feel more at home, such as the inter-manual couplers front and center, controlled by Skinner-style dominos. The Grand-Orgue is normally played from the second manual keyboard, but the order of the two lowest manuals can be switched to conform to standard 19th-century French layouts. A 256-level combination action provides the freedom of kaleidoscopic registrational changes, so the ventils for the jeux de combinaisons have been foregone.

Where thanks is due

As I said at the service of dedication, my staff does everything, and I do the rest. They are all degreed musicians (oddly, all professional singers) with high standards and amazing work ethics. Albert Jensen-Moulton has kept every single project (and me) on track, and his uncanny attention to detail has enhanced each achievement this company has made since he joined the firm. Dominic Inferrera and Joseph DiSalle were the two principal organbuilding pillars supporting the success of this instrument, and their loyalty is deeply appreciated.
Thomas Zachacz maintains a modest front for somebody who knows as much as he does, and his love for this school of organbuilding and composition surfaces with every discussion. From the start, Tom “got it,” and the process of working for him was not just rewarding, it was fun.
The experience was enhanced by the guidance of a knowledgeable, worldly, and supportive consultant, Dr. Gordon Turk, and when he played the dedicatory recital, it was obvious to all that he understood the nuances of instrument he helped to create.
Pastor DeHoff, the Board of Trustees, and the congregation of Union Church form a rare group of cultured, inquisitive, progressive minds, and their willingness to embrace this project will always remain a notable feature of this period in our lives.
Without the donors, this road would not have been traveled. Without their trust and insight, the results might have been different. Buying a great painting is one thing. Commissioning one from an artist you admire is another. But trusting an unknown to build you a mysterious machine that some time in the future will produce sounds you have never heard takes a good deal of courage. Some of the donors I have met, others I have not, but it is for their trust and courage that I shall always be grateful.
—Sebastian M. Glück

The Laurance Spelman Rockefeller Memorial Pipe Organ
Union Church of Pocantico Hills,
Tarrytown, New York
Glück New York, Opus 11

GRAND-ORGUE (II)
16' Bourdon (from Pédale)
8' Montre (58 pipes, 50% tin)
8' Violoncelle (58 pipes, 50% tin)
8' Flûte Harmonique (1 pipe, 50% tin) (a)
8' Bourdon (38 pipes, pine, mahogany, & 50% tin) (b)
4' Prestant (58 pipes, 50% tin)
2' Doublette (58 pipes, 50% tin)
II–IV Fourniture (196 pipes, 50% tin)
C1 19.22
C13 15.19.22
C25 12.15.19.22
C37 08.12.15.19
C49 01.08.12.15
8' Trompette (from Récit Expressif)
Grand-Orgue Muet
RÉCIT-EXPRESSIF (III)
8' Viole de Gambe (58 pipes, 90% tin)
8' Voix Céleste (46 pipes, 90% tin)
8' Cor de Nuit (58 pipes, poplar, walnut, & 50% tin)
4' Prestant (58 pipes, 50% tin)
4' Flûte Octaviante (58 pipes, 50% tin)
2' Flûte Conique (58 pipes, 50% tin)
16' Clarinette-Basse (12 pipes, 50% tin) (c)
8' Trompette (58 pipes, 50% tin)
8' Basson et Hautbois (58 pipes, 50% tin)
8' Voix Humaine (58 pipes, 30% tin)
Tremblant (I et III)
16' Récit
Récit Muet
4' Récit
POSITIF-EXPRESSIF (I)
8' Violoncelle (Grand Orgue)
8' Flûte Harmonique (Grand Orgue)
8' Cor de Nuit (Récit-Expressif)
4' Viole d’Amour (12 pipes, 50% tin) (d)
4' Flûte Douce (12 pipes, 50% tin) (e)
8' Clarinette (58 pipes, 30% tin)
Cloches
16' Positif
Positif Muet
4' Positif
PÉDALE
16' Sous Basse (32 pipes, poplar & walnut)
102/3' Gros Nasard (from Sous Basse) (g)
8' Octave Basse (Grand-Orgue)
8' Violoncelle (Grand-Orgue)
8' Flûte (Grand-Orgue Bourdon)
4' Quinzième (32 pipes, 50% tin)
4' Flûte Ouverte (Récit-Expressif)
4' Flûte Bouchée (Grand-Orgue Bourdon)
16' Bombarde (12 pipes, zinc) (h)
16' Clarinette-Basse (Récit-Expressif)
8' Trompette (Récit-Expressif)
4' Clarinette (Récit-Expressif)
Cloches

(a) C1–A#11 from Récit Cor de Nuit;
C13–A58 from Récit Flûte Octaviante
(b) Extension of Pédale 16¢ Sous Basse
(c) Extension of Positif 8¢ Clarinette
(d) Extension of Grand Orgue 8¢ Violoncelle
(e) Extension of Récit 8¢ Cor de Nuit
(f) Extension of Grand Orgue 8¢ Violoncelle
(g) Becomes a 32¢ Contre Bourdon at C13
(h) Extension of Récit 8¢ Trompette
Tirasses, Accouplements et Échanges (dominos basculants)
* 8' Tirasse Grand Orgue
* 8' Tirasse Positif
* 8' Tirasse Récit
4' Tirasse Récit

16' Récit au Grand Orgue
* 8' Récit au Grand Orgue
4' Récit au Grand Orgue
16' Positif au Grand Orgue
* 8' Positif au Grand Orgue
4' Positif au Grand Orgue
8' Grand Orgue au Positif

16' Récit au Positif
* 8' Récit au Positif
4' Récit au Positif
Grand Orgue au lieu du Positif

* Piston et Cuillère
Combinaisons (256 levels)
6 adjustable thumb pistons acting upon each manual division
6 adjustable thumb pistons and toe studs acting upon the Pédale division
8 adjustable thumb pistons and toe studs acting upon the entire organ
Tutti thumb piston and cuillère
Annulateur piston
Set piston

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Casavant Frères op. 3837 (2005)
The Brick Presbyterian Church in the City of New York

