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Zoom and focus mechanisms

The job of varying focal length in a zoom lens 
requires a fairly complex mechanism that 
translates zoom ring rotation into precise group 
movement along the optical axis of the lens. Zoom 
mechanisms must be precisely manufactured 
to exacting tolerances so that all elements and 
groups stay in perfect alignment throughout the 
zoom range.

Focusing is sometimes accomplished by moving 
the entire lens closer to or further away from 
the image sensor plane, although some lenses 
employ a “floating construction” in which groups 
of elements move independently in order to 
maintain optimum optical performance at all 
shooting distances.

There is a lot of pertinent information 
printed or engraved on the outside of 
lenses that can help you understand their 
characteristics and how to best use them.

Here are a few examples.

Read your lenses

A look inside

Lenses: How they capture and control light

The linguistic roots of the word “photography” are the Greek words meaning “light” and “drawing.” Photography is “drawing 
with light,” and lenses are the brushes. After their imagination, lenses are the photographer’s primary creative tools. The way 
a lens captures and presents an image to the camera’s sensor determines the visual outcome more than any other factor. 
The ability to choose the right lens and use it well is one of the most important skills an aspiring photographer should acquire. 
In this brief guide we’ll look at some of the basics that will help you to choose lenses that are suited to your needs, and 
make the most out of them to create truly satisfying photographs.

Our eyes do it, cameras do it, even a simple 
light-tight box with a tiny hole in one end will 
do it: the feat of turning light into an image 
can only be accomplished by first capturing 
the light from a scene and projecting it onto 
a surface. That surface, the “image plane,” 
can be a wall, a piece of film, a sensor, or 
the retina in our eye. In all cases the image 
is projected upside-down and horizontally 
reversed. Let’s take a look at the precursor of 
modern cameras, the simplest camera of all: 

the pinhole camera. In a pinhole camera a tiny 
hole is all that’s needed to project an image.

To make this easier to understand, remember 
that light normally travels in straight lines, then try 
to imagine the subject being photographed as 
being made up of a multitude of points of light of 
appropriate brightness and color.

In the example in Figure 1, light from a point at 
 the top of the tree travels in a straight line 

through the pinhole and reaches a point at 
the bottom of the image plane, whereas light 
from a point at the bottom of the tree ends up 
at the top of the image plane after passing 
through the pinhole.

The real-world scene becomes an image 
projected on the image plane, upside-down 
and reversed left-to-right. 

If a little hole can do all of this, why do we need lenses?

Pinholes can “project” images, but they are limited and inflexible. In 
order for the projected image to be sufficiently sharp, the hole must be 
very small, but this also means that the projected image is very dim. 
In principle, lenses work similarly to the pinhole, but they are capable 
of capturing more light from each point on the subject, and therefore 
project a much brighter image. A lens can also bring more light into 
sharp focus. That’s helpful because it means we can use short sub-

second exposures rather than having to make sure that both the  
camera and subject stay perfectly still for many minutes or even hours, 
which is usually the case with a pinhole camera. Other advantages are 
that lenses can be made in a variety of focal lengths from wide-angle to 
capture expansive scenes or telephoto to photograph distant subjects.
Modern lenses are precision optical devices that give photographers 
boundless freedom to realize their creative vision by “drawing with light.”

A pinhole camera is basically a light-tight box 
with a small hole in one end

Figure 1. A simple pinhole of appropriate size 
is capable of projecting a sharp but dim image

Figure 2. A lens uses the principle of “refraction” 
to gather more light from the subject and project 
a sharp, bright image

Projecting an image

Refraction: bending light

The physical principle that allows lenses to 
gather and focus light is called “refraction.” 
Refraction causes lightwaves to change speed 
and direction when they pass from one medium 

(air, for example) to another (glass, for example), 
and allows lenses to be designed to “bend” light 
in a controlled way. The “refractive index” of an 
optically transparent medium is a measure of 
the speed of light in that medium, and therefore 
the degree to which light will be “bent” by that 
medium. Optical materials that have different 
refractive indices—conventional optical glass and 
ED glass, for example—are sometimes combined 
in lenses to achieve the desired characteristics.

