This device can read any passport, capture an image of any document, and scan a 2D barcode found on US, Canadian, and some other IDs. The 3M QS1000 combines three operations into one device. It reads the MRZ code found on most international passports, provides imaging capabilities to help keep a copy of identification on file, and reads 2D barcodes including all driver's licenses issued after 2010. Distribution & Digitization: The Broker & Agent Imperative. ACORD studied over 12,000 insurers across 85 countries, representing 90% of global premiums, over a ten-year span.

• Drivers 3m Qs Series Document Reader Pdf
• Drivers 3m Qs Series Document Reader Download
• Drivers 3m Qs Series Document Reader Free

The last month has been a professional nightmare for all teachers throughout the nation. The requirement to go to online teaching has been a massive undertaking. Every teacher I know has been working double the hours, morning until morning... Read more each day.
One of your employees, John Chang, has been a savior. I brought my document camera home because it is the tool I use most often in my classroom. I could not figure out how to make it work from home. So I contacted Aver. Right away I was given a support person, John Chang. He has been a wonderful help. I have a question, he knows the answer and he returns my emails right away. His answers are clear and easy for me to understand. His solutions fix the problems easily and right away. We even had a very courteous phone conversation.
I am so appreciative of his help. He has saved me hours and hours of frustration. Thank you from the bottom of my heart.

I was contacted immediately! Under these extreme circumstances with COVID19 your staff doesn't miss a beat!

The VB342 All-in-one conference cameras are quickly becoming the standard for our Zoom Rooms. With a single USB cable connecting the camera, microphone and sound bar to the Zoom computer, installation of new Zoom Rooms happen in a breeze. The audio quality of the integrated sound bar exceeds our expectations... Read more and the microphones pick up even the softest and farthest speakers in a 10-person conference room while eliminating echo and reverberant sound. With it's motorized pan-tilt camera and stylish design, the VB342 has outdone all competition.

I love using AVer auto tracking cameras to track professors and archive their lectures with Zoom software. The cameras provide a set it and forget it functionality that allows us to put them in a lecture room and have them follow around our active presenters autonomously.

REMC SAVE has worked with AVer for over fifteen years. We started with the AVer Presentation Stands (now known as Document Cameras). Over the years, we have grown with AVer to include charging carts, video conferencing and interactive panels. ... Read more Aver always puts customers first. Whenever there is a customer with an issue, they resolve it quickly with very few questions, usually by shipping a replacement overnight. Our teachers count on the quality of AVer products to be reliable for their classrooms. Michigan teachers continue to be impressed.
AVer products are high quality with excellent support and training. There are many video tutorials available and, when needed, product support will hop on a call with the customer to educate them. AVer is responsive to customer needs and listens to make improvements in their products. AVer is innovative and always looking to improve products, service and education.

Overall the camera [CAM340+] has been solid. The horizontal field of view is a big improvement, and it does very well in smaller spaces with capturing the audience at all sides of the tables. The lens sharpness and color rendition is very good, and we've proven this to be better over other competitor brands.

Since posting revision 1.6 of the lens guide last week, I've include
some corrections and additions which I hope will prove useful. I don't
expect another revision out for about four months or so.

-Dave

------------------------------------------------------------------------------

The

H a s s e l b l a d

Lens Guide

revision 1.7 98.05.14

One of the advantages of medium format photography is that the equipment is
largely modular in design. Consequently, there is a great deal of component
interchangeability within a system, often with bodies, viewfinders, backs,
and lenses that were manufactured across a span of over 40 years.

This Lens Guide is written with several objectives in mind. First, to help
the potential buyer of Hasselblad equipment understand the different series
of Hasselblad lenses and, second, to provide an up-to-date historical
reference.

D. A. Munroe

Notice
------
This guide may be distributed freely provided it is copied in full with this
notice, disclaimer, and credits, and provided that it is not used for any
direct commercial purpose.

DISCLAIMER: Neither my employer or myself are associated with Hasselblad
nor are we distributors of Hasselblad products. All material presented
here has been obtained either from non-copyrighted material in the public
domain or from personal observation or knowledge. Although I have made every
effort to verify the accuracy of the material contained herein, some mistakes
are bound to occur. Neither my employer, myself, or any contributors to
this document are responsible for any damage or financial loss directly or
indirectly resulting from this material. This material is used at the reader's
own risk; it is the total responsibility of the reader to verify the accuracy
of any statements herein before using or relying on this material in any way.