A brief history of Brick Church’s Casavant organ
Ever since my first encounter with the Cavaillé-Coll archives at Oberlin during my student days there in the early 1980s, it has been a dream of mine to be involved in an organ project that would recreate the sounds of the French symphonic organ in a North American setting. When an anonymous donor came forward to provide funding to replace Brick Church’s long-ailing Austin organ, I knew that the time had come to act upon my dream.
In November 2001, I invited four internationally recognized organ builders from the United States, Canada, the Netherlands, and Germany to bid on a new organ for the Brick Presbyterian Church in the City of New York. I provided the builders with a preliminary specification and design for the organ. The proposed design was strongly modeled after those instruments built in the latter part of the 19th century by the renowned Parisian organ builder, Aristide Cavaillé-Coll. Upon reviewing the proposals from these four organ builders, it was particularly telling that three out of the four builders required the assistance of the pre-eminent Cavaillé-Coll expert Jean-Louis Coignet in order to successfully realize this organ. In July 2002, Brick Church commissioned organbuilders Casavant Frères of Ste-Hyacinthe, Québec, for a new electric slider chest organ of 88 independent stops (101 speaking stops), 118 ranks and 6288 pipes. This organ, with its dual sixteen-foot façades, was installed during the summer of 2005.
As Jean-Louis Coignet writes later in this article, tonally recreating a French symphonic organ in the 21st century is not an easy task. Even for a firm such as Casavant with its long history, the techniques of voicing in this style had long departed the firm. After thorough discussion and experimentation with the Casavant voicers, we finally decided upon Jean-Sébastien Dufour, one of the younger voicers at Casavant, to be the head voicer for this project. Mr. Dufour was the most willing and also the most skilled of Casavant’s voicers to realize Dr. Coignet’s explicit directions. Mr. Dufour was assisted in his labors by Yves Champagne, Casavant’s senior voicer. Jean-Louis Coignet, Jacquelin Rochette (when Coignet was in France), and I carefully guided the voicing process both in the factory and at Brick Church.
The Brick Church project was a very detailed and complex one. I am thankful to the trustees of Brick Church for providing the support for me to travel to Casavant on the average of once every four weeks during the construction of the organ. This hands-on oversight allowed for a most exacting and fruitful collaboration with Casavant. In any large organ project, things can develop that are not planned unless there is continuous and careful oversight. I am thankful to André Gremillet, then president of Casavant Frères, who gave me much freedom to interact with the various departments within Casavant. In essence, Mr. Gremillet allowed me to act as their project director for this project. Such collaboration is rare in the organ industry. Mr. Gremillet also allowed Jean-Louis Coignet to realize his dreams and directives in a manner that had not been afforded Coignet previously at Casavant. The scholarly and artistic interaction between Jean-Louis Coignet, Casavant, and myself on all matters involving this instrument made for as perfect a realization as possible.
The Brick Church commission enabled Jean-Louis Coignet and Casavant to realize, without any compromise, a large, new instrument fully in the French symphonic tradition. Dr. Coignet’s life-long, firsthand experience with the great Cavaillé-Coll organs as expert organier for the historic organs of Paris, along with his encyclopedic knowledge of the symphonic style of organ building, have contributed immensely to the success of the organ both mechanically and tonally. The Brick Church organ has few peers in North America in its ability to accurately reproduce the sounds of the great French organs. This organ also holds a special place in the Casavant opus list. It is the last instrument to be completed by Casavant with Jean-Louis Coignet as their tonal director. Upon completion of this organ, Coignet retired from his position at Casavant and also his position as expert organier for the City of Paris.
This organ, a gift of one anonymous donor, is called the Anderson Organ in recognition of the dedicated ministry of The Reverend Dr. Herbert B. Anderson and his wife Mrs. Mary Lou Anderson. Dr. Anderson was senior pastor of Brick Church from 1978 until 2001.
—Keith S. Toth
Minister of Music and Organist
The Brick Presbyterian Church
New York City

Notes from Jean-Louis Coignet on Casavant Frères Opus 3837
Designing an organ in the French symphonic style is by no means a difficult assignment. However, building a new organ today in that style is more challenging as it requires using techniques, particularly of winding and voicing, which have not been in customary use for a long time. Fortunately, there exist a few examples of fine French symphonic organ building that can be carefully studied in order to regain these techniques. These few examples remain, in spite of the many misguided alterations that had been perpetrated during the 20th century on many symphonic organs, especially in France.
As soon as I was consulted about the Brick Church project, I visited the sanctuary and evaluated its dimensions and acoustics as well as those of the organ chambers. At that time I remembered what Cavaillé-Coll had written concerning the location of organs (in De l’orgue et de son architecture): “It is noticeable that the effect of organs is largely lost whenever they are situated in the high parts of a building; on the contrary they profit by being installed in the lower parts. The small choir organs give a striking example of this fact.” So, far from considering it a pitfall to have to put the organ in chambers on both sides of the chancel, I took the best advantage of the situation.
After much discussion with Keith S. Toth, whose clear vision and strong determination were so important all throughout the building of Opus 3837, I realized that the best instrument for Brick Church would be an organ fairly similar to the one built by A. Cavaillé-Coll for the Albert Hall in Sheffield, England in 1873 (this organ was unfortunately destroyed by fire in 1937). Another inspiration came from the organ in Paris’s Notre-Dame Cathedral as I heard it in the mid-1950s. It is a shame that this organ, which was Cavaillé-Coll’s favorite, was completely altered from its original tonal character in the late 1950s and early 1960s, as was César Franck’s Cavaillé-Coll organ in Sainte-Clotilde, Paris.
The Notre-Dame organ displayed a unique sound effect. In no other organ, with the exception of the Jacquot organ in Verdun Cathedral, had the “ascending voicing” typical of the best French symphonic organs been so splendidly achieved. In fact, the main features of the French symphonic organs are:
• a well-balanced proportion of foundation, mutation and reed stops
• huge dynamic possibilities made possible by many very effective enclosed divisions
• voicing of flue pipes with French slots—“entailles de timbre” (different from the Victorian slots used in some Anglo-American organs) and with nicking sufficient enough to prevent any “chiff”
• a winding system that utilizes double-rise bellows
• ascending voicing with full organ dominated by the reeds

