Cover feature

J.H. & C.S. Odell, East Hampton, Connecticut, Opus 644

St. Ann’s Episcopal Church, Bridgehampton, New York

From the Rector of St. Ann’s

The committee all agreed--something had to be done. For
years the church organ had been in irreversible decline, and the time had come
to act. I regarded this to be a daunting and confusing challenge in which we
needed professional counsel. Dr. Mark Andersen guided us through the various
options and needs of the decision-making process, and by July 2004 it was
agreed that J.H. and C.S. Odell of East Hampton, Connecticut be engaged to
restore the organ. It was a decision that we would never regret.

In September 2004, Edward and Holly Odell arrived to remove
the existing organ. Pipes were carefully laid out in special boxes. Frames and
blowers were removed--and those were only the things that I could
identify! It all happened remarkably quickly, and before long the truck was
driven away leaving a large space where the console had once stood, and a
spotlessly clean church where the disassembly had taken place.

The novelty of using just piano and occasional other
instruments wore off after Christmas, and we waited anxiously for the organ to
return. Our patience was not helped by tantalizing photographs and reports sent
regularly from the Odell factory showing the new instrument taking shape!

It was March 2005 (the day I was flying off on vacation)
that the Odell team returned. It was time to put the whole thing together, but
it was only two weeks before Holy Week, and three to Easter. Could it really be
done?

Eight days later I returned to find the church in wonderful
disarray with parts and pipes everywhere, and Edward Odell looking and sounding
confident, if a little tired. Yes, of course it could be done. The project was
running according to schedule. The organ would be partly voiced by Palm Sunday
and ready for Easter.

Every part was in place and every promise fulfilled. A
magnificent new console was carefully maneuvered into position. Pipes were
ready and being expertly voiced by Holly Odell. Cables and wires were
connected. The organ had life--and was indeed ready for Easter morning. It
was resurrection in a different form!

We have not looked back since then. Not only has this
instrument enhanced our Sunday worship, it has enabled us to host a season of
superb organ recitals over the summer, and earned for St. Ann’s Church a
reputation for being a place where good music can be found.
style="mso-spacerun: yes"> 

Working with the Odell Organ Company has been not only a
proven right decision but also a joy. From the outset we not only admired the
professionalism of Edward and Holly Odell, but also came to share in their love
of organs and sheer depth of knowledge in their field. All these things,
coupled with their warmth and sense of humor, have made the whole process one
which we can reflect on with immense satisfaction. It is never an easy task for
a small parish church to embark on such a large project and investment, but we
know that we have learned and benefited so much from choosing the right organ
and the right builder.

The Reverend Tim Lewis, Rector

St. Ann’s Episcopal Church

Bridgehampton, New York

From the Consultant

As an organ consultant for nearly 35 years, I have had the
opportunity to design a large range of instruments from the smallest two-manual
to several five-manual instruments throughout the United States, England, and
Australia.

St. Ann’s parish is that wonderful combination of
sophistication in a relaxed atmosphere. It is many New Yorkers’ church away
from home, and the organ would have to meet the discriminating tastes of
parishioners who worship in some of the largest churches in the metropolitan
area.

There was not much with which to start--an old hybrid
Möller from the ’20’s that was on its very last legs after having several ranks
replaced over the years. I designed an organ specification capable of
accompanying a proper Anglican service, but in a size and fit that matched St.
Ann’s. After requesting bids from many organbuilders, it was clear that J.H.
& C.S. Odell had the talent to see the task through with outstanding
results. Tonally the organ now fits the space perfectly and is complete enough
in specification to satisfy even the most discriminating organists. The
craftsmanship is superb, and the voicing is clear and clean, leaning beautifully
toward the English tradition. The project has surpassed my expectations.

Mark Andersen, PhD

New Berlin, New York

From the Organbuilder

Our Opus 644 began life as what could be termed a “Heinz 57”
instrument, which is to say it featured a combination of pipes and parts from a
combination of organbuilders and suppliers. The console case and most of the
wooden pipes in the organ date from a five-stop 1927 M.P. Möller instrument,
which was then rebuilt and altered in the early 1970s. It was during this 1970s
rebuild that much of the original pipework was replaced.

As we found it, the organ was a unified instrument of modest
resources, most of them well made if not terribly well looked after. It was
unrefined, but met the basic requirements. In the 1980s a German supply house
Trumpet 8’ and Mixture III (inexplicably, a Zimbel based on 2?3’ pitch) were
added, along with a polished tin Gemshorn that was used to form a façade. The
entire organ was in a single expression chamber to the right of the chancel. The
existing electro-pneumatic unit chests, made from solid mahogany, were in good
physical condition, though the installation made maintenance access difficult
in certain areas.

In July of 2004, Dr. Mark Andersen (organ consultant to St.
Ann’s) approached us with a prospectus that included a rebuild and enlargement
of the organ. In addition to new pipes and new chest work, a new 3-manual
terrace-jamb console was part of this plan.

Dr. Andersen’s proposed stoplist would add a total of nine
ranks to the organ. The scheme had an immediate appeal, as it would expand the
resources of the organ to include a full principal chorus in the Great, as well
as a new 8’ Rohrflute to contrast the existing Chimney Flute in the Swell.
“Fleshing out” the Great with six new ranks allowed us to recast the remaining
resources to work as a mostly independent Swell division. The new scheme would
also extend the existing Trumpet to 16’ pitch to play from the Pedal and add a
small Cornet (a tenor C, 2-rank 12/17 combination, scaled and voiced to match
the new Great flute).

The challenge, of course, was to now somehow fit 19 ranks in
a space that before barely contained eight. Early in the design process it became
evident that much of the precious real estate in the organ chamber could be
reclaimed if the many offset chests for various ranks could be consolidated
onto a new single offset chest that would also provide for the new Trumpet 16’.
We also wanted to ensure the new chamber layout would permit adequate access
for service and, most importantly, tuning. Rebuilding the existing expression
shades and fitting them with new expression controllers made available space
that had been previously occupied by a pneumatic motor with an unwieldy linkage
system.

We developed a new 7’4? diatonic chest scale to accommodate
the new stops and the relocated Gemshorn. The existing Principal 8’ was
carefully revoiced to give it more moderate power, and the new principal ranks
were scaled and voiced to build from this new foundation. The new Great Bourdon
8’ was voiced using a special arch cutup schedule, which lent the pipes a color
that allows the stop to work superbly as both a solo and ensemble voice. The
Swell was given its own new 3-rank mixture based on 2’ pitch, and the existing
Zimbel mixture was recomposed into a more appropriate chorus mixture based on
11?3’ pitch for the Great.

Though the action for the new chestwork was specified to be
electro-mechanical, we milled all windchest toeboards to be no less than one
and one-half inches in thickness. This, along with proper attention to voicing,
successfully offset any pipe speech problems normally anticipated with this
type of action. Our windchests were made from solid poplar, with the exception
of the toeboard for the new Swell Mixture, which was milled from sugar pine.

The new console and case, both entirely of our own design
and manufacture, were milled  in
our East Hampton shop from solid quarter-sawn white oak, and stained and
finished to match existing fixtures in the sanctuary. The console interior
(stop jambs and key cheeks) was milled from solid walnut and finished with
hand-rubbed Danish oil. The façade pipes are polished tin, made to custom
specifications we developed and submitted to our friends at Giesecke. The new
flue pipes were built to our scales by Luc Ladurantaye Tuyatier of Lac Saguay,
Quebec.

Along with the standard complement of accessories, the
console features an integrated control system with multiple memory levels,
programmable crescendo and sforzando, 12-step transposer and MIDI interface for
record and playback ability. The digital Antiphonal division was contracted and
installed separately by Artisan Instruments.

Edward Odell

J.H. & C.S. Odell

Glück New York,

New York, New York

The Church of Our Lady of Loretto, Cold Spring, New York

This historic church, known for its remarkable collection of
stained glass windows, was recently restored, with a new instrument and a
marble chancel floor included in the renewal plans. Under the direction of Fr.
Brian McSweeney, Pastor; Frances Pergamo, Director of Music; and Fr. Richard D.
Baker of the New York Archdiocese, three organbuilders were each invited to
present their vision of an appropriate musical instrument. The smallest and
most stylistically focused proposal submitted, the new Glück organ occupies a
traditional position in the rear gallery to great acoustical advantage. While
the organ looks toward the French orgue d’accompagnement of the 1860s for both
its concept and tonal palette, it is certainly not intended to be a stylistic
copy.

The manual soundboards are placed side-by-side at impost
level, with the Swell to the right, its vertical shutters operated by direct
mechanical linkage. The two large wooden pedal stops stand on their own
windchests behind the organ. The Great organ incorporates some pipework from a
mid-1870s Levi Underwood Stuart organ of undetermined provenance. Interior
metal pipes are of 70% lead alloy, except for the Swell strings, which are of
50% tin. Wooden pipework is of pine and fir. The façade pipes are built with
English bay leaf mouths arrayed in a swag pattern after Gottfried Silbermann’s
façades of the 1740s.

The walnut keydesk en fenêtre sports beveled figured maple
jambs and pao ferro drawknobs. Both pedal and manual accidentals are Brazilian
rosewood. Compasses are 56/30; there is no combination action, but the three
unison couplers are reversible by toe paddles. The case is painted in various
shades of olive, with details in sapphire, ruby, and faux marbre. Architectural
design was by Sebastian M. Glück, who executed the Neapolitan-style angel,
tower finials, and buttress niches, which are suitably polychromed and gilded.
Color photographs may be viewed at the firm’s web site at
<www.glucknewyork.com&gt;.

The structural design and layout are the work of Albert
Jensen-Moulton, general manager of the firm, who was assisted in the
construction of the organ by Dominic Inferrera, foreman. Voicing and tonal
finishing were accomplished on site by Sebastian M. Glück, tonal director. The
organ was formally dedicated in a series of three recitals by Lana Kollath, Dr.
Jennifer Pascual, and the builder.

--Benito Orso

GREAT

8’               Open
Diapason

8’               Open
Wood Flute

4’               Principal

2’               Doublet

8’               Hautboy
(from Swell)

                       Swell
to Great

                       Swell
to Great Octaves

SWELL

8’               Salicional

8’               Voix
Céleste

8’               Stopped
Diapason

4’               Harmonic
Flute

8’               Hautboy

                       Tremulant

                       Swell
to Swell Octaves

PEDAL

16’           Open
Wood Bass

16’           Stopped
Bass

8’               Octave
style="mso-spacerun: yes">  from Great

8’               Hautboy
from Swell

                       Great
to Pedal

Swell to Pedal

                       Swell
to Pedal Octaves

J.H. & C.S. Odell Opus 645

United Methodist Church of Westport and Weston,

Westport, Connecticut

From the builder

I first looked over the 1968 Angell pipe organ at the United Methodist Church of Westport and Weston in the winter of 2005, having been recommended to the church by our friend K. Bryan Kirk. What we found in Westport was an organ with many pipes that were well made, but in some cases unusually constructed and, by our standards, only roughly voiced. The flue pipes were made mostly with a high content of tin. We suspect Tim Koelewijn was the original pipemaker. Just about everything else in the organ had been made by domestic and foreign supply houses. Overall, quality varied widely. Some things were very neatly done.

