At World Images Inc Durst Enlarger Guide

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WELCOME.
DURST-PRO-USA INC. specialize in supporting the CLASSIC PHOTOGRAPHIC ART
COMMUNITY, photo-schools, workshops, discriminating Fine Art Photographers and
Fine Art Printers demanding extreme print quality, high efficiency and quality of life in
their darkroom.
DURST-PRO-USA supply NEW, re-manufactured* and custom build enlargers for 5x7”,
8x10” (10x10”), 11x14” and 12x16” for printing in both BW and Color.
Through our mother company DURST-PRO-USA INC.. – PORTLAND we serve some
of the finest commercial labs in the country with good old fashioned customer centered
service, and machinery of world standard.

IMAGINE!

DURST-PRO-USA, INC.
1 6 0 0 N E 2 5 T H AV E N U E
H I L L S B O RO, O R 9 7 1 2 4
503 846 1492
www. durst-pro-usa. com

EXCLUSIVE AGENT FOR LARGE FORMAT OPTICAL ENLARGERS

CONTENTS:
DURST-PRO-USA - different types of enlargers.
QUALITY OF LIFE – PROFIT ON YOUR ART.
SERVICE AND SUPPORT.
EQUIPMENT LEASING.
RE-MANUFACTURING PROCESS.
A NOTE ON PRINTING BW WITH A COLOR DICHRO HEAD.
WHAT IS CLOSED LOOP AND SEMI CLOSED LOOP LIGHT SYSTEMS?.
A NOTE ON QUALITY OF LIGHT.
WHAT IS COLLIMATED LIGHT? (AVAILABLE SEPARATELY)
WHAT IS A CONDENSER HEAD ? – A PAPER ABOUT THE USE OF
CONDENSERS IN PRINTING. (INCLUDED IN ABOVE)
A PAPER ABOUT LENSES AND THEIR USE. (TO FOLLOW)
A STUDY OF DIFFERENT MANUFACTURES LIGHT HEADS, THEIR
OUTPUT AND EVENNESS: (TO FOLLOW)
A STUDY OF ACRYLIC DIFFUSERS AND THEIR EFFECT ON LIGHT: (TO
FOLLOW)
A NOTE ON BUYING USED ENLARGERS
SAMPLE PACKAGES 8X10” -10x10”
SAMPLE PACKAGES 5x7”
ACCESSORIES
SHIPPING.

DURST-PRO-USA offer several different types of
enlargers;
1)

ENLARGERS FOR PRINTING FORMATS UP TO 5X7” IN BW AND COLOR.

A.
B.
C.
D.
2)

DURST 138S
DURST 139G
DURST 183S
DURST 1300

ENLARGERS FOR PRINTING FORMATS UP TO 10x10” IN BW AND COLOR.

We have a host of possibilities in 8x10” and 10x10”. They are difficult to group
in a logic manner because of the many possible combinations of chassis, heads,
accessories, functions and formats.
This is a rough grouping:
A. MANUAL VERTICAL CHASSIS
DURST L184, NEW AND RE-MANUFACTURED.
B. MOTORIZED VERTICAL CHASSIS (Incl. Auto focus and Auto size.)
DURST L1840, RE-MANUFACTURED
DURST L1800, RE-MANUFACTURED
DURST L2300, NEW AND REMANUFACTURED
DURST L2400, REMANUFACTURED
HK2000
OTHER BRANDS – USED AND RE-MANUFACTURED
C. MOTORIZED HORIZONTAL CHASSIS, ( Incl. Auto focus / Auto Size)
DURST L2500, RE-MANUFACTURED
DURST L2501 , USED AND RE-MANUFACTURED
DURST L2506, NEW, USED AND RE-MANUFACTURED.
Common for the groups 1 and 2 are that all models share most accessories, negative
holders, lens boards and color heads.
PLEASE REQUEST OUR ENLARGER SELECTION GUIDE FOR A MORE
DETAILED DESCRIPTION OF POSSIBILITIES.
3)

ENLARGERS FOR ENLARGING 11x14” , 12x16” AND 20X24” NEGATIVES
AND TRANSPARENCIES IN BW AND COLOR

We have a limited number possibilities, both HORIZONTAL and VERTICAL in
these two formats. These units are most often custom built on request. Please
request special information.
ALTHOUGH OUR RE-MANUFACTURED EQUIPMENT LOOK AND WORK
LIKE NEW, IT IS BASED ON USED MACHINES. PRICES AND
AVAILABILITY THEREFORE TEND TO CHANGE – PLEASE REQUEST A
PERSONALIZED QUOTE – WE WANT YOUR BUSINESS AND STRIVE TO
STAY COMPETITIVE.

QUALITY OF LIFE – PROFIT ON YOUR ART.
Whether you are a commercial lab or a fine Art Photographer YOU know that YOUR
time is too valuable to waste on technical issues. Your time is too valuable not to be able
to concentrate on the creative process of printing.
Many photographers struggle with old and obsolete equipment. With sheer “mind power”
and concentration they manage to produce wonderful prints by overcoming the
restrictions of their equipment.
IMAGINE what YOU could obtain by being able to concentrate solely on your IMAGE.
IMAGINE what it would free of artistic energy if you were able to produce just two
more prints per print session. And then think “Twice as many” and see what that will do
to your daily work, and the quality of your life.
IMAGINE how much further you could get in a year by using the right tool !.
When you buy an enlarger from DURST-PRO-USA Inc.. / DURST-PRO-USA it is
delivered assembled and adjusted with a 5-year WARRANTY - ready for use – just lift
it in to your darkroom and start printing. There will be no need for expensive hidden
repairs and no need to scavenge for weeks for missing parts.
And it is efficient; it delivers even light, fast exposure times, easy operation and precise
focus and alignment. (Alignment is a largely overseen issue, see a discussion under
lenses later in this paper.)
We at DURST-PRO-USA will be no further away than the nearest phone – ready to
answer your technical questions – free of charge as long as you desire before AND after
the sale.
Our 10 steps to Lasting Satisfaction :
1.
2.
3.
4.
5.