Building process of Opus 3837
Specification: The first step consisted in establishing the final specification of the instrument. It was based upon the preliminary stoplist prepared by Keith Toth. The main change from Mr. Toth’s specification was dividing the Grand-Orgue into two parts, Grand-Orgue and Grand-Chœur, in order to gain more flexibility. This is something that Cavaillé-Coll had done in his most prestigious organs. So, the Brick Church organ has actually five manual divisions. The “chœur de clarinettes” in the Positif as well as the various “progressions harmoniques” are features that were typical of the organ in Paris’s Notre-Dame. The Grand-Orgue Bassons 16′ and 8′ were also inspired by that organ, as well as the independent mutations of the 32′ series in the Pédale.
Apart from the stops peculiar to the French symphonic organ, the Brick Church organ offers a few special effects that were not known in France in the 19th century. Three ranks of pipes (Flutes douce and céleste, Cor français) made for the 1917 Brick Church organ by the esteemed American organ builder Ernest M. Skinner, an admirer of Cavaillé-Coll, were placed in the Solo division. We also retained an interesting Cor anglais (free reed stop) made in Paris by Zimmermann in the late 19th century and imported by the Casavant brothers for one of their early organs. The late Guy Thérien, who built the chapel organ at Brick Church, installed this stop in the previous Austin organ. The Récit’s Voix éolienne is another unique stop that only appeared in Cavaillé-Coll’s large organ at St-Ouen in Rouen. This undulating stop is of chimney flute construction for the most part. Its companion stop is the Cor de nuit. With both stops drawn, a slow undulation is heard. This flute celeste has a haunting beauty not found in the flute celestes of the Anglo-American organ.
Pipework: All the pipework was made according to Cavaillé-Coll scalings; metal pipes are made either of “etain fin” for principals, strings, harmonic part of the flutes, and reeds, or “etoffe” (30% tin) for the bourdons. Wood was used for the bourdons up to B 8′. Wood was also used for the large Pédale stops and for the Contre-Bombarde 32′. For reed stops we used Cavaillé-Coll’s typical parallel closed shallots and also tear drop shallots for the Bassons and Clarinettes 16′ and 8′.
Voicing: Much research on the various voicing parameters was done in order to achieve the desired tone: flue width, toe openings, and nicks were measured on a few carefully preserved French symphonic organs. The slotting was particularly well studied. Thanks to documents from the Cavaillé-Coll workshop in my possession, it was possible to recreate the exact tone of the French symphonic “fonds d’orgue.” In his studies on pipes, Cavaillé-Coll documented this matter quite well: the “entaille de timbre” has to be opened one diameter from the top of the pipe. Its width should be either 1/4 of the pipe diameter for most principals, 1/3 of the pipe diameter for strings and some principals, or 1/5 of the pipe diameter for flutes. It should be noted that the harmonic part of Flûtes harmoniques has to be cut dead length and without slotting (though some organ builders used to make slots even on harmonic pipes). As Jean Fellot very correctly wrote: “Slotting had enormous consequences on voicing. It is not exaggerated to claim that this small detail triggered a real revolution.”
Of particular importance in the formation of our voicing goals for Opus 3837 was a visit by Keith Toth, Dr. John B. Herrington III, and me to the unaltered 1898 Cavaillé-Coll organ of Santa María la Real in Azkoitia in the Spanish Basque territory. This three-manual organ with two enclosed divisions was the last instrument completed under the direction of Aristide Cavaillé-Coll, and was voiced by Ferdinand Prince. Immediately upon hearing and inspecting this organ, Mr. Toth and I knew that our voicing goals were well founded and attainable. Moreover, at the same time, I was supervising the restoration of two little-known Parisian organs built in the symphonic style: the Cavaillé-Coll-Mutin (1903) organ in Saint-Honoré-d’Eylau and the Merklin (1905) organ in Saint-Dominique. This enabled me to handle pipes that had not been altered (both organs had escaped the neo-classic furia!), to note their exact parameters and compare their sound to new pipes being voiced.
Winding: Large reservoirs were used throughout, some with double-rise bellows, in order to ensure ample wind supply. The overall wind system is remarkably stable, even when the “octaves graves” are used, but with a subtle flexibility that enhances the instrument’s intrinsic musical qualities. Wind pressures are moderate (from 80mm on the Positif to 135mm for the Solo Tuba), which accounts for the unforced tone of the instrument.
Windchests: Slider chests with electric pull-downs were used for the manual and upper Pédale divisions. The large basses were placed on electro-pneumatic windchests.
Console: Lively discussions and visits with Keith Toth resulted in an elegant console with all controls readily accessible. The console, with its terraced stop jambs of mahogany and oblique stopknobs of rosewood and pao ferro, is patterned after those built by Casavant in the late 19th and early 20th centuries. The highly carved console shell is of American red oak and is patterned after the communion table in the chancel of Brick Church. The manuals have naturals of bone with sharps of ebony. The pedalboard has naturals of maple and sharps of rosewood.
Expression: The enclosures are built with double walls of thick wood with a void between the walls. The shades are of extremely thick dimension. These elements allow for the performance of huge crescendos and diminuendos.
Conclusion: Such a complex undertaking would have never been successful without the collaborative spirit that prevailed throughout the process and certainly not without Keith Toth’s determination and involvement. In fact, on many points, he acted as a “maître d’oeuvre”—during the phase of preparation, we had nearly daily phone conversations that were most enlightening. His numerous visits in the workshop as the organ was being built proved extremely useful. It was a great privilege to collaborate with an organist who has such a deep understanding of the French symphonic organ. His absolute resolve for only the very best was most inspiring. It is our hope that this new organ will serve and uplift the congregation of the Brick Presbyterian Church and that, together with the magnificently renovated sanctuary, it will enrich New York City’s grand musical heritage.
—Jean-Louis Coignet
Châteauneuf-Val-de-Bargis, France