Though by our standards not altogether under-scaled, the organ did suffer in just about every other way from the prevailing trends of the era when it was built. Wind pressures were low: less than two inches in the Great and three in the Swell. Looking at the original stoplist, we noted that none of the choruses in the organ were complete, though the organ did boast two Célestes and a triple-overblowing Zauberflöte. The reed complement for the organ consisted of a double-blocked French style 8’ Trompette (extended to 16’ in the Pedal) and a 4’ Rohr Shalmei.

The windchest mechanism was a problematic plunger-type solenoid system that had been giving trouble for years. The console was a veneered plywood supply house unit already years beyond its life expectancy. The open contact switching system was dispersed throughout the organ; some of its components had already failed. The wind supply for the entire Great division was provided by a single 18≤ by 24≤ reservoir whose internal volume was largely dedicated to its curtain valve.
After an initial tuning of the organ, the church’s new music director and organist, Todd Simmons, pressed me as to what could be done to make the organ better. I pointed out that the organ had mechanical and tonal issues, to be sure, but there was something to work with here, some raw material, which with proper attention could be the basis for a good pipe organ. In my wife Holly’s words, the existing pipework possessed “unrealized potential.”

Weeks later we met with the trustees to present our findings, expecting that at some point in the future funds could be raised to finance the organ project. One can imagine my surprise when Mr. Simmons called me a few weeks later to say that a single anonymous donor had stepped forward. How soon could we start? Thus we found ourselves sweating in the summer heat on a stretch of days the following July, packing and removing the pipes that would become the basis for our Opus 645.
In the design process we developed a new specification with input from K. Bryan Kirk. We instinctively sought first to meet the essential requirements of a liturgical instrument, something we believe to be utterly crucial, especially in the case of smaller pipe organs. Given the limited space for the organ, we felt a two-manual scheme with few frills would be best. We resisted a request for digital augmentation, instead focusing on a design that would be pipe only.

Certain early decisions seemed obvious. Given the dry acoustic of the church, the baseline scale of the Great chorus needed to be increased. This chorus was also completed with the addition of appropriately scaled new pipework from 22⁄3’ pitch upward. The cutup schedule of the existing Great capped flute was raised, arched, and the stop entirely revoiced. A new independent 4’ Harmonic Flute (based on the unique and very successful scale found in our historic Opus 178 at St. Charles Borromeo in Brooklyn) was constructed and voiced. Over the course of the project nearly every zinc pipe in the organ made its way through our pipe shop: frozen metal caps were freed, tuning inserts and toes replaced, seams and scrolls repaired. Being left in a raw state, many of the zinc pipes had an unsightly powdery white oxidation. We removed this, and gave all zinc basses a sealing coat of varnish to protect them.
The wind pressure of all manual divisions was raised to a more moderate four inches. Holly, then pregnant with our son Caleb, did her usual superb job of revoicing all the other existing and new flue pipework, managing to do so before reaching her final trimester. During this past winter we joked more than once: which would be given birth first, our son Caleb or the organ for Westport?

Where, before, the Great division of the organ had seven ranks, it had now eleven. To provide for this expanded division adequately, we built a new, larger reservoir. The rest of the organ’s wind system was rebuilt and reengineered as the new design required.

In dealing with the Swell division, again certain decisions seemed obvious. The 4’ Rohr Shalmei, only marginally useful, was replaced with an 8’ Oboe, expertly voiced by Sam Hughes. Proceeding as she did in the Great, Holly revoiced all of the existing Swell flues and voiced the new pipework for the Swell flute chorus, which was completed to 13⁄5’ pitch. The existing Trompette was kept, though carefully cleaned up and regulated in a cooperative effort between Sam and Holly.

In our recently expanded East Hampton shop I concentrated on the construction of the console, while our shop foreman John Williams constructed new windchests whose design was first developed for our organ at St. Ann’s in Bridgehampton. The unusually short feet of the 8’ old flute basses made for some interesting pipesetting. New offset chests were provided for everything save the original Pedal Subbass, a mammoth mahogany affair that only needed rebuilding.

The new console was based on our current terrace-jamb design with several embellishments. Improvements on the existing design include a slightly deeper cabinet with an added horizontal stile, raised panel work, additional applied moldings, hand-carved brackets, a two-piece knee panel and solid walnut music desk, the latter being picture-framed with the same quarter-sawn white oak used for the carcass and façade.

The console features an integrated solid-state capture and control system with fully programmable features, MIDI interface, and our standard complement of rear-fulcrum keyboards with basswood levers. The oblique drawknob heads are a reproduction of our 19th-century design. Respected organists who have played it have described our console at Westport as “elegant and comfortable.”
My design of the façade was in part born of necessity. Since both the manual and pedal principal stops were being rescaled, new bass pipes would be required. We naturally needed to make the most of the existing chamber space, and one of the simplest ways to do that was by moving the basses of these stops out into a façade.

Every pipe in the façade is functional. The bass notes of the Great and Pedal principals are polished aluminum, made to our specifications by Matters, Inc. of Hermosa, South Dakota. The pipes are arranged in three towers and two flats and the overall height of the case tops out at 15 feet, mounted roughly 10 feet above the sanctuary floor. The style of the casework is deliberately simple, so as to be in harmony with the appointments of the church sanctuary.

The façade performs a very important function in giving one a visual focal point. It declares the organ present, and urges one to consider it rather than wonder from where behind the grille cloth the organ might be. Its cruciform arrangement also reflects elements of sacred numerology: three towers with three pipes each for the Trinity, ten pipes located within the inner flats for the Commandments.

The sanctuary space in Westport could be described as a postwar-modernist take on the “Akron Plan,” less the adjoining Fellowship Hall. Four sets of pews radiate from the altar and pulpit up front, with organ and choir off to the left. The space over the altar is open with a ceiling height of approximately 35 feet. This intersects with a lower A-frame suspended transversely over the pews. From there the ceiling slopes downward to the rear of the pews to meet a northeasterly facing wall that is mostly glass. The floor is a simple concrete aggregate. Thankfully, carpet was absent. More simply described, it is a space with a great deal of cubic volume, but not overly reverberant.

Throughout the process we gave a great deal of thought to what levels of power would be appropriate for the various tonal resources of the organ. Our concerns about sufficient tonal egress from the chambers were put to rest when we experienced how well the organ spoke into the room. In the tonal finishing process we were pleased to discover how our scaling and voicing decisions suited the space. With a well-balanced variety of 8’ tone available, the organ easily leads congregational singing in a variety of settings.

Overall, we are very happy with what we have achieved in Westport. I would be remiss not to mention others who have contributed to this project: my wife and business partner Holly Odell was responsible for revoicing all existing pipework and voicing of new pipework. John Williams built nearly all the windchests and was responsible for all pipesetting. John and I collaborated on the wind reservoirs and organ case elements. In addition to overall mechanical design and layout, I milled, built and finished the console and casework as well as handling most other finishing duties. Working out of our pipe shop, Stewart Skates handled all pipe repairs. Luc Ladurantaye of Lac Saguay, Quebec, built the new metal pipes to our specifications. Gordon Auchincloss assisted in the wiring and final assembly of the console, and Thomas White assisted in windchest construction and wiring. John Williams, Thomas White, and myself handled the installation. Tonal finishing duties were divided between Holly and myself, with occasional assistance from Richard Hamar and Fred Heffner.

—Edward Odell



From the music director

In my third year as choir director and first year as organist of the United Methodist Church of Westport and Weston, I was introduced to Edward Odell by K. Bryan Kirk, as we were in search of someone local to assume the maintenance of our Angell pipe organ. While I was not dissatisfied with the firm maintaining our organ at that time, I knew it was only a matter of time before a major overhaul was needed, and no one had ever made a complete inspection and report on our instrument. Given the current condition of our organ, I felt comforted in knowing someone local could resuscitate it at a moment’s notice.

After a thorough tuning and evaluation of the organ, I was encouraged by Mr. Odell’s report that although there were serious electrical and tonal issues present, the pipes themselves were well made and could be repaired and voiced (apparently for the first time ever) if we had the means to fund an organ project. Having just completed a fund-raising campaign for a new grand piano, our church did not have extra money to start an organ building fund-raiser, and we felt uncomfortable asking the congregation to dig into their wallets again so soon. This was discouraging as we knew that time was close at hand; in recent years our organ had become increasingly undependable.

Not long after we began exploring these issues, it happened one Sunday morning that the entire organ pedalboard suddenly made itself unusable. Having little alternative, I decided to play that morning’s service on the piano. This coming just a few weeks after Mr. Odell’s presentation to our trustees, there was (understandably) a certain degree of panic, since we were totally unprepared financially to fund an organ project this soon. Even though our organ was one of the longest surviving Angell pipe organs in the area, we had hoped (and expected) it to last longer. It was more and more apparent that something had to be done soon. Before we even had a chance to strategize, I received a call the next day from the pastor informing me that a donor wishing to remain anonymous had left a very large check on his desk with the intention of funding the organ project.

As has been elsewhere stated, our previous instrument suffered from a lack of tonal finishing and the pipes themselves had never been voiced properly. The pipes being of relatively small scale, we were used to a thin, shallow sound that did not possess enough power to adequately fill our worship space, even when I registered full organ. At the start of the project, I had doubts as to whether any new organ would be strong enough, given the room’s difficult acoustics and the location of the organ chambers. Mr. Odell assured us that once the new organ was installed, we would be amazed at the difference.
One of the most impressive enhancements with the new organ, aside from the exquisite façade, is the quality of sound as well as the power behind it. We now have an instrument that adequately leads our congregation in singing, as well as providing full, but subtle, accompaniment for the choir anthems. I can honestly say that at every step of the way, Mr. Odell and his firm have not only met but exceeded my expectations with our new organ and have gone above and beyond the call of duty to deliver an instrument that is even better than the original proposal stated.

It is a testament to his excellent work that not only do the trained musicians in the congregation appreciate this new pipe organ, even the untrained listeners have noticed a huge improvement over the previous instrument. One member (who at one time happened to be unsupportive of the project) admits that now she could not imagine our service without a pipe organ. The church is well pleased, as am I, and we celebrate at every Sunday service this work of art courtesy of the firm of J.H. & C.S. Odell.

—Todd Simmons, organist and music director, United Methodist Church of Westport and Weston



From the consultant

When I began teaching in 1988 at a music school in Westport, Connecticut, I was naturally curious about local pipe organs. Over the years, I became more familiar with the organ at a nearby church: the United Methodist Church of Westport and Weston. The instrument was in poor mechanical condition: it exhibited a failing combination action, frequent ciphers, tuning instability and other frustrations, even though periodic maintenance was given. Being a product of its time, it was very thin in sound, had little bass response (as did the room) and few solo colors. Most importantly, there was no sense of real ensemble, even when the tutti was drawn. The instrument was also limited in its dynamic range for choral accompaniment and congregational singing, and was weak when trying to blend with other instruments. Overall, the organ did not make a strong impact.