Acknowledgements and Credits
----------------------------

I would like to thank the following people for sharing information with me
in order to improve the lens guide:

Tom Campbell, for explaining how to cancel the depth-of-field
lever on C lenses

Dan Cardish, for placing this document on the World Wide Web with
the Hasselblad mailing list archives,
http://www.kelvin.net/dcardish/htm/hassy.htm

Bob Eskridge, for information on the 50mm CF lens

Austin Franklin, for information on 1600F and 1000F lenses

Gary Gaugler, for his simple explanation and easy fix for
'jammed' bodies and lenses

Stephen O. Gombosi, for corrections and information on the Superachromat
lenses

Danny Gonzalez, for information on CB lenses, on lens coatings, and
for information on the new 350mm CFE lens

Bob Gurfinkel, for information on 60mm C filters

Lance F. Karp, for information on the 60mm C and C T* lenses

Peter Klosky, for encouraging me to include filter size information

Dr. Philip Leong, for placing this document on the World Wide Web
under his home page,
http://www.cs.cuhk.edu.hk/~phwl/hassylens.txt

Ulrik Neupert, for information on the 500mm C Tele-Tessar and the
500mm CF Tele-Apotessar, for information on filters
for the SWC cameras, and for information on 1600F
and 1000F lenses.

Rick Nordin, author of the Hasselblad Compendium, for his
generous sharing of information and details about
the early lenses

Lai Ping, for serial number information

Lennart Rydstroem, for serial number information

Marc James Small, co-author of the Zeiss Compendium and Vice-President
of the Zeiss Historica Society, for his invaluable
assistance and expertise on Zeiss lenses

Leo Wolk, for information on the 500mm C Tele-Tessar and the
105mm C UV Sonnar.

I welcome corrections and additional information. Please send email regarding
this lens guide to: dmu...@vcd.hp.com

Table of Contents
-----------------

1. Preliminaries: Hasselblad notation

2. The most frequently asked questions

3. Quick Selection guide

4. 1600F and 1000F lenses

5. C lenses

6. C T* lenses

7. CF lenses

8. The 501C's C lens

9. CB lenses

10. F lenses

11. FE (TCC) lenses

12. CFE lenses

13. ArcBody lenses

14. Special lenses and equipment

Appendices

A: Using leaf-shutter lenses on focal plane bodies
B: Using the green full-second scale on C lenses
C: Filters
D: Recommended reading
E: Buyer's checklist for inspecting used lenses.

References

Lens Guide revision history

1. Preliminaries: Hasselblad notation
--------------------------------------
Despite the variety of bodies and lenses, the Hasselblad system is simple
to understand. Best of all, there is a great deal of interchangeability
among components spanning a period of over 40 years and, aside from the
50 year old 1600F/1000F system, no obsolescence.

The Hasselblad system can be divided into two major branches: 1) shutterless
bodies which take leaf-shutter lenses, and 2) focal plane bodies which can
take both shutterless lenses and leaf-shutter lenses. In the latter case,
either shutter can be selected for use, depending on the application.

Starting with the 1600F, the numerical designation on the body indicated
the top shutter speed and the type of shutter. Thus, a 1600F has a top
shutter speed of 1/1600th of a second and a focal plane shutter. Likewise,
the 500C has a top shutter speed of 1/500th of a second and uses a lens with
a (Synchro)-Compur shutter. This notation continued with the introduction
of the 2000FC in 1977, where the top speed of the electronically controlled
focal plane shutter was 1/2000th second and the FC designation meant it
could use either its own focal plane shutter and the new F lenses or it
could use the existing leaf-shutter C lenses.

As new models were introduced over the past 40 years, strict interpretation
of the numerical designation gave way to thinking in terms of a body series.
Thus, the 501, 503, and 553 are all part of the 500C series of shutterless
bodies and require leaf-shutter lenses such as C, CF, or CB. The 200F series
of focal plane bodies can take either the shutterless F or FE lenses or the
leaf-shutter lenses (Hasselblad broke with tradition on the naming of these
bodies: the 200F series bodies can be thought of as numerically truncated
descendants of the 2000FC series; their top shutter speed is either 1/1000th
or 1/2000th, depending on model).

The new 202FA focal plane body only allows use of the focal plane shutter.
2. The most frequently asked questions
---------------------------------------
A lot of commonly asked questions have no definite answer. That is, the
answer depends on either personal needs or preferences. I have repeated
the most frequently asked ones below and have provided an answer gathered
from the collective wisdom of people who have responded to these questions
in the past. When an answer or part of an answer is my own opinion, I have
indicated that; however, keep in mind that my opinion is not necessarily
more authoritative than anyone else's.

Naturally, answers to many other common questions can be found in the
sections that follow.

Q: Should I get a T* lens? How much better is a C T* lens than a C lens?
A: See the section on C T* lenses.

Q: Should I store the lens in a cocked or uncocked state?
A: Most people, including Ansel Adams, have said that it is best to leave
lenses in an uncocked state. However, others point out that the
motorized Hasselblads automatically recock the lens and this has not
resulted in problems. My opinion is that it doesn't matter - it is
more important that the lens be exercised regularly than what state
it is left in. Also, from factory to customer, lenses will sit for
quite some time (sometimes years) in a cocked state.

Q: How often should I exercise unused lenses?
A: The consensus is that lenses should be exercised at least once a month,
especially at the slower shutter speeds.

Q: What is the story on lenses jamming?
A: Lenses should be mounted and dismounted only when both the lens and the
body are cocked. A simple no-cost cure for this condition is explained
and shown by Gary Gaugler at his web site:

Q: When I look at my closed shutter, the tip of one of the blades seems to
be bent. What should I do?
A: It's nothing to worry about; it's designed that way.