Grand-Orgue (I)
1. Bourdon (1–12 common with No. 78; 13–61 from No. 3) 32′ —
2. Montre (70% tin, 1–18 in façade) 16′ 61
3. Bourdon (1–24 wood, 25–61 30% tin) 16′ 61
4. Montre (70% tin, 2–6 in façade) 8′ 61
5. Salicional (70% tin) 8′ 61
6. Bourdon (1–12 wood, 13–61 30% tin) 8′ 61
7. Prestant (70% tin) 4′ 61
8. Quinte (70% tin) 22⁄3′ 61
9. Doublette (70% tin) 2′ 61
10. Grande Fourniture III–VII (70% tin) 22⁄3′ 326
11. Fourniture II–V (70% tin) 11⁄3′ 224
12. Cymbale III–IV (70% tin) 1′ 232
13. Basson (70% tin, full-length, extension of No. 14) 16′ 12
14. Baryton (70% tin) 8′ 61
Grand-Orgue Grave
Grand-Orgue Muet

Grand-Chœur (I)
15. Violonbasse (Open wood, extension of No. 17) 16′ 12
16. Flûte harmonique (70% tin) 8′ 61
17. Violon (1–12 open wood, 13–61 70% tin) 8′ 61
18. Flûte octaviante (70% tin) 4′ 61
19. Grand Cornet V (From No. 20) 16′ —
20. Cornet V (30%/70% tin, from Tenor C) 8′ 245
21. Bombarde (70% tin; full-length) 16′ 61
22. Trompette (70% tin) 8′ 61
23. Clairon (70% tin, breaks back to 8′ at F#4) 4′ 61
Grand-Chœur Grave
Grand-Chœur Muet

Positif (II)
24. Quintaton (1–24 wood, 25–61 30% tin) 16′ 61
25. Principal (70% tin) 8′ 61
26. Dulciane (70% tin) 8′ 61
27. Unda maris (From GG, 70% tin) 8′ 54
28. Flûte harmonique (70% tin) 8′ 61
29. Bourdon (1–12 wood, 13–61 30% tin) 8′ 61
30. Prestant (70% tin) 4′ 61
31. Flûte douce (30% tin, with chimneys) 4′ 61
32. Nasard (30% tin) 22⁄3′ 61
33. Flageolet (30% tin) 2′ 61
34. Tierce (30% tin) 13⁄5′ 61
35. Larigot (30% tin) 11⁄3′ 61
36. Septième (30% tin) 11⁄7′ 61
37. Piccolo (30% tin) 1′ 61
38. Plein Jeu II–V (70% tin) 11⁄3′ 233
39. Clarinette basse (70% tin) 16′ 61
40. Trompette (70% tin) 8′ 61
41. Cromorne (70% tin) 8′ 61
42. Clarinette soprano (70% tin) 4′ 61
Tremolo (Tremblant doux)
Positif Grave
Positif Muet

Récit (III)
43. Bourdon (1–24 wood, 25–61 30% tin) 16′ 61
44. Diapason (70% tin) 8′ 61
45. Flûte traversière (70% tin) 8′ 61
46. Viole de gambe (70% tin) 8′ 61
47. Voix céleste (From CC, 70% tin) 8′ 61
48. Cor de nuit (1–12 wood, 13–61 30% tin) 8′ 61
49. Voix éolienne (From Tenor C, 30% tin, stopped pipes with chimneys) 8′ 49
50. Fugara (70% tin) 4′ 61
51. Flûte octaviante (70% tin) 4′ 61
52. Nasard (30% tin) 22⁄3′ 61
53. Octavin (70% tin) 2′ 61
54. Cornet harmonique II–V (30%/70% tin) 8′ 245
55. Plein Jeu harmonique II–V (70% tin) 2′ 228
56. Bombarde (70% tin; full-length) 16′ 61
57. Trompette harmonique (70% tin) 8′ 61
58. Basson-Hautbois (70% tin) 8′ 61
59. Voix humaine (70% tin) 8′ 61
60. Clarinette (70% tin) 8′ 61
61. Clairon harmonique (70% tin) 4′ 61
Tremolo (À vent perdu)
Récit Grave
Récit Muet
Récit Octave
Sostenuto

Solo (IV)
62. Flûte majeure (1–24 open wood, 25–61 30% tin) 8′ 61
63. Flûtes célestes II (Existing Skinner pipework) 8′ 110
64. Violoncelle (70% tin) 8′ 61
65. Céleste (70% tin) 8′ 61
66. Viole d’amour (70% tin) 4′ 61
67. Flûte de concert (70% tin) 4′ 61
68. Nasard harmonique (70% tin) 22⁄3′ 61
69. Octavin (70% tin) 2′ 61
70. Tierce harmonique (70% tin) 13⁄5′ 61
71. Piccolo harmonique (70% tin) 1′ 61
72. Clochette harmonique (70% tin) 1⁄3′ 61
73. Tuba magna (Tenor C, from No. 75) 16′ —
74. Cor de basset (70% tin, hooded) 16′ 61
75. Tuba mirabilis (70% tin, hooded from CC) 8′ 61
76. Cor français (Existing, revoiced; on separate chest) 8′ 61
77. Cor anglais (Existing, revoiced) 8′ 61
Tremolo (À vent perdu)
Solo Grave
Solo Muet
Solo Octave
Sostenuto

