Canon BROADCAST TELEVISION LENSES 2014 BROCHURE

Broadcast
Television
Lenses
2014

you can

Pioneering
excellence in

BROADCAST TELEVISION LENSES

broadcast lenses

Canon is a pioneer in the design of broadcast lenses.

It was more than 50 years ago that we introduced the rst BCTV

lens – the “Field Zoom IF-1” with a 6.7x zoom range, which was
the highest in the industry at the time. Since then we have
energetically advanced the art of high-end optical design on
many fronts – working in close collaboration with international
broadcasters and producers to develop innovative products and
enhance customer satisfaction. Today we offer an exciting range
of innovative high-end imaging products that stimulate creativity
and deliver superb quality results, as we continue our pioneering
pursuit of excellence into the 21st century.

Emmy Award

The National Academy of Television Arts
and Sciences awarded Canon an EMMY®
in 2005 in recognition of our engineering
creativity in Lens Technology Developments
for Solid State Imager Cameras in High
Definition Formats. We also received an
EMMY® in 1996 for “Implementation In
Lens Technology to Achieve Compatibility
with CCD Sensors”.

Canon’s Worldwide Support Network

Well trained sales people
and/or service technicians
are ready to support you at
these locations.

Customer Satisfaction

Canon is committed to total Customer
Satisfaction. To meet this commitment we
aim to support users by developing new lens
technologies, high-quality technical service
systems and other sales support.

3 2

Broadcast Television Lenses

Canon’s Epoch-making
Technology

Auto Focus Technology .......................6

e-IFxs, HDxs and
HDgc Technology

Optical Image Stabilizer

HDgc Series

The Latest HDTV Lens Series

Canon 3D Solution

...................................... 7

.................... 8

........................................................ 9

....... 10

.............................. 11

Studio/Field
Lenses

Introduction .................................................. 12

Field Lenses

DIGISUPER 100AF .................................. 14

DIGISUPER 100
DIGISUPER 95
DIGISUPER 86AF
DIGISUPER 80
DIGISUPER 76

DIGISUPER 60 xs

Studio Lenses

DIGISUPER 27AF ...................................... 16

DIGISUPER 27
DIGISUPER 22 xs

Features
Control Accessories
Lens Mount Compatibility

........................................ 14

............................................ 14

.................................... 15

............................................ 15

............................................ 15

.................................... 15

............................................. 16

.................................... 16

............................................................. 18

............................. 20

.......... 21

Broadcast ENG/EFP
Lenses

Introduction .................................................. 22

HDxs Series

HJ40x14B IASD-V ................................. 24

HJ40x10B IASD-V
HJ18ex28B IASE A
HJ22ex7.6B IRSE A/IASE A
HJ21ex7.5B IASE A
HJ18ex7.6B IRSE S/IASE S
HJ17ex6.2B IRSE/IASE
HJ14ex4.3B IRSE/IASE
HJ15ex8.5B KRSE-V

................................. 24

................................ 24

........ 25

.............................. 25

........... 25

................... 25

................... 26

........................... 26

HDgc Series ENG
Lenses

Introduction .................................................. 28

2/3”

With 2.0x Ext

KJ22ex7.6B IRSE/IASE
KJ17ex7.7B IRSE/IASE
KJ10ex4.5B IRSE A/IASE A
KJ20x8.2B IRSD

Without Ext

KJ20x8.2B KRSD
KJ13x6B KRSD

1/2”

With 2.0x Ext

KH21ex5.7 IRSE
KH16ex5.7 IRSE
KH10ex3.6 IRSE

Without Ext

KH20x6.4 KRSD SY14
KH13x4.5 KRSD SY14

1/3”

With 2.0x Ext

KT17ex4.3B IRSE

Without Ext

KT20x5B KRSD A

Features
Control Accessories

............................................................. 34

.................... 30

.................... 30

......... 30

....................................... 32

.................................... 32

.......................................... 32

...................................... 31

...................................... 31

...................................... 31

.................... 33

.................... 33

................................... 31

.................................... 33

............................. 36

Digital Cinema
Lenses

Introduction .................................................. 38

Top-end Zoom Lenses

CN-E14.5-60mm T2.6 L S/SP ..... 42

CN-E30-300mm
T2.95-3.7 L S / SP

................................. 42

Prime Lenses

CN-E14mm T3.1 L F ..........................42

CN-E24mm T1.5 L F
CN-E35mm T1.5 L F
CN-E50mm T1.3 L F
CN-E85mm T1.3 L F
CN-E135mm T2.2 L F

.......................... 42

.......................... 42

.......................... 42

.......................... 43

...................... 43

Compact Zoom Lenses

CN-E15.5-47mm T2.8 L S/SP ..... 43

CN-E30-105mm T2.8 L S/SP

....43

Cine Servo

CN7x17 KAS S E1 / P1 ......................41

Features

............................................................. 44

Understanding

the Lens model

naming conventions

Pro-video Lenses &
Remote Control Lenses

Introduction .................................................. 46

Pro-video ENG Lenses

YJ20x8.5B KRS ......................................... 48

YJ13x6B KRS / IRS
Control Accessories

Remote Control Lenses

Broadcast Applications

HJ18ex28B ITS-ME
HJ22ex7.6B ITS-ME
HJ18ex7.6B ITS-ME
HJ14ex4.3B ITS-ME
KJ17ex7.7B ITS-ME
KJ22ex7.6B ITS-ME