Q: Should I buy a SWC model or a 40mm lens?
A: This question has come up mostly in comparing the new 40mm CF FLE against
the 903SWC or those SWC/M's with a CF lens. This is a tough decision and
the tradeoffs are largely subjective. I believe the SWC models still hold
an optical advantage over the 40mm lens, though with the FLE slightly less
so. The strong points in favor of the 40mm lenses are that they are
better suited to fast work (i.e. faster than landscape or architectural
work), you have reflex viewing, and they cost a bit less than the SWC.
However, the SWC's can use a groundglass and a magnifying viewfinder in
place of the film back if through-the-lens viewing is needed. My advice
is to rent each one for a suitable period of time to determine which best
suits your needs.

Q: Which is better for portraits, the 150mm CF or 180mm CF?
A: Many people have stated that the 180mm CF is one of the sharpest lenses
Hasselblad has. Indeed, along with the 100mm CF Planar, the MTF curves
for this lens are impressive. Even so, the 150mm CF is sharp enough
that the real decision between the two will depend on things such as how
close or far from your subject you need to be to get the proper framing.
For example, the 180mm does have the advantage of making a tight head shot
possible without using extension tubes. Again, my advice is to rent each
one for a suitable period of time to determine which best suits your needs.
3. Quick Selection guide
-------------------------
The chart below can be used as a quick guide to help the first-time buyer
decide on which series of lenses would be appropriate for which bodies.

Lenses for the ArcBody are not on this chart, but are discussed in a later
section.

As an example of using this guide, the chart below shows that owners of 200F
series bodies could choose FE series lenses to take full advantage of the
features those bodies provide, but could also use CF series lenses without
problems.

The following notation is used:

-- = this means that the lens and body combination cannot be used

OK = The lens and body can be used together.

E = This is also OK, with the added benefit that either the focal
plane shutter or the lens shutter can be used. This procedure
is described in Appendix A.

suffixes:

-b = the lens will not allow full use of body features

+l = lens has features that the body cannot make use of

A number in the lower right corner refers to a notation below which
will explain the restriction or enhancement in more detail.

___________________ LENS series _______________
BODY || /
series || 1600F, | C C T* | | | FE | |
| || 1000F | 501C CB | CF | F | (TCC) | CFE |
- V -----+--------+-------------+--------+--------+--------+-------|
| | | | | | |
1600F, | | | | | | |
1000F | OK | -- | -- | -- | -- | -- |
| | | | | | |
-+--------+-------------+--------+--------+--------+-------|
| | | | | | |
500C | -- | OK | OK | -- | -- | OK+l |
| | | | | | 1|
-+--------+-------------+--------+--------+--------+-------|
| | | | | | |
2000FC | -- | E-b | E | OK | OK+l | OK+l |
| | 2 | | | 1| 1|
-+--------+-------------+--------+--------+--------+-------|
| | | | | | |
200F | -- | E-b | E-b | OK-b | OK | E |
| | 2,3 | 3 | 3 | | |
-+--------+-------------+--------+--------+--------+-------|
| | | | | | |
202FA | -- | -- | OK-b+l | OK-b | OK | OK+l |
| | | 3,4 | 3 | | 4 |
---------------------------------------------------------------------|
SWC, | All Superwide cameras have a permanent 38mm f/4.5 |
900 | Biogon lens |
---------------------------------------------------------------------'

Notes:

1. The 500C and 2000FC series bodies do not make use of the electronic
databus connections on these lenses.

2. On C and CB series lenses, if the lens shutter is used in the
B setting on focal plane camera bodies, this will leave the
shutter closed after exposure until the body is recocked.

3. These lenses provide no electronic information to the body. In
particular, they do not provide aperture information. See the
section on FE lenses and also Appendix A.

4. The 202FA body differs from the rest of the 200F series in that
it cannot make use of the lens shutter on CF or CFE lenses; the
lens must be set to F and only the focal plane shutter can be used.

4. 1600F and 1000F lenses
--------------------------
The very first Hasselblad bodies and lenses are not really compatible with
the rest of the Hasselblad system. They are included here for completeness.

These lenses were made for the 1600F and 1000F series of Hasselblad bodies
with focal plane shutters. The 1600F was introduced in 1948 and became
available in 1949; the 1000F bodies were made and sold in late 1953. These
lenses can be used only on the 1600F and 1000F bodies; newer focal plane
bodies such as the 2000FC and 200F series cannot use these lenses.

The normal lens was originally a Kodak 80mm/2.8 Ektar, followed later by a
Carl Zeiss 80/2.8 Tessar. In addition to Carl Zeiss, other manufacturers
offered lenses for these bodies.

These lenses can be identified by the lack of a shutter speed ring and, on
some lenses, an aperture preset ring. These lenses have highly scalloped
focusing and aperture rings. In particular, the 80mm/2.8 Tessars are chrome
with a black filter ring.