A few years later a new organist and choir director was hired, Todd Simmons, one of my teaching colleagues from the music school. As the organ continued to deteriorate, he and the church became even more disappointed with the organ’s unreliability and marginal tonal resources. Knowing I had done other consulting work, Todd asked me to work with him and the church regarding the organ. Realizing the inherent problems, both musical and mechanical, we began an in-depth study of what could be done to either rebuild or replace the organ with something that would not only offer more tonal possibilities but also fill the room and excite the strong congregational singing potential we knew was there.

As we talked, it was apparent that virtually a new organ would be the best option, although much of the existing pipework could be retained if it were rescaled, revoiced and placed on a new, reliable chassis. The organ needed to be reliable and have a wider dynamic range, more tonal colors and a strong sense of presence in the room. It had to strongly lead and accompany congregational singing and sensitively render choral, solo and instrumental accompaniment.

From the outset, one of my pervading concerns was the church’s acoustic, which, while fine for chamber music, was a bit dry for organ and choral music and congregational singing. Having noted the difference in the acoustic when the room was more fully occupied, I knew the challenge of filling the room efficiently would be a mandate for the builder.

Our task began to take shape. Meetings were held and candidate builders were vetted. As work continued, a stop-list began to emerge, while we kept in mind budget and space limitations. One of my thoughts was to ask for a façade, as the previous organ had nothing visible but for a console in a lowered pit in the choir area. I reasoned that a façade would reinforce the impression that the church was getting something new, better and different. We agreed from the beginning that the organ should remain an all-pipe instrument.

After naming a few candidates, one firm was clearly the most interested, experienced and willing to work with us and on this organ. Having known the Odells and their fine lineage of historic instruments as well as their excellent work on new organs and various projects over many years, I was happy to welcome their presence.

The church had Edward and Holly Odell give the organ a full tuning and submit a proposal for either rebuilding or a new organ. As the Odells looked through the organ, they determined that a new console, chassis and electrical system would be required, and that it would be possible to rebuild one small windchest, but otherwise new windchests would be required throughout. By adding a façade for visual interest, some new pipework and retaining about half the existing pipework (though carefully rescaled and revoiced), the organ could take on a new character that would be far more flexible and of greater quality than its predecessor. This concept, coupled with their thorough proposal, helped to land them the contract.

As the new organ design was developed, the specification was refined. Among the ideas we discussed was the clever suggestion to borrow the Great 4’ Octave as an 8’ Second Principal stop on the Great, creating a secondary 8’ Principal for smaller combinations. The stop could also be used to fill out foundation tone when needed. As we continued to explore various tonal issues, it was noted that the old organ had no soft reed color or solo flute color. Among other things, Odell suggested adding an 8’ Oboe and building a new Harmonic Flute, patterned after historic Odell examples, but carefully adapted for the flute scales at Westport.

My early recommendations had included new 22⁄3’ and 2’ principal stops to replace the existing flute-scaled 2’ in the Great. The Odells suggested going further to install a new Mixture to create a full Principal chorus, giving the organ a sense of ensemble, a true plenum, something it never had.
Having listened to the result, I can state these stops create a truly full-sounding principal chorus, finally integrating the instrument into the room. The organ as conceived by the Odells has made a huge difference for hymn and repertoire playing and can now “ring the room” more effectively.

The Great also contains the revoiced 8’ Bourdon, now sounding more like a continuo stop, suitable in choral music or to accompany the Swell’s cornet decomposée. The Gemshorn and its Celeste were retained for flexibility in accompanying and providing more soft colors.

The Swell received “the Odell treatment,” in that all the pipework was revoiced. The flues, strings and mutations were all transformed by voicer Holly Odell, and the reeds were reworked to make a dramatic difference. The strings and 8’ Rohrflute now have more presence and can fully support the choir, as well as contribute to the ensemble. The Swell cornet decomposée is now nicely balanced, and the flutes have a more piquant character.

The new 8’ Oboe offers a nice color for softer choral accompaniment and foundation combinations, as well as providing a new solo stop. The existing 8’ Trompette, originally extended to 16’ for the Pedal, was also cleaned, revoiced and regulated into a stop that now serves a dual-purpose chorus/solo reed. The 16’ octave, now reconditioned, adds more gravitas to the Pedal and the full ensemble.
The full ensemble now fills the church worship space with a richer, warmer and well-blended tone. The softer sounds are more usable and possess a wider dynamic range, so the possibilities for choral, vocal and instrumental accompaniment are greatly enhanced.

As a concerned observer, I paid close attention to the project throughout the building process. The Odells always welcomed my inquiries and kept all parties informed with frequent photographs from their shop. Once the installation commenced, it was exciting to see how beautifully designed and well made all components of the organ were, both inside and out. During the tonal finishing, it was gratifying to witness the attention to detail in balancing each stop and the various ensembles. Further, it was refreshing to hear from the builder that materials and workmanship were never an issue; they simply insisted that in every aspect things be done thoroughly, with the highest level of attention to detail.

The organ is now in regular use and a series of dedication concerts have been planned. My thanks go to Edward and Holly Odell, their associates, to Todd Simmons and the United Methodist Church of Westport and Weston, Connecticut, and the donor for having me work with them in a collaborative effort to complete this important project to enrich the worship and outreach of this vibrant congregation.

—K. Bryan Kirk, advisor/consultant

J.H. & C.S. Odell Opus 645

United Methodist Church of Westport and Weston, Westport, Connecticut

Great (Wind pressure 4")

8’ Principal CC–AA en façade, otherwise 70% tin, 61 pipes

8’ Second Principal 1–12 from Principal 8’, 13–49 from Octave 4’

8’ Bourdon 70% tin, arched cutup, 61 pipes

8’ Harmonic Flute 1–12 from Bourdon 8’, 13–61 from Harmonic Flute 4’

8’ Gemshorn 70% tin, 2/3 taper, 61 pipes

8’ Gemshorn Céleste 70% tin, 2/3 taper, 49 pipes

4’ Octave 70% tin, 61 pipes

4’ Harmonic Flute 55% spotted metal, special Odell scale, harmonic at
middle C, 61 pipes

22⁄3’ Quint 55% spotted metal, 61 pipes

2’ Super Octave 55% spotted metal, 61 pipes

III Mixture 55% spotted metal, 19-22-26, 183 pipes

Chimes. 25 tubes


Swell (Expressive, in existing chamber, wind pressure 4")

16’ Rohr Gedeckt wood, 13–61 from Rohr Flute 8’, 12 pipes

8’ Rohr Flute 70% tin, chimneyed, 61 pipes

8’ Gamba 70% tin, bearded, 61 pipes

8’ Gamba Céleste 70% tin, bearded, 49 pipes

4’ Spitz Principal 70% tin, 2/3 taper, 61 pipes

4’ Flute 55% spotted metal, 2/3 taper, 61 pipes
22⁄3’ Nazard 70% tin, capped and chimneyed to middle C, 61 pipes

2’ Block Flute 70% tin, 61 pipes

13⁄5’ Tierce 55% spotted metal, 2/3 taper, 61 pipes

8’ Trompette double blocked, French shallots, 56 reeds, 61 pipes

8’ Oboe dual taper resonators, English shallots, 49 reeds, 61 pipes

Tremulant


Pedal

16’ Subbass wood, 32 pipes

16’ Rohr Gedeckt from Swell

8’ Octave CC–GG# en façade, otherwise 70% tin, 32 pipes

8’ Bourdon extension, Subbass, 12 pipes

8’ Rohr Flute from Swell

4’ Choralbass extension, Octave 8’, 12 pipes

4’ Flute from Swell

16’ Trompette extension to Swell Trompette, 12 pipes

8’ Trompette from Swell

8’ Oboe from Swell

4’ Clarion from Swell

J.H. & C.S. Odell,
East Hampton, Connecticut
Scarborough Presbyterian Church, Scarborough, New York
I remember receiving my first phone call from Scarborough Presbyterian Church in late January 2005. I was delighted to have the chance to become acquainted with this church and with its organ, my own family’s J.H. and C.S. Odell Opus 327, installed in 1894. Six years on, there is much to report.
One cannot help but be immediately taken in by the beauty of Scarborough Presbyterian, both interior and exterior. The church is set along old Route 9 in Briarcliff Manor. Approached from either north or south, the siting of the building (whose exterior is rich with classical elements) blends in gracefully with its setting.
Scarborough Church was a gift from Mrs. Elliott Shepard as a memorial to her husband in 1893. The architects of record for the church were Haydel and Shepard, a short-lived partnership of Stanford White’s nephew, Haydel, and a nephew of Mr. Shepard. Their only other significant building, the Fabbri Mansion on Manhattan’s 64th Street, echoes the neo-classical style of Scarborough Church—briefly called, “Shepard Memorial,” but organized later as Scarborough Presbyterian. A reprint of the dedication announcement from the May 12, 1895 edition of the New York Times includes copious detail of the building’s appointments, which in modern architectural parlance is properly classified as Beaux-Arts:

The main design of the ground plan is a cross, a porte cochere being one of the short arms of the cross, and the pastor’s study the other arm. The church is built of granite rubble, with trimmings of Indiana limestone. The granite is of a pink tinge, which harmonizes pleasantly with the grayish limestone, and the effect is very striking to the visitor.
The height of the tower from the steps to the top of the cross is about 120 feet. The architecture of the exterior is a distinctly American interpretation of the Renaissance idea as it was in the time of Louis XIV. The granite used in the body of the structure was quarried on the estate of Col. Shepard, which is a short distance south of the edifice.
In the three large windows of the main structure, each nineteen feet high, are stained glass designs. Strictly classical treatment has been used in the interior of the building. The main auditorium has a seating capacity of 350, and the Sunday-school room of 150 persons. The floors are of mosaic in the church, and the pews are of carved wood. The building is as near as possible fireproof, as little wood being employed in the construction as circumstances would permit.
The wood-paneled [coffered] ceiling is secured to the entablature by carved wooden corbels. This ceiling is one of the main features of the room. It is made of California redwood. Its side surfaces are enriched with twenty-eight panels, each six feet square, and with carved wooden rosettes in their centers. This design encloses, as in a large frame, a large panel, itself broken up and subdivided into a considerable number of smaller panels. In the center of the ceiling is a great carved redwood cross. The inner walls are of cement, tinted to harmonize with the ceiling.
The choir dome, under which the pulpit is placed, at the end of the church, is paneled with rosettes, and a large skylight admits light from above. The building is lighted at night with electric lights, and the heating is to be in the winter season by hot-air appliances from the basement. Perfect ventilation is secured by means of exhaust flues in the side walls from the floors to the roof. The organ is in the main tower, while the keyboard is under the choir dome.