Pro-video Applications

KJ20x8.2B KTS
KH20x6.4 KTS
KT20x5B KTS
Control Accessories

Zoom Ratio

............................... 48

............................. 49

.............................. 50

............................ 50

............................ 50

............................ 50

............................. 50

............................. 50

.......................................... 50

............................................ 50

............................................... 50

............................. 51

Optical compensation
for Prism cameras

B = with Optical Compensation
(not Shown with 1/2” models)

Optical
Accessories

System Overview .................................... 52

Converters/Attachments
Filters

..................................................................... 54

Close-up Lenses
Extenders

.......................................................... 55

Zoom/Focus Control

R = Zoom:Servo/Manual Focus:Manual
A = Zoom:Servo/Manual Focus:Servo/Manual
T = Zoom:Servo Focus:Servo
L = Zoom:Manual Focus:Manual

.............. 52

...................................... 55

Special Function (1)

D = Digital Servo Drive for Portable Lens
E = Digital Servo Drive with Rotary Encoder
(Blank) Analog Servo Drive for Portable Lens

BROADCAST TELEVISION LENSES

Since the introduction of our first BCTV lens more than 50 years
ago, Canon has been developing its know-how and technologies –
so that today we offer an extensive range of high end lenses
with the flexibility to suit various shooting situations and meet
the exacting demands of today’s creative professionals.

ENG/EFP Lenses

Studio/Field Lenses

Image Size

J = ENG/EFP Lens for 2/3”
YJ = Pro-video Lens for 2/3”
HJ = High Definition Portable Lens for 2/3”
KJ = High Definition Portable Lens for 2/3” (HDgc Series)
KH = High Definition Portable Lens for 1/2” (HDgc Series)
KT = High Definition Portable Lens for 1/3” (HDgc Series)
XJ = High Definition Studio/Field Lens for 2/3”
CN = Cinema Style Lens for S35mm (Full size for specific models)

HJ 40x 10 B I A S D – V

XJ 100x

Focal Length
at wide end

Built-in Extender

IE = Built-in Extender
I = Built-in Extender
K = No Extender
V = Built-in 0.8x Shrinker
W = Built-in 0.8x Shrinker and 2x Extender

9.3 B IE – D

Iris Control

S = Iris Servo
L = Iris Manual

Special Function (2)

V = Built-in Image Stabilizer for Portable Lens
SC = Cine Style Lens
D = DIGISUPER Series for Studio/Field Lens
AF = Auto Focus Function

5 4

Canon’s Epoch-making Technology

Auto Focus Technology , and Technology

To meet the increasing demand in
broadcast HDTV production for highly
accurate focusing, Canon has introduced
a revolutionary HDTV Auto Focus System.
This pioneering technology automatically
keeps images in focus, allowing professional
camera operators to concentrate on

Canon’s advanced Auto Focusing for
DIGISUPER HDTV Zoom Lenses employs
the TTL-Secondary Image Registration
Phase-detection system originally developed
for single-lens reflex still cameras, to deliver
both high accuracy and a high tracking
capability for broadcast HDTV.

capturing action and beauty shots.

TTL-Secondary Image Registration Phase-detection System

The light transmitted through a pair
of secondary imaging lenses focuses
on separate sensors (as illustrated).
The TTL-Secondary Image Registration
Phase-detection System determines the
positional relationship between the two
images (See “d” in diagram right) to detect
the amount and direction of defocusing.

In-focus

Forward focus

Rear focus

Image

Plane

Field
Lens

Line

Sensor

Secondary
Imaging Lens

Sensor Output

Sensor A

d

DIGISUPER 100AF

DIGISUPER 86AF

DIGISUPER 27AF

Sensor B

Correct spacing between
double images

Narrow spacing between
double images

Wide spacing between
double images

In 2004, Canon introduced a new broadcast lens technology

, with the launch
of the J22ex7.6B. Two aspects of the new technology are represented by the letter “e”.
One is “ecological design”, as these lenses are harmless to the environment, the other
“enhanced digital” technology, which improves the performance of the digital drive unit.
These improvements are now also incorporated in the
the

lenses.

(IRSE / IASE model) and

Enhanced Digital Drive

The

, and the
(IRSE / IASE model) series are equipped with
an information display and digital function
selector, an X-Y axis switch, so that users can
customise and optimise the enhanced digital
functions much more easily and precisely.