1600F, 1000F lenses and data:

min - max closest
focal length aperture focus filter type
------------ ------------ ---------- ------ ----

60mm f/5.6 Distagon

80mm f/2.8 Ektar
80mm f/2.8 Tessar

135mm f/3.5 Ektar
135mm f/3.5 Sonnar

250mm f/4 Sonnar
250mm f/5.6 Sonnar

These lenses were manufactured between 1948 and 1957.

Serial number information is still being collected. Detailed serial number
information can be found in the Hasselblad Compendium.

5. C lenses
------------
Starting with the introduction of the 500C in 1957, the C lenses were developed
for the 500C series of bodies. These are Carl Zeiss lenses with Synchro-Compur
shutters. They can be used not only on all 500C series bodies manufactured
between 1957 and today, but, in the B setting, they can also be used on all
2000FC and 200F series focal plane bodies (except the 202FA).

A newer lens with a C designation was developed for the 501C; it is actually
a CF lens, both internally and optically, with some minor CF controls omitted.
This lens is discussed in another section below.

The following features are common to the C lenses:

Shutter speeds are from 1/500th second to 1 second, plus B. Beyond B are
non-selectable green markings from 4 to 125 which indicate the number of full
seconds the shutter should be held open for on the B setting, based on a given
EV. An example of this is given in Appendix B. The shutter speed and aperture
rings are normally interlocked, so that choosing different speeds or apertures
will result in the same EV setting. A different speed/aperture combination can
be selected by pulling back on the cross-coupling tab and turning the ring.

These lenses have moving depth-of-field indicators - red pointers that show
the near and far range of depth on the distance scale. These pointers move
and adjust themselves according to the aperture selected.

Flash synchronization is at speeds up to 1/500th second. A lever on the left
side of the lens selects X, or M synchronization; X is for electronic flash,
M is for flashbulbs. There is also a V setting for the 8-second self-timer;
an additional locking lever must be pressed before V can be engaged or
disengaged. The lens must be cocked before engaging V.

In normal operation, viewing through this lens is at maximum aperture. A lever
on the right side of the lens can be used to stop down the lens. If the lens
has been stopped down by the lever, then selecting the maximum aperture will
cancel the effect of the lever so that viewing can again be done at maximum
aperture regardless of shooting aperture. In any case, the aperture will
reopen once the lens is recocked after the exposure. After the exposure, the
shutter remains closed until the lens is recocked (a mounted lens will be
recocked automatically by the body's winding crank). The very earliest C
lenses did not have this depth of field preview lever; the Superwide models
also do not have this lever.

As noted in the Selection Guide above, lenses in this series can be used on
both 500C series (shutterless) bodies and also on bodies with a focal plane
shutter. Appendix A describes how either the focal plane shutter or the
lens shutter can be used with these lenses.

These lenses are satin chrome, with black lenses becoming available in the
1970s. These lenses have highly scalloped focusing and shutter speed rings,
and have the words 'Synchro-Compur' etched on the barrel. The focusing ring is
at the rear of the lens and the shutter speed ring is at the front. The EV
scale is marked in red.

Lens specifics:

On the early 80mm C Planars, viewing is not at full aperture unless
the aperture is set at f/2.8 - otherwise it is at about f/3.5 (Rick Nordin).

Early 120mm S-Planar lenses had an f/32 minimum aperture (Rick Nordin).

The 30mm/3.5 and the 350mm/5.6 were introduced in 1973.

The 500mm Tele-Tessar, already impressive in size, had an unusual and
enormous focusing ring until 1977. These lenses are predominantly black
with early versions having chrome in the area around the shutter speed
and aperture rings.

C lenses and data:

min - max closest
focal length aperture focus filter type
------------ ------------ ---------- ------ ----

30mm f/22 - f/3.5 0.3m 26 Distagon
40mm f/32 - f/4 0.5m 104 Distagon
50mm f/22 - f/4 0.5m 63 Distagon
60mm f/4 63 Distagon
60mm f/5.6 63 Distagon

80mm f/22 - f/2.8 0.9m 50 Planar
100mm f/22 - f/3.5 0.9m 50 Planar

105mm f/32 - f/4.3 1.8m UV Sonnar

120mm f/32 - f/5.6 0.95m 50 S-Planar
120mm f/45 - f/5.6 0.95m 50 S-Planar
135mm f/45 - f/5.6 0.53m 50 S-Planar
w/bellows

150mm f/32 - f/4 1.4m 50 Sonnar
250mm f/45 - f/5.6 2.5m 50 Sonnar
250mm f/45 - f/5.6 2.8m 50 Sonnar Superachromat

350mm f/45 - f/5.6 5.0m 86 Tele-Tessar
500mm f/64 - f/8 8.5m 86 Tele-Tessar

140-280mm f/32 - f/5.6 2.5m+macro 93 Schneider Variogon

These lenses were manufactured between 1957 and the late 1970s, being gradually
replaced with C T* versions. Some lenses, such as the 105mm UV Sonnar, were
produced as C lenses only (i.e. there is no T* version).

