Saturday, March 31, 2018

NOBODY MAKES LENSES THE WAY LEICA DOES



Leica 50mm f/2 APO Summicron M ASPH

All of the major lens manufacturers are capable of making lenses of the highest possible quality, yet when taking overall lens performance into consideration, Leica lenses are the ones that usually stand out.  That of course brings up the question “why?”  The main reason generally given is that Leica is the only major lens manufacturer that does not mass produce any of their lenses.  Mass production, as good as it has become, is simply incapable to generate the overall quality that Leica can produce with their approach.

If it were possible to make a perfect lens, one without any flaws, this article would be meaningless.  However, it is impossible to do so.  Each lens will display certain faults which are virtually impossible to overcome and, unfortunately, of these faults or aberrations there are many and all of them will cause the photographic image to deteriorate.  It is not my intention to go into the problems of lens design as such; instead I want to talk about what can be done to keep aberrations to a minimum, to make a lens perform as well as possible.

The easy answer is obvious; keep aberrations to a minimum, eliminate them as much as possible.  Every lens designer and manufacturer does this, within the parameters given to them.

The answer is actually quite easy, but very difficult to realize.  The key word is tolerances or precision.  The more precise a lens is designed and made, the closer it comes to an ideal, flawless lens, and the better the lens will perform.

During my visits to Leica I was able to obtain a wealth of information about what they are doing to make lenses as good as possible.  That amounts to tolerances and a level of precision simply not available from other manufacturers. This takes place on two levels, the mechanical and optical precision.  For reasons of greater accuracy, Leica does not utilize any assembly lines.  Instead, all production and assembly steps are done on individual workstations, in clean rooms with the work station functioning by design as additional clean environments.

 
All production and assembly steps are done at individual work stations

The mechanical tolerances applied by Leica must conform to a minimum of 1/100 mm or 10 micrometers which equals less than 0.0004 inch for the accuracy of the lens mounts of both cameras and lenses, but also for the accuracy of the focusing mount of their lenses and for the rangefinder in the Leica M-type cameras.  Other manufacturers apply tolerance of about half of these measurements.  The reason for this is that the performance of several Leica lenses would be compromised if these tolerances would not be adhered to.  For the focusing mounts of all manual lenses, initial testing is done by machine.  But the final test is up to an experienced individual who is trained to feel even the slightest imperfections in the smooth operation of the mount.  No machine is capable of doing that.

 

 
Work on lens and focusing mounts being performed

 
Adjustments for focusing mount being performed

The optical tolerances of Leica lenses go far beyond this.  This starts with the various types of glass being used to make a lens.  Leica used to make their optical glass in house, but that proved to be too expensive in more recent years.  Instead Leica now purchases their glass from companies like Schott and Hoya.  This includes proprietary designs like the so-called Apo glass which was first developed by Leica for the 50mm f/1 Noctilux.

This Leica 900403 glass consists of no fewer than a dozen different ingredients, including the rare earth element lanthanum.  One kilogram of this glass costs almost 60 times as much as a common optical glass such as BK7.  Please keep in mind that this APO glass is twice as heavy as BK7.  Subsequently the volume of glass in a kilogram that can be turned into lens elements is only half as great, making the actual price ratio between these two optical glasses approximately 120-to-1

In many cases the factory receives the glass as pressings which roughly approximate the final shape of the lens.  Other glasses can only be obtained in blocks which must be sliced into sheets, cut into squares, cemented together and ground to from a stack of discs.  These work pieces are then cemented onto the appropriate grinding and polishing heads.  About 100,000 of these grinding heads must be on hand.  Until a few years ago, the grinding heads were made large enough to grind several lens elements simultaneously.  However, for reasons of greater precision, Leica grinds each lens element individually in modern machines which, in most cases, keep the glass stationary while the grinding head rotates.  Each grinding step is immediately accompanied by a check for proper tolerances before the element is passed on to the next step.

 
Lens Production - Production of Asphericals - Grinding

 

 

 
Various lens grinding machines

Tolerances differ substantially already with the raw glass.  Leica applies a standard of ±0.0002% for the accuracy of the refractive index.  This compares to the international standard of ±0.001% as applied by other lens manufacturers.  The accuracy of the Abbe number, the measure for dispersion, is ±0.2% for Leica compared to ±0.8% internationally.