Lifetime warranty on chassis
5-year warranty on Color Dichro heads and accessories.
8 days of unrestricted right of return
We guarantee - Our machines look and function like new
We guarantee - No repairs necessary, all mechanical functions are brought to factory standard and
adjusted.
6. We guarantee the possibility to align all stages on the enlarger.
7. We guarantee that no parts will be missing.
8. We guarantee - No cleaning necessary
9. Delivered well packaged and ready to use in plywood crate.
10. FREE telephone support before and after the sale (some restrictions apply.)

All our equipment is MINT or better. It will look and function like NEW.

SERVICE AND SUPPORT
We are PROUD to announce that we now have a Durst trained and authorized
technician on staff. Mr. Svenson has more than 20 years experience with Durst, HK and
Devere enlargers. He has installed more Durst enlargers than any other independent
technician.
We are committed to optical equipment and plan on make that our business for the next
generation – if you want us to!.
Whether you are a professional lab or a fine Art Photographer we know that you will
appreciate our service because your time is too valuable to fiddle around with technical
issues. You need to concentrate on YOUR ART or production.
If you want to get the maximum out of your equipment you need to maintain it – that is
true whether it is your car or your enlarger.
A well maintained enlarger works faster than any digital printer and it is capable of
producing higher quality – if you use it right.
Ask us for advice – we are here for you.

CALL US at work
Technical Manager S.Svensson
Sales Manager Jens J. Jensen

503 846 9861
503 846 1492

We are available from 7am to 7pm – 7 days a week. Call us when you need us – don’t
worry - we know you work at night and in the weekends – be happy – we are if you call
US.

DURST-PRO-USA is AGENT FOR DURST
LARGE FORMAT OPTICAL ENLARGERS
FOR NORTH AMERICA.
We service and supply all formats 5x7” and larger.

EQUIPMENT LEASING
We offer 24, 36, 48 or 60 month leasing on all equipment.
Consider lease financing for your next equipment acquisition. Rates are often competitive
with bank loans and have added tax write-off advantages.
Terms range from 2 to 5 years and can be tailored to your cash flow.
Our leasing partner is a local family owned company. Mr. Becket and his wife are very
kind and gentle people, not pushy at all and most importantly – they can be trusted. They
both feet on the ground and are willing to work with you until you find a solution that suit
you needs.
GET PRE-APPROVED. Call Allied Pacific leasing and get pre-approved for the
amount you want to spend – even BEFORE you decide on the actual equipment. When
pre-approved you are able to shop with peace of mind and to negotiate the right price
with us.
Multiply the dollar amount you want to invest in the equipment by 0.02697 and you will
have a fairly accurate monthly leasing rate for a period of 48months. Or Visit the Allied
website for additional information and downloadable forms.
Quotations are always available at no-cost or obligation.
After the leasing period is finished the equipment can be purchased to own for one dollar.
CALL – ALLIED PACIFIC LEASING TODAY – (toll-free) 1 888 745 9481.
EMAIL – ALLIED PACIFIC LEASING – ken@alliedpacific.net.

www.alliedpacific.net

RE-MANUFACTURING PROCESS.
Our re-manufacturing process is the best in the business.
When we re-manufacture an enlarger or a processor we cut right to the bone. And we are
not timid about it.
We take the machine completely apart. We clean and sandblast every single piece. We
powder coat and re-assemble with all new parts where necessary. Re-assembly is done
by expert technicians, who know the machines in and out. Finally they are adjusted to
factory tolerances. There are more than 200 man-hours in an enlarger.
All moving parts are replaced, wheels, gears ball bearings etc. are all replaced with new.
New bellows are a matter of course. Chromed parts are polished and re-chromed. All
pumps are replaced. Electronics are replaced with the latest state of the art electronics.
Chromed parts before
stripping, polishing and rechroming.

Enlarger camera
Parts.
Durst L184 bases
Ready for powder
Coating.

A load is
leaving
for
powder
coating

DeVERE CHASSIS w/ DL7000 SUPRA and DURST LENS SYSTEM

DURST L139G w/CLS300

DURST 2400 W/ DIGITAL LIGHT 2000

THE MOST ADVANCED
CONDENSER SYSTEM

Finished enlargers:

A note on printing BW with a Color Dichro Head:
Even if you are printing strictly BW you may consider using a Color Dichro head. When
printing on Variable Contrast papers a Color Dichro head can be a great advantage due to
the availability of step-less adjustable filtration.
Kodak, Ilford, Agfa, Seagull and others have issued tables that directly translates
Magenta and Yellow filtration combinations into their VC paper grades.
If you use a paper-brand with no published filter combination chart you can use the
Ilford charts as a starting point for establishing your own chart.

SOURCE: ILFORD.COM

With the automatic CLOSED LOOP DIGITAL LIGHT Color Dichro heads the tables are
not necessary. DIGITAL LIGHT Color Dichro heads has Pre-programmed BW Variable
Contrast grade settings built into the electronics. You can choose any VC setting,
between grade 0 and grade 5 in increments of 0.1grade.
Using a Color Dichro head for BW can in many cases be a great benefit.
Using a Color Dichro head allow you to change filtration in mid exposure without any mechanical
problems, such as opening filter trays, light head doors etc. Unwanted mechanical movement can
thus be avoided.
Even a manual Color Dichro head allow you to chose your VC filter grades in increments of 0.1,
that is you can choose grade 3,5 or 3,6 or 3,7 and so on IF you establish your own chart.
If you occasionally have a very hard negative that would require a cold light source – then it is
possible to dial inn the cold light equivalent setting and you are ready to print.
Most Color Dichro heads have more light, and a more even light, than any existing Cold light or
Collimated light systems.
A Closed Loop Color Dichro head or SEMI closed loop will automatically calculate the difference
in light output associated with the different filter grades – this makes “split filtration” very easy to
manage.