Serial number information is still being collected. Detailed serial number
information can be found in the Hasselblad Compendium.

6. C T* lenses
---------------
These lenses are essentially identical to the C lenses, except that they have
six layers of coating to reduce flare and improve contrast. The term 'T*'
(pronounced 'T-star') refers in general to all Carl Zeiss lenses with this
multicoating, not just Hasselblad C T* lenses.

The question often arises about the differences in image quality between the
C and C T* lenses. The consensus seems to be this: in situations where sources
of flare are absent, a C lens with appropriate lens hood will produce images
that are slightly less contrasty than its C T* counterpart. In some cases
the images may be indistinguishable. In situations where there are sources of
flare (especially flare with wide angle lenses), the C T* produces noticeably
better quality.

C T* lenses are black, except for the very earliest T* lenses which are satin
chrome. These lenses have highly scalloped focusing and shutter speed rings,
and have the words 'Synchro-Compur' etched on the side.

The T* designation is inscribed in red on the front of the lens barrel. During
times of transition, such as going from the 500C to the 500C/M, it is not at
all unusual in manufacturing environments for an upgrade to be implemented but
not be so designated. This is the case with late model 500Cs that are really
500C/Ms. Similarly, it is possible that some lenses have the T* multicoating
but are not marked as such. Conversely, it is possible, though not very likely
or very common, for an older non-T* lens to have been repaired and fitted with
a newer rim having the T* designation.

The first Hasselblad lenses to get the T* multicoating were the 30mm, 40mm, and
the SWC's 38mm Biogon. The 80mm/2.8 C T* appeared in late 1974. By the end of
1976 most of the C series lenses were being produced in multicoated form.

The 140-280mm Variogon of this period is not designated a T* lens because it
was made by Schneider rather than Zeiss; it was, however, multicoated.

C T* lenses and data:

min - max closest
focal length aperture focus filter type
------------ ------------ ---------- ------ ----

30mm f/22 - f/3.5 0.3m 26 Distagon
40mm f/32 - f/4 0.5m 104 Distagon
50mm f/22 - f/4 0.5m 63 Distagon
60mm f/22 - f/3.5 0.6m 63 Distagon
60mm f/4 63 Distagon

80mm f/22 - f/2.8 0.9m 50 Planar
100mm f/22 - f/3.5 0.9m 50 Planar

120mm f/5.6 0.95m 50 S-Planar
135mm f/45 - f/5.6 0.53m 50 S-Planar
w/bellows

150mm f/4 1.5m Sonnar
250mm f/45 - f/5.6 2.5m 50 Sonnar

350mm f/45 - f/5.6 5.0m 86 Tele-Tessar
500mm f/64 - f/8 8.5m 86 Tele-Tessar

These lenses were manufactured from late 1974 to 1982.

Serial number information is still being collected. Detailed serial number
information can be found in the Hasselblad Compendium.

7. CF lenses
-------------
The CF series is a redesign of the C series lenses, with improvements to the
shutter, some changes to its handling, and an F setting for use with focal
plane shutter bodies. The shutter in CF lenses is a Prontor shutter. This
redesign occurred in 1982.

The following features are common to the CF lenses:

Flash synchronization is at speeds up to 1/500th second. Shutter speeds are
from 1/500th second to 1 second, plus B. Unlike the C lenses, there are no
green full-second markings beyond B. Beyond B is the F setting which is used
with focal plane shutter bodies. The shutter speed and aperture rings are now
normally independent; they can be moved together to retain the same EV setting
by pressing down on a convenient cross-coupling button.

These lenses do not have the moving depth-of-field indicators; depth-of-field
is now determined by a fixed scale engraved on the lens barrel.

These lenses do not have a self-timer.

As noted in the Selection Guide above, lenses in this series can be used on
both 500C series (shutterless) bodies and also on bodies with a focal plane
shutter. Appendix A describes how either the focal plane shutter or the
lens shutter can be used with these lenses.

In normal operation, viewing through this lens is at maximum aperture. A lever
on the left side of the lens can be used to stop down the aperture blades or
reopen them. After the exposure, the shutter remains closed until the lens is
recocked (a mounted lens will be recocked automatically by the body's winding
crank).

These lenses are black and have ribbed rings for setting the shutter speed
and aperture, and a checkered ring for focusing. The shutter speed ring is
at the front of the lens, followed by the aperture ring, and the focusing
ring is at the rear. The aperture ring is apparently designed for right-
handed operation, as it is not easy to grasp from the left side of the lens.

The CF 40mm and 50mm FLE (floating lens element) lenses have a secondary
focusing ring at the very front of the lens barrel. The secondary focusing
ring moves the front elements for optimal image quality at close range. On
the 40mm FLE lens, the secondary focusing ring selects one of three ranges;
on the 50mm FLE, the secondary ring selects one of four ranges.

The 135mm Makro Planar has no focusing ring and is designed for use with a
bellows extension. With the bellows, its focusing range is continuous from
infinity to a 1:1 reproduction.