Once the raw glass blanks have been received and tested for the proper accuracy of their properties, they are ground to their specified shapes.  For the manufacture of individual lens elements Leica allows production tolerance of no more than ¼ lambda or ¼ of the average wavelength of light which corresponds to approximately 500 nanometer or 0.0005mm for the accuracy of the lens surface.  In comparison, the tolerances applied by other lens manufacturers are ½ lambda or 0.001mm.  Similar tolerances are used for the thickness of the elements and proper centering along the optical axis.

As of late many manufacturers are offering lenses with aspherical surfaces which can greatly improve lens performance by virtually eliminating spherical aberration.  However, there are two distinctively different approaches in the manufacture of these elements.  An inexpensive method is to produce a “conventional” spherical element and sandwich it with a thin aspherical surface element.  These are made of precision molded acrylic.  However, this method, originally developed by Zeiss, was ultimately discarded by them because it could not approach their quality standards.  The main cause was the fact that even the clearest plastics, like acrylics, consist of very large molecules.  Light, when transmitting, literally will scatter off these molecules, causing the light to be slightly diffused, which ultimately has adverse effects on lens performance.  Other companies use precision molding equipment where a glass blank is reheated until it becomes pliable and then is precision molded into the final shape of the lens element.  Some exotic types of glasses cannot be used with this method because the reheating and molding will cause the glass to deteriorate and thus make it useless. Subsequently, this precision molding process forces the lens designer to compromise to a certain degree because better suited glasses cannot be utilized.  The same applies to lens elements of larger diameters.  Leica uses an entirely different approach.  They use computer controlled automatic grinding and polishing of the glass elements which require the adherence to extremely tight tolerances.  Unfortunately such production methods can only be achieved at considerable expense.

 
Measurement for accurate thickness of the lens element

 
Each manufacturing and assembly step is immediately followed by a check

For the production of aspherical lens elements Leica applies tolerances which cannot exceed 0.03 micrometer or 0.00003mm.  To achieve such precision Leica employs special grinding machines where the lens element is rotating against the grinding head, which is in form of a narrow rod.  This will grind only a small section of the entire surface of the lens element at a time.  A special grinding substance is also used which is partially magnetized.  This is done to allow for a more precise adherence of the grinding substance to the lens and grinding rod surface.  With all lens elements the grinding substance becomes ever finer from one step to the next until it is mostly water with a small amount of a very fine polishing compound.  Unfortunately I was not permitted to take specific photographs of the manufacture of aspherical lens elements.

 
The grinding compound for many lens elements must be continuously agitated to avoid deterioration

Unlike with other manufacturers, at Leica all individual lens elements, spherical and aspherical, do not approach their final surface configuration and thickness until the lens coating is applied.  Lens coating at Leica is not applied in the same manner for all elements.  Instead selective coating layers of different substances is applied in a manner that eliminates surface reflection as much as possible.

Grinding aspherical surfaces via the method used at Leica is extremely time consuming.  As with all manufacturing steps at Leica, each individual step is immediately followed by a check.  If these checks show that deviations from the norm still exist, the step is either followed by additional work, or the lens element is discarded.  This often leads to no more than five aspherical lens elements being produced in a single day.

To increase lens production, Leica tried to outsource the manufacture of some aspherical lens elements to other companies like Schneider Kreuznach, for instance.  Unfortunately this proved to be a dead end.  The companies that were approached by Leica either were not able to work within the specified tolerances or they simply were not able to supply a sufficient number of elements to make such cooperation feasible.

 

 
Applying paint to the edges of the lens elements

Before lenses are assembled, each lens element is coated at the sides with black paint to avoid reflections.  This used to be done with a brush, but now a specially designed foam applicator is used instead.  The question is often asked why this isn't done by machine.  The simple answer is higher accuracy.  The general black coating is easily applied with just one step.  However the often sharp edge between the polished lens surface and the edge often requires as many of five additional applications to be perfect.  This can only be done by hand.


All of this makes Leica by far the foremost and most advanced manufacturer of aspherical lens elements in the world.  