What is Closed Loop and SEMI Closed loop light
systems?
CLOSED LOOP is an advanced color (light) metering process. The electronics
controlling a Closed Loop Light Head record the actual color of the light in the mixing
box. It automatically maintain the requested light level and color by compensating for
any fluctuations in line power, lamp, filters etc. Compensation is obtained by adjusting
filter position and voltage feed to the lamp(s) in the Light-head. A Closed Loop Light
head also compensate for all changes DURING an actual exposure. What does this mean
in practice? 1) It enables the operator to accurate repeat a given filter pack. Let us assume
that you printed a negative last week with a “filter pack” of 20M and 70Y at an exposure
time of 10 sec. When you want to print the same negative again, a week later, a month
later or a year later and therefore you ask for that particular “filter pack” (you may even
have it stored in a print channel) you are guaranteed that the paper will receive the exact
same amount of light with the exact same Colour quality as it did last time you asked for
that particular “filter pack”
Also, if you print large series of prints at one time you are always guaranteed that each
print receives the exact same exposure each time you push the expose button.
With a manual head, where you set the filtration on mechanical dials, you very rarely are
able to set the dials precisely the same from time to time, and even if you are able to
repeat a given setting the quality/quantity of light may still differ due to the lamp getting
older, variations in power etc.
Closed loop heads are keyboard controlled. They do not have mechanical dials. Instead of
the operator physically operating a mechanical dial, motors react to keyboard
instructions.
A DIGITAL LIGHT heads react to changes within 1/1000 of a second. Durst and
DIGITAL LIGHT CLOSED LOOP heads have a minimum accuracy of +/- 0.1 f-stop in
Density and of +/- 1 CC color.
CLOSED LOOP has a host of programmable channels, making it possible to store not
only paper values but also individual print information. Closed loop light heads
incorporate built-in digital timers.
In short – a CLOSED LOOP system reports the actual color (filter value) of the light in
use and maintain it at all times, when lamps are on, with motor controlled filters and
electronically controlled power supply.
SEMI CLOSED LOOP is in all counts the same as described above. The difference
between CLOSED LOOP and SEMI CLOSED LOOP; On a SEMI Closed loop system
the operator has to dial in the desired filtration on a set of mechanical dials. The computer
(Electronic measuring sensor) measures the exact quality of the light in use and report the
measured result on a screen. The SEMI CLOSED system will NOT automatically
maintain a certain filter setting – HOWEVER – it will display the ACTUAL color of the
light and as such make a given setting repeatable with a tolerance of +/- 1 CC. Some

systems will alert you with sound warning if the measured light drifts outside preset
tolerances.
You can not store print data in a SEMI CLOSED LOOP System and the timers are not
incorporated into the electronics.
A MANUAL DICHRO HEAD indicate the amount of filtration via a mechanical scale.
There are no correction for fluctuations in power supply, no correction for change in
lamp temperature or any other arbitrary. A manual head does NOT show the actual color
of the light in use. The scale on a manual head indicates a mechanical position of the
color filter in relation to the lamp.
A manual Color Dichro head is in most cases more than enough for BW printing as
hobby or for small print series, and for small printing needs in color.
For the demanding Fine Art Printer who produces large series it is rarely efficient
enough.
NEUTRAL DENSITY:
30CC NEUTRAL DENSITY IS EQUAL TO 1-fstop LIGHT.
15CC NEUTRAL DENSITY IS EQUAL TO 1/2-fstop LIGHT.
10CC NEUTRAL DENSITY IS EQUAL TO 1/3-fstop LIGHT.

Voltage controlled
TUNGSTENHALOGEN LAMP

A note on quality of light:
The light traveling through the negative or transparency in an enlarger, and thus via a lens
forming an image, can be delivered to the photographic emulsion (paper) in many
different “forms”.
The term “forms” embraces such subjects as the directional quality, the spectral
properties and the amount of light.
In order to enable our selves to understand how light works, in photography and
especially in enlarging, we have to break down the information we have about “light”,
into small bits.
Light is a visible electromagnetic ray with a
certain wavelength, λ, and frequency, V. The
relation between frequency and wavelength is
expressed mathematically as C=λ • V, where
“C” is the light speed (in a vacuum it is 2,998
• 108 m/sec)
Radiation in the visible spectrum is expressed
in “nm” (nanometer= 10-9 meters)
Of all the wavelengths the human eye can
only perceive a narrow band (spectrum) from
380nm to 780nm. The eye is most sensitive in
the middle of the spectrum, sensitivity peaks
around 500nm.
For wavelengths immediately over and under the human perception we use the terms
infrared (IR) and ultraviolet (UV) radiation.
High values of Colour temperature – over 3000K – belong to the blue end of the
spectrum and low values belong to the red end of the spectrum. We normally associate
the colour blue with “cold”. Oddly enough when talking about light “blue” is warmer
(hotter) than the red light – “Red” being the colour we normally associate with warm.
In the same manner as a human being photographic materials are able to perceive
different spectrums of light. And they may also have peaks inside the spectrum they are
able to perceive.
Films, BW papers, Type C Color papers and Ilfocrome papers are all sensitive to visible
light. The specific sensitivity differs from material to material. Some materials are more
sensitive to one color than to another which would be the same as saying that; their
sensitivity peak at different places within the spectrum they are sensitive to. This is how
the manufacturer controls the physical properties of their paper, contrast, color etc.
In addition to being sensitive to visible light most materials are also sensitive to UV and
IR radiation. The specific sensitivity to these wavelengths differ from material to

material. Because the are sensitive to the same spectrum as the human eye they must be
handled in total darkness, or under safelight designed for the material in question.
Most color papers are fairly sensitive to UV and manufactures of advanced Color heads
use heat filters that restrict both UV and IR light waves in reaching the paper during
exposure. IR radiation is also known as “heat rays”.
The sensitivity curve on the right is an
example of Kodak of Type C paper
sensitivity. From this example it is obvious
that this particular paper is sensitive in the
visible spectrum, it is sensitive from 390nm to
750nm. It is also clear that it is not equally
sensitive throughout the spectrum, it is more
sensitive to blue light than to red light.
The sensitivity curves below are for Ilford
MULTI GRADE fiber-base paper and for
ILFOCHROME (CIBACHROME) paper .
IMAGINE the spectral sensitivity curves for a
photographic paper super imposed on top of
one of the spectral emission curves for lamps,
shown below, and you will start to understand
why certain lamp types does not work with
certain papers (photographic emulsions) and
also why certain types of safelight does not
harm certain papers.
Our eyes and photographic emulsions are
sensitive to different spectrums of light.
Lamps of different kinds emit energy (light)
with different spectrums. Some lamps have
peaks in their spectrum.
Daylight and incandescent lamps and
tungsten-halogen lamps emit a continuous
spectrum – the spectral efficiency curve is
unbroken = without peaks. Both incandescent
lamps and tungsten-halogen lamps produce
the major part of their radiation (emission) in
the “red” (IR) end of the spectrum. As a
matter of fact only 8-9% of the total energy
used by a tungsten-halogen lamp is
transformed into visible light. More than 80%
is turned into heat (IR) and the rest is either
lost in the process or emitted as UV. UV
emission from an incandescent or tungstenhalogen lamp is normally below 2%.