Pédale
78, Soubasse (Stopped wood, extension of No. 82) 32′ 12
79. Flûte (Open wood) 16′ 32
80. Contrebasse (70% tin, 1–18 in façade) 16′ 32
81. Violonbasse (Grand-Chœur) 16′ —
82. Soubasse (Stopped wood) 16′ 32
83. Montre (Grand-Orgue) 16′ —
84. Bourdon (Récit) 16′ —
85. Grande Quinte (Open wood) 102⁄3′ 32
86. Flûte (Open wood) 8′ 32
87. Violoncelle (70% tin, 2–6 in façade) 8′ 32
88. Bourdon (1–12 stopped wood, 13–32 30% tin) 8′ 32
89. Grande Tierce (70% tin) 62⁄5′ 32
90. Quinte (70% tin) 51⁄3′ 32
91. Grande Septième (70% tin) 44⁄7′ 32
92. Octave (70% tin) 4′ 32
93. Flûte (Open wood) 4′ 32
94. Cor de nuit (70% tin) 2′ 32
95. Contre-Bombarde (Wood, full-length, hooded, extension of No. 96) 32′ 12
96. Bombarde (1–6 wood, 6–32 70% tin) 16′ 32
97. Basson (Grand-Orgue) 16′ —
98. Bombarde (Récit) 16′ —
99. Trompette (70% tin) 8′ 32
100. Baryton (Grand-Orgue) 8′ —
101. Clairon (70% tin) 4′ 32

Analysis
Stops Ranks Pipes
Grand-Orgue 12 25 1343
Grand-Chœur 7 11 623
Positif 19 23 1324
Récit 19 27 1498
Solo 15 16 964
Pédale 16 16 536
TOTAL 88 118 6288

Couplers
(Multiplex)
Grand-Orgue à la Pédale
Grand-Chœur à la Pédale
Récit à la Pédale
Récit Octave à la Pédale
Positif à la Pédale
Positif Octave à la Pédale
Solo à la Pédale
Solo Octave à la Pédale

Récit Grave au Grand-Orgue
Récit au Grand-Orgue
Récit Octave au Grand-Orgue
Positif Grave au Grand-Orgue
Positif au Grand-Orgue
Solo Grave au Grand-Orgue
Solo au Grand-Orgue
Solo Octave au Grand-Orgue
Pédale au Grand-Orgue

Grand-Orgue au Positif
Grand-Chœur au Positif
Récit Grave au Positif
Récit au Positif
Récit Octave au Positif
Solo au Positif

Solo au Récit
Solo Octave au Récit

Grand-Chœur au Solo

* Grand-Orgue – Grand-Chœur / Positif Reverse (including divisional combinations)
* This control is not affected by the combination action, crescendo or full organ.
Union des Expressions
Coupure de Pédalier

 

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Berghaus Pipe Organ Builders, Inc., Bellwood, Illinois
St. John’s Episcopal Church, Norwood Parish, Bethesda,
Chevy Chase, Maryland