There are a couple of additional steps in the manufacture of Leica lenses which are virtually ignored by other manufacturers.  It is a known fact that regardless of how precise one tries to make each individual lens, there will always be slight fluctuation in performance from one lens to another.  To minimize these fluctuations. Leitz tests each individual lens element after the completion of all manufacturing steps to determine its actual focal length and along with it the fluctuations from the ideal.  If these do not fall within the rather stringent parameters set by Leica, these elements are usually discarded.  The other ones are described with plus or minus figures to indicate the deviations.  Then, during assembly of the optical components, these figures are used to even out the differences with the result that there are considerably less fluctuation in performance from one lens to another.

 

Finally, there are some additional steps when it comes to the Leica rangefinder lenses.  In order to work with utmost focusing accuracy in conjunction with the mechanical Leica rangefinder, the actual focal length of each lens is measured very accurately.  Older Leica lenses were even engraved with these figures.  For instance, my 90mm f/2.8 Elmarit has the figure 05 engraved to the right of the infinity mark on the focusing scale while my 135mm f/2.8 elmarit reads 55.  If my memory serves me correctly, this means that the 90mm is actually a 89.5mm lens while the 135mm in reality is a 135.5mm lens.  The focusing cam of all Leica rangefinder lenses is then ground by hand to reflect the actual focal length of the lens to make rangefinder focusing as accurate as possible. Unfortunately the extra precision that goes into every Leica lens is also quite expensive.  But it proves once again, you get what you pay for.



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Friday, March 30, 2018

LEICA AND TELEPHONES


What if...?  How often have we contemplated certain occurrences in the light of what has or hasn't happened?

That certainly is the case with Leica as well.  Most cell phones these days have evolved to fairly capable cameras as well.  As a matter of fact, they have all but wiped out the market for small, digital point and shoot cameras.  Yet many could never imagine that Leica would be even remotely interested in this market segment.

Yet this is exactly what has happened.  It is a known fact that Leica is collaborating with the Chinese company of Huawei to develop camera and lens systems for their top level cell phones.  However, that is not all.  Jointly they established the Max Berek Innovation Lab in Wetzlar, which is designed to explore the future of optical systems.  EvenPanasonic showed a cell phone of their own which was equipped with a Leica lens.

huawei-p20-pro-gradient-purple
The Huawei P 20 Pro, the latest result of the Leica/Huawei cooperation

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Panasonic cell phone with Leica lens

Yet there was a connection between Leica and the telephone much earlier in history.  In a book by W. Erb about the Leitz (Leica) company is a short paragraph with a transcript from a newspaper article that translates as follows:

“On September 1864, the 39th meeting of the German Naturalists and Physicians took place in Giessen. (Giessen is a town very close to Wetzlar)  Particular efforts were made to remain competitive during the subsequent exhibition of microscopes.  For the young mechanic (Ernst Leitz) there was a special task.  Phillip Reis planned to demonstrate his invention, the telephone, since his first try in Frankfurt on October 16, 1861, had failed.  Ernst Leitz successfully completed the preliminary work with the help of his technical knowledge, so that on September 21, 1864, the final recognition was not denied the inventor.”

File:JPReis.jpg
Phillip Reis

File:Johann Philipp Reis telephone.jpg 
Reis' Telephone

 
Ernst Leitz
Photograph by Oskar Barnack

After reading that short paragraph one has to wonder: What if Ernst Leitz had become interested in telephones?  Could there have been a Leitel (Leitz Telephone)?  Considering the fact that Ernst Leitz did not start his work at the Wetzlar Optical Institute until 1865, this seems to be a possibility.

It is also interesting to note that Alexander Graham Bell did not show his invention of the telephone until 1876, twelve years later, yet he is generally credited with the invention of the telephone.   The above account very much proves that this is not at all the case.

 
Alexander Graham Bell

Besides Reis and Bell, many others claimed to have invented the telephone. The result was the Gray-Bell telephone controversy, one of the United States' longest running patent interference cases, involving Bell, Thomas Alva Edison, Elisha Gray, Emil Berliner, Amos Dolbear, J. W. McDonagh, G. B. Richmond, W. L. Voeker, J. H. Irwin, and Francis Blake Jr. The case started in 1878 and was not finalized until February 27, 1901.  However, regardless of the claims by Bell and others, nobody demonstrated a working telephone prior to Phillip Reis.



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