The 500mm Tele-Apotessar had a minimum focusing distance of 8.5m prior to
1989.

The 140-280mm Variogon has 'Schneider Kreuznach' engraved at the front of the
barrel, followed by a focusing ring (green markings for feet), and a zoom ring.
The shutter speed ring, aperture ring, and cross-coupling button are the same
as on the Zeiss lenses.

CF lenses have 'CF' and the focal length engraved on the barrel. Numerical
markings are white, except for the EV settings and distances in feet, which
are orange. Early CF lenses have 'Prontor' inscribed around the lens barrel;
all CF lenses have always had Prontor shutters, however.

All CF lenses are T* multicoated lenses with these exceptions:

- the type of coating on the 105mm UV Sonnar is not specified in the
literature, but is most likely uncoated; it is not multicoated.

- The Superachromat version of the 250mm Sonnar, which is designed for
optimal quality throughout the entire visible spectrum plus part of the
infrared (400nm - 1000 nm), has a single coating layer of coating which
is said to be optimal for such a broad spectrum of wavelengths.

- The 140-280mm Variogon, being made by Schneider rather than Zeiss, is
thus not designated T* but is multicoated.

CF lenses and data:

min - max closest
focal length aperture focus filter type
------------ ------------ ---------- ------ ----

30mm f/22 - f/3.5 0.3m 26 Distagon
40mm f/22 - f/4 0.5m Distagon
40mm f/22 - f/4 0.5m 93 Distagon FLE
50mm f/22 - f/4 0.5m 60 Distagon
50mm f/32 - f/4 0.5m 60 Distagon FLE
60mm f/22 - f/3.5 0.6m 60 Distagon

80mm f/22 - f/2.8 0.9m 60 Planar
100mm f/22 - f/3.5 0.9m 60 Planar

105mm f/32 - f/4.3 1.8m UV Sonnar

120mm f/32 - f/4 0.8m 60 Makro Planar
135mm f/45 - f/5.6 1:1 60 Makro Planar

150mm f/32 - f/4 1.4m 60 Sonnar
180mm f/32 - f/4 1.55m 60 Sonnar
250mm f/45 - f/5.6 2.5m 60 Sonnar
250mm f/5.6 3m 60 Sonnar Superachromat

350mm f/45 - f/5.6 4.5m 93 Tele-Tessar
500mm f/64 - f/8 8.5m 93 Tele-Apotessar
500mm f/64 - f/8 5.0m 93 Tele-Apotessar

140-280mm f/45 - f/5.6 2.5m+macro 93 Schneider Variogon

These lenses were manufactured between 1982 to the present.
Serial number information is still being collected.

8. The 501C's C lens
---------------------
The C lens supplied with the 501C by Hasselblad is a CF lens both internally
and optically. It has the improved shutter of the CF lenses, the same optical
design as the 80/2.8 CF Planar and is also a T* multicoated lens. It is a
relatively recent lens (1994) and was also originally supplied with the early
501CM kits.

There are two differences between this lens and a CF lens:

One, this lens does not have the cross-coupling button which would allow the
shutter speed and aperture rings to move in an interlocked fashion while
retaining the same EV setting. Thus, the shutter speed and aperture rings on
this lens are always independent.

Two, this lens does not have the F setting which, when used with a focal plane
shutter body, allows disengagement of the lens shutter. Instead, the B
setting must be used. Appendix A describes how either the focal plane shutter
or the lens shutter can be used with these lenses.

This lens was introduced with the C designation most likely because of its
C-like behaviour with the focal plane shutter bodies. Unfortunately, that
designation has resulted in it being confused with the earlier C lenses.

This lens is black, with all the numerical markings being white (CF, F, and FE
Hasselblad lenses have orange markings for feet and EV settings).

There is only one lens of this type.

min - max closest
focal length aperture focus filter type
------------ ------------ ---------- ------ ----

80mm f/22 - f/2.8 0.9m 60 Planar

These lenses were manufactured between 1994 and 1997. Since this lens is
essentially a CF lens with minor features omitted, it was offered with the
lower cost 501C and early 501CM bodies as a way to attract new buyers to
the Hasselblad system without affecting sales of the standard 80/2.8 CF.
This niche has now been taken by the new CB series.

Serial number information is still being collected.

9. CB lenses
-------------
The CB lens series was announced in the fall of 1997, with the 80/2.8 CB
being offered on 501CM kits by November 1997. They were introduced as
lower cost alternatives to the CF lenses.

These lenses are similar in function and form to the CF lenses. There are
several differences between the CB and CF lenses:

The 80/2.8 CB has one less element than its CF and 501C counterparts (six
elements instead of seven) and the MTF charts by Hasselblad show that this
lens is not optically identical to them. However, whether a difference
between this lens and its counterparts is noticeable will depend on the
nature of the subject and the degree of enlargement.