User settings are simple and easy to

•

operate including: speed preset, frame
presets (2 memory positions), shuttle
shot, zoom track and new focus preset
with IASD/IASE lens

Follow signal display for iris, zoom and

•

focus (IASD/IASE only) for virtual reality,
robotic control and other uses

User settings for zoom and focus curve

•

mode offer precise control based upon
user requirements

AUX 1 and AUX 2 switches can be

•

assigned to basic functions for enhanced
memory capability

A precise movement mode can be

•

memorised for the zoom seesaw control,
zoom demand control and preset control

The drive unit can memorise 9 patterns of

•

user-customised settings and also transmit
the data between different drive units

The self-diagnostic mode provides

•

error messages

Information Display

Features Changeable AF frame Layout of the elements

Extremely high focusing accuracy in full

•

HDTV specifications
Ability to focus from a completely

•

de-focused status without hunting
Ability to focus on a high speed moving object

•

Size and position of the AF frame (target

•

Focusing Group

AF Canon

Original

Sensor

Front
Relay

area) in the camera viewfinder can be
changed from the Focus Demand FDJ­P31/P41. (The size of the AF Frame can
be changed in 3 steps). Please confirm
the AF camera-lens interface with your
chosen camera manufacturer

Two operation modes – full time AF

•

Variator Compensator

Prism

Pupil

and Part Time AF – to meet needs of
professional camera operators

2 kinds of AF Operation modes with ACTIVE/HOLD switch

Mode FULL TIME AF PART TIME AF

How AF works

Recommended Applications

This article refers to Auto Focus Technology for the DIGISUPER HDTV Zoom Lenses listed below. For full lens specifications see Page 14,15 and 16

Usually activated.
Focus position is locked while the SW is pushed.

Sporting event etc.
To follow a moving object.

Usually off.
Activated while the SW is pushed.

Studio production etc.
To confirm the best focus position.

Internal

Extender/

Back Relay

Beam

Splitting

Prism

CCD

Rotary Encoder

Canon offers a series of

(IRSE / IASE model) lenses, which
are equipped with an enhanced digital drive
unit. 16-bit resolution Rotary Encoder
Devices are built into the unit, so the lenses
can simply be integrated into a virtual digital
studio system without any additions. The
encoders also enable superior precise control.

/ /

Ecological Design

Sustainability is at the heart of Canon’s
Kyosei philosophy – living and working
together for the common good – and we
are always looking to further reduce our
environmental impact.

The zoom servo provides a dynamic range
from 0.5 sec. to over a 5 min. super slow
zoom. Repeatability in focus and iris control
are also much more precise. Canon’s unique
technology has enabled the surprisingly
small Encoder Device to be installed in the
existing drive unit without any changes in
size or weight.

The

/ / series
avoid using any materials or substances that
are harmful to the environment. For example
optical parts feature lead free glass, while
mechanical parts are virtually free of all
harmful products, such as cadmium, PBBS
(Poly Bromo Bi Phenyls), PBDPE (Poly
Bromo Di Phenyl Ethers) or mercury.

Lens with
the Optional
Encoder Unit

Lens with Encoder
Device included
in the Drive Unit

Lead Free Glass

7 6

100

MTF(%)

Canon’s Epoch-making Technology

The products with Optical Image Stabilizer technologies

Optical Image Stabilizer

are shown with this legend on pages 14, 15, 24 and 26.

Vari-angle Prism Image Stabilizer (VAP-IS)

Canon’s portable HD production lens,
the HJ15ex8.5B KRSE-V, incorporates an
innovative built-in optical image stabilization
system – the patented Vari-Angle Prism
Image Stabilizer (VAP-IS) - that’s designed to
significantly enhance HD motion imaging on
location shoots.

It delivers highly stable HD imagery –
counteracting a wide range of disturbance
frequencies that the lens-camera system
may be subjected to in a variety of shooting

environments. These can range from the
very low frequencies encountered during
handheld or shoulder-mount shooting by
a walking or running camera operator,
to the higher vibration frequencies
associated with shooting from motorbikes,
moving vehicles, and helicopters. Various
stabilisation modes can be selected to
address diverse shooting operations.

Optical Shift Image Stabilizer (Shift-IS)

Canon, renowned for its Optical Image
Stabilization technologies, developed a built­in Optical Shift Image Stabilizer (Shift-IS) for
broadcast field lenses to overcome image
shaking at telephoto focal lengths. First
introduced in the super telephoto DIGISUPER
86 xs zoom lens, Shift-IS is now used in
the DIGISUPER 100, DIGISUPER 100AF,
DIGISUPER 95, DIGISUPER 86AF, DIGISUPER
80, HJ40x10B IASD-V and HJ40x14B IASD-V.

HJ15ex8.5B KRSE-V

DIGISUPER 100AF
DIGISUPER 100
DIGISUPER 95

DIGISUPER 86AF
DIGISUPER 80

P.26

P.14

P.15

How the VAP-IS (Vari-Angle-Prism Image Stabilizer) Works

Under perfect shooting conditions, light
rays from a scene pass through the lens
optical system in a tightly prescribed
manner. Any vibration or jolt to the lens­camera system will deflect those light rays
and produce unsteady images. The VAP­IS technology is incorporated within the
lens optical system to intercept and correct
such light ray deviations in real-time. The
technology is based upon a flexible optical
bellows that comprises two flat glass

elements separated by a special liquid,
forming a sealed mini-optical grouping
within the overall lens element groupings.
The bellow expands and contracts when the
lens is physically disturbed - and the very
high refractive index of the liquid bends
the disturbed light rays in the opposite
direction. This gives a high degree of
real-time correction to the angle of the
light rays, ensuring their smooth arrival
at the image plane.

HDgc Series

Concept of the HDgc Series

The HDgc series supports the emergence of a new generation of cost-effective HD acquisition
systems. Using Canon’s unique technology, the new HDgc lenses exhibit high Modulation
Transfer Function (MTF), high resolution and high contrast from the centre of the image to its
extreme edges, while maintaining compact size and weight.