Spectral sensitivity curve for
Ilford VC Fiberbase paper

Spectral sensitivity curve for
Ilford ILFOCROME

Tungsten-Halogen spectral emission curve.

This explains in particular the necessity for
heat filters but also for UV filters in enlarger
heads.
Fluorescent lamps and metal-halogen lamps
have broken sensitivity curves – that is; they
emit some light in the entire visible spectrum
but the major of their emission are in narrow
bands. See examples on your right.

METAL HALOGEN LAMPS use Ne (Neon) inert
gas which is the same gas as used in neon tubes.
3000K
4500K
5500K

SPECTRAL EMISSION CURVES FOR
FLUORESCENT TUBES / NEON TUBES.
Although all three will look the same to the eye they
certainly differ in emission.
3200K
4000K
2700K

By examining the emission curves for
fluorescent lamps and the spectral sensitivity
curve for the Ilford Fiber base paper- above –
you will find an explanation as to why some
printers have run into problems with their
“cold-light heads” when using BW-VC paper.
Maybe you have tried to photograph on color
film under fluorescent “daylight” type lamps
and have been surprised to find your
transparencies with a strong cyan/green color
cast. This is caused by the fluorescent lamps
having a spectral emission different from what
is understood by the film as “daylight”. Which
essentially is the exact same problem printers
run into with certain types of “coldlight
heads”.
The spectral sensitivity for ILFORD Fiber
Base paper is very high even below the visible
spectrum (380nm) and maintain that
sensitivity up to 525nm where it drops of
drastically and basically it is not sensitive at
all above 550nm. If the neon tube in a given
coldlight head had the same spectral
sensitivity curve as our tube “B” it would be
almost impossible to get an exposure on the
paper because tube “B” peaks above right at
and above 550nm. And has very little
emission, apart from UV, in the spectrum
where the paper is sensitive.
As a matter of fact all three tubes would be
poor for Ilfords paper which is obviously
designed for Tungsten or Tungsten-Halogen
light.
Of the three fluorescent lamps “B” would be
the tube best suited for platinum printing and

other UV printing due to the very high
emission in the UV area.
As you will see from the spectral emission
curve for a Phillips safelight lamp it’s
emission has been modified to cover an area
above 600nm. An the emission in the 600nm
area is at its lowest with most emission in the
area
around
700nm
where
(Ilford)
photographic paper is least sensitive and the
human eye still able to perceive the emission.
The color of light is expressed as “The color
temperature” and it is measured in Kelvin (K).
Degree Kelvin is an absolute temperature
scale contrary to Degree Celsius. TK = TC +
273.

Emission curve for Phillips darkroom lamp
PF710 and PF712.

Chromaticity
diagram to
DIN5033

The colour of light = colour temperature can
be described very precisely with a set of
coordinates (X,Y), in a diagram called a
“Chromaticity diagram”. This diagram is
internationally recognized and is becoming
more popular in photography and reprophotography, scanning etc. as a universal
standard.
It is important to understand that two light sources can have the same colour temperature
but at the same time completely different spectral effect distribution. This is obvious
when comparing the spectral emission curves for Fluorescent lamp, with a colour
temperature of 3200K, to a Halogen lamp with the same colour temperature.
Like sound waves, light waves can be manipulated, modified and transformed into forms
needed for a given purpose, in this case printing with an enlarger.
We can mix light. The light beam from two light sources – two bulbs - each with
different spectral emission characteristics can be mixed to form a third “light source”
with a spectral emission curve different from the two “source” lamps.
We can also modify a light source by filtering. IMAGINE a sheet of green fabric as a
crude filter. If this “filter” is inserted into a beam of light, the light on the “beam side” of
the fabric will have different characteristics (colour) than the light that penetrated the
fabric/filter.
One thing we cannot do – we cannot ad to a light source where nothing exists to be
added. We cannot ad a dye, if we want to obtain light in a colour different from that of a
given light source. No such dye exists for practical use. (Light experts will argue that the

light emitted from neon tubes are dependent on powder (dye) that can be mixed to create
different spectral emission curves for a given tube.)
The only way we can change the “colour” of an existing light source, by adding to this
given light source, would be to add emission from a lamp emitting the spectrum/colour
that we would be trying to obtain. And even then we would still end up with a “colour”
different from the “colour” of both our “source” lamps because our new light source
would be a mix of the two source lamps. To predict a certain outcome from combining
two light sources would be a very time consuming and highly theoretical calculation.
The only practical way to change the colour of an existing light source, in a predictable
manner, is to manipulate the light with a filter. A “filter” is whatever will give you the
result that you are trying to obtain. It can be anything from a coloured fabric, to a very
advanced piece of glass with properties that can alter the light in question.
Most light sources are considered “white-light-sources”. A “white-light” light source is a
light source emitting a spectrum (mixture of) light that the eye perceive as balanced –
neutral. White light consists of a mixture of red, green and blue light waves. We have to
remove a section of the total spectrum in order to create the colour-spectrum we want, if
only one light source is available for the purpose.
If we manipulate our light beam by introducing Red, Green and Blue cut-off filters in the
light beam we would be using the so called Additive filter System.
If we remove the yellow portion of a “white light” beam, by introducing a blue additive
filter in the light beam, the resulting colour left would be Blue = Magenta + Cyan.
If we remove the magenta portion of the “white light”, by introducing a Green additive
cut-off filter in the light beam we are left with Green = Yellow + Cyan.
If we remove the Cyan portion of the “white light”, by introducing a Red additive cut-off
filter in the light beam, we are left with Red = Magenta + Yellow.
If we stack a Red, a Green and a Blue additive cut-off filter on top of each other we
would in theory block out all light. (In reality some light still leaks through.)
Red

Magenta

Blue.