As the article states, the console was originally placed in the chancel area, leading me to speculate that this organ was likely the first all-electric adaptation of the patented Odell tubular-pneumatic action. In comparison, there are appreciable, if minor, design differences in the primary mechanism employed in the manual chest action used in our Op. 313 at St. Michael’s Church on West 34th Street in Manhattan. That organ, which is presently under our care and slated for major restoration work in 2012, was originally all tubular-pneumatic when it was built only one year prior in 1893. It has been interesting to note the nuance in mechanisms, scaling, and voicing practices of two Odell instruments that were built at nearly the same time.
As one can easily imagine the unwieldiness of playing the gallery organ from the chancel, it is not surprising that the console was later relocated to the gallery. Apart from this, the organ remained largely intact until the first major campaign of rebuilding and revisions began in the late 1980s through the 1990s.
At one time, there had been ambitious plans for the instrument, evidenced in the documentation of the Peterson switching system installed by a prior technician. Most of these plans went unrealized, though the addition of an anachronistic and stylistically questionable “Positiv” division had been carried out. Other changes included additional reed stops in the Swell, as well as evidence of attempts at rescaling, mostly in the principal stops of the Great.
In the meantime, problems of the winding system and mechanism were largely ignored. It was in this state that I first examined the organ at Scarborough in 2005. The Swell chest was then largely non-functional, owing mostly to issues with stuck sliders and pallet actions in need of rebuilding. I quickly realized that not only would a program of full mechanical restoration be needed, but also a careful reversal of many of the tonal changes, if the final result were to resemble anything that would make sense to a properly trained organist.
In addition to the difficulties with the organ, Scarborough was managing a leadership transition, something that is always trying in the life of any parish. The congregation faced this while contemporaneously entertaining bids for the organ project from us and other local firms, as well as considering wholesale replacement of the organ with a new electronic substitute. It was not until I made a detailed presentation to the congregation that we were able to at least keep the latter option off the table.
While we eventually prevailed as selectee for the organ project, there was no appreciable progress in going to contract until the appointment of Kenneth Potter as organist and director of music in 2007. Potter took the position on the condition of the organ’s restoration. This was agreeable to the Session and we were at last able to proceed.
No sooner had Mr. Potter taken the position than he reached out to me, and a lively discussion ensued on how best to revise and restore the organ. Plans at one point had even branched out into an entirely new case design, for which I excitedly prepared several conceptual sketches, but these were later set aside for both practical and aesthetic reasons. With our limited budget, the majority of our work would have to focus on restoration of the pipes, console, and mechanism. Moreover, with limited gallery space and an already richly appointed interior, it was difficult to realize a case design that would match the level of ornamentation or allow for a proper sense of proportion without getting into models that we knew would be far too elaborate. We officially went to contract in late 2007 and set to commence work in early 2008.
Eventually we settled on the design one sees today, which in many respects closely resembles the organ’s 1894 specification. The floating “Positiv” is gone, its Oboe restored and returned to its proper place in the Swell. The Swell Vox Humana was likewise deleted in favor of the Bassoon 16′, though not without some regret. The addition of the Clarion 4′ was kept, though the stop was revoiced in order to be more in scale (in terms of power) with the rest of the division’s reed chorus. Apart from careful tonal finishing and some adjustments to the power of some of the stops, the rest of the division remains as original but for the replacement of the Aeoline with a matched Voix Céleste for the Salicional.
I approached the Great with similar care. In sorting through the pipework in the shop I was able to review (and correct) prior attempts in rescaling and revoicing. Thankfully, the critical backbone stops of the division (the Open Diapason 8′, Gross Flute 8′, Gamba 8′, and Harmonic Flute 4′) had been left mostly untouched. Efforts had been made to re-scale the principal chorus from 4′ upward with limited success: rather than inserting new pipes in the bass and shifting the entire rank upward, pipes from various sources were randomly inserted in the compass of the Principal, Twelfth, and Fifteenth. To the uninitiated this probably seemed a harmless practice, but I was determined to restore some sense of order. Thus we maintained (and in some cases increased) the rescaling, as my experience with Odell scaling practices from this era (as well as my review of this instrument in particular) called for a significant increase in order to balance the power of the stops of the chorus without attempting to “voice around the scale.” Thus I reoriented the prior attempts at rescaling by fabricating new pipes with properly matching 2/7 mouths, using matched common metal (roughly 70% lead) as opposed to the uncharacteristic spotted metal used before. This allowed better control in the adjustment of the power of these ranks as I worked on them in the voicing room.
The other changes to the Great included the addition of the original Swell Bourdon on new unit windchests, so as to be available at 16′ and 8′ pitch. The Dulciana was deleted in favor of a new, matching principal-scaled Seventeenth. This exchange was part of an overall plan to keep a third-sounding rank available in the division, since the original Great Cornet mixture (17-19-22) was to be rescaled and recomposed into a suitable chorus mixture based on 2′ pitch (15-19-22). The original Cornet Mixture in the Swell had been retained, and Ken and I were in agreement that one tierce mixture per organ was more than sufficient.
Apart from these changes, pipe restoration was straightforward. Along with the windchests and console, everything was brought back to our facility and carefully cleaned. Metal ranks went through our pipe shop for repair. Wooden pipes were repaired and pipe stoppers were repacked. But for the Bassoon 16′ in the Swell and the Trumpet in the Great (which I kept for myself to work on), the Swell reeds went to Trivo in Hagerstown for restoration. Broken reed pipes were properly reblocked, tuning inserts were replaced, and shallots, tongues, and wedges were carefully cleaned and refitted as required.
The rebuilding of the mechanism presented several challenges. The manual windchests were essentially Odell slider chests with electro-pneumatic pulldown motors and slider motors. Both chests were completely stripped down to their tables at our facility so they could be evaluated and repaired. Thankfully, re-tabling was not needed, though damage to some of the sliders was so severe that some of them had to be replaced. Unlike modern slider chests (where engineered plywood is used), the bottoms of the Odell chest grids are covered with motor cloth, and the pallet openings are formed by blocking in the channels inside the pallet box and covering the area with a layer of packing leather. All this was restored to match the original configuration, whereafter the grid channels were carefully sized with thinned shellac, as is the custom. It was an arduous, not to say messy process, but the result was the total elimination of the numerous runs and bleeds encountered prior to removal. Finally, the chest pallets were all re-dressed with new felt and leather, and the motor and primary systems rebuilt.
With the slider motor system we faced a particular difficulty: Odell pneumatic slider motors were an innovative design in their day, but they can be fickle. When they work, they work well, but they often grow slow and unresponsive. Knowing this, in the planning stages of the project I seriously considered conversion to an electric slider motor system, but instead held this out as a last resort. The original pneumatic motors were dutifully rebuilt, and after some experimentation I eventually realized a solution: by placing the slider motor assemblies on their own separate wind reservoir and increasing the pressure moderately, I realized two immediate benefits: the slider motion was now swift and sure, and the action of the sliders no longer had any effect on the divisional wind pressure as they were actuated. I owe the inspiration for this concept to my colleague Timothy Fink, who several years ago used a similar approach when he designed his own pneumatically powered slider system (based in part on the Odell design) for the new organ he built for Grace Lutheran Church in Naples, Florida.
As the Pedal division had recently had its action rebuilt, we were free to leave this section alone and concentrate our remaining efforts on the console, winding system, and façade.
Dealing with the winding system was simple. The original massive single-rise reservoir was replaced with four new properly sized Odell reservoirs, one for each division, and the fourth for the aforementioned slider motor assemblies.
The console carcass was gutted and fitted with new, rear-fulcrum keyboards with basswood levers, and the manual compass restored to the original 58 notes. The newer pedalboard was kept. The stop-action rail and stop-action magnets were replaced with a much more reliable Harris tilting-tablet assembly, whose appearance is more characteristic of a traditional Odell console. The interior of the console was fitted with new panels made of sapele. We installed a new, integrated control system with the customary modern feature set.
The façade, which contains the bottom seventeen notes of the Great Open Diapason, was carefully stripped, repaired, and restored. The original zinc tuning flaps were replaced with spotted metal tuning scrolls. I personally handled the preparation and finishing process. A catalyzed base primer that bonds directly to the metal was used as the undercoat, over which I applied specialized metal lacquer mixed with gold flake powder. The result is a richer, deeper gold color that was accented by the application of silver flake lacquer on the pipe mouth inserts.
Our final step was to replace the 1950s-era wall panels below the impost of the façade. The layout was sketched by my wife Susan, who is a classically trained architect. With no cues from me, she intuitively established a rail and stile pattern that picked up on the center point placements of the pipes in the façade, while maintaining symmetry throughout. The panel molding, which required a custom-made set of molder knives, is a duplication of the custom panel moldings used throughout the church. The panels themselves are made from the same sapele used in the console, and are stained to match the existing appointments. Though it is minor, this was a welcome embellishment to the appearance of the organ.
Members of the Odell staff who contributed to this project include: John Williams (chest restoration, new chest, panel, and reservoir fabrication), Stewart Skates (pipe repair, fabrication, and restoration), Scotty Giffen (site, restoration, and assembly work), David Wason (wiring, site, restoration, and assembly work), Douglas Keilitz (site work, tuning, and tonal finishing), and myself (design, planning, wood and metal pipe finishing, voicing, and tonal finishing). Rigging for the removal and reinstallation was handled by our friends at Auer’s of New York City, long known for their skill in handling this sort of work.
We are grateful to the staff and congregation of Scarborough Presbyterian Church for being given the opportunity to restore this instrument and return it to service. I am particularly grateful to Kenneth and Christine Potter (who have become great friends as well as champions of our work), and also the Reverends Chris Iosso, Dae Jung, and Tim Ives, worship and music committee chair Lindsay Farrell, and most especially the late Florence Fletcher, to whose memory the new organ façade is dedicated.
—Edward Odell
East Hampton, Connecticut