From the organbuilder
St. John’s Episcopal Church, Norwood Parish, is located just minutes away from Washington National Cathedral on the border between Bethesda and Chevy Chase, Maryland. St. John’s began in 1873 as a small mission congregation in what was then rural Bethesda. By 1895, the church had been elevated to parish status within the newly formed Diocese of Washington. Throughout its history, St. John’s has been dedicated to “building community at the crossroads of faith and life.” Today, the parish continues to honor this tradition by offering beautiful, liturgically oriented worship services and by providing a wide variety of programs that minister to the diverse needs of the congregation and community.
Prior to the renovation of St. John’s 500-seat Georgian-style sanctuary, the nave presented a feeling of light-filled openness, while the deep and narrow chancel appeared both dark and restrictive. In typical fashion, choir stalls were divided on both sides of the chancel, with the high altar placed against the front wall. The existing organ consisted of three manual divisions with the Great, Swell, and Pedal installed in chambers along the east wall, and the Choir placed on the west wall. Throughout its history and despite the best intentions of the parish, the organ suffered several major incidents involving water damage. With the east wall of the chancel positioned directly beneath the bell tower, it was determined that the tower was, in fact, the root of the problem. Although the tower had previously undergone extensive renovation, water was continuing to find its way into the chambers. At the urging of then director of music Douglas Beck, an organ committee was formed and charged with the task of identifying possible solutions. The committee was also asked to investigate and recommend several organ builders. The committee also felt that it would be wise to engage an organ consultant and did so by involving Donald Sutherland from the Peabody Institute. The initial findings of the committee can be summed up in the following two recommendations. First, the repair of the existing organ would not represent a sound artistic or economic option. Second, a new instrument should not be returned to the existing chambers. Based on these parameters, the committee proceeded to identify a select group of organ builders and to ask each builder to submit their vision for an instrument that would not only meet the liturgical requirements of the parish, but allow the parish to further expand its role in offering artistic expressions of faith to the greater community.
As discussions continued relative to the placement of the organ, it became increasingly clear that installing the organ in any other area of the sanctuary would require changes to the structure of the building. It was also at this point that the clergy and many of the parishioners suggested that the parish consider a comprehensive renovation of the chancel. Given this suggestion, a second committee, called the Architectural Review Committee, was formed to oversee the process and to investigate potential architects and contractors. With the selection of Kerns Group Architects and Forrester Construction, the “ARC” noted that a final decision regarding an organ builder should be made so that all parties could work in a collaborative fashion. On the recommendation of the organ committee, Berghaus Pipe Organ Builders, Inc. was selected to build the new instrument. Recognizing that the combined project including renovations to the building and the construction of a new pipe organ would require a significant financial commitment, St. John’s vestry authorized the formation of a third committee to oversee the fund raising process. The combined efforts of the Organ Committee, Architectural Review Committee, and the Capital Campaign Committee were incorporated under the theme “Enhance, Renew, Rejoice!”
Early in the process of examining the space, it was determined that placing the organ in the gallery would be difficult and limiting. The lack of height and depth would require that the entire rear portion of the church be rebuilt. There was also a great deal of concern expressed about the necessity of moving the choir to the gallery. Although some members of the parish had initially favored this approach, they quickly grasped the complexities involved and shifted their support to the possibilities represented by the chancel. Above and beyond the issue of the organ, enhancing the worship space was an important ingredient in St. John’s view that worship should involve a greater sense of community. One option was to open and enlarge the chancel, creating an inviting space for various forms of worship. Another was to bring the altar forward and install a new communion rail such that it would bring the communion experience closer to the congregation and enable more of those present to take communion at the rail. The ARC was also hopeful that natural light could find its way into the chancel so that the space would have the same warm, inviting feel currently attributed to the nave. This eventually led the architect to modify two of the former organ chambers and add skylights so that the chancel is bathed in soft, natural light. Another transforming suggestion involved moving the choir out of its traditional split arrangement and facing them towards the congregation. With the adoption of these suggestions, it was decided that the ideal placement of the new pipe organ was along the central axis of the building. The new organ would thereby occupy approximately 12 feet of the existing depth at the front of the chancel. This effectively moved the chancel forward placing parishioners, clergy, musicians, etc. in closer proximity. Obviously this change also provided the means for both music and the spoken word to be heard in a clear and full fashion.
St. John’s began its journey to rejuvenate the life of the congregation not only by overhauling the chancel and replacing the organ, but also by enhancing and renewing their relationship with the Creator. Staying close to its roots as a mission congregation, the early parish embraced a low-church form of worship. In the 1970s, under rector William A. Beal, the congregation experimented with a variety of new worship styles, including the Episcopal Church’s trial liturgies. This “new tradition” included the use of the 1979 Prayer Book. The move towards higher church expression continued into the 1980s and 1990s under Rev. Duane Stuart Alvord, and continues today under the leadership of the current rector, Rev. Susan M. Flanders, and the associate rector, Rev. Harrison West. The beautiful construction of the current worship form and the growing excellence of the music program as initially developed under the auspices of former director of music, Douglas Beck, and built upon by the current director of music, Anne Timpane, made it apparent that the new instrument would be required to provide ample support for congregational singing, but must also be an instrument that supports the Anglican choral repertoire. The organ committee’s visits to a wide variety of instruments across the full spectrum of builders pointed to the fact that the parish desired an instrument of great breadth of tone and timbre, with a sound that would fill the space, but not entirely overpower it. It was also important that the organ contain the subtle stops necessary to accompany children’s choirs while having the ability to uphold the congregation with a sense of majesty and power. However, it was also the desire of the former director of music that the instrument should be French-inspired, both in its specification and in its appearance. Given the design of the building, we chose to represent the visual aspect of this request in the design of the console.
The new Berghaus pipe organ at St. John’s Episcopal Church contains 58 speaking stops and 63 ranks over three manuals and pedal. The placement of the instrument along the central axis of the nave allows for optimal sound projection while enhancing the visual impact of the chancel space, most notably as natural light from the skylights reflects off the polished zinc façade. The painted, incised hardwood case is accented with solid walnut trim and gold-leafed pipe mouths. The case also features columns that emulate the columns found throughout the nave. The layout of the organ was intended to give each division its proper musical placement while providing easy access for tuning and service. The Grand-Orgue and Pédale are situated just behind and at the top of the façade, while the expressive Récit and Positif divisions are at the mid or impost levels. This arrangement establishes a leadership role for the Grand-Orgue and Pédale in accompanying congregational singing, while the Récit and Positif, placed at a lower level, are suitable for accompanying choral literature. Set at the very top of the case is a large semicircular arch that continues the barrel vault design of the nave, and allows for full projection of the Grand-Orgue chorus. While not strictly adhering to a particular historical period, the organ, both in terms of its stoplist and tonal approach, is a synthesis of the classical and romantic styles. This synthesis emphasizes a clear, singing quality in the individual stops, while providing depth and warmth when stops are used in combination. Each division contains a complete principal chorus, characteristic flute stops and a full battery of reeds that range from the very subdued to the fiery. Those who have experienced this instrument firsthand remark on how the organ increases in fullness as more stops are drawn. The favorable, but not overly reverberant acoustic is obviously helpful in this instance. The use of Berghaus custom slider and pallet windchests for the majority of the fluework and for certain reeds allows for a natural, unforced sound that ensures favorable blending qualities and excellent tuning stability. Much of the pipework in the organ is scroll and cone tuned. Stops on slider windchests are voiced on 3¼? of wind, while the majority of the reeds are voiced on pressures that range between 3½? and 4?.