Yellow.

Green.

The complementary
(opposite) colour to Red
would be Cyan, the
complementary colour to
Blue would be Yellow and the
complementary colour to
Green would be Magenta.

Cyan.

If we manipulate a light beam by introducing Cyan, Magenta or Yellow cut-off filters in
the light beam we would be using the Subtractive filter System.
If we remove the Red portion of a “white light” beam, by introducing a Cyan Dichroic
Filter in the light beam, the resulting colour left would be Cyan = Green + Blue. .
If we remove the Green portion of the “white light”, by introducing a Magenta Dichroic
Filter in the light beam, we are left with Magenta = Red + Blue.
If we remove the Blue portion of the “white light”, by introducing a Yellow Dichroic
Filter in the light beam, we are left with Yellow = Red + Green.
Contrary to common belief we also block out light if we stack a Cyan, a Magenta and a
Yellow cut-off filter on top of each other. If we introduce equal amounts of Cyan,
Magenta and Yellow we block off light in an amount equal to the numerical value of one
of the three colours. Ex. If we introduce 30cc Cyan, 30cc Magenta and 30cc Yellow into
a light beam we will block out 50% of the available light, because 30cc of each of the
three colours together make up 30cc ND – which in photographic terms are equal to one
f-stop.
NEUTRAL DENSITY:
60cc NEUTRAL DENSITY IS EQUAL TO 2-fstop’ LIGHT.
30cc NEUTRAL DENSITY IS EQUAL TO 1-fstop LIGHT.
15cc NEUTRAL DENSITY IS EQUAL TO 1/2-fstop LIGHT.
10cc NEUTRAL DENSITY IS EQUAL TO 1/3-fstop LIGHT.
All of the above basic knowledge for all colour printers.
After having been through the study of Spectral sensitivity Curves and lamp spectral
emission curves we will immediately understand the transmission curves on the next
page.
Those are the actual transmission curves for the three Subtractive filters (Cyan,
Magenta and Yellow) from a DURST- DIGITAL LIGHT Colour Dichro head.
Take a look at the curve for the Cyan filter. It blocks light above 620nm, which is the red
spectrum and thus it creates a Cyan light source.
The Magenta and Yellow cut-off Dichroic filters work in the same manner. The Magenta
Dichro filter blocks the spectrum from approx. 400nm to approx 620nm. And in that
manner it creates a Magenta “light source” by transmitting the red and the blue portion of
the spectrum. The Yellow Dichro filter blocks everything below 520nm which is the blue
end of the spectrum and creates a Yellow light source.

Just as we could remove one of the three primary colours, Red, Green and Blue we could
also have removed one of the three secondary colours, Cyan, Magenta and Yellow by us
inserting a combination of two of the subtractive filters simultaneously. If we insert equal
amounts of Magenta and Yellow Dichro filters into a light beam we will create a red light
because we block out everything above the red spectrum.

Cyan Colour Dichro
filter from
DIGITAL LIGHT

A more detailed study of the spectral properties of Dichro Filters show that, by using a
“Color Dichro Head”, with a set of Subtractive filters, we are in fact able to create a light
source with a characteristics that will suit almost any photographic emulsion. Due to the
low UV emission a Modern Color Dichro Light-head is obviously not well suited for
those emulsions sensitive mainly to UV radiation.
It can also be argued that a “Color Dichro Head” is not able to imitate a neon tube
(“Cold-light-head”). That is of course true when talking about the high UV radiation
emitted by most neon tubes, but it is in fact possible to create a “filterpack”, with a Color
Dichro head, that will create a light source with an emissions VERY similar to the
emission of the type of neon tubes / fluorescent tubes used in so called “Cold-lightheads”.

Magenta Colour
Dichro filter
from

Yellow Colour Dichro
filter from
DIGITAL LIGHT

After having examined the physical properties of light – colour and spectral emission –
we can finalize this study by examining the quantitive properties of light.
Most people naturally understand that we can concentrate and focus light in a beam – and
they use it daily without thinking about it, placing a lamp shade on a regular household
lamp is in fact a manipulation of light rays. The light ray emitted from the lamp bulb is
concentrated, diffused and filtered all at once by placing a lampshade over it.
Concentrating a light source can be very power full. Just think of the experiment we all
made in school with a magnifying glass, the sun and a piece of paper.
We can also bend light rays. With a mirror we can make light rays bend around a corner.
When you see your self in the mirror it is in fact proof that light rays can bend by using a
shiny (reflective – mirror) surface. The light rays reflected off you face hits the mirror
and is reflected back to your eyes.
Both concentration and reflection is used heavily in modern light sources for enlargers.
The light is bounced off mirrors and reflectors with different properties creating a light
source that is either concentrated or spread out. How this works exactly is explained in
detail in a chapter under DURST & DIGITAL LIGHT Color Dichro Heads.
One little detail needs to be discussed here. If you have ever worked with artificial light
in a studio situation, you know that the brightness / intensity of a lamp drops drastically
when the distance from the light source to the object is increased. As a matter of fact if
the distance is doubled the intensity is reduced to 25% of the value it was at the closer
distance.
With other words – if you measure f45 on an object lit by a lamp standing one foot away
from the object you would measure only f32 if the lamp was placed 2 feet away.
If the lamp was placed 8 feet from the subject you would read only f8 equal to 3%, - the
light would be reduced with 5 f-stops.
We pointed a lamp into a “mixing box” 12 inches (1 foot) deep, and read f45 off a piece
of white acrylic that we had placed in the opposing end of the mixing box. A mixing box
is a box lined with a reflective surface, or in this case a mirror, and having a piece of
white acrylic (type 0.6) covering two opposing sides (ends). We the repeated the
experiment with a mixing box 8 feet long. This time the lightmeter read f32 2/3 . This is
a reduction of only 1/3 f-stop.
This is information is based upon a practical experiment made in our test-lab.
White acrylic, light measurement f45.
1 foot (12”)
100%

8 feet
100%

Lamp directed into box lined with mirrors.