It isn’t often that an organist takes a job with the congregation already understanding that the organ needs to be rebuilt, and he gets a significant say in how it gets done. My first decision was to commit what one might call a heresy among organists. I agreed that the organ needed to be reduced in size; we went from 37 ranks to 30. The results speak for themselves, as much of that reduction involved removing redundant ranks, ranks that served no useful purpose.
Prior to the rebuild, the Swell had become almost completely unplayable and been more or less abandoned. We realized the removal of the entire instrument to the Odell shop would be needed. Now rebuilt, the Swell is a wonderful division of great subtlety and color.
It made sense to keep certain additions, but we wanted these additions to form a real ensemble, and for the organ to speak into the room naturally. A fine Clarion 4′ had been added to the Swell. The Bassoon 16′, Cornopean 8′, Oboe 8′, and Clarion 4′ formed a reed battery that we were loath to break up. In order to keep it, the old Vox Humana 8′ had to go. I deeply regretted this loss, but I love the full reed chorus as it is now. The Aeoline 8′ went the same way to make room for the Voix Céleste. There was more than enough pipework left for quiet music, with the very gentle strings, a Stopped Diapason 8′, and a lovely Rohr Flute 4′ of surpassing beauty.
In the Great division, the previous Tierce had been derived from a split slider on the Mixture. It never worked very well, but I felt it was important to have a full Cornet on the Great, so we sacrificed the Dulciana. The Seventeenth that took its place is the only wholly new rank in the rebuild. The Dulciana’s place in the tonal scheme was taken by an 8′ extension of the 16′ Bourdon. I felt that with the three other strong 8′ stops (Open Diapason 8′, Gross Flute 8′, and Gamba 8′) we needed a quiet 8′ flute. This Bourdon 8′ can be coupled with the Gamba 8′ and form a fonds doux, but it also works beautifully alone, or with the Principal 4′ or Harmonic Flute 4′. With all 8′ flue stops on the Great drawn, one has a close approximation of the classic fonds de huit. After rescaling and restoration, the Great chorus is powerful and intense. With the coupling of the Swell reeds, it becomes immense.
In the process of this rebuild, I learned a lot about what stops are truly necessary. As someone who cut his teeth on the Organ Reform movement, I had difficulty understanding a tonal scheme built on generously scaled 8′ stops, with smaller upperwork, or a second manual division without a Principal 4′. In time, I have come to understand this instrument on its own terms. The Violina 4′ really does serve a purpose, and I have come to love the very modest 4′ Rohr Flute in the Swell; it is delicate and very non-intrusive, and I never seem to stop finding uses for it. The Flute 2′ with the Cornet III makes a wonderful sparkle in that division without adding weight. The Oboe 8′, now returned to the Swell, is an excellent addition to the division’s chorus, adding just enough weight to balance the flues. So much for the Swell organs I was previously accustomed to, with their 8′ Gedeckt foundation and blazing upperwork!
It thrills me endlessly to have other organists come in and play. I love to wander around downstairs and listen, often asking what stops they have on. This organ, which sounds immensely powerful in the gallery, is gentle and convincing downstairs—the fullest registration is not overpowering, but rather full, blended, and satisfying.
There isn’t an ugly stop on the entire instrument. Every rank is distinct, beautiful, and makes the listener sit up and notice, whether quiet, mezzo forte, or loud. Nothing is overbearing and the range of color is amazing. Edward Odell has demonstrated great skill as a voicer, taking stops that had been poorly regulated, and restoring, focusing, and adjusting them to create a satisfying, integrated ensemble. He was ably assisted by Doug Keilitz on the tonal finishing.
Let me conclude by saying we are blessed with some of the finest acoustics I have ever experienced in a church, both for organ and choral music. The instrument is now inspiring our choir to new heights. As I had hoped, the wonderful sounds coming from the loft are enhancing our worship and attracting new members.
—Kenneth Potter
Organist and Director of Music

J.H. & C.S. Odell Opus 327
Scarborough Presbyterian Church, Scarborough, New York

GREAT
16′ Bourdon 70 pipes
8′ Open Diapason 58 pipes
8′ Gamba 58 pipes
8′ Gross Flute 58 pipes
8′ Bourdon (from 16′ Bourdon)
4′ Principal 58 pipes
4′ Harmonic Flute 58 pipes
22⁄3 Twelfth 58 pipes
2′ Fifteenth 58 pipes
13⁄5′ Seventeenth (new) 58 pipes
III Mixture 174 pipes
8′ Trumpet 58 pipes

SWELL – Expressive –
in reconfigured expression chamber
16′ Bourdon 58 pipes
8′ Open Diapason 58 pipes
8′ Stopped Diapason 58 pipes
8′ Salicional 58 pipes
8′ Voix Céleste 58 pipes
4′ Violina 58 pipes
4′ Rohr Flute 58 pipes
2′ Flute 58 pipes
III Cornet 174 pipes
16′ Bassoon 58 pipes
8′ Cornopean 58 pipes
8′ Oboe 58 pipes
4′ Clarion 58 pipes
Tremulant

PEDAL
32′ Resultant (special configuration,
from Open Wood and Bourdon)
16′ Open Wood 30 pipes
16′ Bourdon 54 pipes
8′ Gedeckt (ext 16′ Bourdon)
8′ Violoncello 30 pipes
4′ Flute (ext 16′ Bourdon)
16′ Bassoon (from Swell)

Mixture Compositions
Great
1 to 25 15-19-22
26 to 37 12-15-19
38 to 58 8-12-15

Swell
1 to 25 17-19-22
26 to 37 15-17-19
38 to 58 8-15-17

Couplers
Great to Pedal 8′ (reversible)
Great to Pedal 4′
Swell to Pedal 8′ (reversible)
Swell to Pedal 4′

Great to Great 16′
Great Unison Off
Great to Great 4′

Swell to Great 16′
Swell to Great 8′ (reversible)
Swell to Great 4′

Swell to Swell 16′
Swell Unison Off
Swell to Swell 4′

Pistons
12 generals (duplicated on toe pistons)
6 divisionals per division
4 reversibles (3 coupler, 1 Sforzando)

Accessories
32 levels of capture memory
12-step transposer
Programmable Sforzando
Memory controls in keyslip
Programmable Crescendo
MIDI for record/playback

Berghaus Pipe Organ Builders, Inc., Bellwood, Illinois
La Casa de Cristo Lutheran Church, Scottsdale, Arizona
Opus 224 (2008)

From the organbuilder
Overview
Berghaus opus 224 at La Casa de Cristo Lutheran Church contains 91 ranks, 94 stops, and 5,067 pipes over four manuals and pedal. The instrument takes its place as one of the largest pipe organs in the state of Arizona. The majority of the instrument (Pedal, Great and Positiv) is located on the mezzanine level at the front of the sanctuary, on a concrete platform measuring 42 feet across. The enclosed Swell is located above the musician’s gallery in a resonant chamber measuring 14 by 18 feet, and the Antiphonal is divided and elevated on two sides of the rear gallery, flanking the large rear window.
The casework is constructed from light-golden, rift-cut oak. The design emulates contemporary shapes found elsewhere in the sanctuary. The visually striking façade, including polished tin Principals from the Pedal, Great, and Positiv divisions, takes its inspiration from the McDowell mountain range, located in the northeast corner of the Phoenix valley. A sense of depth is created with the mountain-like arrangement of flamed-copper 16′ Principal pipes from the Great and Pedal divisions. The façade also contains twelve non-speaking wood pipes, painted sage green, in homage to the majestic Saguaro cactus found in the region. Adding to the visual display is the asymmetrical layout of the Trompette en Chamade, constructed with flamed-copper resonators. The twin Antiphonal façades echo the details found in the main organ.

Tonal Approach
We designed an eclectic instrument, taking cues from the American Classic and Romantic traditions, that would be able to handle a comprehensive repertoire, including a wide range of expression, both dynamic and tonal. To that end, there are no less than five manual 8′ principals, ten different 8′ and 4′ flutes, strings and hybrid (tapered) stops of varying tone and construction. The versatility of this instrument results from our ability to treat each of these stops as a beautifully unique voice when used alone, as well as having the ability to blend well, thus creating new and desirable tones when used in combination. This is evident in the Great, which contains the standard French-Romantic foundation of Principal, String, Open Flute, and Stopped Flute.
Given the challenge of creating a large organ with only one expressive division, it was clear from the onset of the project that great care would have to be taken in the tonal finishing process to ensure a seamless crescendo and to create an organ with equally balanced manual divisions. The ranks of the unenclosed Positiv are designed and voiced to provide a remarkable degree of expressiveness, and to serve as a tonal bridge between the Swell and the Great. The overall effect in the crescendo is that of a seamless transition from ppp to fff without experiencing staggering dynamic or color steps.

Tonal Analysis
The Great division consists of 19 stops, 22 ranks, and is mostly divided between two large slider chests, one containing the principal chorus through mixture, the other containing the flute and string stops. The 8′ First Principal is of generous scale, and is constructed of 75% tin throughout. This creates a timbre that is simultaneously bright and full, and gives it a singing quality that provides a strong foundation upon which the subsequent ranks are built. The 16′ Sub Principal is scaled proportionally (smaller) to the First Principal and is extended to be available as an 8′ stop (Second Principal). This gives an alternative diapason tone that is more subdued than its larger neighbor, yet is large enough to be a lighter 8′ texture for the entire plenum. The principal chorus is completed with narrowly scaled mutations, and is crowned by two mixtures: a full 2′ V-rank Fourniture, and a sparkling 1⁄2′ III-rank Cymbale. The Flûte Harmonique is large scale, with harmonic pipes starting at no. 30, and is voiced with a very strong increase in the treble. Other flute stops include a metal 8′ Bourdon, a harmonic 4′ Flûte Octaviante, and a II-rank Gross Kornet, constructed of large-scale open flutes at 51⁄3′ and 31⁄5′ pitches to enhance the 16′ harmonic series. The 8′ Gamba is of slender scale and is gently voiced to be a blending stop. The 16′ and 8′ unit Kontra Posaune is a blending chorus reed of German construction. The 16′ and 8′ Trompette en Chamade contains schiffchen-style shallots, producing a sound reminiscent of older Spanish trumpets, yet it can be used as a crown for full organ. The Great provides a myriad of combinations suited for a range of demands from the liturgical service to the solo organ repertoire.
The Swell division contains 21 stops, 23 ranks, and is “double-stacked,” with the complete principal chorus, mutations, and reeds occupying the lower level. Flutes, strings, and celestes are mounted above. The principal chorus is based on an 8′ Diapason of spotted metal, crowned with a 2′ IV-rank Plein Jeu. The relatively low pitch of this mixture, combined with a narrow scale, allows the pipes to be blown full, which helps to produce a clear principal tone. Furthermore, the mixture is voiced softly enough to give the entire plenum a gentler quality suitable for choral accompaniment. The III-rank Cymbale is designed as a tierce mixture and voiced to its full potential to reinforce harmonics present in the fiery chorus reeds. It also blends well and can be used as a higher-pitched mixture with the principal chorus.
The Viole de Gambe is made of 75% tin and slotted for optimum harmonic development. The combination of this stop with its 61-note Voix Celeste is intended to produce true string tone, and not tone associated with narrow principals or stringy hybrid stops. This approach allows us to keep each of the tonal categories of the instrument separate and distinct. The Swell is also home to the softest rank of the organ, the 8′ Flûte Conique, which when paired with its celeste elicits a most haunting timbre. Other flutes in this division include the 8′ Flûte à Cheminée, which is wood in the bass and is extended to 16′ pitch, and a 2′ Octavin, which goes harmonic at no. 13. This 2′ flute is not intended to be used with the mixture, but rather with the 8′ and or 4′ flutes. However, it works equally well with the principals, as the scale is moderate and the voicing is light. The battery of reeds consists of a full-length 16′ Basson, an 8′ Trompette and 4′ Clairon of French construction, and an 8′ Hautbois featuring coned-in bells and parallel French shallots. When combined with foundation stops, the 8′ Hautbois becomes a most useful solo voice, especially for music from the French symphonic school. The Voix Humaine is of American Romantic construction.
The Positiv division is located adjacent to the Swell, which allows this division, along with the Swell, to accompany the choir. Totaling 19 stops and 19 ranks, the Positiv is based on an 8′ Prinzipal constructed of 75% tin and is complete through a 1′ IV-rank Scharf. The ranks of the plenum are narrower in scale than in the other divisions and provide a good secondary chorus to the Great, especially in Baroque music. The 8′ Gemshorn has a very wide mouth with a low cut-up and a 1/3 taper, giving it a string-like tone. A complete Cornet decomposée including Septième comprises pipes of various construction, from the 8′ Holzgedackt made of poplar to the 22⁄3′ chimneyed Rohrquinte. There are three solo reeds in the Positiv division, including an imitative 16′ English Horn, an 8′ Cromorne, and an 8′ Trumpet with English shallots.
The Antiphonal division comprises 9 stops and 10 ranks, and provides additional support for congregational singing as well as interesting echo effects to the main instrument. Placed on opposing sides of the gallery, the Antiphonal is higher in elevation in comparison to the main organ. The Antiphonal principals are voiced in a mild fashion, to give a sense of surrounding the listener while providing a supplemental role to the main instrument. This approach was preferred to bombarding the listener with sound from the gallery and purposely announcing the Antiphonal’s presence. Of note are the two solo flutes: the 8′ Doppelflöte and the 4′ Flauto Traverso (harmonic), both made of poplar. The organ’s heroic reed, the 8′ Trompette de Fête, is located in the Antiphonal division as well. The Trompette de Fête features hooded resonators and is voiced on 18 inches of wind.
The Pedal division comprises 26 stops and 17 ranks. The division is thoroughly complete to provide ample foundation tone in a variety of timbres and volumes. Fortunately, few of the pedal stops are borrowed, which gives tremendous flexibility to the division as a whole. The principal chorus is based on an open metal 16′ Principal, scaled according to classical principles (relative to the Great 8′ First Principal). The entire chorus provides a solid contrast to the Great and gives excellent support without being woofy. When a more penetrating foundation is desired, the generously scaled 16′ Open Wood is useful for larger combinations. Of particular note is the 31⁄5′ V-rank Pedal Mixture. The first rank of this stop is a tierce (16′ series), constructed of 2/3 tapered pipes. Voiced gently, this rank dramatically enhances the 16′ fundamental tone, while giving the overall plenum a pleasantly reedy tone. This helps to further clarify the Pedal line in contrapuntal textures. As with many of our larger instruments, an 8′ Spitzflöte is included to give a more pointed emphasis to the Pedal line in softer combinations. The reed chorus consists of a 32′ and 16′ Bombarde constructed with pine resonators, and a large-scale 8′ Trompette with English shallots. A 4′ Rohrschalmei is a very characteristic reed useful for cantus firmus solos.