Static condition

Vari-angle Prism

Under stabilisation

The details of the HDgc Series Lenses are shown on page 28

Lens

Image plane

Incident Ray

How the Optical Shift Image Stabilizer (Shift-IS) Works

When the lens moves, the light rays from
the subject are deflected, relative to the
optical axis, resulting in an unsteady
image. By shifting the IS lens group on a
plane perpendicular to the optical axis to
counter the degree of image shake, the
light rays reaching the image plane can
be steadied. Since image shake occurs in
both horizontal and vertical directions, two
shake-detecting sensors for yaw and pitch
detect the angle and speed of movement
and send this information to a high-speed

32-bit microcomputer, which converts the
information into drive signals for the IS
lens group. The actuator then moves the
IS lens group horizontally and vertically to
counteract the image shake and maintain
a stable picture. The Shift-IS component
is located within the lens group, without
increasing the overall size and weight of the
master lens, and is most effective for lower
frequency movements caused by platform
vibration or wind effect.

HJ40x10B IASD-V
HJ40x14B IASD-V

1. Lens when still

To subject

2. Lens when jerked downward

3. Counteraction by IS lens group

Corrected light rays

Position of IS lens
group after shifting

Image plane

Camera
shake

P.24

Comparison of the HDgc series with SDTV Lenses Quality of the HDgc Series

The HDgc Series lenses are based upon
Canon’s latest design concepts, which
support the new generation of cost-effective
HD acquisition systems. They are designed
to meet the specific bandwidth frequency
(or the number of scanning lines) of HD
camera systems and at the same time offer
an excellent performance-cost ratio.

Test frequency of Broadcast camera 320 TV lines / 4MHz up to 640 TV lines / 8MHz Up to 800 TV lines

Test frequency of Broadcast Lens 24 lines / mm Up to 48 lines / mm Up to 74 linwes / mm

Actual Canon resolution of Broadcast lens

In the HDTV system the pixel size is about
half, so the spread of a point image caused
by a spherical aberration, coma etc. will be
diminished to about half. The MTF varies as
the focus changes and, even if the image
is slightly out of focus, the MTF is greatly
influenced as shown in Graph 01.

HDgc Lenses are specially designed with
optical elements - such as “Hi UD Glass”,
“Aspherical Elements” and other special
elements - that effectively minimise
chromatic aberrations, while maintaining
high MTF throughout the image.

SD HDgc

Up to 75 lines / mm Up to 100 lines / mm

90
80
70
60
50
40
30
20
10

0

0.02

0.01

Defocus(mm)

NTSC 400TVL(30lp/mm)
HDTV 600TVL(55lp/mm)

Graph 01

0

0.01

F1.6

0.02

9 8

Left/Right Lenses

Zoom / Focus Demands

100

MTF(%)

NTSC/PAL

6.6

9.6

Canon’s Epoch-making Technology

The Latest HDTV Lens Series Canon 3D Solution

Canon began developing lenses for the “HDTV System” more than 20 years ago and continues to lead the broadcast industry into the 21st
century “DTV” era – most recently with the next generation of HDTV lenses and our pioneering Cinema EOS 4K lenses. The series are:

Overall Comparison Between the SDTV and the HDTV System

One frame of an HDTV system consists of over

1.5 times more scanning lines than the 480
offered by conventional NTSC SDTV systems.
The density of the scanning lines is also higher
because the HDTV system has an aspect ratio
of 16:9, which is wider and shorter in height
than the normal SDTV (4:3 aspect ratio)
system. The spatial frequency required for

Aberration Correction for HDTV Lenses

The pixel size is about half in the HDTV system,
and therefore the spread of a point image
caused by a spherical aberration, coma, etc.
will be reduced by half. Even if the image is
slightly out of focus, MTF is greatly influenced.
The graph shows how MTF varies when the
focus changes. Canon HDxs series lenses
employ the HD version of the Power Optical
System, which incorporates the X-Element ­correcting and minimizing these aberrations
in a compact lightweight lens body.

Shown on Page 14-16, and 24.

Portable HDxs Series

EF Cinema Lens Series

HDxs Series

Shown on Page 24-26.

HDgc Series

Shown on Page 30-33.

Shown on Page 42-43.

Studio/Field
Lenses

ENG/EFP
Lenses

ENG Lenses
for 2/3"
Cameras

Zoom
Lenses

Compact
Studio Lens

Built-in
Optical Image
Stabilizer
Lens

ENG Lenses
for 1/2"
Cameras

Prime
Lenses

an HDTV system is about twice that required
for NTSC. Overall, the HDTV resolution about
double that of SDTV and therefore requires
much higher lens performance.

2/3" HDTV NTSC

Image format 9.6 x 5.4 8.8 x 6.6

Nominal frequency 600TVL 400TVL

Spatial frequency 55Line pairs/mm 30Line pairs/mm

90
80
70
60
50
40
30
20
10

0

0.02

NTSC 400TVL(30lp/mm)
HDTV 600TVL(55lp/mm)

0

0.01

Defocus(mm)

0.01

F1.6

0.02

EFP Lenses

ENG Lenses
for 1/3"
Cameras

Cine Servo
Lenses

Depth of Field for HDTV System

As the HDTV system has high resolution,
even a small out-of-focus area can be
detected. The radius of the permissible
circle of blur is also about half that of an
SDTV system, so the depth of field becomes
proportionately smaller. Focusing therefore
has to be done with great care.