The Grand-Orgue is based on a large-scaled 8? Montre constructed from 75% tin. This stop has a rich, full, singing quality, while at the same time providing articulation and clarity to the rest of the chorus. The 8? Gambe is a soft string with moderate sizzle. When combined with the full-bodied 8? Bourdon, it creates a secondary principal-like timbre. The 8? Flute Harmonique is an open flute throughout the compass and becomes harmonic at g32. It is well suited as a blending stop in the jeux de fonds combination, or as a solo stop when required by the Romantic repertoire. The 4? Flute Octaviante is a lighter and softer alternative to the 8? Flute Harmonique. Mutations in this division are based on principal scales and constructed from 52% tin. These stops are voiced to enhance the harmonic series present in the plenum. When used in combination with the flutes, the mutations provide a lighter, brighter cornet in contrast to the Mounted Cornet. The 8? Trompette is constructed from 52% tin, and contains English tapered shallots. Since the organ has a strong solo trumpet, this Trompette was voiced to blend with the flue stops within the division. The Mounted Cornet is scaled and constructed based on the French classical school. The 8? rank is a bourdon, with subsequent ranks being open. The 13?5? rank is proportionally the largest in scale. This stop, with its compass from c13 to g56, is musically successful in literature ranging from Byrd and Buxtehude, to Couperin and DuMage. The Trompette Royale is the organ’s crowning solo reed. Voiced on 10? of wind, the stop contains resonators that are hooded for maximum projection. Overall, the Grand-Orgue sets the tone of the entire instrument. Its placement at the center of the long axis provides an ideal vantage point for strong musical leadership, particularly in accompanying congregational singing. One stop from the former instrument was used in the new instrument. A 16? mahogany Quintaton was extensively rebuilt and revoiced to add a light 16? timbre to the Grand-Orgue.
The musical demands of the Anglican service require that an instrument have a wide variety of voices and dynamic possibilities, particularly in music for choir and organ. Given this situation, entire tonal divisions were designed to work as a unified whole. The Positif Expressif is also based on an 8? Principal of 75% tin and is designed to function as a secondary chorus to the Grand-Orgue. The gentle and singing nature of these principals provides ideal color for Baroque and Renaissance literature. Because of its enclosed placement, the chorus is extremely useful in accompanying choirs and instrumental ensembles. Flute stops include an 8? Bourdon (wood) and a 4? Flûte à Fuseau. In contrast to the Grand-Orgue, the mutations of the Positif are scaled to blend well with flutes versus principals. The 22?3? Nasard relies on Koppelgedackts in its bass octave. The 2? Quarte de Nasard is essentially a hybrid stop, beginning as a light principal, than taking on a bright flute tone in the treble range. The four-rank 1? Cymbale is useful as a chorus mixture, as well as offering a bell-like timbre to lighter textures. The two reeds include a narrow-scale 8? Trompette designed to blend with the principal chorus and an 8? Cromorne, which can be used successfully in either classical or romantic repertoire.
The Récit contains a wide variety of stops, each with its own unique construction. The Salicional and Voix Celeste are small in scale and slotted to give the pair a decidedly French sound. The 8? Flûte à Cheminée features long, wide chimneys for optimal harmonic development. The 4? Flûte Conique is of the Spitzflöte variety and is made of 40% tin. Perhaps one of the most unique stops is the 2? Flûte à Bec, or Block Flute, which incorporates large-scale pipework. Another unique feature of the Récit is the ability to combine the 8? Flûte à Cheminée with the 8? Voix Celeste. The separation that exists between the two ranks provides the slow undulating pattern typically heard in flute celestes. Since an 8? Principal does not exist in this division, the five-rank, 2? Plein Jeu is designed to reinforce the 8? and 4? pitches at earlier points than generally found in typical mixture compositions. The 8? Trompette and 4? Clairon are fiery reeds in the Cavaillé-Coll style, featuring ring and nut construction and resonators of 70% tin. The 8? Hautbois is reminiscent of the English variety. The 16? Basson is voiced to add gravity to the Swell reed chorus while introducing a lighter reed character in the Pédale. The entire reed chorus is placed at the back of the expression chamber with reeds voiced on 4? of wind.
The Pédale is based on the 16? Montre located in the façade. Given the variety of independent stops of varying dynamics and timbre, the Pédale division provides unusually full support for the demands of the manual divisions. The 32? Basse Acoustique is derived from the 16? Montre (unison) and the 16? Soubasse (quint). As an alternative to the 8? Pedal Octave, the 8? Cor de Chamois (Gemshorn) is suitable for giving the 8? line a more pointed emphasis, especially in Baroque combinations. The 32? and 16? Bombarde have wood resonators for maximum fundamental.
All aspects of the organ console, including the bench and music rack, were specifically designed for this instrument. The detail associated with the console complements not only the casework but many of the features that exist within the worship space. Since the director of music at St. John’s is both organist and choirmaster, the profile of the console needed to be low enough to allow the organist to direct the choir from the console. The low-profile French terraced design is constructed from solid walnut with added walnut veneers to insure the consistency of the grain pattern. Curved terraces are made from book-matched, burled walnut and are home to the oblique-face, pau ferro drawknobs. Stops are logically laid out with plenum and major reeds to the organist’s right; flutes, strings, mutations, and minor reeds to the left. Keyboards with maple naturals and walnut sharps feature top-resistant touch for maximum responsiveness. To keep the console free of electronic clutter, the memory level, record/playback and clochette controls are contained in a swivel drawer located on the right-hand side of the console.
The blessing of the new Berghaus organ and the newly renovated chancel was presided over by Bishop John Bryson Chane of the Diocese of Washington. In attendance were representatives from the Lift High the Cross Capital Campaign, the Organ and Architectural Review committees, Kerns Group Architects, Forrester Construction, and Berghaus Pipe Organ Builders. The organ itself was dedicated on Saturday, May 10, and featured nine prominent organists from the greater Washington area.
The completion of the organ is the culmination of many years of planning, preparation, and hard work by the individuals and committees at St. John’s, as well as the organ builder, architect, and general contractor. The result of this work is a grand worship space that uniquely fits the needs of the parish, and an instrument that will serve and inspire the congregation as well as the larger community for generations to come. Berghaus Pipe Organ Builders wishes to thank all those who helped make this project possible. We wish to thank The Reverend Susan Flanders, rector; The Reverend Harrison West, associate rector; Christine Walz-Dallaire, senior warden 2006–07; Ken Lee, senior warden 2007–08; Cynthia Stroman, organ committee chair; Suzanne Welch, architectural review committee chair and project manager; Bill Fry and Richard Saltsman, co-chairs of the Lift High the Cross capital campaign committee; Mike McConihe, chancellor; Douglas Beck, former director of music ministries; Anne Timpane, director of music ministries; Brian Briggs, parish administrator; and the many parishioners who gave of their time, talent, and treasure. Berghaus also wishes to thank Tom Kerns and Koji Hirota of Kerns Group Architects and Bassem Melham, Bill Morrissette, and Will Durham of Forrester Construction.
Berghaus Pipe Organ Builders also wishes to thank members of its staff for their countless hours and dedication to this project:
Brian Berghaus, president
David McCleary, director of sales and marketing
Tonal design: Jonathan Oblander, Kelly Monette
Visual design and layout: Steven Protzman
Voicing and tonal finishing: Kelly Monette, Jonathan Oblander, Mitch Blum
Construction: Stan Bujak, Chris Czopek, Steve Drexler, Jeff Hubbard, Trevor Kahlbaugh, Kurt Linstead, David Mueller, Daniel Roberts, Tim Roney, Paul Serresseque, Ron Skibbe, Jordan Smoots, Paul Symkowski, Mark Ber, Randy Watkins, Andy Schach.
Jonathan Oblander
Tonal director
Berghaus Pipe Organ Builders