Wind System and Chests
The vast majority of flue stops in this organ are placed on slider and pallet chests, which we believe speak to the heart (and origins) of good organ building. Principals and flutes in each division (sans Antiphonal), are placed on separate chests. This helps to solidify each respective chorus. We have insured absolutely steady wind by incorporating a large number of bellows and schwimmers. By contrast, reeds are placed on electro-pneumatic chests, allowing wind pressures to vary to suit the tonality of each reed. Furthermore, wood wind conductors are used throughout the organ, which helps to eliminate turbulence and the resulting wind noise. Pneumatic pedal and offset chests are supplied with their own regulators and concussion bellows.

Console
Design elements of the four-manual console were taken from architectural themes found in the church. The contemporary English-style drawknob console is low profile, and contains state of the art controls for the combination action and record/playback systems. Controls were placed inside a drawer to the organist’s right in order that the console be visually free of electronic clutter. The shell is made of light-golden, rift-cut oak to match casework. Drawknob jambs are made of burled walnut. Keyboard coverings are bone and feature top-resistant tracker touch.

Construction Timeline
The creative journey to construct opus 224 began late fall 2007, with final voicing completed spring 2009. The organ was dedicated in a festival service organized by Dr. Jennaya Robison, director of music, and played by Dr. Homer Ashton Ferguson III. Dr. Weston Noble conducted the combined choirs. The organ was also featured at the 2009 Region IX AGO convention.
Berghaus Pipe Organ Builders wishes to thank the members of La Casa de Cristo Lutheran Church, Scottsdale, Arizona, and the following individuals: Pastor Andrew Garman, senior pastor; Dr. Jennaya Robison, director of music; Dr. Homer Ashton Ferguson III, organist; and Dr. William Barnett, prior organist.
Berghaus Pipe Organ Builders also wishes to thank members of its staff for their countless hours and dedication to this instrument:
President: Brian Berghaus
Director of sales and marketing: David McCleary
Tonal design: Jonathan Oblander, Kelly Monette
Head tonal finisher: Kelly Monette
Reed specialist: Steven Hoover
Structural and visual design: Steven Protzman
Shop foreman: Jeff Hubbard
Logistics: Jean O’Brien
Construction / assembly / installation: Mark Ber, Mitch Blum, Stan Bujak, Kevin Chunko, Chris Czopek, Steve Drexler, Trevor Kahlbaugh, Kurt Linstead, David Mueller, Joe Poland, Daniel Roberts, Tim Roney, Paul Serresseque, Ron Skibbe, Jordon Smoots, Paul Szymkowski, Randy Watkins.
—Kelly Monette, David McCleary, and Jonathan Oblander

Photo credit: David McCleary

Berghaus Pipe Organ Builders, Inc., Bellwood, Illinois
La Casa de Cristo Lutheran Church, Scottsdale, Arizona
Opus 224 (2008)

GREAT – Manual II (unenclosed, 90 mm wind pressure)
16′ Sub Principal (façade) 61 pipes flamed copper and 75% tin
8′ First Principal (façade) 61 pipes 75% tin
8′ Second Principal (façade) 12 pipes (extension of 16′ Sub Principal)
8′ Flûte Harmonique 49 pipes 1–12 from Bourdon, harmonic @ f30
8′ Bourdon 61 pipes 52% tin
8′ Gamba 61 pipes 1–12 zinc, 13–61 52% tin
4′ Octave 61 pipes 52% tin
4′ Flûte Octaviante 61 pipes 52% tin; harmonic @ c25
22⁄3′ Twelfth 61 pipes 52% tin
2′ Fifteenth 61 pipes 52% tin
13⁄5′ Tierce 61 pipes 52% tin
51⁄3′ Gross Kornet II 88 pipes 51⁄3′ and 31⁄5′, 52% tin; c13 to g56
2′ Fourniture V 305 pipes 75% tin (15-19-22-26-29)
1⁄2′ Cymbale III 183 pipes 75% tin (29-33-36)
16′ Kontra Posaune 61 pipes 1–12 L/2, resonators zinc and 52% tin
8′ Trompete 12 pipes (extension of 16′ Kontra Posaune)
Tremulant
Zimbelstern 5 bells with adjustable delay, speed, and volume
16′ Trompette en Chamade 61 pipes 1–12 L/2, flamed copper resonators
8′ Trompette en Chamade 12 pipes (extension of 16′)
8′ Trompette de Fête (Antiphonal)

SWELL – Manual III (enclosed, 80 mm wind pressure)
16′ Bourdon 24 pipes poplar (extension of 8′ Flûte à Cheminée)
8′ Diapason 61 pipes 1–12 zinc, 13–61 52% tin
8′ Viole de Gambe 61 pipes 1–12 zinc, 13–61 75% tin; slotted
8′ Voix Celeste CC 61 pipes 1–12 zinc, 13–61 75% tin; slotted
8′ Flûte à Cheminée 49 pipes 40% tin, 1–12 from Bourdon
8′ Flûte Conique 61 pipes 75% tin
8′ Flûte Celeste TC 49 pipes 75% tin
4′ Prestant 61 pipes 52% tin
4′ Flûte Ouverte 61 pipes 40% tin
22⁄3′ Nasard 61 pipes 52% tin
2′ Octavin 61 pipes 75% tin; harmonic @ c13
13⁄5′ Tierce 61 pipes 52% tin
2′ Plein Jeu IV 244 pipes 75% tin (15-19-22-26)
1′ Cymbale III 183 pipes 75% tin (22-24-26)
16′ Basson 61 pipes L/1, resonators of zinc and 52% tin
8′ Trompette 61 pipes resonators of 75% tin
8′ Hautbois 61 pipes resonators of 52% tin
8′ Voix Humaine 61 pipes 52% tin
4′ Clairon 61 pipes resonators of 75% tin
Tremulant
8′ Trompette de Fête (Antiphonal)
16′ Trompette en Chamade (Great)
8′ Trompette en Chamade (Great)

POSITIV – Manual I (unenclosed, 70 mm wind pressure)
16′ Quintaton 61 pipes 1–12 zinc, 13–61 75% tin
8′ Prinzipal (façade) 61 pipes 75% tin
8′ Gemshorn 61 pipes 1–12 zinc, 13–61 52% tin; 1/3 taper
8′ Holzgedackt 61 pipes poplar
4′ Oktav 61 pipes 75% tin
4′ Koppelflöte 61 pipes 52% tin
22⁄3′ Rohrquinte 61 pipes 52% tin
2′ Oktav 61 pipes 75% tin
2′ Blockflöte 61 pipes 40% tin
13⁄5′ Terz 61 pipes 52% tin
11⁄3′ Larigot 61 pipes 52% tin
11⁄7′ Septième 61 pipes 52% tin
1′ Scharf IV 244 pipes 75% tin (22-26-29-33)
16′ English Horn 61 pipes resonators of zinc and 52% tin
8′ Trumpet 61 pipes 52% tin
8′ Cromorne 61 pipes 52% tin
Tremulant
8′ Trompette de Fête (Antiphonal)
16′ Trompette en Chamade (Great)
8′ Trompette en Chamade (Great)

ANTIPHONAL – Manual IV (unenclosed, 75 mm wind pressure)
8′ Principal (façade) 61 pipes 1–12 flamed copper, 13–61 75% tin
8′ Doppelflöte (façade) 61 pipes poplar
4′ Octave (façade) 61 pipes 75% tin
4′ Flauto Traverso 61 pipes poplar; harmonic @ c25
2′ Fifteenth 61 pipes 75% tin
11⁄3′ Fourniture IV 244 pipes 75% tin (19-22-26-29)
Tremulant
16′ Trompette de Fête 61 pipes hooded resonators, 18 inches wind pressure
16′ Trompette en Chamade (Great)
8′ Trompette en Chamade (Great)

PEDAL (unenclosed, 90 mm wind pressure)
32′ Untersatz 7 pipes poplar
16′ Open Wood 32 pipes poplar
16′ Principal (façade) 32 pipes flamed copper and 75% tin
16′ Sub Principal (Great)
16′ Subbass 32 pipes poplar
16′ Quintaton (Positiv)
16′ Bourdon (Swell)
8′ Octave (façade) 32 pipes 75% tin
8′ Principal (Great)
8′ Spitzflöte 32 pipes 75% tin, 4/5 taper
8′ Metallgedackt 32 pipes 52% tin
8′ Bourdon (Swell)
4′ Octave 32 pipes 75% tin
4′ Spillflöte 32 pipes 52% tin
2′ Nachthorn 32 pipes 52% tin
31⁄5′ Mixture V 160 pipes 52% tin (10-12-15-19-22)
32′ Contre Bombarde 12 pipes (extension of 16′ Bombarde)
16′ Bombarde 32 pipes resonators of pine
16′ Posaune (Great)
16′ Basson (Swell)
8′ Trompette 32 pipes 52% tin
8′ Posaune (Great)
4′ Rohrschalmei 32 pipes 52% tin
Tremulant (slider chest stops only)
8′ Trompette de Fête (Antiphonal)
16′ Trompette en Chamade (Great)
8′ Trompette en Chamade (Great)