Sensitivity of the HDTV System

Sensitivity depends on two factors. Firstly
the HD camera’s aspect ratio of 16:9 makes
the sensitive area smaller and causes a 10%
difference in sensitivity compared to SDTV
systems. Secondly the HDTV system’s depth
of field is half that of a conventional system
– so on an HD cameras, lenses must be
stopped down until their F-number is double
to get the same depth of field. This reduces
the sensitivity to one fourth (1/4).

HDTV

16:9

5.4

ø11

8.8

4:3

Recognising the continuing requirement for 3D program origination, Canon has prioritised
adoption of most of the standard HD lens series for 3D production systems. Originally this
entailed using our original 16bit resolution encoders, while allowing off sets of zoom, focus
and iris positions to compensate for the tracking of each position. However we now have a
new solution for a simpler, low cost 3D production system with increased interoperability.

3D Lens Lineups

Canon’s ergonomic Digital Drive Unit
incorporates Canon-developed, ultra­compact rotary encoders capable of 0.1μm
position detection, which produces 16-bit
resolution of the positions of zoom, iris, and

HJ14ex4.3B IASE HJ17ex7.6B IASE A

focus controls. This unique device allows for
one zoom controller and one focus controller
to simultaneously operate both lenses, while
providing even higher interoperability and
precision in the synchronisation of zoom,
focus and iris positions of the lens pairs.

HJ22ex7.6B IASE A

KJ22ex7.6B IASE KJ10ex4.5B IASE A KJ17ex7.7B IASE

HJ21ex7.5B IASE A

Lens Refinements for 3D

The “3D Lens Adjustment Software” makes
stereoscopic tracking of the zoom, focus and
iris even more precise. It allows appropriate
offsets to be easily made using the Digital
Drive Unit’s display, to compensate for minor
zoom and focus tracking differences between
any two lens pairs. Using the software,
Canon’s synchronous lens control system

doesn’t require special controllers. All the
servo controllers for digital servo lenses, as
shown below, will be compatible by simply
connecting the two lenses with a 3D Bridge
Cable (BC-100), saving additional costs when
implementing 3D production systems.

System Configuration

• ZSD-300D • ZDJ-D02*

• ZDJ-P01*

20pin

3D Bridge Cable

20pin

• FPD-400D • FDJ-D02*

• FDJ-P01*

HJ17ex6.2B IASE

HJ18ex28B IASE A

3D Lens Adjustment Software

3D Bridge Cable

To Left Lens

To Right Lens

1

2

*1 BDC-10 conversion cable is necessary to connect

1

2

between ZDJ-D02 or FDJ-D02 (18pin) and Digital
Drive Lens (20pin).

*2 BDC-20 conversion cable is necessary to connect

between ZDJ-P01 or FDJ-P01 (12pin) and Digital
Drive Lens (20pin).

11 10

Studio/Field
Lenses

STUDIO/FIELD LENSES

DIGISUPER Series

for HDTV / SDTV System

The DIGISUPER series lenses
are controlled by Canon’s
ground breaking Digital
Servo System.

See page 14

DIGISUPER 22 xs

for Portable Camera

The DIGISUPER 22 xs is a
studio lens based on a
new concept to be used
with portable cameras.

Horizontal Field of View (16:9)

Focal Length (mm)

XJ22x7.3B

Studio Lens

XJ27x6.5B

XJ27x6.5B AF

XJ60x9B

72.9°

68.8°

6.5

7

Wide Angle Studio Lens with Advanced Auto Focus Function

66.7°

7.3

58.3°

8.6

Wide Angle Studio Lens

54.6°

56.1°
9

Compact Studio Lens

9.3

3.4°
161

Affordable Field Lens

1.02°
540

See page 16

0.69°

0.67°

800

820

0.59°
930

Field Lens

XJ76x9B

XJ80x8.8B

XJ86x9.3B AF

XJ95x8.6B

XJ100x9.3B

XJ100x9.3B AF

Standard Field Lens with Superb Quality and Performance

Premium Field Lens with Superb Quality and Advanced Image Stabilizer

Telephoto Field Lens with Auto Focus and Image Stabilizer

Telephoto Field Lens with Advanced Image Stabilizer

Flagship Field Lens with Image Stabilizer

Flagship Field Lens with Auto Focus and Image Stabilizer

13 12

Studio/Field Lenses: HDTV

DIGISUPER 100AF DIGISUPER 100 DIGISUPER 95 DIGISUPER 86AF DIGISUPER 80 DIGISUPER 76 DIGISUPER 60 xs

Model Number XJ100x9.3B AF XJ100x9.3B XJ95x8.6B XJ86x9.3B AF XJ80x8.8B XJ76x9B XJ60x9B IE-D

Zoom Ratio 100x 100x 95x 86x 80x 76x 60x

Built-in Extender 2.0x 2.0x 2.0x 2.0x 2.0x 2.0x 2.0x

Range of Focal Length

(with Extender)

Maximum Relative Aperture

(with Extender)

4:3 Aspect Ratio
(8.8 x 6.6mm)

Angular Field
of View

(with Extender)

16:9 Aspect Ratio
(9.6 x 5.4mm)

M.O.D. from Lens Front 3.0m 3.0m 3.0m 3.0m 3.0m 3.0m 2.8m

4:3 Aspect Ratio

Object
Dimensions
at M.O.D.