White acrylic, f32 2/3

Our experiment proved that we can in fact direct, concentrate, bend and manipulate light
rays.
In addition to concentrating light with the use of mirrors and reflective surfaces we can
also concentrate or spread light with the use of a lens.
Finally we can “break” the light. By introducing either a physical obstruction or a “Multireflective” (broken) surface we can break a heavily concentrated light beam into a
myriad of light-rays. This is called diffusion.
A crude diffuser could be a very fine mesh of either cloth, plastic or metal. Imagine the
sun shining through the screen door.
We can also diffuse the light with a lens. If we shine a light beam through a magnifying
glass we can move the magnifying glass forth and back and manually focus the light in a
very concentrated beam. But we can also diffuse the light by intentionally moving the
magnifying glass to an “out of focus position”. We can bring the light beam so far out of
focus that the light beam will be reduced to a large circle of flare.
We can further increase diffusion through a lens by making the focal length infinitively
small and by reducing clarity from the glass used in the lens.
A piece of ¼” thick Plexiglas is a “lens” with a very very small focal length. By adding a
“milky white” coloring to the Plexiglas we have in fact created the perfect diffuser for
light.
Finally we can restrict the amount of light emitted from a light source. We can of course
do it mechanically by introducing an aperture, a metal diffuser or metal grid or by
introducing a filter with ND (neutral density) coating.
But we can also do it electronically or electrically by restricting the amount of current
supplied to the lamp. (this particular subject is covered under the digital light subject.)
Light can be manipulated in thousands of different ways. Light sources can be
created in thousands of different ways.
In photography all “lightheads” belong to one of two groups. They are either categorized
as “SOFTLIGHT HEADS” or as “FOCUSED LIGHT HEADS” (also called Collimated
light-heads)
Most all light heads (Cold-light-heads, VC heads and Color Dichro heads) belong to “Softlight” group.
To my knowledge only one type light source, for optical photography, belong in the second
group, “Focused Light heads”, and that is the Condenser head. A condenser head can
produce several different degrees of focused light by varying the lamp producing the light

beam, the quality of the condensers, the distance between the condenser-elements etc. A
point light lamp will produce a more focused light than an Opal lamp source. A coated
condenser will produce a more focused light than an uncoated condenser etc. The different
combinations all deliver light of different degrees of collimation.
Of all the different types of Light-heads for optical photography (enlarging) the condenser
head must rank as the most versatile light head available. This remark is bound to raise
an eye brow here and there and possible a “gasp” in some places.
Let me therefore defend that remark right away.
A condenser head is capable of emulating all other types of light heads available for
enlarging.
It of course delivers collimated light of varying degrees.
It also is capable of producing soft light of varying degrees.
It can be used for Color printing as well as for BW printing. The Condenser head may
not be as practical *1 for Color printing as a Color Dichro Head, but it can do it.
No other light head is capable of delivering all four features.
Not the Color Dichro Head – it cannot produce Collimated Light.
However, so far, the COLOR DICHRO head must rank as the most advanced light source. It
is capable of emulating all types of light sources in it’s group. And it is capable of doing so in
an efficient and rational manner.

Jens J Jensen, December 2000.
Literature list:
Electric light sources by The Danish Society of Light technique.
Phillips, Holland.
Osram, Germany
Ilford.com
Kodak.com
Andover Corp.
Post Exposure by CTEIN.
Photographic Sensitometry by Todd & Zakia.

*1) In the fall of 2001 DURST-PRO-USA will introduce an automatic Color Dichro Condenser head for
printing BW or Colour with an automatic closed loop Colour Dichro Condenser head.

What is Collimated Light?
(to follow)

What is a condenser head ? – a paper about the use of
condensers in printing.
(to follow)

A paper about lenses and their use:
(to follow)

A study of different manufactures light heads, their
output and evenness:
(to follow)

A study of acrylic diffusers and their effect on light:
(to follow)
Storage area in warehouse.

A note on buying used enlargers:
IMAGINE your self as someone dependent on a car, for work or pleasure.
Then try to IMAGINE your self in 10-15 year old “clunker”.
That makes no sense – does it?
DURST-PRO-USA INC.. / DURST-PRO-USA does NOT sell used equipment.
This does NOT mean that we are not competitive on prices – rather the opposite. And it
does NOT mean that we do not want your business.
We DO want your business – we are willing to fight for it.
However, based on past experience we have decided not to sell USED or re-furbished
equipment. Our experience tells us that it is not possible to satisfy the average users
expectations to a used enlarger.
To many suppliers has given the word re-furbished a bad name. Today most buyers
understand re-furbished to be equal to “rust with makeup”.
Let us be frank about this issue.
A used enlarger very rarely spent its life in a Fine Art Photographers darkroom. Used
enlargers come from commercial photo-labs. A commercial photo-lab rarely sells a
machine that function well. They use up the machine – that is good business.
Selling a used and worn down enlarger to a photographer or printer with expectations of
being able to use it, without constantly having to “fiddle” with it to make it work, or
simple expectations of having joy without spending thousand of dollars additional is
simply not possible and the same time maintain ones self respect.
THAT IS WHY WE DO NOT SELL USED ENLARGERS.
We sell re-manufactured machines in NEW condition at a price level very close to that for used
machines.

In the spring of 2001 we decided to test quality of used machines on the market.
We went out and bought four used 10x10” Durst enlargers in our own names, we did not
approach the seller as DURST-PRO-USA Inc.. or DURST-PRO-USA.
We purchased two Durst L184, one with a CLS1840 manual Color Dichro Head and one
with a condenser head.
We purchased a Durst L183 (Special edition 5x7”) and a Durst L1840 with a CLS1840
Color Dichro head.