Berghaus Pipe Organ Builders, Bellwood, Illinois
St. Jerome Catholic Parish, Oconomowoc, Wisconsin
Berghaus Pipe Organ Builders has built a new pipe organ for the people of St. Jerome Catholic Parish in Oconomowoc, Wisconsin. Opus 226 contains 53 ranks, 42 stops, and 3,019 pipes. The project was made possible by the generosity of the people of St. Jerome Catholic Parish, as well as other benefactors and contributors from the community.
Plans to relocate St. Jerome Parish began in the fall of 1997 as it became clear that the parish was expanding beyond the physical limitations of their historic downtown church. By August 1998, the parish had purchased 37 acres of land and begun planning for a parish-wide campaign. The school was constructed first, and was dedicated on September 11, 2004. A second parish-wide campaign began in January 2005, resulting in the dedication of the church on November 15, 2008. The new 1,000-seat nave nearly tripled the previous sanctuary’s capacity of 350, and provided the parish with a bright, modern worship space with a more favorable acoustical signature.
From the onset of the project, it was clear the existing 1918 Kimball organ would need to be incorporated into the new instrument to minimize new pipe costs. The two-manual, 15-rank organ, located in the center of the rear balcony, was entirely installed in a case against the rear wall. Despite additions in the early 1980s, the organ was of typical early twentieth-century liturgical design. The stoplist incorporated six stops at 8′ pitch, two stops at 4′, and a 16′ Bourdon in the Pedal. Added ranks included a 22⁄3′ Quinte, 2′ Octave, and Mixture IV in the Great. Original voicing and pressures were retained on the Kimball pipes at the time when the organ was augmented, which did little to bridge the gap between the old and new pipes. Thankfully, the new pipes were under-voiced, which would give Berghaus ample latitude in tonal finishing. Additionally, the bottom octave of the 4′ Flute d’Amour was abandoned, and the pipes were shifted down to create a 2′ Flute in the Swell.
In the new church, the organ was planned to occupy both ends of the nave. Great, Swell, and Pedal divisions would be entirely new, and located in the rear gallery. The Antiphonal division would be installed in one chamber, above and to the left side of the chancel. We chose not to divide the resources of the Kimball, but rather use them to create the new Antiphonal division. Furthermore, the Antiphonal chamber would be situated at the same height as the gallery organ to promote tuning stability.
Special consideration was taken in planning pipe scales for the gallery instrument, with the intent that the Antiphonal organ would not be a dark distraction to the new organ. Our present tonal philosophy reflects an eclectic approach, which is conducive to blending early twentieth-century voicing styles. We took our cues from the best elements of late nineteenth-century English organs, tempered somewhat by elements of romantic French and early romantic German organbuilding. All flue scales in the gallery are variable, changing throughout the compass for acoustic and practical reasons. The result is an instrument that, while separated by distance, successfully works as a whole tonal concept, which in turn is able to effectively provide the combinations necessary for liturgical music and beyond. Differing foundation and flute resources are available for cantorial accompaniment, projecting close to the lectern. The Antiphonal also contains the softest string sounds for tonal effects in anthems and voluntaries. When the full resources of the Antiphonal are coupled to the gallery organ, the Antiphonal “carries” the sound of the gallery organ forward down the nave, while at the same time seamlessly blending with the gallery without detracting from its timbre.

Great
The Great division consists of 15 stops, 16 ranks, and is divided between one large slider chest and one electro-pneumatic chest. The division is located directly above the Swell enclosure, and is based on the 8′ Principal, which is located primarily in the façade and constructed of 75% tin, with spotted metal in the treble. The 8′ Principal is scaled near Normalmensur plus two, which on 80mm wind pressure fills the nave with a warm yet gentle tone. It is voiced full in the bass, and has clarity in the treble to reinforce the melody line. The Principal chorus is complete through a four-rank mixture, and includes mutations that are meant to reinforce the plenum. Flues are primarily in spotted metal with the intent to add warmth to the overall tone, yet allow for brightness in finishing.
Additional 8′ stops (Flute Harmonique, Bourdon, Gemshorn, and Gemshorn Celeste t.c.) complete the standard fonds d’orgue, as well as add the unique flexibility of a third, unenclosed celeste. Tonal considerations were made to allow the scaling of this hybrid pair to be generous, yet with a low cut-up to provide clarity of tone. The 8′ Trumpet is designed with German shallots to provide a blending quality, which is meant to enhance the plenum. By contrast, the horizontal Trompette en Chamade, which is mounted on the front of the case, is scaled and voiced to blend with full organ registration, and can be used as a solo stop for processionals and fanfares. Both reeds are voiced on 100mm pressure.

Swell
The Swell division consists of 17 stops, 15 ranks, and is also divided between one large slider and one electro-pneumatic chest. The division is based on the 8′ Diapason of spotted metal, which provides foundation to a complete principal chorus through the Plein Jeu. The scale of the Swell Diapason is three steps smaller and completely different in tone than the Great Principal. The Swell contains a wide variety of stops, ranging from French-style strings to a liquid 8′ Rohrflöte, which is unified at 16′ and made of wood. Mutations are broadly scaled to provide for a rich Cornet decomposée. We elected to use English construction for the 8′ Trompette in the Swell in order to provide a contrast in tone to the Great Trumpet.

Antiphonal
Restoration of the Kimball pipework involved restoration of each pipe in one form or another. While minor repair and remedial voicing work was necessary, the general pipe-making was excellent. Few pipes had been physically altered in previous rebuild efforts, which allowed for maximum flexibility in finishing. We replaced the leather on the stoppers of all wood pipes, and in the spirit of the original Kimball, we provided twelve bass pipes to the Flute d’ Amour, and returned it to 4′ pitch. We also replaced the low twelve pipes of the Open Diapason, which replaced the badly damaged pipes of the original façade. All spotted metal pipes were dunked in a restorative solution, and fitted with new stainless steel sleeves. Finally, an 8′ Vox Humana was provided by Dr. Lee Erickson, friend to the project.
The 8′ Open Diapason of this division provides the organist with yet another Diapason tone. Made from a high-lead alloy, these pipes provide the tone one would expect from a Diapason of this vintage. The pipes are cut dead-length and scrolled. Undoubtedly they would have been originally over-length and slotted. Deep nicks in the languid and lower lip allow for open-toe voicing, which allows this stop to truly enhance the gallery instrument.

Pedal
Consisting of 19 stops, 8 ranks, the Pedal provides a solid foundation to this full instrument. Through calculated borrowing and tonal finishing, this division provides an ample variety of timbres and volumes. The 16′ Principal in the Pedal division (façade) is made from a combination of zinc and 70% tin pipes, and is finished with a silver-tone patina. The Pedal is further supported by an impressive unit 32′ Kontra Posaune, which is voiced full in order to provide an equal blend of harmonics and fundamental. We used tin-faced German shallots throughout the compass of this reed, which provides unique overtones required to enhance the pedal plenum, particularly when considering this stop will be used in part in cantus firmus.

Chests and wind system
Flue pipes of the Great, Swell and Antiphonal sit on Berghaus slider and pallet chests. Reeds and offset chests are electro-pneumatic action. The entire organ is supported by an interior steel structure, which provides stability while allowing unimpeded access to interior parts of the mechanism. Wind to the pipes is supplied by two blowers—one blower for the gallery organ, and one for the Antiphonal. Our wind system provides absolutely steady wind through a balance of schwimmers and reservoirs. Wooden wind conductors help eradicate turbulence and are effective in eliminating noise. Slider chest wind pressures are 80 and 75mm, while reeds and Pedal are on 100mm.
The gallery organ case and organ console are constructed of maple, and are designed to incorporate architectural elements found throughout the worship space. Keyboards are in bone and rosewood, with African Kewazinga Bubinga stop jambs and coupler rail.
The construction of the organ at St. Jerome Parish was achieved through the dedication and teamwork of the entire Berghaus organization, which extends its sincerest gratitude to the people of St. Jerome Parish for enabling us to contribute to the life of their parish:

President: Brian Berghaus
Director of sales and marketing: David McCleary
Tonal design: Jonathan Oblander, tonal designer; Kelly Monette, head tonal finisher
Reed specialist: Steven Hoover
Structural and visual design: Steven Protzman
Shop foreman: Jeff Hubbard
Office manager: Jean O’Brien
Service coordinator: Joseph Poland
Construction/assembly/installation: Stan Bujak, Chris Czopek, Steve Drexler, Jeff Hubbard, Trevor Kahlbaugh, Kurt Linstead, Kelly Monette, David Mueller, Jonathan Oblander, Joseph Poland, Daniel Roberts, Tim Roney, Paul Serresseque, Ron Skibbe, Jordan Smoots, Paul Szymkowski, Mark Ber, Randy Watkins.

In addition, Berghaus Pipe Organ Builders gratefully acknowledges the invaluable assistance of Scott R. Riedel & Associates, Ltd. in the project, as well as the expertise and leadership of Fr. John Yockey, pastor, and Tom Koester, past organist of St. Jerome Parish.
­—Kelly Monette & Jonathan Oblander
Berghaus Pipe Organ Builders

Cover

Lauck Pipe Organ Company, Otsego, Michigan

Trinity Christian College, Palos Heights,
Illinois

Trinity Christian College is a four-year liberal arts college founded in
1959 and located in Palos Heights, Illinois, a suburb 25 miles southwest of
Chicago. It is dedicated to providing students with a quality higher education
in the Reformed Christian tradition. The college has grown extensively in
recent years with many new buildings erected. In 2001, the college dedicated a
new 1,200-seat auditorium: The Martin and Janet Ozinga Chapel. The chapel is
also the home of the college's music department with faculty offices, rehearsal
rooms, a recital hall, a music computer lab, and practice rooms. An organ for
the auditorium was envisioned from the building's conception.

Under the chairmanship of music department chair Helen Van Wyck, a committee
was formed to choose a builder for the organ. Paula Pugh Romanaux was selected
as the consultant to work with the committee. After visiting several of our organs,
Lauck Pipe Organ Company was chosen to build the organ. Working with the
builder, the committee decided that the instrument would be located at the back
of the stage and would occupy the central position. The committee felt that an
organ with a detached console would prove more flexible, especially when used
with orchestra and to accompany small ensembles.

Several designs for the organ case were prepared ranging from traditional to
contemporary, the latter being chosen. The proportions of the case are generous
in order to fill the expansive rear wall of the stage area. The façade
consists of the 16' Principal, 8' Pedal Octave and the 8' Great Diapason,
with  pipes of polished tin. The
casework is arranged so that the Pedal division occupies the center and two
outer towers. Between the left and center tower is the Great Principal chorus
with the Choir division above. Between the right and center towers are the
Great flutes and reed with the Swell division above. A shallow case with
expression shades capable of a full range of motion allow for excellent egress
of sound. The emblem at the top of the center tower is the college's logo done
in relief and gilded.

Over the past 30 years, we have built many French-terraced consoles with
curved terraces, but Marilyn Mulder, the school's organ instructor, suggested a
console based on a design she saw at Chicago's Orchestra Hall. From her
photograph, we designed and built a console with straight, oblique terraces.
The woodwork is of cherry to match other furnishings in the chapel. The
terraces, keycheeks, manual and pedal sharps, and drawknobs are all of
rosewood. The manual naturals are of bone. Peterson supplied the MIDI system
and combination action. Lauck manufactured the coupler and relay systems, as
well as the electric expression servos.