(with Extender)

(8.8 x 6.6mm)

16:9 Aspect Ratio
(9.6 x 5.4mm)

9.3~930mm

18.6~1860mm

1:1.7 at 9.3~296mm
1:4.7 at 930mm

1:3.4 at 18.6~592mm
1:9.4 at 1860mm

50.6° x 39.1° at 9.3mm

0.54° x 0.41° at 930mm

26.6° x 20.1° at 18.6mm

0.27° x 0.20° at 1860mm

54.6° x 32.4° at 9.3mm

0.59° x 0.33° at 930mm

28.9° x 16.5° at 18.6mm

0.30° x 0.17° at 1860mm

253.9 x 190.4cm at 9.3mm

2.54 x 1.90cm at 930mm

127.0 x 95.2cm at 18.6mm

1.27 x 0.95cm at 1860mm

276.4x155.5cm at 9.3mm

2.76x1.56cm at 930mm

138.2 x 77.8cm at 18.6mm

1.38 x 0.78cm at 1860mm

(2.0x)

(2.0x)

(2.0x)

(2.0x)

(2.0x)

9.3~930mm

18.6~1860mm (2.0x)

1:1.7 at 9.3~296mm
1:4.7 at 930mm

1:3.4 at 18.6~592mm
1:9.4 at 1860mm

50.6° x 39.1° at 9.3mm

0.54° x 0.41° at 930mm

26.6° x 20.1° at 18.6mm

0.27° x 0.20° at 1860mm

54.6° x 32.4° at 9.3mm

0.59° x 0.33° at 930mm

28.9° x 16.5° at 18.6mm

0.30° x 0.17° at 1860mm

253.9 x 190.4cm at 9.3mm

2.54 x 1.90cm at 930mm

127.0 x 95.2cm at 18.6mm

1.27 x 0.95cm at 1860mm

276.4x155.5cm at 9.3mm

2.76x1.56cm at 930mm

138.2 x 77.8cm at 18.6mm

1.38 x 0.78cm at 1860mm

(2.0x)

(2.0x)

(2.0x)

(2.0x)

(2.0x)

8.6~820mm

17.2~1640mm (2.0x)

1:1.7 at 8.6~340mm
1:4.1 at 820mm

1:3.4 at 17.2~680mm
1:8.2 at 1640mm

54.2° x 42.0° at 8.6mm

0.61° x 0.46° at 820mm

28.7° x 21.7° at 17.2mm

0.31° x 0.23° at 1640mm

58.3° x 34.9° at 8.6mm

0.67° x 0.38° at 820mm

31.2° x 17.8° at 17.2mm

0.34° x 0.19° at 1640mm

274.1 x 205.6cm at 8.6mm

3.0 x 2.3cm at 820mm

137.1 x 102.8cm at 17.2mm

1.5 x 1.2cm at 1640mm

298.1x167.7cm at 8.6mm

3.2x1.8cm at 820mm

149.1 x 83.9cm at 17.2mm

1.6 x 0.9cm at 1640mm

(2.0x)

(2.0x)

(2.0x)

(2.0x)

(2.0x)

9.3~800mm

18.6~1600mm (2.0x)

1:1.7 at 9.3~340mm
1:4.0 at 800mm

1:3.4 at 18.6~680mm
1:8.0 at 1600mm

50.6° x 39.1° at 9.3mm

0.63° x 0.47° at 800mm

26.6° x 20.1° at 18.6mm

0.32° x 0.24° at 1600mm

54.6° x 32.4° at 9.3mm

0.69° x 0.39° at 800mm

28.9° x 16.5° at 18.6mm

0.34° x 0.19° at 1600mm

253.9 x 190.4cm at 9.3mm

2.8 x 2.1cm at 800mm

127.0 x 95.2cm at 18.6mm

3.2 x 1.8cm at 800mm

276.4 x 155.5cm at 9.3mm

3.2 x 1.8cm at 800mm

138.2 x 77.8cm at 18.6mm

1.6 x 0.9cm at 1600mm

(2.0x)

(2.0x)

(2.0x)

(2.0x)

(2.0x)

8.8~710mm

17.6~1420mm (2.0x)

1:1.7 at 8.8~340mm
1:3.55 at 710mm

1:3.4 at 17.6~680mm
1:7.1 at 1420mm

53.1° x 41.1° at 8.8mm

0.71° x 0.53° at 710mm

28.1° x 21.2° at 17.6mm

0.36° x 0.27° at 1420mm

57.2° x 34.1° at 8.8mm

0.77° x 0.44° at 710mm

30.5° x 17.4° at 17.6mm

0.39° x 0.22° at 1420mm

266.8 x 200.1cm at 8.8mm

3.4 x 2.6cm at 710mm

133.4 x 100.1cm at 17.6mm

1.7 x 1.3cm at 1420mm

290.0 x 163.1cm at 8.8mm

3.7 x 2.1cm at 710mm

145.0 x 81.6cm at 17.6mm

1.9 x 1.1cm at 1420mm

(2.0x)