We purchased from a large brokerage company, from a dealer and from two lab’s, one
just getting rid of one enlarger and one closing down.
Our experience – we would rather have been without it, even for our purpose it was a bad
experience – IMAGINE what it would have been to an end-user with expectations of Joy
and High Quality printing.
Let me tell you about the worst case:
We had to pay 100% up front for both the machine and the freight. We were requested to
sign off on a waiver, giving up all rights to complain, in other word we were requested to
buy “AS IS” UNSEEN – UN-INSPECTED.
The enlarger, a Durst L184 with CLS1840, arrived six weeks after paid and four weeks
after promised.
We had to call six times to get the thing shipped off, and send 8 e-mails with answers to
questions concerning packing – just to realize that the answers were ignored.
Despite very thorough instructions from us – and promises of the instructions being
followed the enlarger was packed – no it was shoveled – in wooden boxes with
absolutely no padding of any kind. The negative holder, apart from being broken and
completely useless – was packed in a box with lens holders and electronic boxes
WITHOUT any padding what so ever. Imagine what heavy electronic boxes, with sharp
corners, did to the delicate parts during a truck voyage from the Mid-west to Oregon!!.
The lamp and the reflector in the Color Dichro head has a retail replacement value of
approx $850.00 and was promised removed from the Color Head and packed separately
in secure padding for transport.
This was not done. The reflector is of glass and heavy. It had rattled around inside the
lamp house, was totally disintegrated – taking the bulb with it and the very expensive
heat mirror in front of the lamp.
Had it also ruined the Color Dichro Filters it would not have mattered since they had
been overheated and the coating therefore was flaking off.
And, and, and
It took our highly trained technician 5 full working days and parts worth $3,118.00
wholesale to make the enlarger function. This repair did not include the useless negative
holder, it was beyond repair, replacement price $1250.00. After spending $4,368.00 and
the purchase price we had an enlarger looking like a wreck and possible needing further
repairs down the road. Our repairs did not include any hidden problems. The total price
ended up being almost the same price as a durst-pro-usa remanufactured enlarger with 5year and LIFETIME warranty - with no hidden problems GUARANTEED.

Two of the four purchases were not that bad, and one would have been satisfactory to
most.
We have invoices, photographs, correspondences and freight bills to document our
experiences.
You are welcome to request documentation.
Let us face it – an enlarger in a commercial photolab is not serving as a “mommobile” it is being used like a NEW-YORK-TAXI-CAB.
Therefore – if you buy used be sure to inspect the machine prior to purchase.

SAMPLE PACKAGES
8X10” –10x10”

DURST-PRO-USA INC..
1 6 0 0 N E 2 5 T H AV E N U E
H I L L S B O RO, O R 9 7 1 2 4
503 846 1492

DURST L184, manual enlarger w/ DIGITAL LIGHT
Americana closed loop Color Dichro head.
This is the traditional manual chassis. It is different from the 1800 and 1840. It has two vertical
columns that are exposed and not encapsulated in a casing as with the 1800 and 2400. The head and
baseboard are moved via a hand crank or via optional motors. There is possibility for either a lens
turret accepting lenses up to 240mm or single lens boards. Prints up to 40x50” on baseboard.

We have equipped the Durst 184 with a Brand New Digital Dichro Color head w/ CLOSED
LOOP. The most advanced 10x10” head on the market. See attached text on our NEW Digital
Dichro head.
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Durst Laborator 184 enlarger refurbished/used in new/mint condition complete
with camera and built in 4-way masking
DIGITAL LIGHT Americana Dichro head, NEW –unused.
Keyboard, NEW –unused.
Mixing box adapter LACAP184
Mixing box LACOBOX100 for 8x10”
Register negative holder adapter, GRAHALON
register negative holder GRANE
Vacuum board 25x33”” , GRAVAPU
Rodenstock Apo Ronar 360mm/f9
Schneider Componon 300mm/f5,6
Rodenstock Apo Ronar 240mm/f9
Componon 150mm/f5,6
Lens board VAPLA (for 300 and 360mm)
Lens board UNIPLA
Lens adapter for UNIPLA (for 240mm and 150mm)

Price for the above complete package: see enclosed price list.
Vacuum baseboard can be replaced with 30x40” standard baseboard.

DURST L184, black and white condenser version
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Durst Laborator 184 enlarger refurbished/used in new/mint condition
complete with camera and built in 4-way masking
Register holder GRAHALON
Register negativeholder, GRANE
GRAGLAS 205, AN
GRAGLAS 205 regular
Condenser head
Filter drawer
Condenser LAUTICO 181
Condenser 380
Baseboard, regular
Lens board, UNIPLA
Componon 300mm
Componon 210mm

Price for the above complete package: see enclosed price list.
AD MOTORIZED OPERATION:
The above package FULLY MOTORIZED version, head, focus and baseboard
Price CALL
The above package with motorized focus ONLY

Price CALL

HVA Vertical 10x10” enlarger. Wall mounted,
Motorized head and FOCUS, Semi Closed Loop
LABORATOR HVA250 wall mounted enlarger complete with lenses, ready to use no
parts needs be purchased.
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LABORATOR HVA250 fully motorized chassis with wall brackets.
Control unit for motorized focus and head position – degree of enlargement.
Color Dichro head
Keyboard for controlling Color Head.
8x10” mixing box
Negative holder 10x10”
Glass for negative holder.
Lens board
Rodagon f5,6 – 300mm lens
Rodagon f5,6 – 150mm lens

Price for the above complete package: see enclosed price list.

SAMPLE PACKAGES
5x7”

DURST-PRO-USA INC..
1 6 0 0 N E 2 5 T H AV E N U E
H I L L S B O RO, O R 9 7 1 2 4
503 846 1492

DURST 138S Manual vertical 5x7” enlarger. W/ CLS300 –
2000 watt Color Dichro head.
The 138S has the traditional manual chassis with one column. The head and the baseboard are
moved via spring tension/spring release. Foot pedal for baseboard movement. The baseboard is
25x33”.