The room, alas, suffers from insufficient reflection of sound. As we worked
with the acoustician and architect, the organ committee and I realized we would
not be able to have all of our requests granted; the acoustician was more
interested in absorbing rather than reflecting sound. The architect and
building committee did agree that the expansive drywall ceiling would be well
supported and made up of a double layer glued together so as to not absorb the
lower frequencies. Preliminary acoustical tests of the room proved that we
needed a lot of sound to fill it. The organ had to be scaled very boldly, with
variable scales and higher cut-ups being freely employed. In addition, generous
wind pressures, especially in the reeds, would be used. Our tonal concept was
to establish well-developed Principal choruses in each division, colorful and
contrasting flute choruses, and chorus reeds that bind together well. This goal
was achieved and supplemented by colorful solo reeds and strings with character
and variety.

The Great is based on a 16' Principal. The 8' extension of the Principal can
be used as a second Diapason and creates a rich fond d'orgue with the open and
stopped flutes. Mutations provide for a Great Principal Cornet. To ensure a
bold, full pedal, the 16' Diapason is really a 16' open wood located in the
central tower of the case. The Great 16' Principal is also available in the
Pedal for use in lighter textures, while the 8' Octave and 4' Choralbass are
independent. The Trumpet-en-Chamade is made of tin and is voiced on 10 inches
of wind pressure using domed parallel shallots. The Pedal Trombone unit is also
voiced with domed parallel shallots on 8 inches of wind pressure. The Swell
reeds are on 6 inches of wind with the Bassoon/Oboe having tapered shallots and
the Trumpet/Clarion parallel shallots. The Swell Gamba and Gamba Celeste are
slotted with rollers throughout. It is a well-developed string tone with good
strength and carrying power; however, the expression boxes and shades are
heavily built and can make the strings evaporate when desired. The Swell also
has a Flute Celeste, which is built as a Ludwigtone; basically, two wood pipes
built with a common middle wall on one foot. The Choir Viola and Viola Celeste
are of about equal power to the Swell strings but are not slotted and are of a
broader tone quality. They are voiced to work together perfectly yet retain
their individual colors.

The Lauck employees that built Opus 55 include: Craig Manor, console design
and construction, wood pipes; Ken Reed, pipemaker, office manager; Ben Aldrich,
design, windchests, foreman; Bob Dykstra, windchests, wood pipes, casework;
Dick Slider, windchests, lower casework; Dan Staley, circuit board
manufacturing, wiring; Jim Lauck, design, voicing, tonal finishing; Jonathan
Tuuk; tonal finishing.

--Jim Lauck

Lauck Opus 55, 2002

3 manuals, 46 ranks, electric action

GREAT

16' Principal  (61 pipes)

8' Diapason (61 pipes)

8' Principal (12 pipes)

8' Rohrflute (61 pipes)

8' Flute Harmonique (61 pipes)

4' Octave (61 pipes)

4' Principal (12 pipes)

4' Flute Octaviante (12 pipes)

22/3' Quint (61 pipes)

2' Superoctave (61 pipes)

13/5' Tierce (61 pipes)

IV Fourniture (244 pipes)

8' Trumpet (61 pipes)

8' Trumpet-en-Chamade (61 pipes)

                        Great
to Great 4

                        Swell
to Great 16-8-4

                        Choir
to Great 16-8-4

                        Zimbelstern

SWELL

16'  Bourdon (12 pipes)

8' Bourdon (61 pipes)

8' Gamba (61 pipes)

8' Gamba Celeste (49 pipes)

8' Flute Celeste (49 pipes)

4' Principal (61 pipes)

4' Spitzflute (61 pipes)

2' Blockflute (12 pipes)

V Mixture (293 pipes)

16' Bassoon (61 pipes)

8' Trumpet (61 pipes)

8' Oboe (12 pipes)

4' Clarion (12 pipes)

Tremulant

Swell to Swell 16-UO-4

CHOIR

8' Gedeckt (61 pipes)

8' Viola  (61 pipes)

8' Viola Celeste (49 pipes)

4' Principal (61 pipes)

4' Koppelflute (61 pipes)

22/3' Nazard (61 pipes)

2' Octave (61 pipes)

2' Flautino (12 pipes)

13/5' Tierce (61 pipes)

11/3' Larigot (5 pipes)

III Scharff (183 pipes)

8' Cromorne (61 pipes)

8' Trumpet-en-Chamade (Gt)

Tremulant

Choir to Choir 16-UO-4

Swell to Choir 16-8-4       

PEDAL

32' Sub Bourdon (electronic ext)

16' Diapason (open wood) (32 pipes)

16' Principal (Great)

16' Subbass (32 pipes)

16' Bourdon (Swell)

8' Octave  (32 pipes)

8' Principal (Great)

8' Bass Flute (12 pipes)

4' Choralbass  (32 pipes)

II Rauschquint (64 pipes)

II Mixture  (24 pipes)

32' Contra Bassoon (electronic ext)

16' Trombone (32 pipes)

16' Bassoon (Swell)

8' Trumpet (12 pipes)

4' Clarion (12 pipes)

4' Cromorne (Choir)

Great to Pedal 8-4

Swell to Pedal 8-4

Choir to Pedal 8-4

Lauck Pipe Organ Company

92 - 24th Street

Otsego, MI 49078-9633

Telephone: 269/694-4500

Fax: 269/694-4401

<[email protected]>

Cover photo by Richard Lanenga

 

Paul Fritts and Co., Tacoma,
Washington, has built a new organ for Vassar College, Poughkeepsie, New York.
The mechanical-action pipe organ is installed in the 500-seat Mary Anna Fox
Martel Recital Hall of the Belle Skinner Music Building. It contains 34 stops
distributed over two manuals (Hauptwerk and Positiv) and Pedal.

The tonal design reflects both the North and Middle German schools of
organbuilding from the first half of the eighteenth century. North German
features include fully independent manual and pedal divisions with
well-developed upper work; a full spectrum of mutation stops (two on double
draws); and seven reed stops, 20% of the registers. Middle German building is
represented by a variety of six manual 8' flue stops; the “gravity”
of 16' stops in each manual division and four 16' pedal stops; a Tierce rank
which can be added to the Hauptwerk Mixture; and the inclusion of the Positiv
division in the main case, rather than positioned to the rear of the player.

The northern features pay homage to the seventeenth-century style of Arp
Schnitger and the middle German school points more to the pre-Romantic
eighteenth-century styles of Wender, Trost, Hildebrandt and others. The new
Vassar organ is well-suited for music of J. S. Bach with its cosmopolitan
mixture of northern, middle, and southern European traits. Other literature
from the sixteenth-century through the works of Mendelssohn will also sound to
advantage.

The new organ is placed centrally in a gallery nine feet above the stage
floor in the front of the hall. The case has a bright burgundy enamel finish.
Gold leaf highlights the gray painted pipe shades. The case and many internal
parts are crafted from popular. 
Many other woods were chosen for their various properties, including
mahogany, oak, maple, ebony, redwood and sugar pine.

Along with the new organ came alterations to the organ gallery and stage
area significantly improving acoustics, and a climate control system for the
recital hall. The Marian and Speros Martel Foundation Inc. donated funds
covering both the organ and hall improvements. Glenn D. White recommended
acoustical improvements, and Richard Turlington designed architectural plans
for the room. Frances D. Fergusson, President of Vassar College, initiated the
project. George B. Stauffer was consultant.

To inaugurate the new instrument, Merellyn Gallagher, James David Christie,
and Joan Lippincott played solo recitals in February and March 2003.

HAUPTWERK

16' Principal

8' Octava

8' Rohrflöte

8' Viol di Gamba

4' Octava

4' Spitzflöte

Nasat/Cornet II*

2' Superoctava

Mixture Tierce

Mixture IV–VI

16' Trompet

8' Trompet

POSITIVE

8' Geigenprincipal

8' Gedackt

8' Quintadena

4' Octava

4' Rohrflöte

2' Octava

2' Gemshorn

11/3' Quinte

Quint/Sesquialtara II*

Mixture IV–V

16' Fagotto

8' Dulcian

PEDAL

16' Principal**

16' Violon

16' Subbass

8' Octava***

8' Bourdon***

4' Octava

Mixture V–VII

16' Posaune

8' Trompet

4' Trompet

* Double draw

** Bottom octave transmission from Hauptwerk

*** Extension

Couplers

                        Positiv
to Hauptwerk

                        Hauptwerk
to Pedal          

                        Positiv
to Pedal

Manual/Pedal compass: 56/30, flat pedalboard

Burnished tin front pipes

Solid wood casework with pipe shades carved by Judy Fritts

Suspended key action

Mechanical stop action

Variable tremulant

Three bellows fitted with pedals for foot pumping

Wind stabilizer

Pitch: A 440

Temperament: Kellner

Wind pressure: 74 mm. (ca. 3≤)

Fabry Pipe Organs, Inc., of Fox
Lake, Illinois, has completed the 5-rank antiphonal division added to the
original Möller organ in Faith Evangelical Lutheran Church, Homewood,
Illinois.

Fabry Inc. installed the original M.P. Möller instrument (2 manuals, 19
ranks) in 1980 in the rear balcony of the sanctuary and has been maintaining
the organ since that time. The console was prepared for an antiphonal division.
On many occasions while tuning the instrument, the organist, Mrs. Phyllis
Silhan, would always say, “I hope I get to see this instrument completed
before I retire.” Twenty-two years later, the church elected to add the
antiphonal division.

The new antiphonal division was installed in October of 2002. The original
specification for this division--8' Gedeckt, 4' Gemshorn, 2' Flautino, II
Mixture--was changed to 8' Gedeckt, 4' Octave, 4' Harmonic Flute, 2' Fifteenth,
and 8' Oboe. A new solid-state relay was provided that is totally prepared for
the addition of a small antiphonal console.

Fabry Inc. would like to thank the organist, Mrs. Phyllis Silhan, and
Reverend Dr. Timothy Knaff, who coordinated the entire project. David G. Fabry
built all the chestwork and new casework. Crew leader Joseph Poland handled the
installation.

GREAT

8' Principal

8' Bourdon

4' Octave

2' Super Octave

IV Fourniture

8' Trompette (Sw)

SWELL

8' Rohrflote

8' Viola

8' Viola Celeste

4' Spitz Principal

4' Rohrflote (ext)

2' Hohlflote

III Scharf

8' Trompette

ANTIPHONAL (new division)

8' Gedeckt

4' Octave

4' Harmonic Flute

2' Fifteenth

8' Oboe

PEDAL

16' Contra Bass

16' Rohr Bourdon (ext)

8' Principal (Gt)

8' Rohrflote (Sw)

4' Nachthorn

16' Bombarde (ext)

4' Clarion (Sw)

COUPLERS

                        Gt
& Sw to Ped 8

                        Sw
to Gt 16-8-4

                        Gt
4

                        Sw
16-UO-4

                        Antiph
to Ped 8

                        Antiph
to Gt 8

                        Antiph
to Sw 8