The gripping surface of the focusing and shutter speed rings has a synthetic
rubberlike material with bandlike indentations. Focusing is very smooth and
fast on these lenses. The aperture ring is no longer finely ribbed, but
instead has a rather unusual series of 'posts'. As with the CF lenses, this
aperture ring is designed to be adjusted most easily with the right hand.
Although the CB lenses have the EV interlock, it is reduced in size and not
as prominent when compared to that on the CF lenses.

The depth of field lever has been redesigned to act more as a sliding
lever than the push-down lever on the CF lenses.

The PC socket now has a locking lever.

This lens does not have the F setting which, when used with a focal plane
shutter body, allows disengagement of the lens shutter. Instead, the B
setting must be used. Appendix A describes how either the focal plane shutter
or the lens shutter can be used with these lenses.

The front of the lens, where the filter attaches, is now made of carbon
fiber.

The rear of the lens mount is now machined from a single piece of
stainless steel rather than the traditional four pieces.

This lens is black, with all the numerical markings being white.

CB lenses and data:

min - max closest
focal length aperture focus filter type
------------ ------------ ---------- ------ ----

60mm f/22 - f/3.5 0.6m 60 Distagon

80mm f/22 - f/2.8 0.9m 60 Planar

160mm f/32 - f/4.8 1.5m 60 Tessar

These lenses were manufactured from 1997 to the present.
Serial number information is currently being collected.

10. F lenses
-------------
These lenses were developed for the 2000FC series of focal plane shutter bodies
introduced in 1977; they are similar to CF series lenses except that they have
no shutter and, consequently, no shutter speed ring.

The following features are common to the F series lenses:

The focusing ring is at the front of the lens; the aperture ring is at the
rear. The aperture ring is independent of the shutter speed ring on the body,
but a cross-coupling button on the lens allows the aperture ring to move in
an interlocked fashion with the shutter speed ring to retain the same EV
setting. Viewing is normally at maximum aperture. A lever can be used to
stop down the aperture blades and reopen them.

These lenses are black with checkered focusing and ribbed aperture rings. F
lenses have 'F' and the focal length engraved on the barrel.

It is likely that all F lenses are T* multicoated lenses. For most focal
lengths, the F lenses are faster and focus closer than their CF counterparts.

The 50mm Distagon FLE does not require a secondary focusing ring.

These lenses can also be used on 200F series bodies, but since they don't have
a databus connection, they won't offer full use of the 200F series features.

F lenses and data:

min - max closest
focal length aperture focus filter type
------------ ------------ ---------- ------ ----

50mm f/22 - f/2.8 0.32m 86 Distagon FLE

80mm f/22 - f/2.8 0.6m 50 Planar
110mm f/16 - f/2 0.8m 70 Planar

150mm f/22 - f/2.8 1.4m 70 Sonnar

250mm f/32 - f/4 2.5m 70 Tele-Tessar
350mm f/4 1.9m Tele-Tessar

140-280mm f/32 - f/5.6 1.07m+macro 93 Schneider Variogon

These lenses were manufactured between 1977 and 1991.

Serial number information is still being collected. Detailed serial number
information can be found in the Hasselblad Compendium.

11. FE (TCC) lenses
--------------------
The FE lenses, formerly called TCC lenses, were developed for the 200F series
bodies introduced in 1991. They are similar to the F lenses, but with an
electronic databus connection to 200F series bodies via four contact pins.

The following features are common to the FE series lenses:

The focusing ring is at the front of the lens; the aperture ring is at the
rear. The aperture ring is independent of the shutter speed ring on the body,
but a cross-coupling button on the lens allows the aperture ring to move in
an interlocked fashion with the shutter speed ring to retain the same EV
setting. However, this cross-coupling is not performed if an aperture-priority
mode is being used. Viewing is normally at maximum aperture. A lever can be
used to stop down the aperture blades and reopen them.

These lenses are black with checkered focusing and ribbed aperture rings.
FE lenses can be identified by two blue lines on the left side of the barrel
and by the four contacts on the bayonet plate. Also, the FE lenses have 'F'
(not 'FE') and the focal length engraved on the barrel. All FE lenses are T*
multicoated lenses. As with the F lenses, the FE lenses for most focal lengths
are faster and focus closer than their CF counterparts.

The 50mm Distagon FLE does not require a secondary focusing ring.

FE lenses tell the 200F series bodies which aperture has been selected while
metering with the lens wide open. If a non-FE lens is used on a 200F series
body with TTL exposure metering (e.g. the 203FE or 205FCC), then the exposure
reading must be made either with the lens temporarily stopped down or with
compensation for the lens being wide open.

FE lenses can be used on 2000FC series bodies, but those bodies do not make
use of the electronic connections in the FE lens.

FE (TCC) lenses and data:

min - max closest
focal length aperture focus filter type
------------ ------------ ---------- ------ ----

50mm f/22 - f/2.8 0.32m 93 Distagon FLE

80mm f/22 - f/2.8 0.6m 60 Planar
110mm f/16 - f/2 0.8m 70 Planar

150mm f/22 - f/2.8 1.4m 70 Sonnar

250mm f/32 - f/4 2.5m 70 Tele-Tessar
350mm f/32 - f/4 1.9m 93 Tele-Tessar

These lenses were manufactured between 1991 and the present.
Serial number information is still being collected.