(2.0x)

(2.0x)

(2.0x)

(2.0x)

9~690mm

18~1380mm (2.0x)

1:1.7 at 9~340mm
1:3.45 at 690mm

1:3.4 at 18~680mm
1:6.9 at 1380mm

52.1° x 40.3° at 9mm

0.73° x 0.55° at 690mm

27.5° x 20.8° at 18mm

0.37° x 0.27° at 1380mm

56.1° x 33.4° at 9mm

0.80° x 0.45° at 690mm

29.9° x 17.1° at 18mm

0.40° x 0.22° at 1380mm

259.9 x 194.9cm at 9mm

3.5 x 2.6cm at 690mm

130.0 x 97.5cm at 18mm

1.8 x 1.3cm at 1380mm

282.4 x 158.9cm at 9mm

3.8 x 2.1cm at 690mm

141.2 x 79.5cm at 18mm

1.9 x 1.1cm at 1380mm

(2.0x)

(2.0x)

(2.0x)

(2.0x)

(2.0x)

9~540mm

18~1080mm (2.0x)

1:1.7 at 9~306mm
1:3.0 at 540mm

1:3.4 at 18~612mm
1:6.0 at 1080mm

52.1° x 40.3° at 9mm

0.93° x 0.70° at 540mm

27.5° x 20.8° at 18mm

0.47° x 0.35° at 1080mm

56.1° x 33.4° at 9mm

1.02° x 0.57° at 540mm

29.9° x 17.1° at 18mm

0.51° x 0.29° at 1080mm

243.8 x 182.9cm at 9mm

4.1 x 3.1cm at 540mm

121.9 x 91.5cm at 18mm

2.1 x 1.6cm at 1080mm

265.1 x 149.1cm at 9mm

4.5 x 2.5cm at 540mm

132.6 x 74.6cm at 18mm

2.3 x 1.3cm at 1080mm

STUDIO/FIELD LENSES

(2.0x)

(2.0x)

(2.0x)

(2.0x)

(2.0x)

Approx. Size (WxHxL) 250.6 x 255.5 x 661.5mm 250.6 x 255.5 x 610mm 250.6 x 255.5 x 610mm 250.6 x 255.5 x 661.5mm 250.6 x 255.5 x 610mm 250.6 x 255.5 x 610mm 250.6 x 255.5 x 547.8mm

Approx. Mass 26.8kg (59.3lbs) 23.5kg (51.8lbs) 23.2kg (51.1lbs) 26.8kg (59.3lbs) 23.2kg (51.1lbs) 23.0kg (50.6lbs) 19.9kg (43.8lbs)

Macro –– –– –– –– –– –– ––

Protection Filter

Built-in Optical Image Stabilizer

Crossover Type –– –– –– –– –– –– Optional

Auto Focus System

3 3

3 3 3 3 3

3

–– ––

Optional

3

3

Optional Optional Optional

–– ––

–– –– ––

Reference: The following is the lens angle (without Shrinker) in the 4:3 mode of switchable cameras. Reference: The following is the lens angle (without Shrinker) in the 4:3 mode of switchable cameras.

Angular Field
of View

(with Extender)

Standard Not Applicable

4:3 mode of
Most Switchable
Cameras
(7.2 x 5.4mm)

•Please refer to page 10, regarding the difference between HDTV and SDTV lenses. Please note that HDTV lenses also perform excellently when they are adopted to SDTV cameras.

•M.O.D. = Minimum Object Distance

•Black colour cover lenses are also available as an alternative to the white colour lenses.

43.6° x 33.4° at 9mm

0.76° x 0.57° at 540mm

22.6° x 17.1° at 18mm

0.38° x 0.29° at 1080mm

(2.0x)

15 14

Studio/Field Lenses: HDTV

165

Compact

Compact Studio Lens: DIGISUPER 22 xs

Studio Lens

The DIGISUPER 22 xs is a “Compact HD Studio lens” specifically designed to be used
with a portable camera. Incorporating Canon’s pioneering technologies it offers superior
optical performance and ease of operation, compared with both HD portable lenses and
SD Studio Box Type Lenses.

DIGISUPER 27AF DIGISUPER 27 DIGISUPER 22 xs

Model Number XJ27x6.5B AF XJ27x6.5B XJ22x7.3B IE-D

Zoom Ratio 27x 27x 22x

Built-in Extender 2.0x 2.0x 2.0x

Range of Focal Length

(with Extender)

Maximum Relative Aperture

(with Extender)

4:3 Aspect Ratio
(8.8 x 6.6mm)

Angular Field
of View

(with Extender)

16:9 Aspect Ratio
(9.6 x 5.4mm)

M.O.D. from Lens Front 0.6m (10mm with Macro) 0.6m (10mm with Macro) 0.8m (10mm with Macro)

4:3 Aspect Ratio

Object
Dimensions
at M.O.D.