Our Durst 138S are all equipped with the manual CLS300 2000watt Dichrohead from Durst.
This is a
Mean machine for printing all formats including 5x7” and 2 ¼ x 7”. All our 138S models are
delivered
With a full set of masks including the new 2 ¼ x 7” mask (6x17cm).
You can choose between the regular negative holder NEGA138 or
the register holder GRAHALON57.
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Durst 138S chassis complete with camera w/ 4 way adjustable
masking system. Lens turret accepting 3 lenses up to 240mm,
regular baseboard with ball head mount.
Dichro head CLS300 2000watt.
Dichro head adapter LACAP138
Mix box 5x7”
Power box EST300
Baseboard
Exhaust blower
Negativ holder NEGA138

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Rodenstock Rodagon 210mm

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Rodenstock Rodagon 150mm,
Rodenstock Rodagon 105mm,
Lens-turret, accepting lenses up to 240mm but not including 240mm.
TRIPLA lens rings, for 150mm and 105mm

Price for the above complete package: see enclosed price list.
Same enlarger with BW Condenser head CALL
Same enlarger with Aristo VC head is CALL
Same enlarger with CLS1000 Color Dichro head is CALL
Same enlarger with BWL 2000watt Soft light head is CALL

DURST 138S Manual vertical 5x7” enlarger . CLS301 Color
Dichro head.
This is the most sold and most traditional solution. Completely manual machine. Complete and ready for
use. No parts needed. Everything is MINT condition.
This is a standard package. It can of course be reduced and or changed/enlarger.
Durst Laborator 138S, see enclosed manual.
Ready for printing both Color and B&W, both graded and variable contrast B&W.
1 pc

Durst 138S chassis complete with camera w step-less adjustable masks, completely refurbished
in mint/new condition

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Camera with fixed TRIPLA lens turret
Dichro head Durst CLS301 600 watt.
Dichro head adapter LACAP138
Mix box 5x7”
Powerbox EST/TRA301
Negativeholder NEGA138
5x7” Glass for negative holder
Rodenstock Rodagon 210mm,
Rodenstock Rodagon 105mm,
Rodenstock Rodagon 50mm,
UNIPLA lensboard
TRIPLA lens rings
Crating

Price for the above complete package: see enclosed price list.

DURST 139G Manual vertical 5x7” enlarger . 2000 watt Color
Dichro head and BW Condenser head.
This is our most complete package. It is a “sample package” . It can of course be reduced. We sell this
package mostly to Fine Art photographers who wants to do masks and have a future possibility to step up to
5x7’ if they are not already using this format. Complete and ready for use – no parts needed. We have anly
one complete package left, and can not guarantee a similar complete package in the future.
The CLS300 is our most power full manual head.
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screen
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Durst 139G chassis complete with camera w step-less adjustable masks, completely refurbished
in mint/new condition
Camera with fixed TRIPLA lens turret
Dichro head Durst CLS300 2000 watt.

Dichro head adapter LACAP138
Mix box 5x7”
Powerbox EST/TRA301
B/W condenser head
set for 5x7” printing
Register negative holder GRAHAL
Insert for register holder, GRANE 138
Film register punch 2x2 up to 16x20”
5x7” Glass for negative holder
mask for A, 21/4x3
mask for A, 21/4x21/4
mask for A, 4x5”
mask for 6x4,5cm
Mask for 24x36
Durst REPRO lamps with iffuser
Extensions arms for lights
Register Camera back w/ 5x7” ground
Film holder 5x7” for camera back
Schneider Componon 2105,6
Schneider Componon 5,6 150mm
Rodenstock R.odagon 80 5,6
Rodenstock Rodagon 2,8 50mm
Lensboards for lenses shown
Crating.

Price for the above complete package: see enclosed price list.

DURST Laborator 1300 fully motorized vertical 5x7” enlarger .
1000 watt Color Dichro head.
This is a very unique enlarger. There is less than ten units in the US, we have two used arriving on August
21 – 2000.
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Durst L1300 fully motorized chassis complete with camera w/ step-less adjustable masks,
in mint/new condition
Proffesional camera accepting the professional series lens boards
Dichro head Durst CLS 1000 – 1000 watt.

Mix box 5x7”
Mix box 4x5”
Mix box 6x9
Mix box 35
Powerbox EST1000
set glass R/AN for 5x7” printing
TRINEG NEGATIVE holder
mask for A, 21/4x3
mask for A, 21/4x21/4
mask for A, 4x5”
mask for 6x4,5cm
Mask for 24x36
Proff lens board adapter allowing fine
correction of alignment
Schneider Componon 2105,6
Schneider Componon 5,6 150mm
Rodenstock R.odagon 80 5,6
Rodenstock Rodagon 2,8 50mm
Lens boards for lenses shown
PCM 1001 Analyser
Crating.

Price for the above complete package: see enclosed price list.

ACCESSORIES

DURST-PRO-USA INC..
1 6 0 0 N E 2 5 T H AV E N U E
H I L L S B O RO, O R 9 7 1 2 4

503 846 1492

This is the new PRONEG pin register negative holder
for DURST 10x10 enlargers.
FACTORY NEW Complete and ready for use w/ 8x10” tray $685.00
Full Set of all metal masks for printing 35mm, 2 ¼ x 2 ¼ , 4,5x6, 6x7, 6x9, 6x17, 4x5,
and 5x7 with glass $130.00
Extra complete trays - One complete tray for printing either 35mm, 2 ¼ x 2 ¼ , 4,5x6,
6x7, 6x9, 6x17, 4x5, or 5x7 without glass $172.00

SHIPPING and receiving:
We ship an pack like we were to receive the equipment our selves. We ship and pack
with care, we make sure that all parts are padded and packed in a manner that will
GUARANTEE that it arrives at your door step unharmed in a condition that we can be
proud off.
We crate in plywood.
We ship air freight only for our enlargers. We ship enough each year to obtain airfreight rates as better than trucking rates.
If a machine is to large to ship air-freight we deliver on our own truck.
WE CARE - THAT IS YOUR GUARANTEE FOR A PERFECT DELIVERY.

All our shipments are
professionally packed in
custom designed packing
or plywood crates.
Small shipments are
shipped via UPS in well
padded cardboard boxes.
WE CARE.

END.

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