This is the most basic, most important 
characteristic of any lens. Focal length plays 
a primary role in determining what types of 
subjects and compositions the lens is suitable  
for (see page 10 for more details).

Lenses marked “SAM” or ”SSM” feature 
built-in motors that drive the lens’s 
focusing mechanism. Lenses that 
don’t have internal motors are driven 
by a motor in the camera body  

(see page 17 for more details).

This number represents the maximum 
aperture, or “f-number,” of the lens 
and tells you how “bright” the lens is 

(see page 9 for more details).

Sony lenses marked “DT” (Digital 
Technology) have been specifically 
designed for use on APS-C format 
A-mount cameras (see page 8 for 
more details). 

This switch lets you switch between 
autofocus and manual focus modes. 

Focal length

Distance scale

Autofocus drive type

Maximum aperture

Lens format

AF/MF switch

Lens element

Lens group

Mount

Aperture

Lens barrel

Wide

Medium

Telephoto

Lens configuration example: 7 groups/9 elements

How lens elements and groups move in a zoom lens

Aspherical lens  (see page 16 for more details)
ED glass  (see page 16 for more details)

Light reflected by the subject is effectively collected 
and focused by the lens elements to project an 
image on the camera’s image sensor plane.

Subject

Light

Lens element

Focal point

Viewfinder

Mirror

Pentaprism (flips the image so it can viewed in proper orientation)

A simplified cross section of a modern lens and a typical SLR (Single Lens Reflex) type digital camera

Image 
sensor plane

Interchangeable-lens

(objective lens)

Camera

Focal length

Optical axis

Elements and groups

All modern photographic lenses are “compound” 
lenses that use a number of lens “elements” 
precisely mounted along the same optical axis. 
The use of multiple elements allows lens designers 
to effectively reduce optical aberrations so you 
get nice sharp, clean images.

“Elements” are the individual pieces of specially 
shaped glass that make up the lens. A “group” 
consists of two or three elements that have been 
glued together to function as a unit. Sometimes 
groups consist of different types of glass that 
have been combined in order to control some 
form of aberration. Lenses are sometimes 
described in terms of the number of elements 
and groups they contain. You’ll hear terms such 
as “7-group 9-element lens.” 

Fixed focal length lenses, also known as “prime” 
lenses, generally have the simplest construction 
with the fewest groups and elements. Zoom 
lenses require a larger number of groups/
elements to support the zoom functionality.

While most lens elements are “spherical,” 
meaning that one or more surfaces form part 
of a sphere, some lenses include “aspherical” 
elements. Aspherical elements have more 
complex shapes than simple spherical elements, 
and are much more difficult and more expensive 
to produce. Aspherical elements are sometimes 
used in wide-angle and fast standard lenses, 
where they can be effective in reducing certain 
types of aberration. 

TECH TALK

The distance scale indicates the 
approximate distance from the 
camera’s image plane to the object 
that the camera is focused on.

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Summary of Contents for SAL1855 - 18-55mm f/3.5-5.6 SAM DT Standard Zoom Lens

Page 1: ...a Lenses ...

Page 2: ... in sharp focus and which are to be out of focus How will the lens function with filters that might be needed to change the characteristics of the captured light There is no single right answer for every photographer and subject The only certainties are that a choice must be made and that more high quality options mean more creative freedom Sony s a lens lineup offers everything the creative photo...

Page 3: ...18250 DT 30mm F2 8 Macro SAM SAL30M28 DT 35mm F1 8 SAM SAL35F18 DT 50mm F1 8 SAM SAL50F18 DT 55 200mm F4 5 6 SAM SAL55200 2 Distagon T 24mm F2 ZA SSM SAL24F20Z Vario Sonnar T 16 35mm F2 8 ZA SSM SAL1635Z Vario Sonnar T DT 16 80mm F3 5 4 5 ZA SAL1680Z 16mm F2 8 Fisheye SAL16F28 E 16mm F2 8 SEL16F28 Sonnar T E 24mm F1 8 ZA SEL24F18Z E 50mm F1 8 OSS SEL50F18 50mm F1 4 SAL50F14 20mm F2 8 SAL20F28 28mm...