(with Extender)

Approx. Size (WxHxL) 250.6 x 255.5 x 567mm 250.6 x 255.5 x 550mm 165 x 175 x 336mm

Approx. Mass 23.3kg (51.4lbs) 21.9kg (48.3lbs) 6.1kg (13.42lbs)

Macro Optional (Remote) Optional (Remote) Standard (Manual)

Protection Filter Optional Optional ––

Built-in Optical Image Stabilizer –– –– ––

Crossover Type –– Optional Optional

Auto Focus System

Reference: The following is the lens angle (without Shrinker) in the 4:3 mode of switchable cameras.

(8.8 x 6.6mm)

16:9 Aspect Ratio
(9.6 x 5.4mm)

6.5~180mm

13~360mm (2.0x)

1:1.5 at 6.5~123mm
1:2.2 at 180mm

1:3.0 at 13~246mm
1:4.4 at 360mm

68.2° x 53.8° at 6.5mm

2.8° x 2.1° at 180mm

37.4° x 28.5° at 13mm

1.4° x 1.1° at 360mm

72.9° x 45.1° at 6.5mm

3.1° x 1.7° at 180mm

40.5° x 23.5° at 13mm

1.5° x 0.9° at 360mm

97.0 x 72.8cm at 6.5mm

3.5 x 2.6cm at 180mm

48.5 x 36.4cm at 13mm

1.8 x 1.3cm at 360mm

106.1 x 59.7cm at 6.5mm

3.8 x 2.1cm at 180mm

53.1 x 29.9cm at 13mm

1.9 x 1.1cm at 360mm

(2.0x)

(2.0x)

(2.0x)

(2.0x)

(2.0x)

3

6.5~180mm

13~360mm (2.0x)

1:1.5 at 6.5~123mm
1:2.2 at 180mm

1:3.0 at 13~246mm
1:4.4 at 360mm

68.2° x 53.8° at 6.5mm

2.8° x 2.1° at 180mm

37.4° x 28.5° at 13mm

1.4° x 1.1° at 360mm

72.9° x 45.1° at 6.5mm

3.1° x 1.7° at 180mm

40.5° x 23.5° at 13mm

1.5° x 0.9° at 360mm

97.0 x 72.8cm at 6.5mm

3.5 x 2.6cm at 180mm

48.5 x 36.4cm at 13mm

1.8 x 1.3cm at 360mm

106.1 x 59.7cm at 6.5mm

3.8 x 2.1cm at 180mm

53.1 x 29.9cm at 13mm

1.9 x 1.1cm at 360mm

–– ––

(2.0x)

(2.0x)

(2.0x)

(2.0x)

(2.0x)

7.3~161mm

14.6~322mm (2.0x)

1:1.8 at 7.3~111.5mm
1:2.6 at 161mm

1:3.6 at 14.6~223mm
1:5.2 at 322mm

62.2° x 48.7° at 7.3mm

3.1° x 2.3° at 161mm

33.5° x 25.5° at 14.6mm

1.6° x 1.2° at 322mm

66.7° x 40.6° at 7.3mm

3.4° x 1.9° at 161mm

36.4° x 21.0° at 14.6mm

1.7° x 1.0° at 322mm

107.8 x 80.9cm at 7.3mm

4.8 x 3.6cm at 161mm

53.9 x 40.5cm at 14.6mm

2.4 x 1.8cm at 322mm

118.1 x 66.4cm at 7.3mm

5.2 x 2.9cm at 161mm

59.1 x 33.2cm at 14.6mm

2.6 x 1.5cm at 322mm

(2.0x)

(2.0x)

(2.0x)

(2.0x)

(2.0x)

175

336.3

F.B.=48

in air

High Optical Performance

The DIGISUPER 22 xs offers higher contrast
and resolution compared with portable
lenses and at the same time, reduces Focus
Breathing to zero.

Small In Size, Light In Weight

In order to realize the best capabilities from
the camera / lens combination, the lens was
specifically designed to be as small and light
as possible.

Advanced OperationDimensions

Incorporating an “Encoder Device”, it has the
capability to zoom from a very fast 0.5 sec.
to a very slow 5 min. while improving the
precision and repeatability of zoom, focus
and iris control. The encoder device also
enables the lens to be easily integrated
into virtual studio applications.

Diverse Functions

The DIGISUPER 22 xs is equipped with an
information display, which enables diverse
digital functions to be used easily and precisely.

STUDIO/FIELD LENSES

Angular Field
of View

(with Extender)

Standard Not Applicable

4:3 mode of
Most Switchable
Cameras
(7.2 x 5.4mm)

58.0° x 45.1° at 6.5mm

2.3° x 1.7° at 180mm

31.0° x 23.5° at 13mm

1.1° x 0.9° at 360mm

•Please refer to page 10, regarding the difference between HDTV and SDTV lenses. Please note that HDTV lenses also perform excellently when they are adopted to SDTV cameras.

•M.O.D. = Minimum Object Distance

•Black colour cover lenses are also available as an alternative to the white colour lenses.

(2.0x)

52.5° x 40.6° at 7.3mm

2.6° x 1.9° at 161mm

27.7° x 21.0° at 14.6mm

1.3° x 1.0° at 322mm

(2.0x)

The SUP-400 supporter for the DIGISUPER 22 xs is included
as a standard component with the lens.

17 16