From the director of music ministries
In January 2007, St. John’s signed a contract with Berghaus Pipe Organ Builders to build a new instrument that would fulfill and expand the music ministry’s mission and vision:

to explore the journey of faith and life through music; unite parishioners . . . by embracing and cultivating talents and gifts . . . enliven liturgy and community, nourish the musical and creative spirit . . .; inspire the people of St. John’s . . . strengthening relationships with God and one another.

St. John’s has had a pipe organ for more than 80 years. Organ music has enhanced important events in the life of the parish, from weekly worship services, to special holiday music, to baptisms, weddings, funerals and other occasions. However, progressive structural deterioration of the existing organ had caused significant wear and damage to the instrument’s infrastructure. The organ became increasingly unreliable, and so the decision was made not only to replace the instrument but also to think creatively about the chancel’s architectural design. Taking into consideration the size of the room, the number of people that the room will accommodate, and the desired uses of the instrument, it was decided to place the new organ on the central axis of the church for optimal sound projection and flexibility within the space. Berghaus worked in conjunction with our architectural review committee to find a harmonious blend of the advantages and challenges associated with the organ placement and chancel reconfiguration. The result is our stunning new three-manual custom-made work of art.
Berghaus was chosen by our organ builder selection committee after extensive information gathering and evaluation of the proposals submitted by several prominent organ builders. Berghaus’s excellent reputation, design philosophy, and character made them the stand out choice for St. John’s. Their attention to detail, dedication to craftsmanship, and ability to work within our timeframe and cost considerations resulted in an instrument that is not a reflection of me, or Berghaus, but of St. John’s and its parishioners.
Through the generosity of our donors, the work of Berghaus Pipe Organ Builders, and the talents of the guest organists who helped dedicate the instrument, we have built an instrument that will enrich our worship and give music to lift our spirits for year to come.
Anne Timpane
Director of music ministries

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GRAND-ORGUE – Unenclosed – Manual I. 31?4? wind pressure
16? Quintaton 61 pipes existing, mahogany, revoiced
8? Montre 61 pipes 75% tin throughout
8? Gambe 61 pipes 1–12 zinc, 13–61 52% tin
8? Flûte Harmonique 61 pipes 1–12 zinc, 13–61 52% tin, harmonic @ g32
8? Bourdon 61 pipes 52% tin
4? Prestant 61 pipes 52% tin
4? Flûte Octaviante 61 pipes 75% tin, harmonic @ c25
22?3? Quinte 61 pipes 52% tin
2? Doublette 61 pipes 75% tin
13?5? Tierce 61 pipes 75% tin
8? Cornet V 220 pipes 52% tin, c13–g56
11?3? Fourniture IV 244 pipes 75% tin (19-22-26-29)
8? Trompette 61 pipes resonators of zinc and 52% tin
Tremblant
16? Trompette Royale 1–12 from Ped 16? Bombarde; 13–61 from 8? Trompette Royale
8? Trompette Royale 61 pipes hooded resonators, voiced on 10? wind
Clochettes 5 bells (with adjustable delay, speed, and volume)

RÉCIT EXPRESSIF – Enclosed – Manual III. 31?4? (flues) and 4? (reeds) w.p.
8? Salicional 61 pipes 1–12 zinc, 13–61 52% tin, slotted
8? Voix Céleste FF 56 pipes 6–12 zinc, 13–61 52% tin, slotted
8? Flûte à Cheminée 61 pipes 52% tin
4? Prestant 61 pipes 52% tin
4? Flûte Conique 61 pipes 40% tin
2? Flûte à Bec 61 pipes 52% tin
2? Plein Jeu V 305 pipes 75% tin (15-19-22-26-29)
16? Basson 61 pipes resonators of zinc and 52% tin, 1–18 L/2
8? Trompette 61 pipes resonators of 70% tin, parallel open shallots
8? Hautbois 61 pipes resonators of zinc and 52% tin
8? Voix Humaine 61 pipes resonators of 52% tin
4? Clairon 61 pipes resonators of 70% tin, parallel open shallots
Tremblant
8? Cornet V — (G.O.)
8? Trompette Royale — (G.O.)

POSITIF EXPRESSIF – Enclosed – Manual II. 31?4? wind pressure
8? Principal 61 pipes 75% tin throughout
8? Bourdon 61 pipes poplar
8? Flûte Celestes II (console preparation)
4? Octave 61 pipes 52% tin
4? Flûte à Fuseau 61 pipes 52% tin
22?3? Nasard 61 pipes 52% tin
2? Quarte de Nasard 61 pipes 52% tin
13?5? Tierce 61 pipes 52% tin
11?3? Larigot 61 pipes 52% tin
1? Cymbale IV 244 pipes 75% tin (26-29-33-36)
8? Trompette 61 pipes resonators of zinc and 52% tin
8? Cromorne 61 pipes resonators of zinc and 52% tin
Tremblant
8? Cornet V — (G.O.)
8? Trompette Royale — (G.O.)

PÉDALE – Unenclosed. Wind pressure 31?4? except Bombarde (4?)
32? Basse Acoustique — derived from 16? Montre and 16? Soubasse
16? Contrebasse (console preparation)
16? Montre (façade) 32 pipes 1–25 polished zinc, 26–32 75% tin
16? Soubasse 32 pipes poplar
16? Quintaton — (G.O.)
8? Octave 32 pipes 75% tin throughout
8? Cor de Chamois 32 pipes 1–12 zinc, 13–32 52% tin
8? Bourdon 12 pipes (extension of 16? Soubasse)
4? Basse de Choral 32 pipes 75% tin
4? Bourdon 12 pipes (extension of 16? Soubasse)
22?3? Fourniture IV 128 pipes 75% tin (12-15-19-22)
32? Contre Bombarde 12 pipes L/2 resonators of pine (extension of 16? Bombarde)
16? Bombarde 32 pipes L/1 resonators of pine
16? Basson — (Récit)
8? Trompette 32 pipes
4? Clairon 32 pipes
8? Trompette Royal — (G.O.)

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