Page 4: ...ole camera is basically a light tight box with a small hole in one end Figure 1 A simple pinhole of appropriate size is capable of projecting a sharp but dim image Figure 2 A lens uses the principle of refraction to gather more light from the subject and project a sharp bright image Projecting an image Refraction bending light The physical principle that allows lenses to gather and focus light is ...

Page 5: ...oto lens would require an effective aperture diameter of 300 1 4 214mm That would end up being a huge bulky and very expensive lens which is why you don t see too many long telephoto lenses with very large maximum apertures There s really no need for the photographer to know what the actual aperture diameter is but it s helpful to understand the principle Three keys to effective defocusing There s...

Page 6: ... focal length will always have the same angle of view when used with the same size sensor The Focal length vs angle of view comparison to the left illustrates this relationship for both 35mm full frame and APS C format cameras Perspective With long focal lengths foreground and background objects will often appear to be closer together in the final image This effect is sometimes called telephoto co...

Page 7: ... in which the required performance has been achieved throughout the entire optical path and it is therefore a guarantee of the highest quality The scientific approach It was Ernst Abbe of Carl Zeiss AG who first applied scientific principles to lens design rather than relying on trial and error experience A significant portion of the history of photographic lens development centers on the Protar P...

Page 8: ... SAL20TC 2x Teleconverter with either of these lenses to provide more reach for distance subjects or to grab close ups of the action Of course there are always exceptions if you can get close to the action you might be able to use a fast wide angle prime or zoom to capture a more dynamic perspective In the product pages that follow this star icon identifies lenses prime lenses that offer outstandi...

Page 9: ...Spherical lens Conventional aperture Circular aperture Image sensor plane Image sensor plane Aspherical lens ED glass Super ED glass Image sensor plane Image sensor plane Image sensor plane Comparison of aperture design Aspherical lens elements Spherical aberration slight misalignment at the image plane between light that has passed through the center and periphery of a simple spherical lens can b...

Page 10: ...a minimum for crisp high contrast images even under difficult conditions Weight approx 360 g Dimensions Dia x L 83 x 80 5 mm Max magnification ratio 0 125x One ED glass element and three aspherical elements for superior image quality High contrast throughout zoom range Flare and aberrations effectively subdued Circular aperture for attractive defocusing 35mm equivalent focal length 16 5 27mm M mod...

Page 11: ...rture R R T T F8 aperture 100 80 60 40 20 0 3 6 9 12 Contrast Distance from optical center of lens mm At 16 mm 100 80 60 40 20 0 3 6 9 12 Distance from optical center of lens mm At 50 mm Mid range zoom DT 16 105mm F3 5 5 6 SAL16105 Zoom range can be a very subjective and personal choice hinging on individual shooting style and preferred subjects The 16 105mm range of this lens is a sweet spot for ...

Page 12: ...ure R R T T F8 aperture 100 80 60 40 20 0 3 6 9 12 Contrast Distance from optical center of lens mm At 18 mm 100 80 60 40 20 0 3 6 9 12 Contrast Distance from optical center of lens mm At 55 mm High magnification zoom DT 18 200mm F3 5 6 3 SAL18200 It will take you from a wide scene spanning 18mm to far reaching 200mm telephoto that will let you zoom in on distant subjects yet the SAL18200 weighs o...

Page 13: ... full frame format camera body this award winning lens offers an ideal balance of brightness zoom range and image quality for a wide range of situations you re likely to encounter in everyday shooting The fact that it features a constant bright F2 8 maximum aperture at all focal lengths offers significant advantages for hand held and low light shooting as well as for creating gorgeous defocused ba...

Page 14: ...e pairs mm 30 line pairs mm R Radial values T Tangential values Max aperture R R T T F8 aperture At 55 mm At 200 mm Telephoto zoom 75 300mm F4 5 5 6 SAL75300 Going out to shoot sports wildlife or other distant subjects with a 35mm full frame format camera Be sure to take this lens along Its 75 300mm zoom range will let you go from medium perspectives that provide a comprehensive view of the action...