12. CFE lenses
---------------
As the CFE designation suggests, a CFE lens is essentially a CF lens with
the electronic databus contacts of the FE lenses. This latter feature allows
the lens to meter at maximum aperture on the 200F series bodies.

The lens has a collar that allows it to be used with the quick-coupling
adapter. The serial number and a T* designation appear on this collar.

This lens is visually distinctive by the appearance of the double blue
lines (also common to FE lenses) and by focus limiter knobs on each side
of the front of the lens barrel. These knobs are useful for certain
applications, such as sports photography, as they allow focus to be
restricted to a certain range and to stop at near and far points.

The PC connector lock, depth-of-field lever, and shutter speed ring
indentations are the same as on the CB lenses. Also, the F setting
and lock button is now reddish orange rather than green.

min - max closest
focal length aperture focus filter type
------------ ------------ ---------- ------ ----

350mm f/45 - f/5.6 3.75m Tele-Superachromat

In late fall of 1997, Hasselblad announced the 350mm/5.6 Tele-Superachromat
CFE lens and as of this writing there is only one lens of this type.

Serial number and manufacturing information is not yet available.

13. ArcBody lenses
-------------------

[from Hasselblad News]:

- The Hasselblad ArcBody is a new outstanding camera
featuring an innovative concept that combines extremely
generous shift and tilt capabilities with an
exceptionally compact design and userfriendliness. It is
perfectly suited for architectural and industrial
photography, but can also be used successfully in a large
number of other kinds of photographic work i.e. product,
landscape and nature. In addition, the ArcBody is a very
resourceful creative tool that provides new opportunities
for producing effective and artistic images. The rear
standard can be shifted as much as 28 mm which ensures
the virtual elimination of diverging or converging lines
in the image. The rear standard tilt of 15 degrees adds a good
control over depth-of-field. Three interchangeable lenses
are exclusively designed for the ArcBody by Rodenstock;
the Apo-Grandagon 4.5/35 mm, the Apo-Grandagon
4.5/45 mm and the Grandagon-N 4.5/75 mm.

[from the Hasselblad web page]:

The lenses have virtually no colour fringing and the distortion
is extemely low. All lens elements are multi-coated to provide
superb image contrast and colour saturation. Used with the
dedicated Centre filter the illumination is even at all shift
positions. All ArcBody lenses have the same front bayonet
diameter enabling use of the same Centre filter and Filter
holder.

Features common to the Rodenstock lenses used with the ArcBody:

Drivers 3m Qs Series Document Reader Pdf

Copal 0 shutter, 1-1/500, B, T.

Rodenstock lenses for the ArcBody:

min - max closest
focal length aperture focus filter type
------------ ------------ ---------- ------ ----

35mm f/22 - f/4.5 0.5m Apo-Grandagon
45mm f/32 - f/4.5 0.5m Apo-Grandagon

75mm f/45 - f/4.5 1.0m Grandagon-N

Serial number and manufacturing information is not yet available.

14. Special lenses and equipment
---------------------------------

1.4X PC-Mutar

The PC-Mutar is used for perspective control and can perform a vertical
shift up or down by a maximum of from 8mm to 16mm, depending on the lens
focal length. The PC-Mutar is designed to be optimal with the 40mm
Distagon, but can be used with any lens from 40mm to 100mm (it does not
appear to have the electronic contacts for FE lenses, however). It reduces
the maximum aperture by one stop and increases the focal length by 1.4; it
contains five elements and is T* multicoated.

1.4XE Teleconverter

This teleconverter increases the focal length by a factor of 1.4 and reduces
the maximum aperture by one stop. It is designed to work with lenses with
focal lengths between 100mm and 500mm. This teleconverter has the necessary
electrical contacts so that it can also be used with FE lenses.

1.4XE APO Teleconverter

[from Hasselblad News]:

- Hasselblad Teleconverter APO 1.4XE. Dedicated to the
Tele-Superachromat CFE 5.6/350 lens, the Teleconverter
APO 1.4XE increases its focal length resulting in an
excellent f8/490 mm lens. Designed to be used together,
the lens with converter offers optical qualities that are
equally superb as the original lens itself.

2X Teleconverter (also known as the 2X Mutar)

This teleconverter doubles the focal length and reduces the maximum aperture
by two stops. It is T* multicoated and can be used on all lenses except the
CF 135mm Makro Planar and with limitations on the CF 120mm Makro Planar. It
does not have the electronic contacts for FE lenses and has been replaced by
the 2XE.

2XE Teleconverter

Drivers 3m Qs Series Document Reader Download

Similar to the 2X, but with the electronic contacts for FE lenses. It is
multicoated.

38mm f/4.5 Biogon

Drivers 3m Qs Series Document Reader Free

This is a permanently attached lens on the Superwide cameras. It is a true
wide angle lens with excellent edge-to-edge sharpness. Depending on the
vintage of the camera, the lens will be either a C, C T*,...