Page 15: ... looking straight to deliver expansive images that cover an extremely wide angle of view with curvilinear perspective The SAL16F28 provides an extremely wide 180 angle of view on 35mm full frame format cameras 110 on APS C format cameras In addition to eye catching interpretations of reality it offers extended depth of field so that you can capture huge vistas in which everything from 20 centimete...

Page 16: ...ns mm Contrast Spatial frequency 10 line pairs mm 30 line pairs mm R Radial values T Tangential values Max aperture R R T T F8 aperture Wide angle 28mm F2 8 SAL28F28 28 millimeters is an extremely versatile focal length that can be useful in a wide variety of situations on both full frame and APS C format cameras On a 35mm full frame format camera 28mm is wide enough to allow comfortable shooting ...

Page 17: ...s mm 30 line pairs mm R Radial values T Tangential values Max aperture R R T T F8 aperture Normal 50mm F1 4 SAL50F14 50mm focal length with a maximum aperture of F1 4 this quintessential fast normal lens formula has produced some of the greatest photographic masterpieces in history and continues to serve as a photographic standard to this day Of course not all 50mm F1 4 lenses are created equal an...

Page 18: ...perture R R T T F8 aperture At 50 mm Mid range telephoto 85mm F2 8 SAM SAL85F28 Photographers often choose a large aperture 85mm lens for portraits for two compelling reasons First the 85mm focal length makes it easy to fill the frame with the subject from a comfortable distance without getting so close that unflattering distortion occurs And second a large maximum aperture works with the medium l...

Page 19: ... line pairs mm 30 line pairs mm R Radial values T Tangential values Max aperture R R T T F8 aperture At 135 mm Macro DT 30mm F2 8 Macro SAM SAL30M28 If you shoot with an APS C format camera and want a lightweight compact lens that will handle snapshots and portraits plus macro photography as well this is it The 35mm equivalent focal length of this lens is a distinctly normal 45mm making it a good ...

Page 20: ...al values T Tangential values Max aperture R R T T F8 aperture At 50 mm Macro 100mm F2 8 Macro SAL100M28 Doing macro photography outdoors in the wild often means that you can t get too close to your subject and lighting can t be easily controlled That s when you need a telephoto macro lens like the SAL100M28 Greater working distance means you can capture tight macro shots of small scale wildlife w...

Page 21: ...ough the large F2 8 maximum aperture does make it easier to create beautifully defocused backgrounds there are important advantages for shooting moving subjects as well Larger apertures often referred to as fast as well as bright allow you to use faster shutter speeds to achieve equivalent exposure making it possible to capture motion that might end up as a blur with a slower lens The SAL70200G do...

Page 22: ... G SSM SAL70400G Covering an extremely wide telephoto range with ample brightness this award winning lens can for example take you from an elegant 70mm portrait to a stunning 400mm wildlife shot in an instant without having to change lenses and potentially miss a great shot This is an extraordinarily wide zoom range for a lens in this class but range isn t its only feature Being a high end G Lens ...

Page 23: ... 10 line pairs mm 30 line pairs mm R Radial values T Tangential values Max aperture R R T T F8 aperture At 35 mm Telephoto prime 300mm F2 8 G SAL300F28G If you re serious about shooting sports nature or wildlife or just about any subject that moves and needs to be shot from a distance this is a lens that you ll want to have in your kit 300mm is the sweet spot for a wide range of telephoto applicat...

Page 24: ...contrast Compatible with SAL70200G AF and MF modes SAL300F28G AF and MF modes SAL70400G MF mode only and SAL135F28 MF mode only 1 0x 1 4x 2 0x Carl Zeiss AG founded in 1846 is a legend in the field of camera optics The company was responsible for many of the innovations that have raised the quality of photographic imaging to the high standard we enjoy today and is revered for its unswerving dedica...

Page 25: ...onnar T DT 16 80mm F3 5 4 5 ZA SAL1680Z Because it has been designed specifically for APS C format cameras the SAL1680Z is the lightest and most compact zoom in the Carl Zeiss lineup It also offers the greatest zoom range in the lineup making it a superb single lens solution for many APS C format photographers Its 35mm equivalent focal length range of 24 120mm may be all you ll ever need for day t...

Page 26: ...mm F8 At 70 mm F8 Wide angle prime Distagon T 24mm F2 ZA SSM SAL24F20Z Representing the wide end of the A mount Carl Zeiss prime lens range the 24mm focal length of this model provides a wide perspective on 35mm full frame format cameras and a closer to normal equivalent focal length of 36mm on APS C format cameras Photographers who value a single prime approach to general shooting will love this ...

Page 27: ...large maximum aperture for a 135mm telephoto lens and the consistently outstanding performance of this lens throughout its aperture range lets you take full advantage of the extra speed and brightness it provides Whether you need the large aperture to shoot in low light to achieve suitable shutter speeds for shooting action or for creative control of background defocusing the SAL135F18Z will rewar...

Page 28: ...ompact APS C format Sony camera and camcorder bodies delivering big camera image quality and features in astonishingly small but capable packages In addition to advanced optics and sophisticated handling the E mount zooms incorporate proven Optical SteadyShot image stabilization technology from Sony camcorders that can significantly reduce blur due to camera movement in both stills and movies Sony...

Page 29: ... smooth quiet autofocus operation 35mm equivalent focal length 24mm Aspherical lens 100 80 60 40 20 0 3 6 9 12 Distance from optical center of lens mm Contrast Spatial frequency 10 line pairs mm 30 line pairs mm R Radial values T Tangential values Max aperture R R T T F8 aperture At 16 mm Auto mode 6 sec F2 8 0 25 EV ISO 800 Auto white balance Photo David McClain Fisheye Converter VCL ECF1 Ultra W...

Page 30: ... center of lens mm Contrast At 24 mm Open At 24 mm F8 Mid range zoom E 18 55mm F3 5 5 6 OSS SEL1855 This lens offers a superb balance of form and function ample zoom range in a compact design that weighs only 194 grams yet is remarkably comfortable to hold and operate The 18 55mm zoom range corresponding to 27 82 5mm on a 35mm full frame format camera is ideally designed for comfortable framing an...

Page 31: ...T Tangential values Max aperture R R T T F8 aperture At 18 mm At 200 mm Aspherical lens ED glass Telephoto zoom E 55 210mm F 4 5 6 3 OSS SEL55210 An ideal complement to the 18 55mm zoom range of the SEL1855 this 3 8x zoom lens takes you from 55mm out to 210mm with consistently outstanding optical performance all the way In 35mm full frame equivalent terms that s a wide zoom range of 82 5mm to 315m...

Page 32: ...Max aperture R R T T F8 aperture At 50 mm Macro E 30mm F3 5 Macro SEL30M35 Macro photography can be a creative educational and thoroughly enjoyable pursuit The SEL30M35 has been designed to offer versatile high performance macro capabilities in a lens that is compact lightweight and easy to use At the time of release the SEL30M35 is in fact the lightest interchangeable 1 1 macro lens available any...

Page 33: ... 3 8 x 5 3 8 760 26 3 4 hood ALC SH103 case 43 70 400mm F4 5 6 G SSM SAL70400G 12 18 105 600 23 4 10 34 6 10 9 circular aperture 22 32 0 27 1 5 77 petal bayonet 94 5 x 196 3 3 4 x 7 3 4 1 5004 53 hood ALC SH107 case 44 35mm F1 4 G SAL35F14G 8 10 52 5 44 63 9 circular aperture 22 0 2 0 3 55 petal bayonet 69 x 76 2 3 4 x 3 510 18 hood ALC SH0001 case 45 300mm F2 8 G Built to order SAL300F28G 12 13 i...

Page 34: ...rst adaptor to leverage Sony s exclusive Translucent Mirror Technology to provide super fast and accurate Phase Detection AF as well The LA EA2 adaptor has a translucent mirror built in between the two mounts that directs a small portion of the light to the phase detection AF sensor in the bottom of the unit NEX 3 NEX 5 NEX C3 and NEX VG10 require firmware update to use LA EA2 adaptor www esupport...

Page 35: ...eserved Reproduction in whole or in part without written permission is prohibited Features and specifications are subject to change without notice Sony Electronics Digital Imaging Division 16530 Via Esprillo Drive San Diego CA 92127 DI11012 ...

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